How the Metaverse Empowers Users to Build a New Digital Economy

To better understand this new digital horizon, first, forget about the VR headset. It’s optional.

Text: Rosemary Heather
Illustrations: Connor Willumsen
November 17, 2022

Maybe you got your first impression of the metaverse from Meta founder Mark Zuckerberg’s awkward demonstrations. Donning the Oculus virtual reality headset, Zuckerberg presented the metaverse as an immersive digital social landscape where, in his words, “you’ll be able to sit as a hologram on my couch, or I’ll be able to sit as a hologram on your couch.” Reaching only as far as a virtual reality Second Life, the tech billionaire omitted what is both exciting and concerning for anyone invested in our newest digital horizon. What does the metaverse mean for our creative lives and professions?

In his book The Metaverse and How it Will Revolutionize Everything (2022), author and venture capitalist Matthew Ball suggests that the metaverse is best understood as an evolution of massive multiplayer online (MMO) games like Roblox or Fortnite. With huge user bases, these MMOs thrive without the use of virtual reality. World of Warcraft boasts over 100 million players. Minecraft welcomes 130 millions players every month. The concurrent player record for Fortnite was 78 million of its 350 million registered users worldwide. The population of these games equal the planet’s largest countries and earn revenues to rival the most successful companies on Earth. 

Players in these games are building worlds and are protagonists in their own stories. In Fortnite, you fight to be the last player standing. Minecraft offers a different kind of survival game—acquire resources to build or perish. Social media—Facebook, etc.—likewise, are powered by user agency in an online world. Together, MMOs and social media form the pistons and engine of the 21st century economy.

Ball defines the metaverse as a series of interconnected online worlds “that can be experienced synchronously and persistently by an…unlimited number of users”. MMOs lay the groundwork for this. Ball discusses rapper Travis Scott’s 2020 concert in Fortnite. Attended by 28 million users, the 10-minute long show gives a foretaste of what the metaverse might be like. MMO events can take place at a massive scale, with real world effects. Scott debuted a new song during the show, which subsequently went to #1 on the Billboard charts. Ball describes the technical workarounds Fortnite used to make the concert possible. (Attendees were actually split between 250,000 copies of the event.) All MMOs have ways to accommodate this challenge of player concurrency. It’s one of the many problems that must be solved before the metaverse becomes a reality.

Bigger picture, the metaverse—this series of interconnected online worlds—will happen when another technical challenge is solved. Herman Narula, co-founder of metaverse technology company Improbable and author of Virtual Society: The Metaverse and the New Frontiers of Human Society says that to be viable “the metaverse has to involve experiences in which value is exchanged from one world to another.” That is, starting with MMO games and their economies, the economic systems of other online entities, like Amazon, plus other entities yet to exist, at the point when these entities interact with each other, the metaverse will be born. Connecting all of these worlds will be digital assets like cryptocurrency, and other non-monetary forms of digital tokens. The metaverse, in other words, is a use case for the digital asset economy. While speculation drives the crypto economy today, crypto-based play-to-earn games like Axie Infinity point to the future of digital assets online. Axie players buy, earn and trade an in-game cryptocurrency, which they can cash-out to fiat after a two-week holding period. In the metaverse, online environments will “talk” to each other, players being able to earn, spend and transfer currency from one world to another. For instance, online vendors could earn crypto selling in-game apparel and then spend that money on, say, Spanish lessons elsewhere in the metaverse.

Virtual environments need to be populated with all manner of virtual assets, thus marketplaces emerge for developers to contribute and earn passive income as they build and populate these worlds. However, the potential of the metaverse extends beyond in-game purchases, or the trading of assets via an online exchange. Narula, calls the metaverse “the internet of experiences”, and though these experiences require value exchanges, they need not replicate what is already available in the gaming world. Narula states, “any valuable metaverse strategy has got to involve experiences that are not currently extant in video games.”

What the online experiences that constitute the metaverse will look like is anyone’s guess, but at their core is the same open-source ethos and chain of accountability that powers cryptocurrencies and blockchain technology. Far from the dystopia described by author Neal Stephenson, who coined the term ‘metaverse’, these emerging worlds will center on, in William Ball’s words, “collaboration, creativity, and self-expression.” 

From the beginning, the online world thrived because of its users. Technologists provided the tools, but internet users truly built the internet. The build-out of the metaverse will follow a similar path. While providing payment rails for this world, blockchain technology offers added benefits for users. The peer-to-peer transactions blockchain makes possible gives users much more agency than is possible in Web2. Open source tools combined with blockchain will create a user-owner internet—i.e. Web3, perhaps a better term than the metaverse to describe the next era of the internet.

Original text can be found here. Commissioned by Sebastian Frye @ East Room

What is Blockchain Technology? A Step-by-Step Guide For Beginners

Is blockchain technology the new internet?
The blockchain is an undeniably ingenious invention – the brainchild of a person or group of people known by the pseudonym Satoshi Nakamoto.

By allowing digital information to be distributed but not copied, blockchains create the backbone of a new type of internet. Originally devised for the digital currency, Bitcoin, the tech community is now finding other potential uses for the technology.

Bitcoin has been called “digital gold”, and for good reason. To date, the total value of currency is close to $9 billion US. And blockchains can make other types of digital value. Like the internet (or your car), you don’t need to know how the blockchain works to use it. However, having a basic knowledge of this new technology shows why it’s considered revolutionary.

“The blockchain is an incorruptible digital ledger of economic transactions that can be programmed to record not just financial transactions but virtually everything of value.”

Don & Alex Tapscott, authors Blockchain Revolution (2016)

A distributed database
Picture a spreadsheet that is duplicated thousands of times across a network of computers. Then imagine that this network is designed to regularly update this spreadsheet and you have a basic understanding of the blockchain.

Information held on a blockchain exists as a shared — and continually reconciled — database. This is a way of using the network that has obvious benefits. The blockchain database isn’t stored in any single location, meaning the records it keeps are truly public and easily verifiable. No centralized version of this information exists for a hacker to corrupt. Hosted by millions of computers simultaneously, its data is accessible to anyone on the internet.

To go in deeper with the google spreadsheet analogy I would like you to read this piece from a blockchain specialist.

Blockchain as Google Docs
“The traditional way of sharing documents with collaboration is to send a Microsoft Word document to another recipient, and ask them to make revisions to it. The problem with that scenario is that you need to wait until receiving a return copy before you can see or make other changes, because you are locked out of editing it until the other person is done with it. That’s how databases work today. Two owners can’t be messing with the same record at once.That’s how banks maintain money balances and transfers; they briefly lock access (or decrease the balance) while they make a transfer, then update the other side, then re-open access (or update again).

With Google Docs (or Google Sheets), both parties have access to the same document at the same time, and the single version of that document is always visible to both of them. It is like a shared ledger, but it is a shared document. The distributed part comes into play when sharing involves a number of people.

Imagine the number of legal documents that should be used that way. Instead of passing them to each other, losing track of versions, and not being in sync with the other version, why can’t *all* business documents become shared instead of transferred back and forth? So many types of legal contracts would be ideal for that kind of workflow.

You don’t need a blockchain to share documents, but the shared documents analogy is a powerful one.”

William Mougayar, author The Business Blockchain (2016)


Durability and robustness
Blockchain technology is like the internet in that it has a built-in robustness. By storing blocks of information that are identical across its network, the blockchain cannot:

  1. Be controlled by any single entity.
  2. Has no single point of failure.

Bitcoin was invented in 2008. Since that time, the Bitcoin blockchain has operated without significant disruption. (To date, any of problems associated with Bitcoin have been due to hacking or mismanagement. In other words, these problems come from bad intention and human error, not flaws in the underlying concepts.)

The internet itself has proven to be durable for almost 30 years. It’s a track record that bodes well for blockchain technology as it continues to be developed.

Transparent and incorruptible
The blockchain network lives in a state of consensus, one that automatically checks in with itself every ten minutes. A kind of self-auditing ecosystem of digital value, the network reconciles every transaction that happens in ten minute intervals. Each group of these transactions is referred to as a “block”. Two important properties result from this:

  1. Transparency
    data is embedded within network as a whole, by definition it is public.
  2. It cannot be corrupted
    altering any unit of information on the blockchain would mean using a huge amount of computing power to override the entire network.

In theory, this could be possible. In practice, it’s unlikely to happen. Taking control of the system to capture Bitcoins, for instance, would also have the effect of destroying their value.

“Blockchain solves the problem of manipulation. When I speak about it in the West, people say they trust Google, Facebook, or their banks. But the rest of the world doesn’t trust organizations and corporations that much — I mean Africa, India, the Eastern Europe, or Russia. It’s not about the places where people are really rich. Blockchain’s opportunities are the highest in the countries that haven’t reached that level yet.”

Vitalik Buterin, inventor of Ethereum

A network of nodes
A network of so-called computing “nodes” make up the blockchain.





(computer connected to the blockchain network using a client that performs the task of validating and relaying transactions) gets a copy of the blockchain, which gets downloaded automatically upon joining the blockchain network.

Together nodes create a powerful second-level network, a wholly different vision for how the internet can function.

Every node is an “administrator” of the blockchain, and joins the network voluntarily (in this sense, the network is decentralized). However, each one has an incentive for participating on the network: the chance of winning Bitcoins.

Nodes are said to be “mining” Bitcoin, but the term is something of a misnomer. In fact, each one is competing to win Bitcoins by solving computational puzzles. Bitcoin was the raison d’etre of the blockchain as it was originally conceived. It’s now recognized to be only the first of many potential applications of the technology.

There are an estimated 700 Bitcoin-like cryptocurrencies (exchangeable value tokens) already available. As well, a range of other potential adaptations of the original blockchain concept are currently active, or in development.

“Bitcoin has the same character a fax machine had. A single fax machine is a doorstop. A world where everyone has a fax machine is an immensely valuable thing.”

Larry Summers, Former US Secretary of the Treasury

The idea of decentralization
By design, the blockchain is a decentralized technology.

Anything that happens on it is a function of the network as a whole. Some important implications stem from this. By creating a new way to verify transactions aspects of traditional commerce could become unnecessary. Stock market trades become almost simultaneous on the blockchain, for instance — or it could make types of record keeping, like a land registry, fully public. And decentralization is already a reality.

A global network of computers use blockchain technology to jointly manage the database that records Bitcoin transactions. That is, Bitcoin is managed by its network, and not any one central authority. Decentralization means the network operates on a user-to-user (or peer-to-peer) basis. The forms of mass collaboration this makes possible are just beginning to be investigated.

“I think decentralized networks will be the next huge wave in technology.”

Melanie Swan, author Blockchain: Blueprint for a New Economy (2015)

Who will use the blockchain?
As web infrastructure, you don’t need to know about the blockchain for it to be useful in your life.

Currently, finance offers the strongest use cases for the technology. International remittances, for instance. The World Bank estimates that over $430 billion US in money transfers were sent in 2015.

The blockchain potentially cuts out the middleman for these types of transactions. Personal computing became accessible to the general public with the invention of the Graphical User Interface (GUI), which took the form of a “desktop”. Similarly, the most common GUI devised for the blockchain are the so-called “wallet” applications, which people use to buy things with Bitcoin, and store it along with other cryptocurrencies.

Transactions online are closely connected to the processes of identity verification. It is easy to imagine that wallet apps will transform in the coming years to include other types of identity management.

“Online identity and reputation will be decentralized. We will own the data that belongs to us.”

William Mougayar, Venture advisor, 4x entrepreneur, marketer & strategist. 

Enhanced security
By storing data across its network, the blockchain eliminates the risks that come with data being held centrally.

Its network lacks centralized points of vulnerability that computer hackers can exploit. Today’s internet has security problems that are familiar to everyone. We all rely on the “username/password” system to protect our identity and assets online. Blockchain security methods use encryption technology.

The basis for this are the so-called public and private “keys”. A “public key” (a long, randomly-generated string of numbers) is a users’ address on the blockchain. Bitcoins sent across the network gets recorded as belonging to that address. The “private key” is like a password that gives its owner access to their Bitcoin or other digital assets. Store your data on the blockchain and it is incorruptible. This is true, although protecting your digital assets will also require safeguarding of your private key by printing it out, creating what’s referred to as a paper wallet.


A second-level network
With blockchain technology, the web gains a new layer of functionality.

Already, users can transact directly with one another — Bitcoin transactions in 2016 averaged over $200,000 US per day. With the added security brought by the blockchain new internet business are on track to unbundle the traditional institutions of finance.

Goldman Sachs believes that blockchain technology holds great potential especially to optimize clearing and settlements, and could represent global savings of up to $6bn per year.

Web 3.0
The blockchain gives internet users the ability to create value and authenticate digital information. What new business applications will result?

Smart contracts
Distributed ledgers enable the coding of simple contracts that will execute when specified conditions are met. Ethereum is an open source blockchain project that was built specifically to realize this possibility. Still in its early stages, Ethereum has the potential to leverage the usefulness of blockchains on a truly world changing scale.

At the technology’s current level of development, smart contracts can be programmed to perform simple functions. For instance, a derivative could be paid out when a financial instrument meets certain benchmark, with the use of blockchain technology and Bitcoin enabling the payout to be automated.

The sharing economy
With companies like Uber and AirBnB flourishing, the sharing economy is already a proven success. Currently, however, users who want to hail a ride-sharing service have to rely on an intermediary like Uber. By enabling peer-to-peer payments, the blockchain opens the door to direct interaction between parties — a truly decentralized sharing economy results.

An early example, OpenBazaar uses the blockchain to create a peer-to-peer eBay. Download the app onto your computing device and you can transact with OpenBazzar vendors without paying transaction fees. The “no rules” ethos of the protocol means that personal reputation will be even more important to business interactions than it currently is on eBay.

Crowd funding initiatives like Kickstarter and Gofundme are doing the advance work for the emerging peer-to-peer economy. The popularity of these sites suggests people want to have a direct say in product development. Blockchains take this interest to the next level, potentially creating crowd-sourced venture capital funds.

In 2016, one such experiment, the Ethereum-based DAO (Decentralized Autonomous Organization), raised an astonishing $200 million USD in just over two months. Participants purchased “DAO tokens” allowing them to vote on smart contract venture capital investments (voting power was proportionate to the number of DAO they were holding). A subsequent hack of project funds proved that the project was launched without proper due diligence, with disastrous consequences. Regardless, the DAO experiment suggests the blockchain has the potential to usher in “a new paradigm of economic cooperation.”

By making the results fully transparent and publicly accessible, distributed database technology could bring full transparency to elections or any other kind of poll taking. Ethereum-based smart contracts help to automate the process.

The app, Boardroom, enables organizational decision-making to happen on the blockchain. In practice this means company governance becomes fully transparent and verifiable when managing digital assets, equity or information.

Supply chain auditing
Consumers increasingly want to know that the ethical claims companies make about their products are real. Distributed ledgers provide an easy way to certify that the backstories of the things we buy are genuine. Transparency comes with blockchain-based timestamping of a date and location — on ethical diamonds, for instance — that corresponds to a product number.

The UK-based Provenance offers supply chain auditing for a range of consumer goods. Making use of the Ethereum blockchain, a Provenance pilot project ensures that fish sold in Sushi restaurants in Japan has been sustainably harvested by its suppliers in Indonesia.

File storage
Decentralizing file storage on the internet brings clear benefits. Distributing data throughout the network protects files from getting hacked or lost.

Inter Planetary File System (IPFS) makes it easy to conceptualize how a distributed web might operate. Similar to the way a bittorrent moves data around the internet, IPFS gets rid of the need for centralized client-server relationships (i.e., the current web). An internet made up of completely decentralized websites has the potential to speed up file transfer and streaming times. Such an improvement is not only convenient. It’s a necessary upgrade to the web’s currently overloaded content-delivery systems.

Prediction markets
The crowdsourcing of predictions on event probability is proven to have a high degree of accuracy. Averaging opinions cancels out the unexamined biases that distort judgment. Prediction markets that pay out according to event outcomes are already active. Blockchains are a “wisdom of the crowd” technology that will no doubt find other applications in the years to come.

Still in Beta, the prediction market application Augur makes share offerings on the outcome of real world events. Participants can earn money by buying into the correct prediction. The more shares purchased in the correct outcome, the higher the payout will be. With a small commitment of funds (less than a dollar), anyone can ask a question, create a market based on a predicted outcome, and collect half of all transaction fees the market generates.

Protection of intellectual property
As is well known, digital information can be infinitely reproduced — and distributed widely thanks to the internet. This has given web users globally a goldmine of free content. However, copyright holders have not been so lucky, losing control over their intellectual property and suffering financially as a consequence. Smart contracts can protect copyright and automate the sale of creative works online, eliminating the risk of file copying and redistribution.

Mycelia uses the blockchain to create a peer-to-peer music distribution system. Founded by the UK singer-songwriter Imogen Heap, Mycelia enables musicians to sell songs directly to audiences, as well as licence samples to producers and divvy up royalties to songwriters and musicians — all of these functions being automated by smart contracts. The capacity of blockchains to issue payments in fractional cryptocurrency amounts (micropayments) suggests this use case for the blockchain has a strong chance of success.

Internet of Things (IoT)
What is the IoT? The network-controlled management of certain types of electronic devices — for instance, the monitoring of air temperature in a storage facility. Smart contracts make the automation of remote systems management possible. A combination of software, sensors, and the network facilitates an exchange of data between objects and mechanisms. The result increases system efficiency and improves cost monitoring.

The biggest players in manufacturing, tech and telecommunications are all vying for IoT dominance. Think Samsung, IBM and AT&T. A natural extension of existing infrastructure controlled by incumbents, IoT applications will run the gamut from predictive maintenance of mechanical parts to data analytics, and mass-scale automated systems management.

Neighbourhood Microgrids
Blockchain technology enables the buying and selling of the renewable energy generated by neighbourhood microgrids. When solar panels make excess energy, Ethereum-based smart contracts automatically redistribute it. Similar types of smart contract automation will have many other applications as the IoT becomes a reality.

Located in Brooklyn, Consensys is one of the foremost companies globally that is developing a range of applications for Ethereum. One project they are partnering on is Transactive Grid, working with the distributed energy outfit, LO3. A prototype project currently up and running uses Ethereum smart contracts to automate the monitoring and redistribution of microgrid energy. This so-called “intelligent grid” is an early example of IoT functionality.

Identity management
There is a definite need for better identity management on the web. The ability to verify your identity is the lynchpin of financial transactions that happen online. However, remedies for the security risks that come with web commerce are imperfect at best. Distributed ledgers offer enhanced methods for proving who you are, along with the possibility to digitize personal documents. Having a secure identity will also be important for online interactions — for instance, in the sharing economy. A good reputation, after all, is the most important condition for conducting transactions online.

Developing digital identity standards is proving to be a highly complex process. Technical challenges aside, a universal online identity solution requires cooperation between private entities and government. Add to that the need to navigate legal systems in different countries and the problem becomes exponentially difficult. E Commerce on the internet currently relies on the SSL certificate (the little green lock) for secure transactions on the web. Netki is a startup that aspires to create a SSL standard for the blockchain. Having recently announced a $3.5 million seed round, Netki expects a product launch in early 2017.

Anti-money laundering (AML) and know your customer (KYC) practices have a strong potential for being adapted to the blockchain. Currently, financial institutions must perform a labour intensive multi-step process for each new customer. KYC costs could be reduced through cross-institution client verification, and at the same time increase monitoring and analysis effectiveness.

Startup Polycoin has an AML/KYC solution that involves analyzing transactions. Those transactions identified as being suspicious are forwarded on to compliance officers. Another startup Tradle is developing an application called Trust in Motion (TiM). Characterized as an “Instagram for KYC”, TiM allows customers to take a snapshot of key documents (passport, utility bill, etc.). Once verified by the bank, this data is cryptographically stored on the blockchain.

Data management
Today, in exchange for their personal data people can use social media platforms like Facebook for free. In future, users will have the ability to manage and sell the data their online activity generates. Because it can be easily distributed in small fractional amounts, Bitcoin — or something like it — will most likely be the currency that gets used for this type of transaction.

The MIT project Enigma understands that user privacy is the key precondition for creating of a personal data marketplace. Enigma uses cryptographic techniques to allow individual data sets to be split between nodes, and at the same time run bulk computations over the data group as a whole. Fragmenting the data also makes Enigma scalable (unlike those blockchain solutions where data gets replicated on every node). A Beta launch is promised within the next six months.

Land title registration
As Publicly-accessible ledgers, blockchains can make all kinds of record-keeping more efficient. Property titles are a case in point. They tend to be susceptible to fraud, as well as costly and labour intensive to administer.

A number of countries are undertaking blockchain-based land registry projects. Honduras was the first government to announce such an initiative in 2015, although the current status of that project is unclear. This year, the Republic of Georgia cemented a deal with the Bitfury Group to develop a blockchain system for property titles. Reportedly, Hernando de Soto, the high profile economist and property rights advocate, will be advising on the project. Most recently, Sweden announced it was experimenting with a blockchain application for property titles.

Stock trading
The potential for added efficiency in share settlement makes a strong use case for blockchains in stock trading. When executed peer-to-peer, trade confirmations become almost instantaneous (as opposed to taking three days for clearance). Potentially, this means intermediaries — such as the clearing house, auditors and custodians — get removed from the process.

Numerous stock and commodities exchanges are prototyping blockchain applications for the services they offer, including the ASX (Australian Securities Exchange), the Deutsche Börse (Frankfurt’s stock exchange) and the JPX (Japan Exchange Group). Most high profile because the acknowledged first mover in the area, is the Nasdaq’s Linq, a platform for private market trading (typically between pre-IPO startups and investors). A partnership with the blockchain tech company Chain, Linq announced the completion of it its first share trade in 2015. More recently, Nasdaq announced the development of a trial blockchain project for proxy voting on the Estonian Stock Market.

 This text commissioned by September 2016.

View original at What is Blockchain Technology? A Step-by-Step Guide For Beginners

On Art and Populism: Ethereum Will Save Us All

Vitalik Buterin

What began as a white paper written by a 19 year old in 2013 is today a global open-source project that has the potential to transform the worldwithin the next 25 years

Co-author: Robert Kennedy

19/11 2015 Vitalik Buterin is the creator of Ethereum, a set of internet protocols he invented just two short years ago. Ethereum is relevant to the topic of Political Populism in the sense that the status quo crisis of legitimacy creates a growing plausibility for alternatives. This extends from voters choosing populist politicians as an expression of discontent, to those who believe we are in the midst of a full-scale paradigm shift, which does seem to be underway in various guises. Ethereum is one of a number of projects that make use of the mass collaborative capacities of the internet — think Wikipedia — which are only beginning to be understood. Ethereum probably will not save humanity, not least because of the law of unintended consequences. Regardless, Ethereum and other blockchain-related projects in development do have a fascinating transformative potential precisely because of the way they leverage the power of the network.

Buterin emigrated to Canada from Russia when he was six. By the time he was 17, he had learned about Bitcoin, a form of digital cash that was emerging on the internet. A budding technologist, he set about developing Bitcoin-related tools for use by programmers, producing a set of code libraries that remain widely in use today. Bitcoin is a distributed computing project made possible by an entirely new type of data structure called the blockchain. In simplified terms, the blockchain is a kind of turbocharged spreadsheet, an open, transparent ledger that is continually updated and replicated throughout its network. Through a clever consensus mechanism, each copy of the ledger is guaranteed to be identical, a feat in computer science that had not been possible previously. In the words of technology thinker Don Tapscott, the blockchain is an incorruptible digital ledger of economic transactions that can be programmed to record not just financial transactions but virtually everything of value. Network consensus is a breakthrough because it eliminates the need for centralized entities such as banks to provide trust. Without the requirement of a trusted intermediary to guarantee their validity, transactions can be done purely on a peer-to-peer basis. Whereas early advocates of the web’s liberatory potential were disappointed to see it get consolidated into powerful corporations like Visa, Amazon and Ebay, the potential inherent to P2P networking is for the complete opposite to happen. And Buterin’s contribution to this next iteration of the web is huge.

Ethereumpic1Blockchain-related projects like Bitcoin and other cryptocurrencies have set out to discover what the full implications are of a decentralized internet. By the age of 19, Buterin had the insight that a blockchain might enable the transformation of the internet into a single operating system, a “world computer” — one that, like Bitcoin, would use a cryptocurrency (called Ether) to incentivize its network. Authoring a white paper detailing his vision in 2013, Buterin instantly attracted the attention of the open source community. Software developers became excited about the promise of Ethereum because it made possible the creation of a new class of decentralized applications (Dapps) for transacting and collaborating on the internet. What this means is that legacy institutions that function according to a model of centralized trust could be supplemented or entirely replaced by software. Buterin’s vision for the Ethereum Virtual Machine is perhaps the most ingenious of a wave of recent innovations that have the potential to remedy real world problems. After all, the very premise of Bitcoin is that the mainstream financial system is the problem. If we have learned anything since the 2008 financial crisis, it is that capitalism wont reform itself.

One of the more disconcerting things about Bitcoin is not its potential to launder money or traffic in prescribed substances (cash remains king in this regard) but the weird facts surrounding the project’s inception. Namely, the uncannily good timing of its appearance in the wake of the 2008 crisis, and that its inventor or inventors are known only by the pseudonym Satoshi Nakamoto. But the truth is, these misgivings do not matter. They exist in the rearview mirror of everything that has happened in the past seven or so years in the development of Bitcoin and the blockchain, primarily due the network effect1. Bitcoin, Ethereum and similar initiatives2 are global projects today, with a user base not mainly made up of characters like Ross Ulbricht (mastermind behind the Bitcoin-powered drug trafficking website Silk Road, now serving a life sentence in prison). Instead, some of the most active new players in the blockchain and Ethereum space are familiar names like Samsung, Microsoft and Deloitte.3

Meanwhile, Vitalik Buterin’s innovation on the blockchain is now a worldwide open source project. The Ethereum platform was launched on the 30th of July this year for developers to build on, and was recently the subject of a sold-out five day conference in London. Like so many other things in the 21st century, we see the potentials and risks within an industry get rendered more complex, and also more accessible, due to the tools digital makes available to the user. As a mechanism of possibility for a decentralized internet, Ethereum has many proposed uses, including new participatory models for governance. This text really only scratches the surface of a the world of possibility that is emerging. Today, the technology is in its infancy and how it will in practice be rolled out remains an open question, and a very promising one at that.

1) “Over time, positive network effects can create a bandwagon effect as the network becomes more valuable and more people join, in a positive feedback loop.”

2) UK-based project MaidSafe has similar aims to Ethereum, proposing a network that gets rid of the intermediary layer of servers and datacenter…the users of the network also acting as the network infrastructure by donating to it a portion of their spare hard drive capacity.

3) Prior to the blockchain, banks had little incentive to innovate, even in spite of the massive dysfunction that brought on the 2008 banking crisis. In a clear indication that they recognize the disruptive potential of the blockchain, 30 global finance entities teamed up this summer to form startup called R3 CEV, most likely with the intention to create a so-called permissioned ledger version of the blockchain — that is, a secured private blockchain that excludes members of the public from the benefits built into the blockchain’s original format as a public, transparent distributed ledger.

This is one of ten posts written to accompany the Kunsthalle Wien’s Political Populism exhibition (November 11, 2015 – February 2, 2016).

Rosemary Heather is a freelance writer based in Toronto and Editor-in-Chief of Q&A, an information retail project focusing on interviews.

Robert Kennedy is a Toronto-based filmmaker and editor. Recent projects include working as the editor of the documentary, Altman.