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According to updated regulatory documents and recent Aviation Week interviews with the US Air Force Research Laboratory, it can be all but guaranteed that the USAF has begun working with SpaceX to test the feasibility of using the company’s planned Starlink satellite internet constellation for military communications purposes.

In early August, SpaceX updated regulatory documents required by the Federal Communications Commission (FCC) for the company to be permitted to experimental test its two prototype Starlink internet satellites, named Tintin A and B. Launched roughly six months ago as a copassenger on one of SpaceX’s own Falcon 9 rockets, the satellite duo has been quietly performing a broad range of tests on orbit, particularly focused on general satellite operations, orbital maneuvering with SpaceX’s own custom-built electric propulsion, and – most importantly – the experimental satellites’ cutting-edge communications capabilities.

The orbit histories of @SpaceX’s Tintin A/B Starlink prototype satellites, launched in February! Some thoroughly intriguing differences in behavior over the six months they’ve spent on-orbit. Data and visualizations generated by the lovely http://CalSky.com. pic.twitter.com/a8CfQaZJep

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While Facebook and Google recently pulled the plug on their solar-powered internet drones, another company with a lot more experience is having success with the idea. Airbus announced that its solar-powered Zephyr S HAPS (high altitude pseudo-satellite) flew for 25 straight days, setting a time aloft record for any airplane, ever. It shattered the previous record of 14 days, marked by a previous prototype Zephyr aircraft.

The Zephyr flies on sun power alone at over 70,000 feet, an altitude that just a few aircraft like the Concorde and SR-71 Blackbird have reached. That’s well above any weather, and lets it perform reconnaissance, surveillance and communications/internet duties. “[It fills a] capability gap complimentary to satellites, UAVs and manned aircraft to provide persistent local satellite-like services,” Airbus said in a press release. A video of the takeoff (below) shows that it can be lifted and launched by hand. Once aloft, it can be operated for a fraction the cost of a satellite.

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Scientific progress, and Internet and mobile coverage proliferation in the last 8 years alone might have decreased the numbers dramatically. Still not as much as to liquidate the spiritual beliefs of the vast majority of the world’s population.


Does God exist? If She does, this is how we got our sacred soul. If She does not, we will soon be able to recreate the soul in machines!

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Let us frame the question, by reviewing what miners really do…

Miners play a critical role in the Bitcoin network. Their activity (searching for a nonce) results in assembling an immutable string of blocks that corroborate and log the universal transaction record. They are the distributed bookkeepers that replace old-school banks in recording and vouching for everyone’s purchase or savings.

From the perspective of a miner, there is no obvious connection between their activity and the worldwide network of bitcoin transactions and record keeping. They are simply playing an online game and competing against thousands of other miners in an effort to solve a complex and ongoing math problem. As they arrive at answers to small pieces of the problem, they are rewarded with bitcoin, which can be easily translated into any currency.

What is the Problem?

One day, mining for rewards will no longer be possible. The fundamental architecture of Bitcoin guarantees that mining will end. The pool of rewards that were held in abeyance as incentives is small and will run out in 2140—about 120 years from now. So, this raises the question: How will we incentivize miners when there is no more reward? (Actually, they won’t really be miners anymore…They will more accurately be bookkeepers or ‘validators’)

Is there a Solution?

Fortunately, there are many ways to offer incentives to those who validate transactions and maintain the books. Here are just a few:

  1. There is a current mechanism in which transactions bid for priority (speed of validation). Today, this mechanism augments the mining reward—particularly during periods of network performance. For example, the extra payments rose to $30 and more for individual transactions just before lightning network was adopted. In the future, it could replace the reward as the basis of a reward system.
  2. At the 2015 MIT Bitcoin Expo, Andreas Antonopoulos proposed a reputation ranking & reward system based on gaming theory. The ideal is that would result in a sufficient reward to maintain continuous network operation. Reputation points are not just a bragging point, but is likely to translate into real-world gravitas and financial opportunities.
  3. I believe that, one day, every user will be a micro-miner, and this will address the issue of incentives. For example, if users can avoid all mining fees by validating one transaction for every 10 of their own, we might see the widespread adoption of wallets that are full or partial nodes, rather than limited to the function of key storage.In this vision, micro mining will be achieved on a phone, a wristwatch, or a linked device at home. It will not result in an escalating race for increased power consumption…

I believe in this last solution and I have proposed it as the path forward at crypto/blockchain conferences.

Today, this idea seems implausible, because of the memory and computational requirements for running a full node. But, there have been big advancements in the effort to support micro-mining—which does not require such resources. Additionally, it is likely that the current proof-of-work mechanism used to arrive at a distributed consensus will be replaced by another mechanism that does not result in a competition to see who can consume the most electricity.

More about the sunset of mining incentives:


Philip Raymond co-chairs CRYPSA, hosts the New York Bitcoin Event and is keynote speaker at Cryptocurrency Conferences. He sits on the New Money Systems board of Lifeboat Foundation and is a top Bitcoin writer at Quora. Book a presentation or consulting engagement.

“We should not start from steam and railways, or the old technologies—that is already done,” Assefa argues.

That makes sense to academics like Singh — though he also cautions that political forces are often slow to see the bigger picture. There is definitely an opportunity for developing countries, he says. “But any time we have a technological revolution, the political institutions have to catch up.”

A 2017 report (pdf) by the World Wide Web Foundation suggested that Ethiopian “intelligence services are using machine intelligence techniques to break encryption and find patterns in social media posts that can be used to identify dissidents.” And while mobile phone and internet penetration in Ethiopia is comparatively poor—a situation made worst amid widespread anti-government protests, which prompted an internet crackdown in February — the report added that government surveillance and oppression could increase as the use of smartphones expands.

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Sometimes, while waiting for quantum computers to become a thing, or complaining that your stupid laptop keeps dying on 5 percent battery, it’s easy to forget just how far technology has come over the past 50 years.

Sure, we can all list off a whole bunch of innovations that have changed the way the world works — the Internet, smartphones, radio telescopes — but it’s hard to really put that kind of change into perspective.

Thankfully, pictures often speak louder than words, and so below are nine photos that’ll make you stop and raise your *praise hand* emojis to the sky in honour of the scientists and engineers that have got us where we are today.

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As 5G electrifies a world of trillions of sensors and devices, we’re about to live in a world where anyone anywhere can have access to the world’s knowledge, crowdfund ready capital across 8 billion potential investors, and 3D print on the cloud.

And as the population of online users doubles, we’re about to witness perhaps the most historic acceleration of progress and technological innovation known to man.

Abundance Digital Online Community: I have created a digital/online community of bold, abundance-minded entrepreneurs called Abundance Digital. This is my “onramp” for exponential entrepreneurs—those who want to get involved and play at a higher level. Click here to learn more.

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Xage (pronounced Zage), a blockchain security startup based in Silicon Valley, announced a $12 million Series A investment today led by March Capital Partners. GE Ventures, City Light Capital and NexStar Partners also participated.

The company emerged from stealth in December with a novel idea to secure the myriad of devices in the industrial internet of things on the blockchain. Here’s how I described it in a December 2017 story:

Xage is building a security fabric for IoT, which takes blockchain and synthesizes it with other capabilities to create a secure environment for devices to operate. If the blockchain is at its core a trust mechanism, then it can give companies confidence that their IoT devices can’t be compromised. Xage thinks that the blockchain is the perfect solution to this problem.

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