Category Archives: Markethive

Malta is Embracing Bitcoin and Blockchain in Sweeping National Strategy

Malta is Embracing Bitcoin
and
Blockchain in Sweeping National Strategy

Malta’s government is reportedly developing a broad national strategy

that will see the government embrace bitcoin and blockchain innovation to promote and adopt the technology. According to a report by Malta Today, the island nation’s Cabinet has approved the first draft of a national strategy to promote blockchain. The revelation was made by Malta’s Prime Minister Joseph Muscat, speaking at an official financial conference. “We must be on the frontline in embracing blockchain and Bitcoin…we must be the ones that others copy,” the prime minister reportedly stated.

The prime minister bullishly added that Malta would become one of the first countries in the world to embrace blockchain technology on a national level. The national strategy, which is still in its draft stages, will be put up for public consultation soon, Muscat added. While keeping most details under wraps, Muscat hinted a few applications of blockchain technology, particularly for record-keeping in registries.

The prime minister stated:

This is not just about Bitcoin, and I also look forward to seeing blockchain technology implemented in the Lands Registry and the national health registries. Malta can be a global trail-blazer in this regard.

The ‘Bitcoin continent of Europe’

Muscat’s comments are notable for the significant endorsement of blockchain technology by the prime minister, who is the country’s highest official as the head of the government. Malta’s Prime Minister Joseph Muscat is championing the use of cryptocurrencies like bitcoin and blockchain technology. The prime minister called on other European Union leaders to embrace and harness the potential of cryptocurrencies in order to become the “Bitcoin continent of Europe”, according to a notable quote reported by Malta Today.

He stated:

I understand that regulators are wary of this technology but the fact is that it’s coming. We must be on the frontline in embracing this crucial innovation, and we cannot just wait for others to take action and copy them. We must be the ones the others copy.

Muscat is making a pointed attempt at pushing the agenda for blockchain technology in a post-Brexit reality, hoping to lure any part of the FinTech industry from the UK, widely regarded as the world’s hub for financial technology. Bringing over even a measly 1% of the UK’s FinTech industry to Malta’s shores would bring in €200 million to the local economy, the prime minister revealed. Meanwhile, Malta’s Stock Exchange has already set to path the development of its strategy to research blockchain technology in late 2016.

Chuck Reynolds
Contributor

Alan Zibluk – Markethive Founding Member

Bitcoin Price Analysis: Keeping Grounded as Price Skyrockets

Bitcoin Price Analysis:
Keeping Grounded as Price Skyrockets

  

Over the past few days, Bitcoin has hit fresh all-time highs

(ATHs) on all exchanges, as well as new all-time highs in market capitalization. The premium between Bitfinex and the other exchanges continues due to a halt on USD deposits/withdrawals, preventing arbitrage. GDAX/Coinbase, a USD on-ramp, is closing that premium, suggesting that heavy buying is occurring on that exchange. On high timeframes, resistance confluence around $1,410–1,450 and $1,800 become apparent with Fibonacci extensions, drawn from previous ATH to low, and yearly pivots. As bitcoin reenters price discovery mode, with no prior resistance in this zone, these are very real targets that will be reached for until buyers are exhausted.

There is also an old bullish chart pattern, the inverted head and shoulders, with a measured move around $1,475. We can also see a messy cup-and-handle chart pattern with a measured move of $2,300. This will likely be the blow-off top target should it occur in 2017.

A Few Things to Consider

As we ride this bullish wave, it is still worth thinking conservatively about the future. As a trader, I look ahead to an eventual pullback/correction — how dramatic could it be? So far it seems that the buying will continue indefinitely, and there are plenty of high technical targets ahead, but when the ball drops, where is this going to go? Perhaps more important, which events outside of technicals can make a dramatic drop happen? For instance, Chinese regulatory announcements provided both bullish fuel with yuan devaluation and bearish fuel with increased Bitcoin and trading regulations. It’s events like this that should be considered and planned for prior to their occurrence. Always remember; stairs up, elevator down.

Here are the unresolved issues still looming that could have a significant effect on price:

  1. Any number of possibilities with Bitfinex regarding USD

    • Best-case scenario:
      USD deposits/withdrawals resume, and price on Bitfinex gets arbitraged down in line with the other exchanges.

    • Worst-case scenario:
      Bitfinex is insolvent (extremely unlikely).

    • Other scenario:
      Halt on USD deposits/withdrawals continues indefinitely.

  2. Bitcoin Unlimited (BTU) hard fork remains a possibility with anywhere from 51 to 75 percent of miner support.

    • Best-case scenario:
      BTU realizes it is in a losing battle, leaves well enough alone and disappears.

    • Worst-case scenario:
      BTU attempts a hard fork anyway.

  3. The SEC and the COIN ETF

    • Best-case scenario:
      Approval; priced in to some degree but not completely.

    • Worst-case scenario:
      Another denial, which is already priced in at this point.

  4. SegWit Activation

    • Best-case scenario: UASF brings SegWit online.

    • Worst-case scenario:
      Drags on, unactivated, until timing out in November 2017.

  5. An unknown or true
    Black Swan type of event, such as harsh government regulation in the United States. Least likely.

Summary

  1. New ATHs in price and market capitalization suggest an immediate bullish future.

  2. A shrinking premium between Bitfinex and GDAX/Coinbase suggests new money is ramping on to digital currency.

  3. Technicals show resistance between $1410–1450 and $1800.

  4. Several unresolved issues remain. Have a plan for all possibilities.  

Chuck Reynolds
Contributor

Alan Zibluk – Markethive Founding Member

Bitcoin Prices Have Tripled in a Year and Just Hit a New All-Time High

Bitcoin Prices Have Tripled in a Year and Just Hit a New All-Time High

  

Bitcoin prices have hit a record high,

just a few days after breaking the previous all-time high a few days before. The value of the alternative virtual "cryptocurrency" climbed above $1,400 for the first time ever on Sunday according to the Coindesk.com index, which takes into account several different independent exchanges. One year ago, a unit of Bitcoin was worth only around $400. The currency has been on a steep climb ever since, hitting $750 in early December and $1,100 by February 2017. It hit a record-high of $1,330 last Thursday and has stayed on a tear since then.

Some observers predicted that Bitcoin's value would skyrocket after the election of Donald Trump, because of the strength of the American dollar and the urge to invest in alternative currencies. Recent Bitcoin gains have come as the U.S. Securities and Exchange Commission said it was considering a Bitcoin ETF created by twin brothers Cameron and Tyler Winklevoss. But there are also concerns in the Bitcoin world about some exchanges facing issues from corresponding banks about processing transactions, Coindesk reports. Mind you, most investing pros warn that it is unwise to invest in Bitcoin because it is still an unstable and relatively untested currency.

Chuck Reynolds
Contributor

Alan Zibluk – Markethive Founding Member

Bitcoin Hits New All-Time High

Bitcoin Hits New All-Time High

  

A year ago, one Bitcoin could be had for about $450.

On Thursday, the cryptocurrency peaked at just over $1,340, as measured by the Coindesk price index, before retrenching slightly to $1318 by this morning. That’s still a return of nearly 200%. Bitcoin has seen a remarkably steady rise since early 2016, fueled by global regulatory normalization, broad interest in the technology from enterprises and banks, and rising transaction volumes. Cryptocurrency analysts, according to Coindesk, think the trend will continue, citing among other factors that most Bitcoin investors are long-term bulls who will take profits conservatively.

Fortune’s technology

But the very transaction volume that is Bitcoin’s key fundamental also presents a serious medium-term threat, as the system has struggled to keep up. Transaction speeds have become impractical for merchant payments, and fees have risen, making the system less competitive with conventional payment systems such as credit cards. Struggles over how to fix the problem have raised the specter of a network split —though that could, at least theoretically, give holders additional value in a manner akin to a stock split.

Bitcoin had a notable previous peak of around $979 way back in November of 2013 (Coindesk’s number seems conservative here—Coinmarketcap records a 2013 peak of $1149). That push was fueled by a wave of mainstream media attention, but prices slumped through 2015 on the realization that the tech’s promise would take some time to fulfill, dipping as low as $204 that August.

Chuck Reynolds
Contributor

Alan Zibluk – Markethive Founding Member

MimbleWimble: Silly Sounding Tech Could Seriously Reform Bitcoin

MimbleWimble:
Silly Sounding Tech Could Seriously Reform Bitcoin

  

The state of bitcoin today is highly discouraging.

Watching grown men hurl insults at each other on Reddit and Twitter is just sad. When I became involved in 2013, bitcoin's potential seemed endless. It was heralded as a possible solution for micropayments, remittances, microfinance, parking meters, email spam and so on. Many women, myself included, believed in bitcoin as a means to address world problems of poverty by providing access to capital for the remaining three-quarters of the world.

As time passed, I became discouraged that many needed use cases did not come to fruition. Startups attempting to build companies with those business models have died. Anything involving small payments in bitcoin has been mostly eliminated due to high fees. The most popular use case is as a store of value. It's not to say that isn't useful: in the growing number of countries with devaluating currencies, bitcoin is an attractive alternative. Bitcoin has had an indelible impact as a groundbreaking technology. But it's disheartening that it has stalled in doing more.

There are fundamental issues that will likely never be solved, as evidenced by the two-year debate on how to scale bitcoin. The community is more divisive than ever. I can't help but think part of the reason it's so dysfunctional is because it's devoid of women. Women (or any rational person) do not want to participate in this dystopian community: it's juvenile and filled with vitriol. Bitcoin desperately needs a Patronus Charm, "a pure, protective magical concentration of happiness and hope.” My disappointment in bitcoin caused me to look at the blossoming landscape of alternate blockchains: eg litecoin, zcash, monero, ethereum and dash have all grown in market size and popularity. It's clear that more alternative coins (altcoins) will develop innovative solutions and come to market. This is why MimbleWimble caught my interest.

Starting point

As a brief background, the original MimbleWimble white paper was placed by someone called Tom Elvis Jedusor (Voldemort’s French name in JK Rowling's Harry Potter book series) on a bitcoin research channel in July 2016. Tom's white paper "Mimblewimble" (a tongue-tying curse used in "The Deathly Hallows") was a blockchain proposal that could theoretically increase privacy, scalability and fungibility. It remained theoretical until recently.

At the end of 2016, someone named Ignotus Peverell (the original owner of the invisibility cloak, if you know your Harry Potter characters) started a Github project called Grin and began turning the MimbleWimble paper into something real. Andrew Poelstra, a mathematician at Blockstream, presented on this work in January 2017 at Stanford University’s Blockchain Protocol Analysis and Security Engineering 2017 conference. More recently, Ignotus posted a technical introduction to MimbleWimble and Grin.

It took me a while to wrap my head around MimbleWimble. The more I internalized it, the more hopeful I became that something more magical than bitcoin could appear. I will attempt to explain MimbleWimble and why what it proposes – privacy, freedom of choice, equal access, fungibility, and sustainable growth over time – are so important. Privacy matters, a lot. One of the most important rights we have is the right to privacy. It’s our right to “keep a domain around us, which includes all those things that are part of us, such as our body, home, property, thoughts, feelings, secrets, and identity."

Privacy matters

I consider privacy extremely important. It's very apparent how valuable it is when you lose it or when someone violates it. In my 20s, I was stalked. A person whom I had met in passing on a military base waited for me after work and surreptitiously followed me home. He did this for several weeks – all unbeknownst to me – until one day he knocked on my door and told me he had been following me and professed his undying love. I immediately slammed the door and called the local and military police. I lived alone in the woods and was so freaked out that I moved.

Only someone who has been stalked can understand how frightening this experience was. To this day, it affects many of my behaviors to guard my privacy. Physical trespass of privacy is often preceded by online privacy violations. Recent events, such as Congress granting ISPs (internet service providers) the right to sell your personal information – browsing habits, app usage history, purchasing habits, location data – are very concerning. As Luke Mulks from Brave elegantly wrote, "Your digital data trail is the evidence of your human presence online. Your data is valuable, private, and most important, it’s yours."

What's available

If we cannot rely on our legislature to protect our constitutional rights (can we rely on them for anything anymore?), technology needs to intercede to make it harder for greedy capitalists to put your privacy up for sale. Privacy extends to what to share publicly about what we buy or whom we donate to. These transactions should not be open for all to see. Women, especially those trying to escape repressive social or economic conditions, have a dire need to stay anonymous. That's a fundamental flaw in bitcoin: every transaction and address balance is available for the world to watch and track.

There are some things you can do to hide your transaction, such as tumbling, but you need to go out of your way to use them and they are breakable. Privacy-oriented cryptocurrencies like monero and zcash improve privacy significantly. In monero, the transaction is not natively private but relies on ring signatures to mask exchanges. Zcash leverages a technology called zk-snarks to build private transactions, which is a huge improvement. However, it still requires a lot of extra resources to build a confidential transaction, so most users still issue their transactions "in the clear" (clear vs shielded counts).

The big change

MimbleWimble is natively private. There are no ring signatures or zero-knowledge proofs on top of a transparent bitcoin-like transaction. In a MimbleWimble transaction, all values are fully obscured. There are no reusable or identifiable addresses. Every transaction looks the same to an outside party.

The two properties verified in a MimbleWimble transaction are:

  1. No new money is created
  2. The parties sending money must prove ownership of their keys.

To verify no new money has been created, you must demonstrate that the sum of outputs minus the inputs equals zero. To verify key ownership, the transacting parties must legitimately prove their public and private keys exist to authorize the transaction. MimbleWimble uses a blinding element to obscure all values – transaction amounts and keys – while holding true basic mathematical facts. The blinding element relies on multiplying and adding secret factors to obscure real values.

let's say I have a transaction with these amounts:

(1) 17 + 12 = 29
The balanced equation shows no new money was created, complying with property 1) above. The equation remains true if I apply a secret blinding number (eg 11) to all terms.

(2) 17*11 + 12*11 = 29*11
Without knowing my secret number 11, you would have a hard time guessing what the original transaction values are in this equation.

(3) 187 + 132 = 319
In equation (3), I’ve managed to keep both the values and blinding number private while still allowing others to verify I have not created new money in my transaction.

The big picture

Still, don't think this is a big deal? MimbleWimble offers other extensive benefits that indicate it could form the foundation of the kind of network bitcoin was meant to be.

Freedom of choice

By obscuring all values, MimbleWimble provides full privacy and gives you the choice of what to reveal. It's similar to donor levels in various non-profits. You’ll see the range a donation was made for, but you don’t necessarily know the exact donation. Both the donor and the non-profit know exactly how much was donated, but no one else needs to know. This "right to privacy gives us the ability to choose which parts in this domain can be accessed by others, and to control the extent, manner, and timing of the use of those parts we choose to disclose."

Equal access

Another aspect of bitcoin that disturbs me greatly is there is little opportunity left for an average person to participate in securing the network. The requirement of a highly specialized and expensive chip for bitcoin mining – the ASIC – has almost eliminated anyone from becoming a bitcoin miner, whose primary responsibility is validating transactions and placing them into blocks. The mining community is now heavily centralized and this has greatly contributed to bitcoin's woes.

The ability to grow over time while still providing equal opportunity to participate are key tenets of Ignotus' Grin implementation of MimbleWimble. Grin is designed to be ASIC resistant so that anyone who wants to try mining can buy a widely available GPU chip at a local Best Buys or online for a reasonable price. Making MimbleWimble ASIC resistant democratizes access. I’ve even toyed with the idea of building a GPU miner with my kids to see what it can do.

Ability to grow over time

Another way to safeguard equal access over time is to ensure the blockchain network doesn't get dragged to a standstill when transaction volume increases. This is the core issue in the bitcoin block-size debate: there are more transactions than can fit into a 1Mb block. As long as there's a restrictive size limit, there will be a capacity issue. A dirty little secret is that to get around scalability issues, almost all payment processors and exchanges do off-chain transactions. Which begs the question: why bother using a cryptocurrency with blockchain?

Increasing usage will increase transaction volume. So how do you ensure that a block size can continue to accommodate volume increases? By streamlining each block. The principle is similar to simplifying equations. If there are terms that are identical on both sides of an equation, you can cut them:

(8) 2+y = x+2
(9) 7+3+5+4+2+y = x+7+3+5+4+2

Both equations (8) and (9) simplify to:

(10) y = x

MimbleWimble maintains that if an output spends an input, you no longer have to keep them because they cancel each other out. This greatly cuts down the amount of data you have to store and process. The only data that nodes keep is unspent outputs and block headers. Instead of thinking of blockchain capacity in terms of number of transactions, MimbleWimble is designed to grow with the number of users. The streamlined blocks make growth sustainable over time as the transaction data set does not continue to get bigger. This increases privacy since transaction data gets removed and it also enables fungibility.

Fungibility

Fungibility is the ability for equal units to be interchangeable. Let's say I give you a dollar – either as a coin or a paper note. The Federal Reserve prints the paper dollar and the US Mint produces the coin dollar, but both are equal. Neither is lesser or greater than the other and you can choose to use a dollar coin or bill interchangeably. This is a key characteristic of currency: equal units must be interchangeable, or fungible. The US dollar is fungible. Bitcoin is not.

The bitcoin blockchain keeps every single input and output forever and so each coin carries a legacy. It's similar to equation (9) above. Another dirty little secret is that when picking which transactions to process – in addition to the fee – payment processors, miners, and exchanges will look at the inputs (ie 7+3+5+4+2) to assess the quality of the transaction. The consequence is one bitcoin is not fungible with another.

The most valued bitcoins are called 'coinbase transactions', which are the ones created when a block is found. They are newly minted and 'clean' and some parties pay a premium to buy them. A hierarchy in coin quality develops. The consequence is, if you receive bitcoins that have inputs that are tainted (eg they have been used in a dark market), spending them may become increasingly difficult. In MimbleWimble, because the (7+3+5+4+2) inputs and outputs are all discarded when spent, each coin is exactly equal to the other. In other words, MimbleWimble coins are interchangeable and fungible.

Conclusion

I'm very hopeful seeing the accelerating pace of research and innovation in public blockchains. If privacy and scalability are solved, MimbleWimble could be the Patronus Charm for bitcoin, perhaps as a complementary sidechain. Imagine what a universal fungible digital coin could enable with access for everyone. One hesitation I have, however, is that many people developing it have taken on Harry Potter-themed pseudonyms. It's understandable given the personal attacks rampant in the community, but it does conjure a mystical aura. I’m glad Andrew Poelstra, a highly qualified real figure, is actively involved with MimbleWimble.

I hope I can add my voice to the mix, also as a real person. I realize that by not using a pseudonym, I'm opening myself to the troll armies. I’ve attempted to explain why MimbleWimble is interesting to me. I hope it intrigues enough people and inspires both men AND women to engage early; it would be great if this community doesn’t wind up as a testosterone-filled boys club. Apparently, Merope Riddle (Lord Voldemort's mother) is already very involved in MimbleWimble’s development. I believe it’s worth learning, participating in its genesis, and helping to develop a healthy community around it.

Chuck Reynolds
Contributor

Alan Zibluk – Markethive Founding Member

Bitcoin Price Keeps Above $1300

Bitcoin Price Keeps Above 1300

Bitcoin Price Keeps Above $1300

 

The fact that trading volumes went down from the peak that was reached in preceding trading sessions lately didn’t stop price levels above $1300 from being maintained. BTC/USD rates might have peaked above $1340 through the last trading session, but in spite of the continuous selling pressure after that point, prices didn’t drop below $1315 levels.

Major Signals Bitcoin markets maintain support levels above $1300 in spite of volatility caused by the return of selling pressure’s effect. Resistance at $1330 after the price fall has been strengthened, making a return after the decline in trading volumes seem harder. Bitfinex’s premium remains and the spread is still looming around a $100 difference between prices of the two BTC/USD markets.

Bitstamp BTC/USD charts make the effect of the returning selling pressure seem apparent. In what almost seems like an overturn, bitcoin prices dropped from a peak above $1340 down to 1315 in the recent hours thanks to the still ongoing pressure. Resistance, on the other hand, has also come to affect the market’s sentiment right at the time that volumes dropped. Whilst the market’s sentiment hasn’t allowed for any significant breaches on established support levels so far, it’s still actively changing.

OKCoin BTC/USD weekly futures charts indicate that futures traders were quite vigilant in following upward price swings through the last trading session, yet the recent wave of negativity has left futures markets back in their previous state of a bearish mood. What’s worth noting about future’s markets though, is that the spread remains smaller as futures traders don’t seem to be following through the latest price drop through completely.

Finalizing, it’s important to mention that in spite of what could be a shift in the market’s sentiment, support remains unbreached. If markets are to break through from the recently

By George Krash

 

David Ogden
Entrepreneur

 

 

Alan Zibluk – Markethive Founding Member

Blockchain Lets This Startup Trade Gold That’s Still in the Ground

Blockchain Lets This Startup Trade Gold That's Still in the Ground

  

A number of Blockchain Projects have focused on Trading Bullion

During the past year, a number of blockchain projects have focused on trading bullion, but what about gold that's still in the ground? That seemingly unlikely business model is precisely the aim of a new partnership announced last month between Orebits, a startup providing asset-digitization for precious metal reserves, and blockchain product provider Symbiont. The deal would see the creation of so-called smart certificates, or smart contract investment instruments, tied to proven gold reserves (supplies of the metal known to be in the ground, but that haven't yet been processed). Despite the physical restrictions of the gold itself, the smart certificates, known as 'orebits', can now be freely traded and exchanged as tokens on a blockchain platform provided by Symbiont. Michael Zimits, Orebits’ president, and COO, told CoinDesk that each of the certificates will be backed by five ounces of proven gold reserves.

He said:

"Orebits derive their value from the price of traded gold, providing exposure to the price movement of the precious metal without having to deal with the physical properties and logistical concerns of holding the asset in tangible form."

As for how someone might confirm the gold reserves are real, Zimits explained that the smart contracts house this information directly. "This documentation is made available on the distributed ledger as part of the smart contract and includes geological surveys and findings, geologist verification, registered chain of custody, corporate documentation and owner background verification," he said.

As such, the partnership represents the latest effort to bridge the worlds of gold and blockchain. So far this year, companies like Euroclear and long-standing institutions like the UK Royal Mint have revealed plans to launch marketplaces enabling gold exchange via the technology. In this light, Orebits is the latest entry in what is proving to be an attractive use case for blockchain, and further fits into the broader trend of enterprises seeking to leverage blockchain tech to open new revenue streams.

Chuck Reynolds
Contributor

 

Alan Zibluk – Markethive Founding Member

Tencent Joins China Blockchain Race With New TrustSQL Platform

Tencent Joins China Blockchain Race With New TrustSQL Platform

  

The Chinese Internet giant Tencent

is building its own Blockchain for enterprise-level services. Its platform, TrustSQL, aims to provide all the tools necessary for developing Blockchain applications for businesses. “It is found that the meaning of the Blockchain is that it can build a more reliable Internet system, fundamentally solve the value exchange and transfer in the existence of fraud and rent-seeking phenomenon,” a translated portion of Tencent’s whitepaper by Investopedia reads.

“More and more people believe that with the popularity of Blockchain technology, the digital economy will be more authentic and credible and the economy and society will become more fair and transparent.” Composed of three layers – core chain, product service, and applications – TrustSQL will include support for all manner of Blockchain-enabled tasks, including “digital assets, shared books, proof certificates, stock swaps and proprietary transactions,” the publication quotes the whitepaper.

Tencent has been somewhat off the radar in terms of Blockchain innovation until now. While fellow Asian tech giants such as Baidu and Samsung have been active in the research field, the company was identified as a potential loser in the ever-evolving regulatory setup in China. Tencent, as part of the so-called BAT group along with Baidu and Alibaba, is known for its tenacity in disruptive financial technologies, with all three outfits working at breakneck speed to update the Chinese domestic market before traditional banks.

Chuck Reynolds
Contributor

Alan Zibluk – Markethive Founding Member

Considerations when Pursuing Patent Rights in the Blockchain Technology Space

Considerations when Pursuing
Patent Rights in the Blockchain Technology Space

  

A blockchain is a subtype

of distributed ledger data structure, in which transactions are grouped into “blocks” that reference each other in cryptographic hashes.  Technologies are developing that implement blockchains to solve all sorts of problems related to transactions: privacy, security, data integrity, double-spending, dynamic/smart contracting, payments, interoperability, etc.  I started in this space at a time when there was very little published literature on blockchain technologies, including published patent applications. Times have changed; now patent applications for blockchain technologies are readily available, with many patents granted.  Blockchain technologies are a red-hot investment and development space right now and will be for at least the next couple of years. Many blockchain technology innovators begin with the same concerns. These concerns inspire the following five points of considerations for innovators in blockchain technologies who are interested in securing intellectual property rights.

Time is of the essence.  In 2011, the United States passed the America Invents Act, which was legislation that changed the patenting regime such that between two competing inventors filing an application for patent rights in the same or similar invention, generally the first inventor to file with the United States Patent and Trademark Office (USPTO) is the one who gets to claim patent rights on the invention.  Development in the blockchain technology space is moving at break-neck speed; a  compilation shows that since 2014, there are at least 275 patent applications in the blockchain technology space (and this list is missing quite a few groundbreaking publications).  Notice that blockchain-technology patents granted in the US tie the inventions to the physical computer processors. 

That’s yet another Alice-inspired patent application drafting adaptation.Strongly consider filing a provisional patent application as soon as feasible.  A provisional patent application does not need to be as detailed as a nonprovisional patent application, thus they are drafted quicker than are non-provisional patent applications.  The earlier a proper patent application is filed, the smaller the body of “prior art” from which the USPTO can pluck references to use against the invention’s patent application. Because time is of the essence, inventors will want to be organized enough to so that their patent attorneys can directly get to the meat of the innovative features of the invention. Patent attorneys benefit greatly from white papers and commented code. The attorney will be more efficient if s/he is able to reference well-drafted technical specifications. Great organization is a leg up in the race to file to the USPTO.

Find an appropriate patent attorney.  Not just any patent attorney– one with a technical background in computing applications.  The laws surrounding software-implemented inventions are quite convoluted and complex since the Supreme Court case Alice (2014) took us all down the rabbit hole.  So much so that many patent attorneys, who do not understand software applications well enough to understand the highly nuanced evolution of case law in this area, will say bizarre and wholly misleading things like “software can’t be patented.”  The intended meaning of the statement is absolutely false; software-related patent applications are granted nearly every Tuesday by the USPTO.  Likewise, if a candidate patent attorney gives the aura of being a master in this patent space, s/he does not have the mindset serve any blockchain technology client.  This space is developing so fast– no one understands or can hope to understand all of it anytime soon.  For now, all attorneys (even those with highly relevant computational technology backgrounds) must lean heavily on their inventors to understand the relevant aspects of blockchain technologies–things are moving rapidly for blockchain technologies.  That being said, though, an attorney who has worked with some clients in this space likely will have some foundation upon which to build an understanding of the invention.  When interviewing attorneys, ask about their relevant technical backgrounds.

If the patent application is simple, it’s stupid. Inventors and their patent attorneys should study granted patents in this space (most of which are well post-Alice!).  Not a single granted patent application in this space is written such that a layperson can easily understand the invention. This is absolutely appropriate because these applications are judged by the examiner under these criteria: they must be written so that a ‘person having ordinary skill in the art’ (PHOSITA) would be able to replicate and innovate off of the allowed patent application after the original invention’s patent term runs out.  Even with a software development background in network science, parallel computing, and trade-settlement technologies, and experience with blockchain technology patents, there are many concepts in the blockchain technology space that are still challenging for me.  I take care to probe my inventors as a PHOSITA.  Be careful about how much the attorney simplifies a patent application in the software-related arts space; it’s this dumbing down that’s led to the rejection of patent applications for truly innovative and nonobvious inventions (and began a progeny of absurd case law interpretation, a la Alice).

But do keep it neatly comprehensible. Remember that examiners and judges at the USPTO that will be reading the patent application, and that an assigned examiner might not know much about blockchain technologies yet.  Good patent applications for cutting-edge technologies set definitions early and conspicuously in the patent application. Define blockchain!  Blockchain networks and distributed ledger systems are not synonymous.  There is even disagreement as to the whether or not ‘blockchain’ is a concrete noun.  If consensus protocols are integral to the invention, patent application drafters should take care to define and describe them.  Many rejections of patent applications are as result of indefiniteness in the language of the application.  Drafters should not assume a USPTO examiner is just going to do an internet search and learn about these fundamental definitions on some widely-used wiki.  Have consistency between the language of the claims and the specification part of the application.  Claims inherit meaning from the relevant sections of the specification.  Patent prosecutors can and remind examiners of that when the examiner strays from proper claim interpretation.

Many inventors will pursue patent protection on the down low as they try to figure out what exactly they’re going to do with the invention.  Maybe the inventors are ultimately going to altruistically share the rights of to the technology for the greater good (altruism is a central cultural ideal and consideration in the original blockchain technology space or to get the network effects of a robust network of nodes.  No one yet knows for sure, however, what the future of blockchain technologies will look like. This is why inventors and their investors may want to bundle the rights in their IP now so that their choices for disposition are not foreclosed at the outset. As examples, opportunities may be foreclosed by another entity claiming the invention or the inventor’s own public disclosure.  Many inventors pursue patents for “defensive” purposes.  In any case, attorneys are bound by the highest level of confidentiality and may not act in ways that are averse to their client’s interests and wishes.  Patent attorneys in this space should seek to understand the culture of inventors and inventions in this space.

Blockchain technology innovators, in my experience, have great foresight and can understand many advanced concepts in patent law, perhaps because one must understand the economics of incentivization/gamification to implement true blockchain technologies.Raina Haque is the founder and lead patent attorney of Erdos Intellectual Property Law. Her technical background is in software engineering and bioinformatics. Prior to joining the legal profession, she was a business analyst and software engineer at a major Wall Street financial firm for global portfolio trading technologies. She was a research fellow at the National Institutes of Environmental Health Sciences in the Neurotoxicology and Nuclear Magnetic Resonance labs. At Wellesley College, her alma mater, she majored in bioinformatics. She serves the intellectual property needs of high tech and design clients. For more information, or to contact Raina, please visit her firm profile page.

Alan Zibluk – Markethive Founding Member

How Blockchain Startups Will Solve The Identity Crisis For The Internet Of Things

How Blockchain Startups Will Solve The Identity Crisis For The Internet Of Things

  

The popularity of technologies

like the self-driving car and Amazon Echo are rising; it’s not hard to imagine a world where your coffee maker knows when to summon your morning Uber to work, and it arrives with groceries and laundry detergent, ordered directly by your refrigerator and washing machine, as they have recognized that they were low on supplies.This future will be powered by a set of inanimate objects connected through an emerging network known as the Internet of Things.  However, just as the security around the transfer of data between humans and companies is required to safeguard humans from identity theft, the same will be required for objects within the Internet of Things.

Identity protection is an emerging area for the Internet of Things. Millions of inexpensive consumer devices ship with a default username and password, but some of them end up in your house. Last winter a piece of software called Mirai herded hundreds of thousands of home routers and cameras into the most potent botnet ever, which then generated the first terabit scale distributed denial of service ever seen. What if there were a solution that permitted companies to reliably identify their customer’s devices without putting them in the position of holding customer data? What if there were a way to ensure IoT devices only accepted configuration from their legitimate owners? I talked to HYPR CEO George Avetisov about their biometrics and UniquID CEO Stefano Pepe about their device identity work to get a better feel for how blockchains will be used to solve these problems.

The service HYPR provides is a framework for passwordless authentication via biometric encryption. They don’t develop biometric devices, the focus of their innovation is creating a distributed, secure system based on existing, tested technology. We've covered the concept of cryptographic fingerprints here previously. Any digital item can be subject to some sort of cryptographic hash, then the hash can be used to check the validity of a digital item without the validator needing to have a copy. As an example, your phone's fingerprint reader does something involving a scan and a company that has access to a hash of your fingerprint's digital representation can validate you, but they don’t have the ability to impersonate you.

Digital fingerprints are just the start. HYPR supports all types of biometric data, from simple authentication algorithms for facial and voice recognition to more complex algorithms such as the way you type on a keyboard, the rhythm when you text on your phone, or how you walk on the street. Your home, your car, and your office all have access requirements and there is probably some degree of smarts already included. HYPR positions IoT vendors to include biometric authentication without a huge investment in expertise, money, or time to implementation.

A big part of HYPR's innovation is complete distrust of the internet for transmitting biometric data itself, which never leaves the user's cell phone. A single phone might get cracked and the biometric data used, but there is no path to hitting millions of victims in a single event. Where does the use of a blockchain fit in all this? It will serve as a distributed, trustless store of biometrics validation data. There are several implications and not all are obvious. A blockchain based system is resistant to denial of service attacks that cripple centralized businesses.  Why?  Because instead of bringing down a single server farm hosting with the authentication data, a DOS attack would have to identify and bring down many blockchain nodes hosted by several parties within the same permissioned blockchain environment.

Equally important to DOS protection is business process interoperability. Avetisov explains, “We are building use cases around associative forms of identity through the blockchain.  Right now you can not authenticate between two different corporate entities, such as a bank and a car insurance company because there is not a shared identity between the two companies.  Each company has a different identity stack that is not interoperable.  By using a blockchain, you can have an interoperable ledger for identity between multiple entities without a complex infrastructure.  An insurance company can prove your identity to a bank or a credit card can prove your identity to a streaming service all through biometric data.”

How does it all work?  While the exact mechanics have not been finalized, it would involve each company acting as a validator of the data within the network running nodes that are constantly accepting biometric data. When a company that is not running a node wants to authentic a user, they would look to the network and the nodes would provide data on the last time stamp that a particular user could have been identified with a particular device accepting biometric data.  If the user can prove they had a device that the network has agreed is associated with their identity within a recent timeframe, the user is then authenticated.

The value here is that different companies can identify users based on their specialized identity stack and provide authentication to others without sharing any of their personal data.  Converting your customers to use biometrics is a complex, expensive project. But if 70% of your customers are already using a system from another company, and that system has been built with an eye on assisting third parties to make the jump to biometrics, the barrier to entry is dramatically lowered. Cost savings begin in quarters rather than years.

What sort of benefits accrue if diverse businesses authenticate their users with the same biometrics system? Here's a scenario Avetisov offered that's a nightmare today, but which would have a happy ending in a biometrics enabled world. Children don't typically have identity information until their later teen years when they start driving, so there is a three to five year window where they are allowed to roam widely without a formal ID. If they're brought to a hospital injured and unresponsive there is a delay while they are identified, wasting some of that golden hour in treating shock and trauma. A biometric solution accelerates that process and a blockchain allows that medical institution to authenticate through the identifying information collected from other companies.

These use cases could be implemented using Bitcoin's blockchain, but HYPR has chosen a private solution. While individuals are using biometrics to authenticate, they do so with large entities, and HYPR has focused on serving the needs of banks, health care, and insurance providers.  For these enterprises, regulation around data security is a great concern.  While a public blockchain with hashed or encrypted data provides high levels of data security, it is still unclear how managing data in such a way would fit within the current regulatory framework.  As such, private or permissioned blockchains are the fastest way to market without the need to educate regulators.

While HYPR is focused on how to build an interoperable environment for humans to be authenticated via various IOT devices, UniquID is building technology that identifies the devices themselves while they are offline through a very clever use of blockchain technology and smart contracts.

Pepe offered an interesting example of how an offline smart contract might work, “If you want to rent a Zipcar, what happens if neither your phone or the car cannot connect to the internet.  You can’t unlock the car with your smart phone unless the owner of the car comes with the keys in his pocket, drives the car out, and brings the car to a place to download a certificate. This is the only way for the car to establish a secure connection with your phone.  However, with UniquID there is a very different scenario.  Both the car and the smartphone have a UniquID wallet on the blockchain. Zipcar creates a smart contract on the blockchain that unlocks the car for a specific smartphone when a token is received in the car’s wallet.  The smartphone downloads [all or a portion of] the blockchain with the smart contract already executed.  Then when you go to the car without internet, your smartphone uploads the missing blocks of the blockchain that the car does not have, with the executed smart contract, and the car unlocks for the person with the correct smartphone.”

Through this innovative use of blockchain technology, devices do not have to be connected to the internet in order to communicate, identify and authenticate with each other in a secure way.  This is an important mechanic for devices to be able to capture real-time data and communicate with one another in real time.  

Unlike HYPR, which can be built on either a permissioned or public blockchain, this use case relies on the security provided through the proof of work mechanism of a public blockchain.  A private blockchain environment, particularly a small one, may have vulnerabilities that a motivated attacker could exercise, modifying data in ways an offline node could not detect. A public blockchain’s security mechanism, proof of work consensus, costs the same amount to fraud, whether online or offline. Global bitcoin mining capacity is 3.75 million terrahashes per second. Translating that to something you can visualize, an AntMiner T9 will do 12.5 terrahashes per second, costs $1,140, weighs twelve pounds, and consumes 1576 watts. You’d need 300,000 of those to match current global Bitcoin capacity and theoretical attacks could be done with 10% of the total – a hundred and twelve tons of gear consuming 37 megawatts of power costing $34 million.

If you’ve got a $20,000 vehicle but it would take the purchase price of a 220’ yacht to steal it, such attacks are going to remain at the proof of concept stage. However, it is important to note that a downside to the current layout of this plan may require a device to download an entire blockchain, which would be cumbersome for a small IOT device. UniquID has very ambitious plans on how to improve device identity and communication through a new type of secure network that will act as alternatives to SIM networks and certificate authorities that I call decentralized certificate authorities.  Unfortunately, UniquID has not yet released a white paper describing their service, so we’ll save that for another article.

You can see how these technologies will be required for a future with an Uber ordering coffee maker, a grocery ordering refrigerator, or laundry room that makes sure you’re always ready to do the next load. Humans will be identified by biometrics, devices by unique attributes like MAC addresses, likely in combination with the unique attributes of the human that first uses them, imprinting to their new owners the way some newborn animals do with their mothers.  When a service needs to leave a message for a device that isn’t always on if it’s small it’ll be placed directly on a blockchain, while larger data say a software update, will be left as a URL on the blockchain and a cryptographic fingerprint of the file.

We’ve had robotics on factory floors for two generations, lines of carefully laid out systems assembling goods. That sort of automation is going to spread from within a single organization to across multiple enterprises, reaching out to consumers, and eventually imbuing the entire supply chain with situational awareness, speeding deliveries and reducing the need for human interactions.

Chuck Reynolds
Contributor

Alan Zibluk – Markethive Founding Member