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Blockchain in the Public Sector – Webcast Q&A

Blockchain in the Public Sector – Webcast Q&A
Link to our website: https://block.co/blockchain-in-the-public-sector-webcast-qa/
Block.co fourth webcast titled "Digital Transformation of the Public Sector & The Upcoming Legislation of Blockchain Technology in Cyprus” was an immense success. We gathered some of the best experts in the field, Deputy Minister Kyriacos Kokkinos, Jeff Bandman, Steve Tendon, and Christiana Aristidou to share their experience and discuss with us the latest updates regarding Blockchain in the Public Sector.
In its fourth series of webcasts, Block.co gathered 281 people watching the event from 41 different countries, for a two-hour webcast where guests answered participants’ questions. Following the impressive outcome and response we received from the audience, Block.co’s team has done its best to address all the questions for which public information is available.
Below is a list of the questions that were made and were not answered due to time constraints during the webcast. For the remaining questions from our audience, the team will reach out to our distinguished guests to receive their comments and feedback. Please note, that the below information is only for informational purposes!
Question 1:
How can asset tracing be accomplished with bitcoins and cryptocurrency? And how can this be regulated?
Block.co Team Answer:
Digital Asset tracing may be accomplished with cryptocurrency intelligence solutions such as Cipher Trace and the ICE cryptocurrency intelligence program. FATF (Financial Action Task Force) embarked on a program of work from summer 2018 to June 2019 to strengthen and update the provisions dealing with virtual assets and virtual asset service providers. FATF updated Recommendations in October 2018 and Guidance in June 2019 include several new obligations that apply to VASPs. The so-called “Travel Rule” FATF announced in October 2019 agreed on the assessment criteria for how it will assess countries’ compliance with the new global standards. Under the Travel Rule, the transmitter’s financial institutions must include and send information in the transmittal order such as Information about the identity, name, address, and account number of the sender and its financial institution Information about the identity, name, address and account number of the recipient. The ”Travel Rule” is effectively being applied to cryptoasset transfers when there is a virtual asset service provider (VASP) involved. The scope of focus has broadened from “convertible” virtual assets to any virtual asset. Countries should make sure businesses can freeze crypto wallet or exchange accounts for sanctioned individuals.
Question 2:
Which kind of software or technical knowledge is required to develop cryptocurrency?
Block.co Team Answer:
It depends on the type of cryptocurrency you wish to create, as well as the preferred functionality and features, and characteristics of the token or coin (i.e. will it be pre-mined, what type of hashing or cryptographic algorithm will be used (i.e. proof of work (POW) or proof of stake (POS) or a hybrid of both), etc. Likewise, it is useful to utilize a programming language that is broadly used and supported by a vast and active development community; more data could be found here: more information could be found here: top programming languages in 2015/2016, published by IEEE here, and TIOBE. Hypothetically, you can utilize any programming language to make cryptocurrency digital money, however, the most widely recognized are C, C++, Java, Python, Perl. The beauty of cryptocurrencies is that you can literally have access to the entire Bitcoin and Ethereum open-source programming scripts, and create your alternate coin (altcoin).
Question 3:
Hello all, I want to know about the current status of the European Union Blockchain initiative in currency or public identity.
Block.co Team Answer:
Please refer to the European Services Blockchain Infrastructure (EBSI) website.
Question 4:
Mining is also the process of confirmation of transactions in the Bitcoin Blockchain. What is the process of confirmation of transactions in the Blockchain of an Organization? How do we call it?
Block.co Team Answer:
That would depend on the specific consensus algorithm used for the confirmation of transactions. The consensus algorithm is part of the blockchain protocol that defines the rules on how consensus is reached on that blockchain. In order to participate, entities on the blockchain must obey and follow the same consensus algorithm. Make sure to check our glossary for more information.
Question 5:
How does a small business implement blockchain into its current non-blockchain software systems? Who do they hire to install it?
Block.co Team Answer:
It is easy when there are APIs to connect the various software. For more information, you can check Block.co API.
Question 6:
What is your opinion on digitizing developing economies like India by using AI and blockchain?
Block.co Team Answer:
Watch a very interesting webinar on the matter by Mr. Prasanna:
Question 7:
Blockchain technologies have been around since 2008. What would you say has been the biggest obstacle in widespread adoption?
Block.co Team Answer:
In our opinion, the biggest obstacles are volatile cryptoasset prices, complicated UIs, undefined blockchain technology standards. Moreover, the legislation around the technologies is still now being developed and does not offer legal certainty for broader adoption.
Question 8:
Limitations to Blockchain Usability in the Public Sector?
Block.co Team Answer:
Blockchain in the Public Sector, like any other innovative concept with big potential, cannot be a solution to every problem. Users and developers are still figuring out technological and managerial challenges. From a technological perspective, some aspects such as platform scalability, validation methods, data standardization, and systems integration must still be addressed. From a managerial point of view, the questions include business model transformation, incentive structure, and transaction scale, and maturity. Read more here.
Question 9:
How can these blockchain initiatives be practical for the African context
Block.co Team Answer:
As long as the internet infrastructure is in place, these blockchain initiatives may have the same benefits for the African region.
Question 10:
What are some compelling use cases you’ve seen lately, and how do they serve to further legitimize blockchain as a solution?
Block.co Team Answer:
You can see the global trends from all around the world when it comes to further legitimization as a solution, with China leading the way. Read more here.
Question 11:
How does digital currency manage the issue of money laundering?
Block.co Team Answer:
Depends under which context you are looking at the term digital currency. A digital currency usually refers to a balance or a record stored in a distributed database, in an electronic computer database, within digital files or a stored-value card. Some examples of digital currencies are cryptocurrencies, virtual currencies, central bank digital currencies (CBDCs), and e-Cash. The Financial Action Task Force (FATF) is an intergovernmental body established in 1989 on the initiative of the G7 to develop policies to fight money laundering. Since 2001 FATF is also looking into terrorism financing. The objectives of FATF are to set standards and promote effective implementation of legal, regulatory and operational measures for combating money laundering, terrorist financing, and other related threats to the integrity of the international financial system. FATF is a “policy-making body” that works to generate the necessary political will to bring about national legislative and regulatory reforms in these areas. FATF monitors progress in implementing its Recommendations through “peer reviews” (“mutual evaluations”) of member countries. It is the global watchdog for anti-money laundering & counter-terrorist finance. In June 2019, it updated its guidance paper for Virtual Assets Service Providers (VASPs) regarding the transfer of digital assets. There was an insertion of a new interpretive note that sets out the application of the FATF Standards to virtual asset activities and service providers. To apply FATF Recommendations, countries should consider virtual assets as “property,” “proceeds,” “funds,” “funds or other assets,” or other “corresponding value.” Countries should apply the relevant measures under the FATF Recommendations to virtual assets and virtual asset service providers (VASPs). Read more about the FATF recommendations here).

https://preview.redd.it/58tt7mt1pld51.png?width=1920&format=png&auto=webp&s=d24811c4864ebf02cb9aacc8d6b877a1fbc3756b
Question 12:
To what extent can blockchain be used to improve the privacy of healthcare?
Block.co team Answer:
Please refer to our previous webcast, blog, and articles for more information.
Question 13:
What is Blockchain technology in Shipping?
Block.co team Answer:
The shipping sector has been in the hold of phony maritime institutes charging exorbitant fees via agents, issuing certificates to candidates who do not have the imperative attendance, or those candidates who just pay the fees for the course and ask for the certificate. In view of these fake accreditations, the possibility exists that someone could be harmed or killed, and we could face any number of potential ecological disasters. Having the option to easily verify the genuine origin of a certificate by an approved maritime center is foremost for shipping companies to fast-track their operation and streamline their labor.
Question 14:
Different uses of blockchain other than cryptocurrency?
Block.co team Answer:
Please refer to our blog and glossary.
Question 15:
Upcoming trends in Blockchain concerning Advertising, Marketing, and Public Relations in the Public and Private sectors.
Block.co Team Answer:
Regarding the application of blockchain technology to media copyrights, please see Block.co use case proposal during the Bloomen Ideathon.

https://preview.redd.it/48zc8j38pld51.png?width=3622&format=png&auto=webp&s=79987d1dc7eb8d0c8e32dbce8680b17801d0d244
Question 16:
How to create a decentralized blockchain?
Block.co Team Answer:
An excessive number of individuals feel that blockchain is some supernatural innovation that makes up a decentralized system. In truth, this innovation only enables decentralization. Which means, it permits cryptocurrency to work in a decentralized way. Yet, it doesn’t give any guarantees that it will work that way. Along these lines, it’s really, some outer variables that decide genuine decentralization. Technology, itself never really guarantees it. That is the reason it’s a mistake to expect that if it’s a blockchain — it’s decentralized. From a technical perspective, both blockchains, centralized, and decentralized are comparative, as they take work on distributed peer to peer to network. This implies every node is individually responsible to verify and store the shared ledger. Both Blockchains utilize either a proof-of-work or proof-of-stake mechanisms to make a solitary record and they have to give upper and lower limits on the security and productivity of the system. For more information please refer to our infographic.
Question 17:
Dubai government Blockchain implementation progress?
Block.co Team Answer:
You can see more information here.
Question 18:
How Blockchain and IoT can be integrated to secure data being transmitted through IoT devices.
Block.co Team Answer:
You can read more about it here.
Question 19:
How can the Nigerian government use Blockchain to effectively implement its existing launched eGovernment master plan?
Block.co Team Answer:
Perhaps it can draw its attention to the initiatives of Dubai, Estonia, and Malta to prepare an implementation framework.
Question 20:
What impact is blockchain going to have in today world of business especially in the financial sector
Block.co Team Answer:
Please refer to our recent article titled Benefits of Blockchain Technology in the Banking Industry.
Question 21:
Is Blockchain Technology affect individuals?
Block.co Team Answer:
The social effect of blockchain innovation has just started to be acknowledged and this may simply be a hint of something larger. Cryptocurrencies have raised questions over financial services through digital wallets, and while considering that there are in excess of 3,5 billion individuals on the planet today without access to banking, such a move is surely impactful. Maybe the move for cryptocurrencies will be simpler for developing nations than the process of fiat cash and credit cards. It is like the transformation that developing nations had with mobile phones. It was simpler to acquire mass amounts of mobile phones than to supply another infrastructure for landlines telephones. In addition to giving the underprivileged access to banking services, greater transparency could also raise the profile and effectiveness of charities working in developing countries that fall under corrupt or manipulative governments.
An expanded degree of trust in where the cash goes and whose advantages would without a doubt lead to expanded commitments and backing for the poor in parts of the world that are in urgent need of help. Blockchain technology is well placed to remove the possibility of vote-apparatus and the entirety of different negatives related to the current democratic procedure. Obviously, with new innovation, there are new obstacles and issues that will arise, yet the cycle goes on and those new issues will be comprehended with progressively modern arrangements. A decentralized record would give the entirety of the fundamental information to precisely record votes on an anonymous basis, and check the exactness and whether there had been any manipulation of the voting procedure.
Question 22:
As Andreas Antonopoulos often says in his MOOC: ”is a blockchain even needed?” Ie. Are there better methods?
Block.co Team Answer:
In combination with nascent technologies, IoT, distributed computing, and distributed ledger technologies, governments can provide inventive services and answers for the citizens and local municipalities. Blockchain can provide the component to create a safe framework to deal with these functions. In particular, it can provide a safe interoperable infrastructure that permits all smart city services and capacities to work past presently imagined levels. On the off chance that there were better techniques, they would be researched.
Question 23:
Would any of this be also applicable to the educational sector (as part of the general public sector), and if so in which way?
Block.co Team Answer:
Yes, please refer to our Webcast on Education and our blog post.
Question 24:
Will we be able to get a hold of this recording upon completion of the meeting?
Block.co Team Answer:
Yes, here is a link to the recording of our webcast Blockchain in the Public Sector.
Question 25:
Was wondering if there are any existing universal framework in governing the blockchain technology?
Block.co Team Answer:
The short answer is NO, as this framework is currently being prepared in collaboration with the various Member States.
We would like to thank everyone for attending our webcast and hoping to interact with you in future webinars. If you would like to watch the webinar again, then click here!
For more info, contact Block.co directly or email at [[email protected]](mailto:[email protected]).
Tel +357 70007828
Get the latest from Block.co, like and follow us on social media:
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submitted by BlockDotCo to u/BlockDotCo [link] [comments]

Anyone still under the illusion of Microsoft having been transformed into a kinder, more mutually beneficial partner, please read this patent.

WO2020060606 - CRYPTOCURRENCY SYSTEM USING BODY ACTIVITY DATA
https://patentscope.wipo.int/search/en/detail.jsf?docId=WO2020060606&tab=PCTDESCRIPTION
Before reading the following excerpts, keep this sequence of events in mind:
Master Slave (and we're not referring to HDDs here)
Step one: patent technology
Step two: sell slave IoT devices to consumers who readily purchase them especially after being promised that they'll be rewarded in cryotocurrency for their data.
Step three: collect data via Azure on unsuspecting human subjects' fMRI, EEG, body temperatures, EKG, sleep data, digitized health care information, consumer purchasing habits, reading and viewing preferences, social media activity and correlate with activities performed (tasks).
Step four: Use data to refine AI to profile human behavior, predict behavior and refine mind reading capabilities.
This article is actually incorporated in the patent!
https://news.berkeley.edu/2011/09/22/brain-movies/ Scientists use brain imaging to reveal the movies in our mind
Step five: Institute centralized global cryptocurrency financial system with no other alternatives in which to transact legally.
https://www.reddit.com/Bitcoin/comments/4nag4b/1988_economist_cover_predicting_a_world_currency/
https://www.economist.com/finance-and-economics/1998/09/24/one-world-one-money
Step six: To understand step six, Read George Orwell's "1984" or review the concept of an individual's freedoms being based not on the concept of natural rights but on their social credit scores.
Thank you Microsoft, Google, Apple, Amazon, Facebook.
Now the patent excerpts:
CRYPTOCURRENCY SYSTEM USING BODY ACTIVITY DATA
BACKGROUND [0001] A virtual currency (also known as a digital currency) is a medium of exchange implemented through the Internet generally, not tied to a specific government-backed “flat” (printed) currency such as the U.S. dollar or the Euro, and typically designed to allow instantaneous transactions and borderless transfer of ownership. One example of virtual currency is cryptocurrency, wherein cryptography is used to secure transactions and to control the creation of new units. [0002] Several cryptocurrencies exist. Among these, the most well known is a blockchain-based cryptocurrency. Most blockchain-based cryptocurrency is decentralized in the sense that it has no central point of control.
However, blockchain-based cryptocurrency can also be implemented in a centralized system having a central point of control over the cryptocurrency.
Bitcoin is one of the examples of blockchain-based cryptocurrency. It is described in a 2008 article by Satoshi Nakamoto, named“Bitcoin: A peer-to-Peer Electronic Cash System”.
[0003] A blockchain is a data structure that stores a list of transactions and can be thought of as a distributed electronic ledger that records transactions between source identifier(s) and destination identifier(s). The transactions are bundled into blocks and every block (except for the first block) refers back to or is linked to a prior block in the blockchain. Computer resources (or nodes, etc.) maintain the blockchain and cryptographically validate each new block and the transactions contained in the corresponding block. This validation process includes computationally solving a difficult problem that is also easy to verify and is sometimes called a“proof-of-work”. This process is referred to as“mining”. The mining may be a random process with low probability so that a lot of trial and error is required to solve a computationally difficult problem. Accordingly, the mining may require enormous amounts of computational energy. [0004] It is with respect to these and other general considerations that the following embodiments have been described. Also, although relatively specific problems have been discussed, it should be understood that the embodiments should not be limited to solving the specific problems identified in the background.
SUMMARY
[0005] Some exemplary embodiments of the present disclosure may use human body activity associated with a task provided to a user as a solution to“mining” challenges in cryptocurrency systems. For example, a brain wave or body heat emitted from the user when the user performs the task provided by an information or service provider, such as viewing advertisement or using certain internet services, can be used in the mining process. Instead of massive computation work required by some conventional cryptocurrency systems, data generated based on the body activity of the user can be a proof-of-work, and therefore, a user can solve the computationally difficult problem unconsciously. Accordingly, certain exemplary embodiments of the present disclosure may reduce computational energy for the mining process as well as make the mining process faster.
[0006] Systems, methods, and hardware aspects of computer readable storage media are provided herein for a cryptocurrency system using human body activity data. According to various embodiments of the present disclosure, a server may provide a task to a device of a user which is communicatively coupled to the server. A sensor communicatively coupled to or comprised in the device of the user may sense body activity of the user. Body activity data may be generated based on the sensed body activity of the user. A cryptocurrency system communicatively coupled to the device of the user may verify whether or not the body activity data satisfies one or more conditions set by the cryptocurrency system, and award cryptocurrency to the user whose body activity data is verified.
[0007] Examples are implemented as a computer process, a computing system, or as an article of manufacture such as a device, computer program product, or computer readable medium. According to one aspect, the computer program product is a computer storage medium readable by a computer system and encoding a computer program comprising instructions for executing a computer process. [0008] This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.
decentralized cryptocurrency networks or databases.
[0021] FIG. 1 illustrates an example environment 100 in which some exemplary embodiments of the present disclosure may be practiced. The example environment 100 includes, but is not limited to, at least one of task server 110, communication network 120, user device 130, sensor 140, and cryptocurrency system 150. [0022] Task server 110 may provide one or more tasks to user device 130 over communication network 120. For example, task server 110 may be at least one of a web server delivering or serving up web pages, an application server handling application operations between users and applications or databases, a cloud server, a database server, a file server, a service server, a game server implementing games or services for a game, and a media server delivering media such as streaming video or audio. The tasks provided by task server 110 will be discussed in more detail below.
[0023] Alternatively, cryptocurrency system 150 may provide one or more tasks to user device 130. For example, in a decentralized cryptocurrency network, the tasks may be proposed to user device 130 by miners (e.g. compute resources or nodes 210 of FIG. 2). In another example, in a centralized cryptocurrency system, a cryptocurrency server may send the tasks to user device 130.
[0024] Communication network 120 may include any wired or wireless connection, the internet, or any other form of communication. Although one network 120 is identified in FIG. 1, communication network 120 may include any number of different communication networks between any of the server, devices, resource and system shown in FIGS. 1 and 2 and/or other servers, devices, resources and systems described herein. Communication network 120 may enable communication between various computing resources or devices, servers, and systems. Various implementations of communication network 120 may employ different types of networks, for example, but not limited to, computer networks, telecommunications networks (e.g., cellular), mobile wireless data networks, and any combination of these and/or other networks. [0025] User device 130 may include any device capable of processing and storing data/information and communicating over communication network 120. For example, user device 130 may include personal computers, servers, cell phones, tablets, laptops, smart devices (e.g. smart watches or smart televisions). An exemplary embodiment of user device 130 is illustrated in FIG. 6.
[0026] Sensor 140 may be configured to sense the body activity of user 145. As illustrated in FIG. 1, sensor 140 may be a separate component from user device 130 and be operably and/or communicatively connected to user device 130. Alternatively, sensor 140 may be included and integrated in user device 130. For example, user device 130 may be a wearable device having sensor 140 therein. The sensor 140 may transmit information/data to user device 130. Sensor 140 may include, for example, but not limited to, functional magnetic resonance imaging (fMRI) scanners or sensors, electroencephalography (EEG) sensors, near infrared spectroscopy (NIRS) sensors, heart rate monitors, thermal sensors, optical sensors, radio frequency (RF) sensors, ultrasonic sensors, cameras, or any other sensor or scanner that can measure or sense body activity or scan human body. For instance, the fMRI may measure body activity by detecting changes associated with blood flow. The fMRI may use a magnetic field and radio waves to create detailed images of the body (e.g. blood flow in the brain to detect areas of activity). The material (http://news.berkely.edu/20l l/09/22/brain-movies/) shows one example of how the fMRI can measure brain activity associated with visual information and generate image data.
[0027] Cryptocurrency system 150 may include one or more processors for processing commands and one or more memories storing information in one or more cryptocurrency data structures. In some embodiments, cryptocurrency system 150 may be a centralized cryptocurrency system or network, for example, but not limited to, a server which may be privately run by a third party entity or the same entity that is running the task server 110. In other embodiments, cryptocurrency system 150 may be a publically accessible network system (e.g., a distributed decentralized computing system).
https://news.berkeley.edu/2011/09/22/brain-movies/ Scientists use brain imaging to reveal the movies in our mind
WO2020060606 - CRYPTOCURRENCY SYSTEM USING BODY ACTIVITY DATA
https://patentscope.wipo.int/search/en/detail.jsf?docId=WO2020060606&tab=PCTDESCRIPTION
Applicants * MICROSOFT TECHNOLOGY LICENSING, LLC[US/US]; One Microsoft Way Redmond, Washington 98052-6399, US
CRYPTOCURRENCY SYSTEM USING BODY ACTIVITY DATA
BACKGROUND [0001] A virtual currency (also known as a digital currency) is a medium of exchange implemented through the Internet generally, not tied to a specific government-backed “flat” (printed) currency such as the U.S. dollar or the Euro, and typically designed to allow instantaneous transactions and borderless transfer of ownership. One example of virtual currency is cryptocurrency, wherein cryptography is used to secure transactions and to control the creation of new units. [0002] Several cryptocurrencies exist. Among these, the most well known is a blockchain-based cryptocurrency. Most blockchain-based cryptocurrency is decentralized in the sense that it has no central point of control.
However, blockchain-based cryptocurrency can also be implemented in a centralized system having a central point of control over the cryptocurrency.
Bitcoin is one of the examples of blockchain-based cryptocurrency. It is described in a 2008 article by Satoshi Nakamoto, named“Bitcoin: A peer-to-Peer Electronic Cash System”.
[0003] A blockchain is a data structure that stores a list of transactions and can be thought of as a distributed electronic ledger that records transactions between source identifier(s) and destination identifier(s). The transactions are bundled into blocks and every block (except for the first block) refers back to or is linked to a prior block in the blockchain. Computer resources (or nodes, etc.) maintain the blockchain and cryptographically validate each new block and the transactions contained in the corresponding block. This validation process includes computationally solving a difficult problem that is also easy to verify and is sometimes called a“proof-of-work”. This process is referred to as“mining”. The mining may be a random process with low probability so that a lot of trial and error is required to solve a computationally difficult problem. Accordingly, the mining may require enormous amounts of computational energy.
[0004] It is with respect to these and other general considerations that the following embodiments have been described. Also, although relatively specific problems have been discussed, it should be understood that the embodiments should not be limited to solving the specific problems identified in the background.
SUMMARY
[0005] Some exemplary embodiments of the present disclosure may use human body activity associated with a task provided to a user as a solution to“mining” challenges in cryptocurrency systems. For example, a brain wave or body heat emitted from the user when the user performs the task provided by an information or service provider, such as viewing advertisement or using certain internet services, can be used in the mining process. Instead of massive computation work required by some conventional cryptocurrency systems, data generated based on the body activity of the user can be a proof-of-work, and therefore, a user can solve the computationally difficult problem unconsciously. Accordingly, certain exemplary embodiments of the present disclosure may reduce computational energy for the mining process as well as make the mining process faster.
[0006] Systems, methods, and hardware aspects of computer readable storage media are provided herein for a cryptocurrency system using human body activity data. According to various embodiments of the present disclosure, a server may provide a task to a device of a user which is communicatively coupled to the server. A sensor communicatively coupled to or comprised in the device of the user may sense body activity of the user. Body activity data may be generated based on the sensed body activity of the user. A cryptocurrency system communicatively coupled to the device of the user may verify whether or not the body activity data satisfies one or more conditions set by the cryptocurrency system, and award cryptocurrency to the user whose body activity data is verified.
[0007] Examples are implemented as a computer process, a computing system, or as an article of manufacture such as a device, computer program product, or computer readable medium. According to one aspect, the computer program product is a computer storage medium readable by a computer system and encoding a computer program comprising instructions for executing a computer process.
[0008] This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.
decentralized cryptocurrency networks or databases. [0021] FIG. 1 illustrates an example environment 100 in which some exemplary embodiments of the present disclosure may be practiced. The example environment 100 includes, but is not limited to, at least one of task server 110, communication network 120, user device 130, sensor 140, and cryptocurrency system 150.
[0022] Task server 110 may provide one or more tasks to user device 130 over communication network 120. For example, task server 110 may be at least one of a web server delivering or serving up web pages, an application server handling application operations between users and applications or databases, a cloud server, a database server, a file server, a service server, a game server implementing games or services for a game, and a media server delivering media such as streaming video or audio. The tasks provided by task server 110 will be discussed in more detail below.
[0023] Alternatively, cryptocurrency system 150 may provide one or more tasks to user device 130. For example, in a decentralized cryptocurrency network, the tasks may be proposed to user device 130 by miners (e.g. compute resources or nodes 210 of FIG. 2). In another example, in a centralized cryptocurrency system, a cryptocurrency server may send the tasks to user device 130.
[0024] Communication network 120 may include any wired or wireless connection, the internet, or any other form of communication. Although one network 120 is identified in FIG. 1, communication network 120 may include any number of different communication networks between any of the server, devices, resource and system shown in FIGS. 1 and 2 and/or other servers, devices, resources and systems described herein. Communication network 120 may enable communication between various computing resources or devices, servers, and systems. Various implementations of communication network 120 may employ different types of networks, for example, but not limited to, computer networks, telecommunications networks (e.g., cellular), mobile wireless data networks, and any combination of these and/or other networks.
[0025] User device 130 may include any device capable of processing and storing data/information and communicating over communication network 120. For example, user device 130 may include personal computers, servers, cell phones, tablets, laptops, smart devices (e.g. smart watches or smart televisions).
An exemplary embodiment of user device 130 is illustrated in FIG. 6.
[0026] Sensor 140 may be configured to sense the body activity of user 145. As illustrated in FIG. 1, sensor 140 may be a separate component from user device 130 and be operably and/or communicatively connected to user device 130. Alternatively, sensor 140 may be included and integrated in user device 130. For example, user device 130 may be a wearable device having sensor 140 therein. The sensor 140 may transmit information/data to user device 130. Sensor 140 may include, for example, but not limited to, functional magnetic resonance imaging (fMRI) scanners or sensors, electroencephalography (EEG) sensors, near infrared spectroscopy (NIRS) sensors, heart rate monitors, thermal sensors, optical sensors, radio frequency (RF) sensors, ultrasonic sensors, cameras, or any other sensor or scanner that can measure or sense body activity or scan human body. For instance, the fMRI may measure body activity by detecting changes associated with blood flow. The fMRI may use a magnetic field and radio waves to create detailed images of the body (e.g. blood flow in the brain to detect areas of activity). The material (http://news.berkely.edu/20l l/09/22/brain-movies/) shows one example of how the fMRI can measure brain activity associated with visual information and generate image data.
[0027] Cryptocurrency system 150 may include one or more processors for processing commands and one or more memories storing information in one or more cryptocurrency data structures. In some embodiments, cryptocurrency system 150 may be a centralized cryptocurrency system or network, for example, but not limited to, a server which may be privately run by a third party entity or the same entity that is running the task server 110. In other embodiments, cryptocurrency system 150 may be a publically accessible network system (e.g., a distributed decentralized computing system).
https://news.berkeley.edu/2011/09/22/brain-movies/ Scientists use brain imaging to reveal the movies in our mind
submitted by snowboardnirvana to MVIS [link] [comments]

Blockchain in Healthcare: Bridging Trust in response to COVID-19

Blockchain in Healthcare: Bridging Trust in response to COVID-19
Link to our article: https://block.co/blockchain-in-healthcare/
There’s never been a better time to provide proof-of-health solutions in the healthcare system globally. While it’s difficult to comprehend the significance of the role that technology may offer in such difficult times, essentially it can be nailed down to its basic concept of simplifying work and coordinating activities, which could have helped avoid the worst crisis people have experienced in their lifetime. If the healthcare system would adopt technological innovations in the early stages, it could have benefited and saved many lives.
Although the healthcare system has traditionally been slow in embracing the latest digital solutions, just like many other industries, we’ve observed in a previous article how the Covid-19 crisis has accelerated the adoption of digital technologies on a global scale in several industries, including healthcare.
The latest webcast brought to the audience by Block.co hosted some high profile experts from the industry. They illustrated how blockchain especially, together with other technologies such as IoT, and AI could in the future help elevate prompt responses, and provide more secure and efficient storage of data, something that has been missed in the recent pandemic.
Ahmed Abdulla from Digipharm, Dr. Alice Loveys from EY, and Dimitrios Neocleous from VeChain were hosted by Georgina Kyriakoudes, one of the first in the world to hold an MSc in Digital Currency, founder of Dcentric.Health and creator of the permissioned blockchain ecosystem app called Aria, which aims to transform the patient healthcare experience by giving individuals full control of their medical records.
Blockchain’s benefits in healthcare are primarily identified by efficiency, specifically on the transfer of data, facilitation of goods transport via the supply chain, prevention of counterfeit medicines sale, secure storage, and exchange of data around ID management. The impressive projects all the webcast guests have developed in the industry enable just these features, from the digitization of patient records to storage and exchange of medical data as well as easier processing of funds.
https://preview.redd.it/7k85objjz1851.png?width=768&format=png&auto=webp&s=237293e731024ae8f50861682c434b04d7742e05
Ahmed Abdulla founded Digipharm with the idea of issuing tokens to allow patients to be in control of their medical records at all times. Moreover, tokens are issued to be paid for anonymously sharing personal medical data to help research; pay for healthcare based on how it has improved quality of life.
We have experienced a disparity in Covid-19 tests costs around the world. For instance, getting tested in Cyprus costs around €60 while in the US it may add up to a few thousand dollars. This is due to the way countries arrange payment setups from payers to providers. Blockchain empowers people to take ownership of their records and funds while providing transparency of processes. This is where blockchain can be robust, by increasing transparency and allowing the patient to secure money transfer and hold their own records”, stated Ahmed.
His work as blockchain advisor at the UN Economic Commission for Europe is helping set up standards for the blockchain ecosystem, namely how the system should be used safely, and in a way that benefits all stakeholders.
“I lead the blockchain and healthcare team at the UN center for trade facilitation and e-business where we developed a blockchain and trade facilitation white paper; the second phase will soon provide an advanced technology advisory board to advise private or public stakeholders on what’s the best technology to use. It might not always be blockchain, hence we first understand and then advise if the tech is right for them or not. Blockchain is clunky, expensive, and not always proper for the organization we work with”, continued the blockchain expert.
Most people may prefer public and permissionless blockchain because it has major advantages over a private and permissioned one. Transparency stands out for the way the ledger is shared and for due diligence becoming unnecessary as a result. This means costs are also cheaper, in the range of 100% lower. On the other hand, a public decentralized blockchain has a major disadvantage since no legal framework is laid out. This means uncertainty as there is still a grey area in the legal field that might create confusion.
Dimitrios Neocleous is Ecosystem Manager at VeChain Tech and directly supported digital and technological solutions provider I-DANTE with the creation of the E-NewHealthLife and the E-HCert for the Mediterranean Hospital of Cyprus. Both apps give patients control over their health records, improve medical data sharing, and increase hospital operational efficiencies by simplifying the process of visiting a hospital.
E-NewHealthLife is a complex ecosystem solution that starts from a patient’s visit to an emergency room. A card with the reason for a patient’s visit is issued; it gets time-stamped; the patient is sent to the waiting room; once the patient’s turn comes and the medical check is completed, the card is scanned and the visit is closed. Patients can digitally access all diagnoses that took place anytime at the hospital.
“The platform produces a digital health passport, which is an encrypted non-fungible card that patients can use to identify themselves automatically when registering at the hospital’s emergency room. The passport is stored within a mobile app called E-HCert, which keeps track of each patient’s medical data and can be shared as needed”, announced Dimitrios.
E-HCert App is a Covid-19 lab test electronic wallet and pushes up the results of a patient who’s been tested for COVID. It has been proven to be very successful so far; currently, 2000 people who transited through the Larnaca airport in Cyprus have downloaded the app. With time-stamped records, it’s able to provide data such as the day and time when the sample was collected, it offers immutability, security, and integrity of data.
https://preview.redd.it/kqq7jfgpz1851.png?width=940&format=png&auto=webp&s=2c9a121e0a4839125418db7ff61ae3957c3fff41
“Covid-19 showed a deficiency in healthcare. The spread of the virus could have been prevented if we had digitization of processes and transparency of data through blockchain, and transfer of data through an authorized share of records. An open permissionless decentralized blockchain helps bring ownership of medical records back to the patient, and that is not possible in a centralized system”, continued the VeChain representative.
Dr. Alice Loveys is EY ‘s healthcare blockchain leader in the US and has been at the forefront of emerging healthcare technologies for her entire career including being a pioneer in electronic health record adoption, health information exchange, and privacy and security.
She believes that “blockchain technology is like a plumbing system that brings clean and transparent trusted data that can be used. It’s not proper for a track and trace system as it invades privacy unless there is the consent from patients, in that case, blockchain transparent share of data would be extremely useful for medical research and testing”.
One problem we experienced during the crisis is the confusion that arose with divulged information and the frustration that comes with it. People do not understand anymore which information can be trusted; at first, it looked like COVID-19 symptoms were not dangerous, then it came out that they actually were. Masks were not useful at the beginning, then they suddenly became necessary.
“Blockchain could have prevented lockdown and economic crisis through data management in that a much faster response would have been provided to tackle misinformation because blockchain can help manage data from different sources”, continues Dr. Loveys. “Moreover, it’s a great way to protect the database. Instead of moving any private sensitive medical data through the more traditional digital systems, blockchain simply allows us to send an algorithm, encrypted data that safeguards the information. It’s not a great use as a database as it does not scale, therefore we would not be able to store information for billions of people in it. But for the data that is in the blockchain, using algorithms, makes it very convenient and secure”.
Another topic discussed during the webcast was the GDPR compliance for blockchain. GDPR (General Data Protection Regulation) was created before blockchain therefore it doesn’t account for decentralized technologies. Generally speaking, it all comes down to how the technology is used and what kind of data is incorporated in it. Timestamping data without invading anyone’s privacy, or timestamp of consented data, should determine no issue at all. This is what privacy by design stands for, taking human values into account in a well-defined manner throughout the whole process.
Block.co, powered by the University of Nicosia, is establishing itself as a global leader in the issuance of digital immutable and secure certificates timestamped on the Bitcoin blockchain. In the field of healthcare, it could include medical records, prescription issuance, insurance disputes, supply chain documentation, and any type of verifiable certificate that requires authenticity at its core.
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Benefits of Blockchain Technology in the Banking Industry

Benefits of Blockchain Technology in the Banking Industry
Link to original article: https://block.co/benefits-of-blockchain-technology-in-the-banking-industry/
The rapidly growing interest around blockchain is creating an increased amount of use cases across multiple industries, and a high demand for adoption by many governments. Banking, financial services, and insurance (BFSI) industry is predicted to be drastically transformed by this disruptive technology. According to Allied Market Research 2019, the blockchain value in the BFSI market reached $277.1 million in 2018 and is projected to reach $22.46 billion by 2026. Blockchain technology has the potential to solve the pain points of the current banking systems and operations including security, transparency, trust, privacy, programmability, and performance.
What is Blockchain?
Blockchain is the technology behind the Bitcoin cryptocurrency, that was proposed by Satoshi Nakamoto in 2008, as a response to the failing financial system during the crisis. It is often associated and confused with Bitcoin, but the scope of the technology is much wider. It is also important to differentiate between the Distributed Ledger Technology (DLT) and blockchain, as the terms often used interchangeably. All blockchains are DLT, but not all DLTs are blockchains. DLT is simply a decentralized database managed on a peer-to-peer basis.
“Blockchain is a type of DLT, a subcategory of a more broad definition, much like how the word ‘car’ falls under the umbrella term ‘vehicles’ and ‘Satoshi Nakamoto’ falls under ‘geniuses’.”
In essence, blockchain is a continuous sequential chain of records (‘blocks’) that are chronologically linked together with the aid of cryptography, to ensure immutability. These records are immutable, as any change to the information recorded in a particular block is stored in a new block. Moreover, the use of modern encryption algorithms enables the security of all the records from copying or editing by other users of the system. Blockchain can be programmed to record not only financial transactions as cryptocurrency but almost anything of value (Deloitte Insights, 2019).

https://preview.redd.it/k76j8u5401751.png?width=940&format=png&auto=webp&s=e7f6573a230c816a112ae4bf561f3501c353ad32
How Blockchain Can Improve Banking Industry?
The modern banking system is not perfect and commercial banks have not changed a lot to their servicing structure since the 1970s (Haycock & Richmond, 2015). Running a bank still requires large numbers of the workforce, reliance on quite outdated systems, bloated structures with high probabilities of human error, and manual work. There are several aspects, which could be improved by the application of blockchain technology in banking operations:
1) Security Enhancement
In the UK the overall value of the financial fraud losses (e.g. payment cards, remote banking, cheques) equaled £844.8 million in 2018. The situation is even worse in the US — $170 billion average yearly losses in the financial sector. According to KPMG’s Global Banking Fraud Survey 2019 the total volume, number, and value of the fraudulent activities are drastically increasing every year.
The nature of banking operations dictates the need for centralized systems, which proved to be vulnerable and subject to cyber and hack attacks. Now, the blockchain is immutable as it operates on the principles of decentralization and transparency, and all the network participants get an identical copy of the distributed ledger of transactions. Thus, if applied in banking, blockchain can increase the validity and security of the financial transactions, eliminate the need for third-party authentication, and solve the issue of a single point of failure and hacks.
Moreover, since each transaction on the blockchain has its unique fingerprint (hash) it can be easily traced and verified. Such functionality makes blockchain a great tool to combat money laundering and reduce fraudulent or illegal transactions (Guo & Liang, 2016).
2) Improving Financial Transactions Efficiency
As we mentioned previously, the utilization of obsolete mechanisms and operational systems slows down the performance of banking institutions and provides ground for human error, delays, and system failures. All these inefficiencies could be solved by applying blockchain technology. Take for example the time-consuming bilateral exchange. The process of data reconciliation needed for it could be simplified, as on the blockchain, it is inherently part of a transaction (IBM, 2016).
Blockchain and its decentralized nature eliminate intermediaries in banking operations, which significantly cuts transaction costs and boosts efficiency (Cocco et al., 2017). Blockchain does not require intermediaries, enables cross-border transfers and micro-payments, while drastically decreasing operational costs. Such transactions in the traditional banking environment are expensive (from 1% of the amount), and constitute a huge expense on a global scale. In cryptocurrency networks, transfers may range from a few minutes down to milliseconds, and the transaction fees are decided by the market forces, meaning users have the option to set their transaction fees (Deloitte, 2017).
3) Workflow Simplification
Blockchain can simplify the current complex workflow in banking institutions. As any operation can be traced, the ability to automate processes significantly reduces costs and the need for manual work. Moreover, it is impossible to make retroactive changes on the blockchain. This guarantees data immutability and excludes the human factor, thus the probability of error, data tampering, or even leakage. Using blockchain in banking operations will digitize and automate tons of manual work, greatly boost the productivity of the financial institutions and eliminate the probability of mistakes, delays, and errors.
4) Enhanced KYC & AML
Some financial institutions find it difficult to deal with problems related to policies such as Anti-Money Laundering (AML) and Know Your Customer (KYC). Numerous organizations are not able to solve these problems, due to the rapidly escalating costs. The adoption of the blockchain technology will enable the creation of a system where all clients’ information may be stored safely, making the independent verification an easy process or even automated securely. In this way, both AML and KYC processes will become simpler and easier, as all involved organizations will share the same system and the information will be updated in real-time, perhaps through the use of Digital Identities. In addition to this, blockchain technology will assist the organizations to minimize their administrative costs and reduce the workload.

https://preview.redd.it/200e0ap701751.png?width=600&format=png&auto=webp&s=6caaf26c53786c1341b7905ca33dd340f8929059
5) Smart Contracts
Smart contracts are an innovative development of blockchain technology which enables for time and resources saving, as they do not require a third-party interaction. Traditional contracts do not differ a lot from smart contracts, however, their key benefit is that obligations are automatically enforced and cannot be avoided by anyone.
When smart contracts are integrated with blockchain technology, we enjoy benefits such as security, automation, immutability, and transparency. The integration of smart contracts in the financial sector will provide opportunities for transparent auditing and real-time remittances. Traditional contracts are paper-based and require financial institutions to invest money in paperwork and maintain records. These records can be easily manipulated as they are on paper. Smart contracts offer bank tools for bookkeeping based on blockchain. Smart contracts have already been applied to the financial industry to gain greater automation.
6) Decentralized Finance
Another application of blockchain is Decentralized Finance, also known as DeFi. This application is at an early stage but its disruptiveness enables millions of people across the world to have access to financial services. DeFi refers to decentralized applications, financial smart contracts, digital assets as well as protocols popular as DApps, which are built on public blockchains such as Ethereum and Bitcoin. The aim of DeFi is the creation of a decentralized financial system that will not depend on the traditional banking system.
Decentralized Finance offers numerous benefits to the users as it eliminates middlemen, enables everyone who does not has access to financial services to enter the global economy as it is a permission-less technology, and enables innovation with the combination of DeFi products. Besides, the use of decentralized finance increases the symmetry of information and democratizes financial services in this sense. The evolution of DeFi over the years means that most people around the world are only limited by their imagination when considering how to gain benefits from the financial ecosystem. However, there are still many complexities that need addressing to further expand the full extent of the possibilities of DeFi.
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Microsoft patents scheme to usher in technocratic fascism via data from IoT sensor devices and centralized cryptocurrency system

WO2020060606 - CRYPTOCURRENCY SYSTEM USING BODY ACTIVITY DATA
https://patentscope.wipo.int/search/en/detail.jsf?docId=WO2020060606&tab=PCTDESCRIPTION
Before reading the following excerpts, keep this sequence of events in mind:
Master Slave (and we're not referring to HDDs here)
Step one: patent technology
Step two: sell slave IoT devices to consumers who readily purchase them especially after being promised that they'll be rewarded in cryotocurrency for their data.
Step three: collect data via Microsoft Azure on unsuspecting human subjects' fMRI, EEG, body temperatures, EKG, sleep data, digitized health care information, consumer purchasing habits, reading and viewing preferences, social media activity and correlate with activities performed (tasks).
Step four: Use data to refine AI to profile human behavior, predict behavior and refine mind reading capabilities.
This article is actually incorporated in the patent!
https://news.berkeley.edu/2011/09/22/brain-movies/ Scientists use brain imaging to reveal the movies in our mind
Step five: Institute centralized global cryptocurrency financial system with no other alternatives in which to transact legally.
https://www.reddit.com/Bitcoin/comments/4nag4b/1988_economist_cover_predicting_a_world_currency/
https://www.economist.com/finance-and-economics/1998/09/24/one-world-one-money
Step six: To understand step six, read George Orwell's "1984" or review the concept of an individual's freedoms being based not on the concept of natural rights but on their social credit scores.
Thank you Microsoft, Google, Apple, Amazon, Facebook.
Now the patent excerpts:
CRYPTOCURRENCY SYSTEM USING BODY ACTIVITY DATA BACKGROUND [0001] A virtual currency (also known as a digital currency) is a medium of exchange implemented through the Internet generally, not tied to a specific government-backed “flat” (printed) currency such as the U.S. dollar or the Euro, and typically designed to allow instantaneous transactions and borderless transfer of ownership. One example of virtual currency is cryptocurrency, wherein cryptography is used to secure transactions and to control the creation of new units. [0002] Several cryptocurrencies exist. Among these, the most well known is a blockchain-based cryptocurrency. Most blockchain-based cryptocurrency is decentralized in the sense that it has no central point of control.
However, blockchain-based cryptocurrency can also be implemented in a centralized system having a central point of control over the cryptocurrency.
Bitcoin is one of the examples of blockchain-based cryptocurrency. It is described in a 2008 article by Satoshi Nakamoto, named“Bitcoin: A peer-to-Peer Electronic Cash System”.
[0003] A blockchain is a data structure that stores a list of transactions and can be thought of as a distributed electronic ledger that records transactions between source identifier(s) and destination identifier(s). The transactions are bundled into blocks and every block (except for the first block) refers back to or is linked to a prior block in the blockchain. Computer resources (or nodes, etc.) maintain the blockchain and cryptographically validate each new block and the transactions contained in the corresponding block. This validation process includes computationally solving a difficult problem that is also easy to verify and is sometimes called a“proof-of-work”. This process is referred to as“mining”. The mining may be a random process with low probability so that a lot of trial and error is required to solve a computationally difficult problem. Accordingly, the mining may require enormous amounts of computational energy.
[0004] It is with respect to these and other general considerations that the following embodiments have been described. Also, although relatively specific problems have been discussed, it should be understood that the embodiments should not be limited to solving the specific problems identified in the background.
SUMMARY
[0005] Some exemplary embodiments of the present disclosure may use human body activity associated with a task provided to a user as a solution to“mining” challenges in cryptocurrency systems.
For example, a brain wave or body heat emitted from the user when the user performs the task provided by an information or service provider, such as viewing advertisement or using certain internet services, can be used in the mining process. Instead of massive computation work required by some conventional cryptocurrency systems, data generated based on the body activity of the user can be a proof-of-work, and therefore, a user can solve the computationally difficult problem unconsciously. Accordingly, certain exemplary embodiments of the present disclosure may reduce computational energy for the mining process as well as make the mining process faster.
[0006] Systems, methods, and hardware aspects of computer readable storage media are provided herein for a cryptocurrency system using human body activity data. According to various embodiments of the present disclosure, a server may provide a task to a device of a user which is communicatively coupled to the server. A sensor communicatively coupled to or comprised in the device of the user may sense body activity of the user. Body activity data may be generated based on the sensed body activity of the user. A cryptocurrency system communicatively coupled to the device of the user may verify whether or not the body activity data satisfies one or more conditions set by the cryptocurrency system, and award cryptocurrency to the user whose body activity data is verified.
[0007] Examples are implemented as a computer process, a computing system, or as an article of manufacture such as a device, computer program product, or computer readable medium. According to one aspect, the computer program product is a computer storage medium readable by a computer system and encoding a computer program comprising instructions for executing a computer process.
[0008] This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter. decentralized cryptocurrency networks or databases.
[0021] FIG. 1 illustrates an example environment 100 in which some exemplary embodiments of the present disclosure may be practiced. The example environment 100 includes, but is not limited to, at least one of task server 110, communication network 120, user device 130, sensor 140, and cryptocurrency system 150.
[0022] Task server 110 may provide one or more tasks to user device 130 over communication network 120. For example, task server 110 may be at least one of a web server delivering or serving up web pages, an application server handling application operations between users and applications or databases, a cloud server, a database server, a file server, a service server, a game server implementing games or services for a game, and a media server delivering media such as streaming video or audio. The tasks provided by task server 110 will be discussed in more detail below.
[0023] Alternatively, cryptocurrency system 150 may provide one or more tasks to user device 130. For example, in a decentralized cryptocurrency network, the tasks may be proposed to user device 130 by miners (e.g. compute resources or nodes 210 of FIG. 2). In another example, in a centralized cryptocurrency system, a cryptocurrency server may send the tasks to user device 130.
[0024] Communication network 120 may include any wired or wireless connection, the internet, or any other form of communication. Although one network 120 is identified in FIG. 1, communication network 120 may include any number of different communication networks between any of the server, devices, resource and system shown in FIGS. 1 and 2 and/or other servers, devices, resources and systems described herein. Communication network 120 may enable communication between various computing resources or devices, servers, and systems. Various implementations of communication network 120 may employ different types of networks, for example, but not limited to, computer networks, telecommunications networks (e.g., cellular), mobile wireless data networks, and any combination of these and/or other networks. [0025] User device 130 may include any device capable of processing and storing data/information and communicating over communication network 120. For example, user device 130 may include personal computers, servers, cell phones, tablets, laptops, smart devices (e.g. smart watches or smart televisions). An exemplary embodiment of user device 130 is illustrated in FIG. 6.
[0026] Sensor 140 may be configured to sense the body activity of user 145. As illustrated in FIG. 1, sensor 140 may be a separate component from user device 130 and be operably and/or communicatively connected to user device 130. Alternatively, sensor 140 may be included and integrated in user device 130. For example, user device 130 may be a wearable device having sensor 140 therein. The sensor 140 may transmit information/data to user device 130. Sensor 140 may include, for example, but not limited to, functional magnetic resonance imaging (fMRI) scanners or sensors, electroencephalography (EEG) sensors, near infrared spectroscopy (NIRS) sensors, heart rate monitors, thermal sensors, optical sensors, radio frequency (RF) sensors, ultrasonic sensors, cameras, or any other sensor or scanner that can measure or sense body activity or scan human body. For instance, the fMRI may measure body activity by detecting changes associated with blood flow. The fMRI may use a magnetic field and radio waves to create detailed images of the body (e.g. blood flow in the brain to detect areas of activity).
The material (http://news.berkely.edu/20ll/09/22/brain-movies/) shows one example of how the fMRI can measure brain activity associated with visual information and generate image data.
[0027] Cryptocurrency system 150 may include one or more processors for processing commands and one or more memories storing information in one or more cryptocurrency data structures. In some embodiments, cryptocurrency system 150 may be a centralized cryptocurrency system or network, for example, but not limited to, a server which may be privately run by a third party entity or the same entity that is running the task server 110. In other embodiments, cryptocurrency system 150 may be a publically accessible network system (e.g., a distributed decentralized computing system).
https://news.berkeley.edu/2011/09/22/brain-movies/ Scientists use brain imaging to reveal the movies in our mind
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How Blockchain is important for App Developers?

With newer technologies being launched each day, the tendency to the adoption of such leading edge engineering methodologies has been boosting every industrial area. The present market situation is such, in the event that you have to remain in the opposition, you have to get the new components of innovation. In the present market, if you have to stay in the competition, you have to pick up the new elements of technology. With startups failing to implement them, mobile application experts are struggling to keep pace with such huge numbers of techs simultaneously, exploring the massive growth of the current industry seems like a needful task.
Over numerous years, block-chain has held its status as a progressive thought with positive perspectives for multiple industries. This digital ledger system became popular during the times of cryptocurrency, and since then, been praised for its secure and reliable approach. Block-chain includes features like peer-to-peer payment architecture, decentralization, and security which makes it fascinating for developers. In the field of mobile apps, block-chain serves as a bountiful example, to build applications that are free from frauds, data leaks, and security threats.
Given the circumstances, blockchain is a concept of developers, the practical applications of which are in the initial stages of development. However, once understood, it holds a tremendous capacity to revolutionize the market. This game-changing technology is an important trend for the mobile app industry.

What is Blockchain Technology?

The reliable system operates by transforming data across network steadily so that no participants in the system are able to hack or tamper the blocks distributed. The blocks formed with a cryptographically line that helps to prevent a reformed process from an unknown member.
This blockchain holds distinctive features of distributed ledger technology, which safely stores data over the peer-to-peer network. Blockchain ledgers can involve land documents, loans, integrity, assets, and inventory etc. that can be stored strongly, where everyone has permission to see yet can’t change the results shared.

How Does Blockchain Work?

A blockchain is a string of numerous blocks stored together. Each time a transaction occurs, it creates a new block and is stored in the digital ledger system.
The following points state how blockchain works-
  1. A transaction needs to happen. For instance, you bought something from the XYZ store. When you have made a purchase, a block is created for it. Now, every transaction is grouped with thousands of other transactions in the block.
  2. The transaction should be checked. That is the job for a network of computers. These systems verify whether a transaction occurred from the XYZ store. When they confirm details of the purchase, it is verified.
  3. The transaction has to be stored in the block. When your transaction is verified, along with its dollar amount, digital signature, and the XYZ store’s digital signature, all this information is stored in the block. This block then joins the other hundreds and thousands of blocks, like it.
  4. The block should be assigned a unique code/hash. Once the information is verified, it is provided with a unique identifying code, the hash. Once hashed, the block can then be added to the blockchain.
Each new block added to the blockchain is public. That implies anyone can see it. Details like who when were the block added, where was it added, and by whom was it added is visible to the users of the blockchain.

Does this Mean, Blockchain has a Public Infrastructure?

It is true, anyone can see the contents of the blockchain. In a blockchain, you can also connect your computers to the blockchain, as nodes. Along these lines, every computer in the blockchain network receives a copy of every block whenever it is updated. It’s like your News Feed, when there is an update, you see the new fresh content at the top. So, when everyone can view each information, where does the security feature in blockchain come from?
In a blockchain network, there are millions of copies of the same block. This implies each copy of the blockchain is identical. So, it’s not possible for anyone to keep a record of such huge numbers of events. If any programmer needs to even manipulate the data of any block, they should change every copy on the blockchain network. Also, since you don’t have any knowledge of the users making the transactions, its data, to any hacker or user, is completely anonymous.
Only those who hold details regarding the digital signature or the username can access the information in a block and understand it. In this way hacking and manipulation is something that can’t occur in a blockchain environment.

Why is Blockchain a Popular Concept for Mobile App Developers?

Blockchain was first referenced in BitcoinTalk, the largest forum committed to Bitcoin. Many-a-times blockchain is said to give a steady base to cryptocurrency operations. In the previous few years, it has gained tremendous popularity, as a technology database.
But, what invited its attention in the minds of the developers was its decentralized nature and secure access. Since then, blockchain has become a fascinating idea for developers. Surely, it leads to transparency, yet it decreases fraudulent transactions, and data tampering activities as well.
Application developers are using this technology to make digital payments more accessible, simple, and secure. The nature of peer-to-peer transactions makes it an ideal fit for banking applications that needs such a type of technology.
You can also know- A Complete Guide To Choose Block-chain Platform For Business Growth.

Blockchain can Reshape the Future for Mobile App Developers-

Blockchain provides an edge to all those people who like to indulge in digital payments rather than cash to cash transactions.

But why is blockchain said to be fit in today’s market scenario?

digital transformations are at its top in the 21st century. Each business has a digital store, and an ever increasing number of customers are accessing the online platforms, to enjoy everyday services as well.
The digital world is providing the right momentum to blockchain technology and has evoke its need in the market. Blockchain is becoming increasingly popular for mobile payment apps because of its exceptionally secured features.
Let us see common types of blockchain-based mobile apps-
1. Apps for exchanging cryptocurrencies- This way, a person is totally in control of the digital resources and perform trading transactions using them. Such applications can be used for a wide range of payments and transactions.
2. E-wallets- E-wallets that can store all the digital assets and money. You can carry out the transactions through the application powered by blockchain technology.
3. Apps that help you to track rates- cryptocurrency trades, market dynamics and other scope of blockchain services.
4. Retails applications with a background of blockchain technology allowing customers to pay using cryptocurrency and bitcoin.
Now, let’s look why blockchain is apt for mobile app developers-

1. Enhanced data protection and privacy –

Blockchain is known for its great security. Developers can use this tech, to create multiple protection layers into their data. The private keys to this data will be just assigned to the users, making it impossible for anyone without a decryption key, to manipulate the transaction details. Since it is a decentralized system, it keeps a replica of each transaction on its computer network. This reduces the risk of data loss as well. Since hackers won’t have any knowledge about the user’s data and their private key as well, no fraudulent or unauthorized activities can take place.

2. Data transparency is an advantage too-

In a blockchain, the information about every transaction is visible to everyone. This implies anyone can see the details in real-time. However, since the data is stored by digital names and signatures, it is mysterious to others. They can see the transaction but will not know who made it (the real name and personal information). This way, no one can change the information in a specific block. Blockchain stores all the data in public view. Hence, if the user makes any manipulations to their data also, it won’t go unnoticed. Log for each change is made in this digital ledger system.

3. Secure mobile payments –

Introducing blockchain with mobile app serve one central motto, securing digital payments. Since more and more people are opting contactless mobile payments, protecting them with blockchain’s secure architecture seems to be a good idea. Numerous developers are focussing on coding a a more secure and affordable mobile payments app.
Blockchain will help these developers in securing the infrastructure of similar mobile apps. Also, since thousands of nodes function, it is improbable that they will crash simultaneously. This also reduces the downtime of such applications.

4. No need for passwords anymore –

To deal with any application, you need a password and login-id to authenticate your users. There are a lot of issues related to use of passwords. Anyone can track it and if you forget your password, getting a new one is a tedious task. With blockchain, users don’t need any password. The network of computers connected validates a transaction. Also, since blockchain is built on cryptographic codes like a hash that uses a digital signature to unlock all the digital assets for the involved parties, the authentication systems of such applications will become immutable, irrefutable, and incorruptible. This makes the process of accessing your resources, a seamless experience.

5. Improves the Efficiency of apps –

For each mobile application you use, you need a third-party mediator for it. In a blockchain, you do not need any party to finish the transaction. This improves the effectiveness and the speed of transactions. As indicated by a report, blockchain-based transactions are 10 times faster than the bank ones. In a blockchain, every transaction is approved by a computer. Hence, dissimilar to a traditional bank that takes days to settle a transaction, blockchain can do it in 2-3 minutes.

6. It reduces the cost per transaction-

In normal transactions that include third-party apps, blockchain removes any such middlemen. Also, the intermediate parties charge per transaction that reaches completion using their portal. Blockchain doesn’t charge any such fee and still gets the transaction completed. The eviction of such mediators reduces the transactional costs for both, the business and the users.
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Groestlcoin 6th Anniversary Release

Introduction

Dear Groestlers, it goes without saying that 2020 has been a difficult time for millions of people worldwide. The groestlcoin team would like to take this opportunity to wish everyone our best to everyone coping with the direct and indirect effects of COVID-19. Let it bring out the best in us all and show that collectively, we can conquer anything.
The centralised banks and our national governments are facing unprecedented times with interest rates worldwide dropping to record lows in places. Rest assured that this can only strengthen the fundamentals of all decentralised cryptocurrencies and the vision that was seeded with Satoshi's Bitcoin whitepaper over 10 years ago. Despite everything that has been thrown at us this year, the show must go on and the team will still progress and advance to continue the momentum that we have developed over the past 6 years.
In addition to this, we'd like to remind you all that this is Groestlcoin's 6th Birthday release! In terms of price there have been some crazy highs and lows over the years (with highs of around $2.60 and lows of $0.000077!), but in terms of value– Groestlcoin just keeps getting more valuable! In these uncertain times, one thing remains clear – Groestlcoin will keep going and keep innovating regardless. On with what has been worked on and completed over the past few months.

UPDATED - Groestlcoin Core 2.18.2

This is a major release of Groestlcoin Core with many protocol level improvements and code optimizations, featuring the technical equivalent of Bitcoin v0.18.2 but with Groestlcoin-specific patches. On a general level, most of what is new is a new 'Groestlcoin-wallet' tool which is now distributed alongside Groestlcoin Core's other executables.
NOTE: The 'Account' API has been removed from this version which was typically used in some tip bots. Please ensure you check the release notes from 2.17.2 for details on replacing this functionality.

How to Upgrade?

Windows
If you are running an older version, shut it down. Wait until it has completely shut down (which might take a few minutes for older versions), then run the installer.
OSX
If you are running an older version, shut it down. Wait until it has completely shut down (which might take a few minutes for older versions), run the dmg and drag Groestlcoin Core to Applications.
Ubuntu
http://groestlcoin.org/forum/index.php?topic=441.0

Other Linux

http://groestlcoin.org/forum/index.php?topic=97.0

Download

Download the Windows Installer (64 bit) here
Download the Windows Installer (32 bit) here
Download the Windows binaries (64 bit) here
Download the Windows binaries (32 bit) here
Download the OSX Installer here
Download the OSX binaries here
Download the Linux binaries (64 bit) here
Download the Linux binaries (32 bit) here
Download the ARM Linux binaries (64 bit) here
Download the ARM Linux binaries (32 bit) here

Source

ALL NEW - Groestlcoin Moonshine iOS/Android Wallet

Built with React Native, Moonshine utilizes Electrum-GRS's JSON-RPC methods to interact with the Groestlcoin network.
GRS Moonshine's intended use is as a hot wallet. Meaning, your keys are only as safe as the device you install this wallet on. As with any hot wallet, please ensure that you keep only a small, responsible amount of Groestlcoin on it at any given time.

Features

Download

iOS
Android

Source

ALL NEW! – HODL GRS Android Wallet

HODL GRS connects directly to the Groestlcoin network using SPV mode and doesn't rely on servers that can be hacked or disabled.
HODL GRS utilizes AES hardware encryption, app sandboxing, and the latest security features to protect users from malware, browser security holes, and even physical theft. Private keys are stored only in the secure enclave of the user's phone, inaccessible to anyone other than the user.
Simplicity and ease-of-use is the core design principle of HODL GRS. A simple recovery phrase (which we call a Backup Recovery Key) is all that is needed to restore the user's wallet if they ever lose or replace their device. HODL GRS is deterministic, which means the user's balance and transaction history can be recovered just from the backup recovery key.

Features

Download

Main Release (Main Net)
Testnet Release

Source

ALL NEW! – GroestlcoinSeed Savior

Groestlcoin Seed Savior is a tool for recovering BIP39 seed phrases.
This tool is meant to help users with recovering a slightly incorrect Groestlcoin mnemonic phrase (AKA backup or seed). You can enter an existing BIP39 mnemonic and get derived addresses in various formats.
To find out if one of the suggested addresses is the right one, you can click on the suggested address to check the address' transaction history on a block explorer.

Features

Live Version (Not Recommended)

https://www.groestlcoin.org/recovery/

Download

https://github.com/Groestlcoin/mnemonic-recovery/archive/master.zip

Source

ALL NEW! – Vanity Search Vanity Address Generator

NOTE: NVidia GPU or any CPU only. AMD graphics cards will not work with this address generator.
VanitySearch is a command-line Segwit-capable vanity Groestlcoin address generator. Add unique flair when you tell people to send Groestlcoin. Alternatively, VanitySearch can be used to generate random addresses offline.
If you're tired of the random, cryptic addresses generated by regular groestlcoin clients, then VanitySearch is the right choice for you to create a more personalized address.
VanitySearch is a groestlcoin address prefix finder. If you want to generate safe private keys, use the -s option to enter your passphrase which will be used for generating a base key as for BIP38 standard (VanitySearch.exe -s "My PassPhrase" FXPref). You can also use VanitySearch.exe -ps "My PassPhrase" which will add a crypto secure seed to your passphrase.
VanitySearch may not compute a good grid size for your GPU, so try different values using -g option in order to get the best performances. If you want to use GPUs and CPUs together, you may have best performances by keeping one CPU core for handling GPU(s)/CPU exchanges (use -t option to set the number of CPU threads).

Features

Usage

https://github.com/Groestlcoin/VanitySearch#usage

Download

Source

ALL NEW! – Groestlcoin EasyVanity 2020

Groestlcoin EasyVanity 2020 is a windows app built from the ground-up and makes it easier than ever before to create your very own bespoke bech32 address(es) when whilst not connected to the internet.
If you're tired of the random, cryptic bech32 addresses generated by regular Groestlcoin clients, then Groestlcoin EasyVanity2020 is the right choice for you to create a more personalised bech32 address. This 2020 version uses the new VanitySearch to generate not only legacy addresses (F prefix) but also Bech32 addresses (grs1 prefix).

Features

Download

Source

Remastered! – Groestlcoin WPF Desktop Wallet (v2.19.0.18)

Groestlcoin WPF is an alternative full node client with optional lightweight 'thin-client' mode based on WPF. Windows Presentation Foundation (WPF) is one of Microsoft's latest approaches to a GUI framework, used with the .NET framework. Its main advantages over the original Groestlcoin client include support for exporting blockchain.dat and including a lite wallet mode.
This wallet was previously deprecated but has been brought back to life with modern standards.

Features

Remastered Improvements

Download

Source

ALL NEW! – BIP39 Key Tool

Groestlcoin BIP39 Key Tool is a GUI interface for generating Groestlcoin public and private keys. It is a standalone tool which can be used offline.

Features

Download

Windows
Linux :
 pip3 install -r requirements.txt python3 bip39\_gui.py 

Source

ALL NEW! – Electrum Personal Server

Groestlcoin Electrum Personal Server aims to make using Electrum Groestlcoin wallet more secure and more private. It makes it easy to connect your Electrum-GRS wallet to your own full node.
It is an implementation of the Electrum-grs server protocol which fulfils the specific need of using the Electrum-grs wallet backed by a full node, but without the heavyweight server backend, for a single user. It allows the user to benefit from all Groestlcoin Core's resource-saving features like pruning, blocks only and disabled txindex. All Electrum-GRS's feature-richness like hardware wallet integration, multi-signature wallets, offline signing, seed recovery phrases, coin control and so on can still be used, but connected only to the user's own full node.
Full node wallets are important in Groestlcoin because they are a big part of what makes the system be trust-less. No longer do people have to trust a financial institution like a bank or PayPal, they can run software on their own computers. If Groestlcoin is digital gold, then a full node wallet is your own personal goldsmith who checks for you that received payments are genuine.
Full node wallets are also important for privacy. Using Electrum-GRS under default configuration requires it to send (hashes of) all your Groestlcoin addresses to some server. That server can then easily spy on your transactions. Full node wallets like Groestlcoin Electrum Personal Server would download the entire blockchain and scan it for the user's own addresses, and therefore don't reveal to anyone else which Groestlcoin addresses they are interested in.
Groestlcoin Electrum Personal Server can also broadcast transactions through Tor which improves privacy by resisting traffic analysis for broadcasted transactions which can link the IP address of the user to the transaction. If enabled this would happen transparently whenever the user simply clicks "Send" on a transaction in Electrum-grs wallet.
Note: Currently Groestlcoin Electrum Personal Server can only accept one connection at a time.

Features

Download

Windows
Linux / OSX (Instructions)

Source

UPDATED – Android Wallet 7.38.1 - Main Net + Test Net

The app allows you to send and receive Groestlcoin on your device using QR codes and URI links.
When using this app, please back up your wallet and email them to yourself! This will save your wallet in a password protected file. Then your coins can be retrieved even if you lose your phone.

Changes

Download

Main Net
Main Net (FDroid)
Test Net

Source

UPDATED – Groestlcoin Sentinel 3.5.06 (Android)

Groestlcoin Sentinel is a great solution for anyone who wants the convenience and utility of a hot wallet for receiving payments directly into their cold storage (or hardware wallets).
Sentinel accepts XPUB's, YPUB'S, ZPUB's and individual Groestlcoin address. Once added you will be able to view balances, view transactions, and (in the case of XPUB's, YPUB's and ZPUB's) deterministically generate addresses for that wallet.
Groestlcoin Sentinel is a fork of Groestlcoin Samourai Wallet with all spending and transaction building code removed.

Changes

Download

Source

UPDATED – P2Pool Test Net

Changes

Download

Pre-Hosted Testnet P2Pool is available via http://testp2pool.groestlcoin.org:21330/static/

Source

submitted by Yokomoko_Saleen to groestlcoin [link] [comments]

Beginners guide to Syscoin (SYS) and why you should be investing in this cryptocurrency in 2018

What is Syscoin?

Some have described Syscoin (SYS) as the Shopify, Amazon and Ebay of the blockchain world. Syscoin is a revolutionary cryptocurrency that offers near zero cost financial transactions, incredible speed and provides businesses the infrastructure to trade goods, assets, digital certificates and data securely. Syscoin isn’t just about money and trading, it has the ability to attract various business types thanks to its native set of features geared towards business on the blockchain. From eBay traders and High Street shops to Medical applications, Insurance and Gaming, Syscoin’s decentralized network benefits everyone!
Syscoin is developed by Blockchain Foundry (BF). BF provides blockchain technology based services, projects and products for a wide variety of use cases with the stated aim of disrupting markets by leveraging the potential of blockchain technology. Syscoin is mainly known to be the first cryptocurrency to offer a fully decentralized marketplace based on blockchain. What is lesser known is that this is only a part of what Syscoin offers.
With the introduction of Masternodes in February or March 2018 SYS will be transformed from just a ’marketplace coin’ to a completely ‘utilitarian coin’. The Masternode infrastructure allows the addition of decentralized databases and file storage, increased transaction speed to surpass POS/Visa/Mastercard capabilities, true Turing complete smart contract capabilities for unlimited business logic, sidechains, application layers and an identity layer. This will all be accessible through an API, rather than a new language, enabling nearly any developer to create any blockchain application they can conceive. This will usher in the next generation of blockchain applications - made for new or existing businesses - by conveniently offering everything available from the blockchain space today.

SYS Origin

The blockchain as conceptualized by Satoshi Nakamoto back in 2008 envisioned a peer-to-peer electronic cash network that would prevent double-spending. A year later, the blockchain became an integral part of bitcoin, serving as the latter's public ledger of transactions. Although Nakamoto's reference client mentioned a decentralized marketplace service, the subsequent implementation did not incorporate this due to a lack of resources.
Syscoin was initially described in a 2014 draft whitepaper that envisioned Decentralized Marketplace Creation, Decentralized Smart Contracts and Documents, Decentralized Certificate Issuance and Transfer, and Decentralized Data Storage and Retrieval, as among the services that it would offer upon its release.
Syscoin aimed to bring Nakamoto's vision of a decentralized marketplace back into the blockchain, among the other commercial-grade services it aims to deliver to clients. Other services that Syscoin plans to provide include secure data storage and transfer, and unique user aliases that link their owners to the services controlled by the alias.
The early Syscoin wallet was superseded by the release of Blockmarket Desktop 1.0 on September 12, 2017, marking the culmination of Syscoin's vision of a fully decentralized marketplace with a desktop GUI based on the blockchain.
The planned release of Blockmarket Web, a fully web-based version, and Blockmarket Professional in 2018 takes that vision one step further, as more advanced seller stores become a reality.

The Team

The Team that NEVER quits! Before the launch of Syscoin (Q3 2014), there was a presale ICO by Moolah (as a partner), which turned out to be detrimental for Syscoin. The project raised around 1,000BTC for development but the Syscoin Team only managed to access 250BTC which were used for price support. Moolah (Ryan Kennedy) absconded with the bulk of the ICO funds and the Syscoin team were left with ~30million Syscoin at a price around 400 satoshi. Even after this tragic event, the devs didn’t quit and continued to work on the project without stopping. The case against Moolah is still on-going. See the article from CoinDesk here: http://www.coindesk.com/uk-court-syscoin-injunction-moolah-750-btc/.
What is this detail telling us about the dev team? While some crypto projects are just scams and bring little to no innovation, they’ve proven that they are in it for the long term - ably demonstrated by the fact that they continued to work despite their funds being stolen. And now that hard work is beginning to pay off with the entire team going full-time for the first time in January 2018 and new developers being hired following VC funding for BF.

Team Page: https://syscoin.org/team/

Blockchain Foundry Products

https://www.blockchainfoundry.co/products

What is Blockmarket Desktop?

Building on the World's First Decentralized Marketplace, Blockmarket is the newest generation of Syscoin's Desktop wallet with a complete, state-of-the-art marketplace built-in where you can securely and reliably buy and sell any items you wish. Entire stores can be created directly through the marketplace where you can sell your own products or re-sell others’ products for commission. Use of blockchain technology eliminates middlemen, credit card fees, maintenance fees, downtime and political interference. Persons are literally able to buy or sell anything to anyone, anytime, anywhere on Earth! Blockmarket Desktop was launched on September 12, 2017.

Key Blockmarket Features

• Price Pegging to currencies such as USD, EUR, GBP, CAD, CNY and BTC
• Bitcoin and Zcash as payment options
• Arbitrated Escrow
• Encrypted Messaging
• KYC/AML Compliance
• Images
• Unlimited Inventory Items

Name Aliases

Wallet addresses for cryptocurrencies generally consist of a unique string of between 27-34 alphanumeric characters. Such an address isn’t easy to memorize. Although the addresses can be added to an address book within the wallet, Syscoin has taken the user's convenience one step further, allowing you to create a unique Alias for your wallet address, such as a name, title, or characters specific to a username. These can be used to send SYS from home, to a mobile wallet, to work, to friends, to common suppliers or to repeat customers easily, without requiring any memorizing, writing it down, copy & pasting or emailing yourself the address.

Digital Certificates

Using the cryptography of the blockchain persons can issue, authorize, and exchange digital certificates of any kind. With Syscoin anyone can issue provably-unique certificates with text or ASCII content to one or multiple parties on the Syscoin blockchain. These certificates can be authenticated by anyone via Syscoin’s cryptographic proof of work. This allows for the creation and free exchange of any kind of digital asset such as ownership certificates, warranties, receipts, tickets, certifications, diplomas, software licenses and more.

Integrated Exchanges

Integrated Crypto exchanges - Flypme and Changelly will facilitate exchanging 30+ cryptos for SYS, directly within the Blockmarket wallet.

Security Audit Verified

Blockmarket was successfully and independently security audited by Digital Boundary Group and was deemed low risk. Audit Results: [https://medium.com/@BlockchainFoundry/blockmarket-security-audit-results-and-next-steps-f69f94f149bf]

Blockmarket Web – (The Key to Mass Adoption)

BM web will bring SYS’s existing decentralized marketplace and all its features into a web-based version, enabling ease of use with a simple email and password login (grandma friendly) without any need for downloading a wallet or waiting for sync. Blockmarket web will be launched in February 2018.

Key Syscoin Developments

Masternodes

Ability for world-class transactions-per-second performance to scale-out with added nodes (theoretically 100k TPS per 1000 Masternodes, 300k TPS/3k masternodes, etc). In later releases, masternodes will also process smart contracts and facilitate sharded+encrypted offchain file-storage (with onchain anchors), among other touted functionality. They should also result in steadying the price movements - less volatility as holding will be incentivized

Smart Contracts

Scalable Ethereum Virtual Machine: Allows Turing complete smart contracts to be executed following the ethereum protocol at a much faster speed and at a fraction of the ethereum gas price.

Assets & Token Issuance

With its token issuance service, Syscoin allows anyone to create a custom asset token which can then be sent directly to anyone else on the network. This facilitates a variety of use cases including ICO token issuance, supply chain management, reward points, and loyalty programs.

Anonymous Transactions

Anonymous transactions: via mixing/shuffling at user-specified denomination. Afterwards, additional tech will be added in the near future which will further compound the degree of anonymity provided -Add ValueShuffle running on top of the masternode layer and you have the world's most advanced privacy tech in any coin. This brings true money fungibility to Syscoin and the missing link for true economic sovereignty. https://twitter.com/realSidhuJag/status/948588279540035584

Instant Send

Transactions can be sent and received instantly. This represents a similar sending capability as Dash, but is a step beyond- A type of backend node locking will allow an instantly received sum to be sent immediately, without delay, and without network risk of double-spend.

Why Invest in Syscoin?

https://medium.com/@StevenVoros88/the-most-undervalued-project-in-the-crypto-world-not-for-long-96814ac66b08 https://medium.com/@danieljasonwestby/syscoin-the-hidden-gem-of-2018-96f973b81b9 https://twitter.com/Asbsvc/status/939959284246380545 https://twitter.com/CryptoBulld0g/status/935915911776784384 https://medium.com/@BlockchainFoundry/syscoin-to-disrupt-ebay-and-real-estate-industries-96aa55ef709a https://medium.com/@thecryptojournal.com/top-crypto-investment-for-2017-b99656491c6f https://www.youtube.com/watch?v=VNDprLJhGys

Merchants

https://medium.com/@BlockchainFoundry/merchant-pilot-program-update-7479fe451639

Partnerships

(Microsoft Azure)[https://azure.microsoft.com/en-us/blog/syscoin-joins-azure/]

Decentralized Identity Foundation

https://medium.com/@BlockchainFoundry/consensus-decentralized-identity-foundation-blockmarket-beta-3-beyond-6f830419ea55

White Paper

http://syscoin.org/whitepaper.pdf
Note: It is anticipated that the whitepaper will be updated by the team in the near future due to recent developments

Roadmap

http://syscoin.org/images/roadmap_2018__1024.png

Blockchain Application Development Architecture

https://cdn-images-1.medium.com/max/1200/1*bUO6_nRI7q805edG59e0DQ.png

Feature List 2017 & 2018

https://pbs.twimg.com/media/DUJwbI_X4AI3QL_.jpg

Where to Buy

• Bittrex • Poloniex • Upbit • Tux Exchange • Livecoin • Yobit • AEX • Bittylicious • Changelly • Flyp.me

Wallets

• Block Market Wallet 1.2 – Windows and Mac. Download from https://syscoin.org/
• QT Wallet for Developers: Download from https://github.com/syscoin/syscoin2/releases/tag/2.1.6
• Coinomi – Syscoin MultiCoin Wallet (only supports send/receive)
• HolyTransaction – Syscoin Multicoin Web Wallet (desktop & android)

Other Sources

https://syscoin.org/ https://twitter.com/syscoin https://www.blockchainfoundry.co/ https://en.wikipedia.org/wiki/Syscoin
Disclaimer This post was created particularly to aid those who are new to Syscoin. Please note that the content provided within this post is for information purposes only and is not to be construed as investment advice.
submitted by one22manytimes to CryptoCurrency [link] [comments]

Blockchain – The Basics you should know

A community following banking, investing, or cryptocurrency over the last ten years may be familiar with “blockchain”. What is blockchain technology? It is a record-keeping technology behind bitcoin. In case of learning blockchain, you may have come to related terminologies- such as distributed, decentralized, and public ledger.

What is blockchain?

A Blockchain can be defined as a chain of the block that contains information. This technique is planned to timestamp digital documents so that it’s not possible to backdate them or temper them. The blockchain is used to the secure transfer of items like money, property, contracts, etc. This transfer is carried out without requiring a third-party intermediary like a bank or government. When information is recorded inside a blockchain, it is extremely hard to transform it.
The blockchain is a software protocol. Internet is necessary for running the blockchain. It is also called meta-technology as it affects other technologies. It consists of some pieces: a database, software application, some connected computers, etc. There are many wrong assumptions about blockchain. So just clear these points.

What blockchain is not?

⦁ Blockchain is not a Bitcoin, actually it is a technology behind Bitcoin.
⦁ Blockchain is the ledger to keep track of who owns the digital tokens while bitcoin is the digital token.
⦁ You can’t have Bitcoin without blockchain, but you can have blockchain without Bitcoin.

Need of Blockchain-

1. Time reduction:

Blockchain plays an important role in the financial industry. It does not require a lengthy process of verification, settlement and clearance also, so it allows quicker settlement of trades. This is because a single version of agreed-upon data of the share ledger is available between all stakeholders.

2. Reliability:

Blockchain affirms and confirms the identities of the interested individuals. This evacuates double records, reducing rates and accelerates transactions also.

3. Unchangeable transactions:

After registering transactions in chronological order, Blockchain ensures the unalterability of all operations. This means when any new block has been added to the chain of ledgers, it cannot be removed or altered.

4. Fraud prevention:

The concepts of shared data and consensus prevent possible losses due to fraud misappropriation. In logistics industries, blockchain is a monitoring system to reduce costs.

5. Security:

Attacking a traditional database is the bringing down of a specific target. Using Distributed Ledger Technology, each party can hold a copy of the original chain. So the system remains operative, even the large number of other nodes fall.

6. Transparency:

Changes to public blockchains are publicly viewable to everyone. This gives more transparency, and also all transactions are changeless.

Versions of Blockchain-

1. Blockchain 1.0: Currency

The implementation of distributed ledger technology prompted its first and obvious application: cryptocurrencies. It is used in currency and payments. It permits the financial transactions carried out through blockchain technology. Bitcoin is the most common example in this segment.

2. Blockchain 2.0: Smart Contracts

Smart Contracts are the small computer programs that work with the blockchain. They are the computer programs that automatically executes, and check conditions that are defined earlier like facilitation, verification or enforcement. It is used as an alternative for traditional contracts.

3. Blockchain 3.0: DApps:

DApps is an abbreviation of decentralized application. It has their backend code that runs on a decentralized peer-to-peer network. A DApp can have frontend code and user interfaces written in any language that can make a call to its backend, like a traditional Apps.

Structure of Blockchain-

Basically, blockchain is a public digital ledger. This ledger records transactions across computers. What makes it successful and popular? The answer is, it is centralized and distributed. Let us consider one example- Let’s say that person A wants to send some Bitcoins to another person B. To do that, they must know what is wallet address of person B. This wallet address is usually similar to an email. But we use this wallet address to send money rather than emails. Once the money is sent, it must be verified by every node. This node is a part of the blockchain network to get to person B’s wallet. In this transaction, every computer on the blockchain makes a transaction record and also saves it. Hence rather than having one transaction record kept in a bank, there are thousands of records stored in thousands of computers.
You might not like the thing of having your transaction records available on so many computers. This issue is resolved by making transactions mysterious. This is achieved by using cryptography. Hence cryptography is vital part of this technology. In case of changing transaction records, it would have to access every node ie., computer. But this is impossible. Blockchain miners are the people dedicated to devices and blockchain. Devices of these blockchain miners are the nodes on the network that validate transactions and store it in distributed ledger. These miners are get rewarded in bitcoins for their services.

Use Cases of Blockchain-

1. Government sector-

Blockchains are used in government sector for digitization of document/ contracts and proof of ownership. It can also be used for Tele-attorney service, registration and identification, IP registration and exchange, Tax receipts Notary service and document registry.

2. Markets-

Blockchain is used in marketing for billing, monitoring and data transfer. Also it is useful for Quota management in supply chain network.

3. IoT-

Blockchain technology is used in IoT for agricultural and drone sensor networks, smart home networks, integrated smart city, self-driving cars, robots and digital assistants etc.

4. Health-

Health sector uses Blockchain for data management, Big health data streams analytics, Digital health wallet smart property and personal development contracts etc.

5. Finance –

Digital Currency Payment, Inter-divisional accounting, Clearing & Trading & Derivatives and Bookkeeping also uses Blockchain technology.

Future of Blockchain-

1.Most governments around the world will create or adopt some form of virtual currency. This leads to the development of nations.
  1. By 2030, there will be more trillion-dollar tokens than there will be trillion-dollar companies.
  2. Most of the world trade will be conducted using blockchain technology.

Disadvantages of Blockchain-

1.Technology cost
  1. Speed inefficiency
  2. Illegal activity
  3. Hack Susceptibility

Conclusion-

Blockchain is a new technology that will help nation and also businesses for development. Blockchain is also used in Healthcare. Hence, it is most significant use of Blockchain technology.
Interested in incorporating blockchain to your business? Solace will be the perfect place to get started. Solace expert’s in blockchain will help your business to step forward in a wide market. For effective blockchain development, contact us.
submitted by SolaceInfotech to BlockChain_info [link] [comments]

INT - Comparison with Other IoT Projects

What defines a good IoT project? Defining this will help us understand what some of the problems they might struggle with and which projects excel in those areas. IoT will be a huge industry in the coming years. The true Internet 3.0 will be one of seamless data and value transfer. There will be a tremendous amount of devices connected to this network, from your light bulbs to your refrigerator to your car, all autonomously transacting together in an ever growing network in concert, creating an intelligent, seamless world of satisfying wants and needs.
.
Let’s use the vastness of what the future state of this network is to be as our basis of what makes a good project.
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Scalability
In that future we will need very high scalability to accommodate the exponential growth in transaction volume that will occur. The network doesn’t need to have the ability to do high transactions per second in the beginning, just a robust plan to grow that ability as the network develops. We’ve seen this issue already with Bitcoin on an admittedly small market penetration. If scaling isn’t a one of the more prominent parts of your framework, that is a glaring hole.
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Applicability
Second to scalability is applicability. One size does not fit all in this space. Some uses will need real-time streaming of data where fast and cheap transactions are key and others will need heavier transactions full of data to be analyzed by the network for predictive uses. Some uses will need smart contracts so that devices can execute actions autonomously and others will need the ability to encrypt data and to transact anonymously to protect the privacy of the users in this future of hyper-connectivity. We cannot possibly predict the all of the future needs of this network so the ease of adaptability in a network of high applicability is a must.
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Interoperability
In order for this network to have the high level of applicability mentioned, it would need to have access to real world data outside of it’s network to work off of or even to transact with. This interoperability can come in several forms. I am not a maximalist, thinking that there will be one clear winner in any space. So it is easy, therefore, to imagine that we would want to be able to interact with some other networks for payment/settlement or data gathering. Maybe autonomously paying for bills with Bitcoin or Monero, maybe smart contracts that will need to be fed additional data from the Internet or maybe even sending an auto invite for a wine tasting for the wine shipment that’s been RFID’d and tracked through WTC. In either case, in order to afford the highest applicability, the network will need the ability to interact with outside networks.
.
Consensus
How the network gains consensus is often something that is overlooked in the discussion of network suitability. If the network is to support a myriad of application and transaction types, the consensus mechanism must be able to handle it without choking the network or restricting transaction type. PoW can become a bottleneck as the competition for block reward requires an increase in difficulty for block generation, you therefore have to allow time for this computation in between blocks, often leading to less than optimal block times for fast transactions. This can create a transaction backlog as we have seen before. PoS can solve some of these issues but is not immune to this either. A novel approach to gaining consensus will have to be made if it is going to handle the variety and volume to be seen.
.
Developability
All of this can be combined to create a network that is best equipped to take on the IoT ecosystem. But the penetration into the market will be solely held back by the difficulty in connecting and interacting with the network from the perspective of manufacturers and their devices. Having to learn a new code language in order to write a smart contract or create a node or if there are strict requirements on the hardware capability of the devices, these are all barriers that make it harder and more expensive for companies to work with the network. Ultimately, despite how perfect or feature packed your network is, a manufacturer will more likely develop devices for those that are easy to work with.
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In short, what the network needs to focus on is:
-Scalability – How does it globally scale?
-Applicability – Does it have data transfer ability, fast, cheap transactions, smart contracts, privacy?
-Interoperability – Can it communicate with the outside world, other blockchains?
-Consensus – Will it gain consensus in a way that supports scalability and applicability?
-Developability – Will it be easy for manufactures to develop devices and interact with the network?
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The idea of using blockchain technology to be the basis of the IoT ecosystem is not a new idea. There are several projects out there now that are aiming at tackling the problem. Below you will see a high level breakdown of those projects with some pros and cons from how I interpret the best solution to be. You will also see some supply chain projects listed below. Supply chain solutions are just small niches in the larger IoT ecosystem. Item birth record, manufacturing history, package tracking can all be “Things” which the Internet of Things track. In fact, INT already has leaked some information hinting that they are cooperating with pharmaceutical companies to track the manufacture and packaging of the drugs they produce. INT may someday include WTC or VEN as one of its subchains feeding in information into the ecosystem.
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IOTA
IOTA is a feeless and blockchain-less network called a directed acyclic graph. In my opinion, this creates more issues than it fixes.
The key to keeping IOTA feeless is that there are no miners to pay because the work associated with verifying a transaction is distributed to among all users, with each user verifying two separate transactions for their one. This creates some problems both in the enabling of smart contracts and the ability to create user privacy. Most privacy methods (zk-SNARKs in specific) require the one doing the verifying to use computationally intensive cryptography which are outside the capability of most devices on the IoT network (a weather sensor isn’t going to be able to build the ZK proof of a transaction every second or two). In a network where the device does the verifying of a transaction, cryptographic privacy becomes impractical. And even if there were a few systems capable of processing those transactions, there is no reward for doing the extra work. Fees keep the network safe by incentivizing honesty in the nodes, by paying those who have to work harder to verify a certain transaction, and by making it expensive to attack the network or disrupt privacy (Sybil Attacks).
IOTA also doesn’t have and may never have the ability to enable smart contracts. By the very nature of the Tangle (a chain of transactions with only partial structure unlike a linear and organized blockchain), establishing the correct time order of transactions is difficult, and in some situations, impossible. Even if the transactions have been time stamped, there is no way to verify them and are therefore open to spoofing. Knowing transaction order is absolutely vital to executing step based smart contracts.
There does exist a subset of smart contracts that do not require a strong time order of transactions in order to operate properly. But accepting this just limits the use cases of the network. In any case, smart contracts will not be able to operate directly on chain in IOTA. There will need to be a trusted off chain Oracle that watches transactions, establishes timelines, and runs the smart contract network
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-Scalability – High
-Applicability – Low, no smart contracts, no privacy, not able to run on lightweight devices
-Interoperability – Maybe, Oracle possibility
-Consensus – Low, DAG won’t support simple IoT devices and I don’t see all devices confirming other transactions as a reality
-Developability – To be seen, currently working with many manufacturers
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Ethereum
Ethereum is the granddaddy of smart contract blockchain. It is, arguably, in the best position to be the center point of the IoT ecosystem. Adoption is wide ranging, it is fast, cheap to transact with and well known; it is a Turing complete decentralized virtual computer that can do anything if you have enough gas and memory. But some of the things that make it the most advanced, will hold it back from being the best choice.
Turing completeness means that the programming language is complete (can describe any problem) and can solve any problem given that there is enough gas to pay for it and enough memory to run the code. You could therefore, create an infinite variety of different smart contracts. This infinite variability makes it impossible to create zk-SNARK verifiers efficiently enough to not cost more gas than is currently available in the block. Implementing zk-SNARKs in Ethereum would therefore require significant changes to the smart contract structure to only allow a small subset of contracts to permit zk-SNARK transactions. That would mean a wholesale change to the Ethereum Virtual Machine. Even in Zcash, where zk-SNARK is successfully implemented for a single, simple transaction type, they had to encode some of the network’s consensus rules into zk-SNARKs to limit the possible outcomes of the proof (Like changing the question of where are you in the US to where are you in the US along these given highways) to limit the computation time required to construct the proof.
Previously I wrote about how INT is using the Double Chain Consensus algorithm to allow easy scaling, segregation of network traffic and blockchain size by breaking the network down into separate cells, each with their own nodes and blockchains. This is building on lessons learned from single chain blockchains like Bitcoin. Ethereum, which is also a single chain blockchain, also suffers from these congestion issues as we have seen from the latest Cryptokitties craze. Although far less of an impact than that which has been seen with Bitcoin, transaction times grew as did the fees associated. Ethereum has proposed a new, second layer solution to solve the scaling issue: Sharding. Sharding draws from the traditional scaling technique called database sharding, which splits up pieces of a database and stores them on separate servers where each server points to the other. The goal of this is to have distinct nodes that store and verify a small set of transactions then tie them up to a larger chain, where all the other nodes communicate. If a node needs to know about a transaction on another chain, it finds another node with that information. What does this sound like? This is as close to an explanation of the Double Chain architecture as to what INT themselves provided in their whitepaper.
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-Scalability – Neutral, has current struggles but there are some proposals to fix this
-Applicability – Medium, has endless smart contract possibilities, no privacy currently with some proposals to fix this
-Interoperability – Maybe, Oracle possibility
-Consensus – Medium, PoW currently with proposals to change to better scaling and future proofing.
-Developability – To be seen
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IoTeX
A young project, made up of several accredited academics in cryptography, machine learning and data security. This is one of the most technically supported whitepapers I have read.They set out to solve scalability in the relay/subchain architecture proposed by Polkadot and used by INT. This architecture lends well to scaling and adaptability, as there is no end to the amount of subchains you can add to the network, given node and consensus bandwidth.
The way they look to address privacy is interesting. On the main parent (or relay) chain, they plan on implementing some of the technology from Monero, namely, ring signatures, bulletproofs and stealth addresses. While these are proven and respected technologies, this presents some worries as these techniques are known to not be lightweight and it takes away from the inherent generality of the core of the network. I believe the core should be as general and lightweight as possible to allow for scaling, ease of update, and adaptability. With adding this functionality, all data and transactions are made private and untraceable and therefore put through heavier computation. There are some applications where this is not optimal. A data stream may need to be read from many devices where encrypting it requires decryption for every use. A plain, public and traceable network would allow this simple use. This specificity should be made at the subchain level.
Subchains will have the ability to define their needs in terms of block times, smart contracting needs, etc. This lends to high applicability.
They address interoperability directly by laying out the framework for pegging (transaction on one chain causing a transaction on another), and cross-chain communication.
They do not address anywhere in the whitepaper the storage of data in the network. IoT devices will not be transaction only devices, they will need to maintain data, transmit data and query data. Without the ability to do so, the network will be crippled in its application.
IoTeX will use a variation of DPoS as the consensus mechanism. They are not specific on how this mechanism will work with no talk of data flow and node communication diagram. This will be their biggest hurdle and why I believe it was left out of the white paper. Cryptography and theory is easy to elaborate on within each specific subject but tying it all together, subchains with smart contracts, transacting with other side chains, with ring signatures, bulletproofs and stealth addresses on the main chain, will be a challenge that I am not sure can be done efficiently.
They may be well positioned to make this work but you are talking about having some of the core concepts of your network being based on problems that haven’t been solved and computationally heavy technologies, namely private transactions within smart contracts. So while all the theory and technical explanations make my pants tight, the realist in me will believe it when he sees it.
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-Scalability – Neutral to medium, has the framework to address it with some issues that will hold it back.
-Applicability – Medium, has smart contract possibilities, privacy baked into network, no data framework
-Interoperability – Medium, inherent in the network design
-Consensus – Low, inherent private transactions may choke network. Consensus mechanism not at all laid out.
-Developability – To be seen, not mentioned.
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CPChain
CPC puts a lot of their focus on data storage. They recognize that one of the core needs of an IoT network will be the ability to quickly store and reference large amounts of data and that this has to be separate from the transactional basis of the network as to not slow it down. They propose solving this using distributed hash tables (DHT) in the same fashion as INT, which stores data in a decentralized fashion so no one source owns the complete record. This system is much the same as the one used by BitTorrent, which allows data to be available regardless of which nodes will be online at a given time. The data privacy issue is solved by using client side encryption with one-to-many public key cryptography allowing many devices to decrypt a singly encrypted file while no two devices share the same key.
This data layer will be run on a separate, parallel chain as to not clog the network and to enable scalability. In spite of this, they don’t discuss how they will scale on the main chain. In order to partially solve this, it will use a two layer consensus structure centered on PoS to increase consensus efficiency. This two layer system will still require the main layer to do the entirety of the verification and block generation. This will be a scaling issue where the network will have no division of labor to segregate congestion to not affect the whole network.
They do recognize that the main chain would not be robust or reliable enough to handle high frequency or real-time devices and therefore propose side chains for those device types. Despite this, they are adding a significant amount of functionality (smart contracts, data interpretation) to the main chain instead of a more general and light weight main chain, which constrains the possible applications for the network and also makes it more difficult to upgrade the network.
So while this project, on the surface level (not very technical whitepaper), seems to be a robust and well thought out framework, it doesn’t lend itself to an all-encompassing IoT network but more for a narrower, data centric, IoT application.
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-Scalability – Neutral to medium, has the framework to address it somewhat, too much responsibility and functionality on the main chain may slow it down.
-Applicability – Medium, has smart contract possibilities, elaborate data storage solution with privacy in mind as well has high frequency applications thought out
-Interoperability – Low, not discussed
-Consensus – Low to medium, discussed solution has high reliance on single chain
-Developability – To be seen, not mentioned.
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ITC
The whitepaper reads like someone just grabbed some of the big hitters in crypto buzzword bingo and threw them in there and explained what they were using Wikipedia. It says nothing about how they will tie it all together, economically incentivize the security of the network or maintain the data structures. I have a feeling none of them actually have any idea how to do any of this. For Christ sake they explain blockchain as the core of the “Solutions” portion of their whitepaper. This project is not worth any more analysis.
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RuffChain
Centralization and trust. Not very well thought out at this stage. DPoS consensus on a single chain. Not much more than that.
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WaltonChain
Waltonchain focuses on tracking and validating the manufacture and shipping of items using RFID technology. The structure will have a main chain/subchain framework, which will allow the network to segregate traffic and infinitely scale by the addition of subchains given available nodes and main chain bandwidth.
DPoST (Stake & Trust) will be the core of their consensus mechanism, which adds trust to the traditional staking structure. This trust is based on the age of the coins in the staker’s node. The longer that node has held the coins, combined with the amount of coins held, the more likely that node will be elected to create the block. I am not sure how I feel about this but generally dislike trust.
Waltonchain's framework will also allow smart contracts on the main chain. Again, this level of main chain specificity worries me at scale and difficulty in upgrading. This smart contract core also does not lend itself to private transactions. In this small subset of IoT ecosystem, that does not matter as the whole basis of tracking is open and public records.
The whitepaper is not very technical so I cannot comment to their technical completeness or exact implementation strategy.
This implementation of the relay/subchain framework is a very narrow and under-utilized application. As I said before, WTC may someday just be one part of a larger IoT ecosystem while interacting with another IoT network. This will not be an all-encompassing network.
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-Scalability – High, main/subchain framework infinitely scales
-Applicability – Low to medium, their application is narrow
-Interoperability – Medium, the framework will allow it seamlessly
-Consensus – Neutral, should not choke the network but adds trust to the equation
-Developability – N/A, this is a more centralized project and development will likely be with the WTC
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VeChain
\*Let me preface this by saying I realize there is a place for centralized, corporatized, non-open source projects in this space.* Although I know this project is focused mainly on wider, more general business uses for blockchain, I was requested to include it in this analysis. I have edited my original comment as it was more opinionated and therefore determined not to be productive to the conversation. If you would like to get a feel for my opinion, the original text is in the comments below.\**
This project doesn't have much data to go off as the white paper does not contain much technical detail. It is focused on how they are positioning themselves to enable wider adoption of blockchain technology in the corporate ecosystem.
They also spend a fair amount of time covering their node structure and planned governance. What this reveals is a PoS and PoA combined system with levels of nodes and related reward. Several of the node types require KYC (Know Your Customer) to establish trust in order to be part of the block creating pool.
Again there is not much technically that we can glean from this whitepaper. What is known is that this is not directed at a IoT market and will be a PoS and PoA Ethereum-like network with trusted node setup.
I will leave out the grading points as there is not enough information to properly determine where they are at.
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INT
So under this same lens, how does INT stack up? INT borrows their framework from Polkadot, which is a relay/subchain architecture. This framework allows for infinite scaling by the addition of subchains given available nodes and relay chain bandwidth. Custom functionality in subchains allows the one setting up the subchain to define the requirements, be it private transactions, state transaction free data chain, smart contracts, etc. This also lends to endless applicability. The main chain is inherently simple in it’s functionality as to not restrict any uses or future updates in technology or advances.
The consensus structure also takes a novel two-tiered approach in separating validating from block generation in an effort to further enable scaling by removing the block generation choke point from the side chains to the central relay chain. This leaves the subchain nodes to only validate transactions with a light DPoS allowing a free flowing transaction highway.
INT also recognizes the strong need for an IoT network to have robust and efficient data handling and storage. They are utilizing a decentralize storage system using DHT much like the BitTorrent system. This combined with the network implementation of all of the communication protocols (TCP/IP, UDP/IP, MANET) build the framework of a network that will effortlessly integrate any device type for any application.
The multi-chain framework easily accommodates interoperability between established networks like the Internet and enables pegging with other blockchains with a few simple transaction type inclusions. With this cross chain communication, manufactures wouldn’t have to negotiate their needs to fit an established blockchain, they could create their own subchain to fit their needs and interact with the greater network through the relay.
The team also understands the development hurdles facing the environment. They plan to solve this by standardizing requirements for communication and data exchange. They have heavy ties with several manufacturers and are currently developing a IoT router to be the gateway to the network.
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-Scalability – High, relay/subchain framework enables infinite scalability
-Applicability – High, highest I could find for IoT. Subchains can be created for every possible application.
-Interoperability – High, able to add established networks for data support and cross chain transactions
-Consensus – High, the only structure that separates the two responsibilities of verifying and block generation to further enable scaling and not choke applicability.
-Developability – Medium, network is set up for ease of development with well-known language and subchain capability. Already working with device manufacturers. To be seen.
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So with all that said, INT may be in the best place to tackle this space with their chosen framework and philosophy. They set out to accomplish more than WTC or VEN in a network that is better equipped than IOTA or Ethereum. If they can excecute on what they have laid out, there is no reason that they won’t become the market leader, easily overtaking the market cap of VeChain ($2.5Bn, $10 INT) in the short term and IOTA ($7Bn, $28 INT) in the medium term.
submitted by Graytrain to INT_Chain [link] [comments]

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Cryptocurrencies, Bitcoin and blockchain are terms that are becoming more widely used but do we know exactly what the blockchain is or how Bitcoin works? Both terms are very closely related because blockchain is the technology used to authenticate and record transactions in cryptocurrencies of which Bitcoin is the best-known example. Both attributes have been added to Bootstrap CDN to implement Subresource Integrity.. Subresource Integrity defines a mechanism by which user agents may verify that a fetched resource has been delivered without unexpected manipulation Reference. Integrity attribute is to allow the browser to check the file source to ensure that the code is never loaded if the source has been manipulated. Stack Exchange network consists of 176 Q&A communities including Stack Overflow, the largest, most trusted online community for developers to learn, share their knowledge, and build their careers.. Visit Stack Exchange I.e. when will I be "caught" if I change the contents of an old block (and thus break the hash cha... Stack Exchange Network. Stack Exchange network consists of 176 Q&A communities including Stack Overflow, the largest, most trusted online community for developers to learn, share their knowledge, and build their careers. Visit Stack Exchange. Loading… 0 +0; Tour Start here for a quick ... A private blockchain is a blockchain that has an access control layer built into the protocol [1]. This means the network participants have control over who can join the network, and who can…

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Bitcoin Q&A: Block height, syncing, and validation

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