Blockchain

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A visual demonstration of how blockchain works. Source: https://www.g2.com/categories/blockchain

A blockchain is a distributed ledger that can be used to record transactions in a transparent, immutable, and verifiable way. Blockchains function as decentralized databases, but instead of storing data in tables they store data in blocks. Each block stores the applicable data, a reference to the previous block, and a timestamp. A new block is appended to the previous block, and this linearly builds the “blockchain.”[1]

Blockchain was first widely introduced to the world in 2008 when a mysterious figure named Satoshi Nakamoto, whose identity is still unknown, published a whitepaper Bitcoin: A Peer-to-Peer Electronic Cash System.[2] Bitcoin was then released to the open-source community in 2009. Although blockchain made its technological debut with Bitcoin, it’s applicable to many fields beyond just cryptocurrency. The properties that blockchain provides makes it a valuable option whenever transparency, verifiability, and immutability are beneficial, and in the last decade the use cases of blockchain have grown quickly.

Implementation

A blockchain is built on the existing technological foundations of private key cryptography and distributed systems.[3] These help resolve two of the fundamental problems of any secure system: authentication and authorization. A user’s private key and the cryptographic public key combine to create a digital signature that can be used for ownership and authentication. For authorization, a peer-to-peer distributed network of node computers is used to approve transactions and add to the blockchain.[3]

Decentralization

Instead of one company or group owning and controlling the computers that stores the data, blockchain uses a decentralized approach. A blockchain ledger is stored on thousands of computers around the globe that are operated by different groups and individuals. These computers are called nodes, and together they form a peer-to-peer network that is able to moderate and authorize transactions on the blockchain without one person having the ultimate say.[1]

This large network of different actors lends trust to the information that is stored in a blockchain. A blockchain allows you to see all of the different transactions by tracing from each block to the previous block until the root block is reached. Once a block is added to the chain, it is not allowed to be modified. In order to change the transaction within that block, another block must be appended to the chain. [3]

A distributed network prevents one bad actor or node outage from destroying the validity of the whole chain. If one node has different information than the other nodes, it can use the other nodes as a reference to correct it information. This creates where chains that different from those held by the majority are cast away and determined to be illegitimate.[1]

Use Cases

Although the linked list technology behind blockchain is no longer novel, having gained popularity as the core driver behind cryptocurrency with the introduction of Bitcoin in 2008, its application as a transparent and immutable ledger in other fields is still limited.[2] Potential solutions utilizing blockchain technology exist for many areas such as the Internet of Things (IoT), energy, finance, healthcare, and government.[4]

Cryptocurrency

Most cryptocurrency systems are built on blockchain. Bitcoin, the first platform built on blockchain in 2009 and the most popular cryptocurrency, recently reached a market cap of 1 trillion dollars. All forms of cryptocurrencies combined have a market cap of 1.7 trillion.[5] One bitcoin currently costs over $50,000.

Beeple's digital art piece which just sold for over $69 million. Source: https://www.npr.org/2021/03/11/976141522/beeple-jpg-file-sells-for-69-million-setting-crypto-art-record

Non-Fungible Tokens

Non-fungible tokens, abbreviated as NFTs, are one-of-a-kind units of currency. No two NFTs are the same, even on the same platform, and being “non-fungible” means they cannot be exchanged for something else of equal value, like a bitcoin for a bitcoin or a dollar for a dollar.[6] NFTs have been applied to a wide range of objects like artwork, trading cards, and music. In purchasing an NFT, you’re purchasing something that is guaranteed to be authentic. Physical art can be forged, luxury designers can be knocked-off, but NFTs will always have a clear origin and owner.

Digital Art

NFT art is increasingly becoming more popular and mainstream. The artist Grimes recently sold 6 million dollars worth of art that included images and videos set to music. [7] The famous auction house Christie’s just offered their first piece of purely digital art for sale by the popular digital artist Beeple, titled Everydays: The First 5000 Days.[8] The piece sold for 6.6 million dollars.[9]

Digital Collectibles

Collectible items that used to be physical property are continuing to go digital. NBA Top Shot, which is backed by the NBA itself, allows users to acquire digital trading cards that are produced in limited numbers and are dropped in packs.[10] Due to the artificial scarcity of some of the cards and the fact that they are verifiable by being NFTs, cards hold value and can often quickly and easily sell for more than they were purchased for. One card of Lebron James dunking sold for $208,000.[10]

Identity Management

Since blockchain technology can facilitate accountability through the consistent and distributed storage of information, another practical application of the technology is identity management.[11] Additionally, blockchain offers a decentralized environment without third-party authority, which traditionally has access to or control of the data, so trust is not required between entities. Contemporary identity authentication systems afford users the convenience of carrying their personal data or credentials on their mobile devices or hardware tokens, which can then be validated against the data stored on a trusted blockchain service.[12]

Access and control is achieved using blockchain-issued cryptographic credentials and the use of a '’show and present protocol such as the Attribute Based Credential (ABC), which does not require revealing personal data, and instead enables the validation of ownership for credentials associated with the data, often referred to as a zero-knowledge proof.[12]

Medical Records Management

The healthcare industry is regulated by rigid legal and security requirements due to the private nature of consumer healthcare data. Despite the proliferation of cloud computing and distributed systems, many Electronic Health Record (EHR) systems still rely on a centralized approach to storing the data.[13] Blockchain technology has the potential to change this by shifting the management of medical records away from established centralized models, where healthcare networks manage patient data and exercise control over it, to one offering individuals control over their healthcare data and promoting increased privacy, accountability and trust.[13]

Regulatory Attempts

Many countries are currently discussing how to regulate the blockchain industry. Two of the significant questions that surround regulation are “Who should regulate?” and “How should it be regulated?"[14] The United States, the second largest market for cryptocurrencies, is one of the actors that is trying resolve the ambiguity regarding the categorization of blockchain legislatively and financially. The Securities and Exchange Commission (SEC) categorizes cryptocurrencies as a marketable security, whereas The Commodity Futures Trading Commission (CFTC) classifies cryptocurrencies as a commodity. [15] While the legal framework for blockchain has not yet been determined by most countries, some have started to build an applicable framework. As of March 19th, 2021, Switzerland, Singapore, Japan and South Korea have recognized Bitcoin as a legal tender and exchanges on a blockchain to be legal. However, certain countries like China and United Kingdom do not view Bitcoin or other cryptocurrencies as a legal tender.[15] In the absence of a consensus regarding the legal framework for cryptocurrencies, it is unclear how cross-border exchanges, transactions in which one party of the transaction does not recognize cryptocurrencies as legal whereas the other party fully acknowledges the legality, will take place.

Ethical Considerations

Bitcoin is among the top thirty energy users in the world. Source: https://www.bbc.com/news/technology-56012952

Blockchain was created to solve many of the issues that come with the consolidation of power in centralized technology.However, as a relatively new but quickly booming technology, ethical implications associated with blockchain remains to be unclear.

Energy Usage

The way many blockchain systems, like bitcoin, have been set up is incredibly energy dependent. Blocks are added to the bitcoin ledger through a process called mining, and the computer that mines the bitcoin is rewarded. As this mining can generate lots of revenue, thousands of computers across the globe are constantly running energy-intensive machines in an attempt to mine. Most of these computers are getting their energy from networks that heavily rely on fossil fuels. Due to all of these energy-dependent computational systems, bitcoin alone has a carbon footprint equal to that of New Zealand and uses more electrical energy than Argentina.[16][17] The energy that is required to verify transactions makes blockchain a less environmentally friendly option than traditional methods.

Cryptocurrencies and Criminal Activity

Ever since the popularity of cryptocurrencies gathered media attention, concerns surrounding cryptocurrencies involvement in criminal activities grew more. On December 9, 2020, Reuters published an article highlighting the problem regarding cryptocurrencies and their involvement in criminal activities. Some examples of these activities include money laundering, financing terrorism and financing black-market activities. While law enforcement all around the world is becoming more experienced with tracking the flow of funds, it was reported that at least 13% of all criminal proceeds passed through a privacy wallet, the hardest form of blockchain ledger to track, in 2020, per Reuters.[18] Similarly, Simon Dyson and William Buchanan, both professors at Edinburgh Napier University, articulate in their paper that in order to protect anonymity and escape law enforcement, people are now adding additional anonymisation layers in order to conceal the amount as well as the intended recipient of their transactions[19]. The installment of additional layers makes it extremely difficult for law-enforcement to catch these criminals. While this problem is evident, the solution as well as the mitigation of ethical problems remains to be unclear. Both Dyson and Buchanan believe that this increasing trend to conceal identity is likely to continue and will require regulation at one point.[20] That point, however, also remains unclear at the moment.

References

  1. 1.0 1.1 1.2 Conway, Luke. “Blockchain Explained.” Investopedia, Investopedia, 18 Nov. 2020, www.investopedia.com/terms/b/blockchain.asp.
  2. 2.0 2.1 Marr, Bernard. “A Very Brief History Of Blockchain Technology Everyone Should Read.” Forbes, Forbes Magazine, 20 Mar. 2018, www.forbes.com/sites/bernardmarr/2018/02/16/a-very-brief-history-of-blockchain-technology-everyone-should-read/?sh=421a941a7bc4.
  3. 3.0 3.1 3.2 Bauerle, Nolan. “Blockchain 101.” CoinDesk, CoinDesk, 9 Mar. 2017, www.coindesk.com/learn/blockchain-101/how-does-blockchain-technology-work.
  4. Abou Jaoude, J., & George Saade, R. (2019). Blockchain applications – usage in different domains. IEEE Access, 7, 45360-45381. doi:10.1109/access.2019.2902501
  5. Reuters. “Bitcoin Hits $1 Trillion Market Cap, Surges above $56,000.” The Economic Times, Economic Times, 20 Feb. 2021, economictimes.indiatimes.com/markets/stocks/news/bitcoin-hits-1-trillion-market-cap-surges-above-55000/articleshow/81121700.cms.
  6. Allyn, Bobby. “What's An NFT? And Why Are People Paying Millions To Buy Them?” NPR, NPR, 6 Mar. 2021, www.npr.org/2021/03/05/974089381/whats-an-nft-and-why-are-people-paying-millions-to-buy-them.
  7. Kastrenakes, Jacob. “Grimes Sold $6 Million Worth of Digital Art as NFTs.” The Verge, The Verge, 1 Mar. 2021, www.theverge.com/2021/3/1/22308075/grimes-nft-6-million-sales-nifty-gateway-warnymph.
  8. “Beeple's Masterwork: the First Purely Digital Artwork Offered at Christie's.” Christie's, Christie's, 12 Feb. 2021, www.christies.com/features/Monumental-collage-by-Beeple-is-first-purely-digital-artwork-NFT-to-come-to-auction-11510-7.aspx.
  9. Reyburn, Scott. “JPG File Sells for $69 Million, as 'NFT Mania' Gathers Pace.” The New York Times, The New York Times, 11 Mar. 2021, www.nytimes.com/2021/03/11/arts/design/nft-auction-christies-beeple.html.
  10. 10.0 10.1 Fernandez Mar 2, Gabriel. “NBA Top Shot: Everything You Need to Know about 'next Level Collectibles' and What It Means for the League.” CBSSports.com, 2 Mar. 2021, www.cbssports.com/nba/news/nba-top-shot-everything-you-need-to-know-about-next-level-collectibles-and-what-it-means-for-the-league/.
  11. Chow, S. S., Choo, K. R., & Han, J. (2021). Editorial for accountability and privacy issues in blockchain and cryptocurrency. Future Generation Computer Systems, 114, 647-648. doi:10.1016/j.future.2020.08.039
  12. 12.0 12.1 Sarier, N. D. (2021). Comments on biometric-based non-transferable credentials and their application in blockchain-based identity management. Computers & Security, 105, 102243. doi:10.1016/j.cose.2021.102243
  13. 13.0 13.1 Miyachi, K., & Mackey, T. K. (2021). Hocbs: A privacy-preserving blockchain framework for healthcare data leveraging an on-chain and off-chain system design. Information Processing & Management, 58(3), 102535. doi:10.1016/j.ipm.2021.102535
  14. Sharma, R. (2020, December 08). Bitcoin has a regulation problem. Retrieved March 19, 2021, from https://www.investopedia.com/news/bitcoin-has-regulation-problem/
  15. “Bitcoin Energy Consumption Index.” Digiconomist, 7 Mar. 2021, digiconomist.net/bitcoin-energy-consumption.
  16. Criddle, Cristina. “Bitcoin Consumes 'More Electricity than Argentina'.” BBC News, BBC, 10 Feb. 2021, www.bbc.com/news/technology-56012952.
  17. Irrera, A. (2020, December 09). Criminals getting smarter in use of digital currencies to launder money. Retrieved March 19, 2021, from https://www.reuters.com/article/crypto-currencies-criminals/criminals-getting-smarter-in-use-of-digital-currencies-to-launder-money-idUSKBN28J1IX
  18. Dyson, S., & Buchanan, W. J. (2019, July 29). The Challenges of Investigating Cryptocurrencies and Blockchain Related Crime. Retrieved March 19, 2021, from https://arxiv.org/pdf/1907.12221.pdf
  19. Dyson, S., & Buchanan, W. J. (2019, July 29). The Challenges of Investigating Cryptocurrencies and Blockchain Related Crime. Retrieved March 19, 2021, from https://arxiv.org/pdf/1907.12221.pdf