In this week's Abundance Insider: New CRISPR explorations, CTRL-labs' neural monitoring armband, and a nighttime solar panel.

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Gatwick to use facial recognition at boarding.

What it is: Following its self-boarding trial with EasyJet last year, Gatwick has become the UK's first airport to confirm it will permanently use facial-recognition cameras for flight passenger ID checks. While travelers will still need to carry passports at departure gates for the auto-boarding system to match document photos with corresponding faces, the technology’s rollout is slated to entirely eliminate the need for human checks at a range of entry points. Already, 90% of the 20,000 passengers who tested Gatwick’s new system found it “extremely easy,” and the airport reported a dramatic reduction in passenger queuing times.

Why it’s important: Although privacy advocates have raised concerns regarding informed consent, Gatwick and other airports’ piloting of facial recognition validates the speed at which computer vision is advancing, now well in the commercialization arena. Even London’s Heathrow Airport, which has now invested £50 million in the software, claims facial recognition could reduce airport travel time averages by a third. As adjacent markets emerge around the technology (from data security to AI traffic optimization), facial recognition’s gradual rollout at airports could soon spread to countless checkpoints and transit systems, automating transit security on a massive scale. | Share on Facebook.

This “Anti-Solar Panel” Could Generate Power From Darkness.

What it is: Researchers at Stanford University have just developed a solar panel capable of generating energy from the night sky. Their method works by passively cooling one side of the panel using a technique called radiative sky cooling. Central to this latter process, a surface first radiates its thermal energy towards the sky, leaving it several degrees colder than the ambient temperature. In doing so, the panel creates a thermal difference between its cooler side and ambient temperature, allowing the panel to generate electricity. While the process currently generates only 25 mW per square meter (m2), future capacities are already expected to reach 0.5 W/m2. In practice, the researchers even demonstrated their panel’s ability to light an LED light bulb.

Why it’s important: Amidst the push for green energy, one of the biggest bottlenecks in market adoption of renewable sources like solar and wind is the time-dependent nature of energy generation. Creating a solar energy grid that works both day and night would go a long way in encouraging mass adoption, not to mention buildout of comprehensive green energy infrastructure. Commercialization of Stanford’s anti-solar panel would especially benefit remote and poorly resourced regions, granting energy independence and 24/7 consistency. | Share on Facebook.

Shanghai allows self-driving cars to carry passengers.

What it is: Shanghai is now the first Chinese city to issue permits for self-driving cars, allowing licensed firms to conduct operational tests of smart and connected vehicles carrying passengers and freight. Now bolstered by Shanghai’s first dedicated road section for autonomous vehicles (covering 65 square kilometers), SAIC Group, BMW, and Didi Chuxing were each granted licenses to operate a fleet of 50 cars in the city’s Jiading district. In order to receive permits, applying firms must have over 24,000 kilometers and 1,200 hours of passenger-less testing, no collisions incurred. Furthermore, upon receiving a license, trips are not permitted to make a profit. Yet once licensed driverless fleets operates for more than six months without incident, auto companies can apply to increase their fleet size.

Why it’s important: Autonomous driving is set to revolutionize transportation, as billions are poured annually into R&D. Now, the regulated deployment of driverless transit services in an urban environment as complex as Shanghai’s speaks volumes about the technology’s maturity. While still constrained to a designated area, numerous firms’ gradual rollout of self-driving vehicles in Shanghai will accelerate passenger acceptance and invaluable data abundance (across a test library of thousands of scenarios). Yet beyond autonomous capabilities, vehicles are joining a connected ecosystem, driven by urban-embedded sensors, tailor-made smart roads, and 5G-based transit systems. | Share on Facebook.

New CRISPR class expands genetic engineering toolbox.

What it is: Biomedical engineers at Duke University—led by Charles Gersbach and Adrian Oliver—have harnessed a new set of Class 1 CRISPR systems to edit the human epigenome. Today’s most commonly used gene-editing tool, CRISPR-Cas9, is a Class 2 CRISPR system and relies on just one Cas protein to target and cleave DNA. By contrast, Class 1 systems are more complex, involving a Cascade complex that binds the DNA, then recruits a Cas3 protein to act as the molecular scissors. The Duke research team, however, found that these Class 1 systems—which make up 90% of CRISPR systems in all bacteria on Earth—boast comparable accuracy to their more well-known Class 2 counterparts. Consequently, the researchers even discovered they could bind these Class 1 complexes to specific gene activators and repressors, demonstrating the potential to control human gene expression with remarkable precision.

Why it’s important: The Duke team’s successes open up an entirely new frontier in gene editing. While the accuracy and specific application of Class 1 systems now appear comparable to those of Class 2 systems, the former may be able to address some of the challenges researchers have previously experienced with Class 2 systems in therapeutic applications, including immune response to Cas proteins. By further investigating the differences between the two, researchers could soon determine promising combinations of various gene editing techniques, honed to target complex diseases and genetic predispositions in humans. | Share on Facebook.

Facebook buys startup building neural monitoring armband.

What it is: Facebook recently acquired startup CTRL-labs, producer of a neural impulse armband, for an estimated $500 million to $1 billion. Founded in 2015, the New York-based startup has built a noninvasive wristband, using sensors to detect arm muscle movements and convert them into digital input signals. Having raised $67 million from investors like Lux Capital and Founders Fund, CTRL-labs (and its CEO Thomas Reardon) will now work under Facebook’s Reality Labs division. A tremendous feat, CTRL’s device already allows wearers to manipulate objects on a screen by moving their hands in mid-air as if they were handling a physical object— a process called digital telekinesis. Given the technology’s maturity, CTRL-labs’ acquisition marks the first step towards commercializing noninvasive control interfaces, potentially for use in Facebook’s AR devices.

Why it’s important: Converting neural impulses into digital signals will unearth a treasure trove of digital superpowers for humans. Facebook’s AR/VR Vice President Andrew Bosworth has emphasized the technology’s potential in Oculus devices, providing a more seamless alternative controller to hand tracking or gloves. As AR balloons into a competitive and highly valuable market over the next 10 to 15 years, the dematerialization of high-precision sensors and controllers will be critical for our interaction with digitally augmented environments. Welcome to a future wherein AR interfaces and seamless controls eliminate our modern-day era of screens and keyboards. | Share on Facebook.

IKEA will produce more energy than it consumes by 2020.

What it is: By the end of this year, IKEA forecasts it will generate more renewable energy than the energy consumed by all its stores on aggregate, putting the company almost a year ahead of schedule. After investing roughly $2.8 billion in wind and solar energy over the past decade, the company has also announced plans to stock its shelves with home solar panels by 2025. Having just invested in two solar farms (in Utah and Texas, respectively) earlier this month, IKEA already has 900,000 of its own panels, installed across stores and distribution centers alike.

Why it’s important: Contributing to a sweeping trend of climate-focused initiatives surrounding the UN’s Climate Action Summit, IKEA joins a number of companies in its plan to be climate-positive (reducing more emissions than it releases) by 2030. In a newly unveiled “Climate Pledge,” Amazon’s Jeff Bezos has even staked an ambitious goal of meeting the Paris climate agreement targets a full 10 years early. Agreeing to purchase 100,000 electric delivery vans for product distribution, the e-commerce giant expects to derive 80% of its energy use from renewable sources by 2024, continuing on to achieve zero emissions by 2030. As the cost of solar continues to plummet, corporate pledges to invest could be just the fuel to drive wide-scale consumer adoption of renewables. | Share on Facebook.

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Abundance 360 is a curated global community of 360 entrepreneurs, executives, and investors committed to understanding and leveraging exponential technologies to transform their businesses. A 3-day mastermind at the start of each year gives members information, insights and implementation tools to learn what technologies are going from deceptive to disruptive and are converging to create new business opportunities. To learn more and apply, visit A360.com. 

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In this week's Abundance Insider: A new record in residential energy storage, bioreactors for carbon sequestration, and democratized AI toolkits.

P.S. Send any tips to our team by clicking here, and send your friends and family to this link to subscribe to Abundance Insider.

P.P.S. Want to learn more about exponential technologies and home in on your MTP/ Moonshot? Abundance Digital, a Singularity University Program, includes 100+ hours of coursework and video archives for entrepreneurs like you. Keep up to date on exponential news and get feedback on your boldest ideas from an experienced, supportive community. Click here to learn more and sign up.

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Home Energy Storage Capacity Breaks Records In US.

What it is: Marking a record high, U.S. residential energy storage capacity saw additions of over 30 MW in the second quarter of 2019. While a fall in front-of-the-meter storage additions could be responsible for Q2’s lower overall energy storage growth, the first half of the year saw an addition of over 200 MW in new storage capacity. And over just the next 5 years, some analysts forecast total storage capacity could surge up to tenfold in the U.S. Bolstered by progressive policies like the Massachusetts clean peak standard (which requires that a minimum percentage of peak power come from renewable sources), consumer interest will only increase residential capacity’s slice of the pie.

Why it’s important: While solar photovoltaics (PV) receives most of the press, storage is a critical enabler of (or bottleneck to) clean energy adoption, allowing us to stabilize the inherent volatility of wind and solar generation. Moreover, as solar nears price parity with coal and natural gas, mass growth of total energy storage capacity will allow us to democratize clean and constant electricity, regardless of geography. As stated by the U.S. Energy Storage Association’s chief executive Kelly Speakes-Backman, “The long-term growth trends of energy storage deployment nationwide are encouraging and consequential for stakeholders, and for all electricity users who want and deserve a more resilient, efficient, sustainable and affordable electricity grid.” What new innovations might we unleash after returning the 4-8 percent of global GDP currently spent on energy back to the market? | Share on Facebook.

Graphene nanoribbons lay the groundwork for ultra-powerful computers.

What it is: Materials scientists have now found a way to layer graphene nanoribbons directly atop silicon wafers. For context, graphene consists of a single-atom-thick layer of carbon and is the strongest ultra-thin material known to man. Yet graphene becomes an extraordinary semiconductor when in the form of extremely thin slices (or ribbons). Possibly even outperforming silicon in thermal conductivity and transistor drive current, these nanoribbons could thereby serve as an ideal candidate for future computers. Until today, however, researchers were unable to grow graphene nanoribbons directly on silicon, stemming their wide-scale adoption for graphene-based integrated circuits. Enter the Arnold Group at the University of Wisconsin-Madison. In the team’s now published seminal paper, the researchers outlined their procedure of first growing a thin layer of germanium on top of silicon, and then depositing the graphene nanoribbons on this thin germanium interface. Ultimately, this method prevents graphene from reacting with silicon (to form an ineffective compound) while maintaining graphene nanoribbons’ semiconducting abilities.

Why it’s important: For decades, Moore’s Law has continued to hold true, as transistor count (in integrated circuits) doubles roughly every two years, while price has remained constant. Today, however, consumer computer technology is rapidly approaching the physical limitations of standard silicon transistors—the pillar material for modern computing infrastructure. For this reason, engineers are now turning to new materials, and breakthroughs like that of the Arnold Group could prove decisive in augmenting current computation technology and birthing ultra-fast, lower-power devices. | Share on Facebook.

Genetic mutation appears to protect some people from deadly MRSA.

What it is: Duke Health researchers recently identified a gene that appears to increase a patient’s ability to fight antibiotic-resistant staph infections. The study focused on persistent methicillin-resistant Staphylococcus (MRSA), a form of staph bacteria that is resistant to most antibiotic treatments and is transferred through skin-to-skin contact or invasive procedures. Of the 68 patients compared in the study, half had persistent MRSA and half had cleared the infection from their bloodstream. After running whole-exome sequencing on these patients, the researchers found that 62 percent of the MRSA-free group had a genetic mutation on the DNMT3A region of chromosome 2p. This mutation reduces the body’s anti-inflammatory cytokine IL-10 response, which has been observed to cause tissue damage and even death, if overactive.

Why it’s important: In 2017, over 119,000 Americans suffered from staph infections, and almost 20,000 died as a result. Yet the disease is not solely limited to older segments of the population: the rate of MRSA in children increased tenfold from 1999 to 2008, and is still rising across the board today. Understanding the genetic factors that predispose patients to MRSA could allow researchers to develop far better treatments that exclude antibiotics entirely. Given rising levels of antibiotic resistance (particularly in highly industrialized nations), alternative therapies for common bacterial infections must be developed with haste. Studying the genome has now proven helpful in the case of MRSA, and a range of emerging gene-editing tools could soon drive medical innovation in fighting this disease and many others. | Share on Facebook.

A New Bioreactor Captures as Much Carbon as an Acre of Trees

What it is: Startup Hypergiant Industries has just released its new algae-based Eos Bioreactor, capable of sucking in as much carbon dioxide as 400 trees. But rather than consuming an acre of forest land, this bioreactor measures just 63 cubic feet—smaller than a traditional telephone box. Led by CEO Ben Lamm, the company’s technology takes advantage of algae’s remarkable photosynthetic capabilities to capture approximately two tons of carbon per bioreactor. Yet in order to prompt grassroots iterations on the bioreactor, Hypergiant even plans to make its design open source, allowing businesses and individuals to build variants for easy integration in homes and offices spaces.

Why it’s important: Over the past 800,000 years, global atmospheric carbon dioxide concentrations have varied between 180 and 280 parts per million (ppm). In 2017, atmospheric CO2 concentrations had reached 405 ppm—a figure that could easily exceed 500 in coming decades, according to climate scientists. This sharp increase, alongside record high temperatures in just the past few decades, makes novel carbon capture methods a necessity. In the emerging realm of biological sequestration, Hypergiant’s technique not only provides a scalable solution to reducing atmospheric carbon concentrations, but does so in space-deprived metropolitan areas. Moreover, the growing algae can be harvested and used as a high-protein food source, biofuel, or textile. As numerous carbon capture and utilization (CCU) startups leap to the scene, the construction of compact, artificial carbon sinks could help us tackle one of today’s most pressing Global Grand Challenges. | Share on Facebook.

DataRobot Becomes A Unicorn By Selling AI Toolkits To Harried Data Scientists.

What it is: DataRobot—which might be dubbed an AI infrastructure company—has raised another $206 million in its latest series E round, led by Sapphire Ventures. Seeking to automate almost any traditional task within data science, DataRobot sells its software to simplify clients’ creation of machine learning models, allowing companies to deploy them in weeks (as opposed to years with an in-house team). Customers have, in turn, created over 1.3 billion models across a wide variety of use cases, from optimizing Philadelphia 76ers season-ticket renewals, to predicting which United Airlines passengers will gate-check their bags prior to flight.

Why it’s important: While almost every major corporation (and numerous SMEs) have long begun investing in AI R&D (not to mention recruitment of AI engineers and data scientists), services like that of DataRobot are actively democratizing access to sophisticated tools. We might even think about this as a possible inflection point in machine learning and AI’s user interface, now far more accessible. As a number of infrastructure startups—from Domino Data Labs to Algorithmia—pop up, ML’s use in business optimization problems is quickly becoming ubiquitous, quick, and easy. | Share on Facebook.

Want more conversations like this?

Abundance 360 is a curated global community of 360 entrepreneurs, executives, and investors committed to understanding and leveraging exponential technologies to transform their businesses. A 3-day mastermind at the start of each year gives members information, insights and implementation tools to learn what technologies are going from deceptive to disruptive and are converging to create new business opportunities. To learn more and apply, visit A360.com.

Abundance Digital, a Singularity University program, is an online educational portal and community of abundance-minded entrepreneurs. You’ll find weekly video updates from Peter, a curated news feed of exponential news, and a place to share your bold ideas. Click here to learn more and sign up.

Know someone who would benefit from getting Abundance Insider? Send them to this link to sign up.

(*Both Abundance 360 and Abundance Digital are Singularity University programs.)

In this week's Abundance Insider: Mixing cement in space, Facebook's initiative to battle deepfakes, and a new candidate for targeted cancer therapy.

P.S. Send any tips to our team by clicking here, and send your friends and family to this link to subscribe to Abundance Insider.

P.P.S. Want to learn more about exponential technologies and home in on your MTP/ Moonshot? Abundance Digital, a Singularity University Program, includes 100+ hours of coursework and video archives for entrepreneurs like you. Keep up to date on exponential news and get feedback on your boldest ideas from an experienced, supportive community. Click here to learn more and sign up.

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A prosthetic leg that can sense touch makes it easier for amputees to walk.

What it is: Researchers from ETH Zurich and the Universities of Belgrade and Freiburg have made it easier for above-the-knee leg amputees to “feel” surfaces again, putting them on surer footing and eliminating phantom limb pain. To do so, the team embedded sensors at the knee and sole of a prosthetic leg, further implanting four intra-neural electrodes into the residual nerves of the wearer’s thighs. Next up, algorithms were used to convert prosthesis sensor data into electrical signals. With sufficient training, patients were ultimately able to translate these signals into real-time sensory data, whether of motion in the knees or feet touching the ground. After just a 3-month trial, both volunteers found the process of walking with neurofeedback far less physically and mentally demanding than with conventional prosthetics. While one of the volunteers reported an 80 percent reduction in phantom limb pain, the other found it entirely eliminated by the end of the trial.

Why it’s important: Every year, about 185,000 lower extremity amputations are conducted in the U.S. alone. Yet beyond phantom limb pain and drastically reduced agility, amputees are exposed to 2.2 times higher risk of death from cardiac events than the average population. On a technical level, this breakthrough represents the first attempt at embedding sensors in prostheses for above-the-knee amputees— a far more challenging feat than below-the-knee cases given higher motion data requirements. As connected sensors, machine learning, advances in computation, and BCI converge in remarkable new ways, the age of neurally-linked and agile prosthetics is right around the corner. | Share on Facebook.

Smart grocery cart startup Caper bags $10 million.

What it is: Charging ahead with its AI-enabled self-checkout shopping carts, grocery cart startup Caper has now secured $10 million in Series A funding. An alternative to Amazon Go, Caper leverages computer vision and sensors in a futuristic shopping cart that allows users to effortlessly scan items as they drop them in. Yet as Caper requires no retrofitting of retail stores with sensors and AI, the startup’s shopping equipment can be easily rolled out (no pun intended) at countless grocery chains given the low accompanying costs.

Why it’s important: As sensors and computing power plummet in cost, and multi-purpose AI services permeate retail equipment, it is now easier than ever before to make marketplaces smart, personalized, and highly adaptive. As a result, scanning technologies and retailer-collected consumer data will begin to save buyers both time and decision fatigue. In the process, new markets—principally, cybersecurity and IoT—will skyrocket in importance. Not only will retail spaces require data protection layers for user privacy, but IoT networks for streamlined online-merge-offline (OMO) experiences. | Share on Facebook.

Astronauts make cement in space for the first time.

What it is: Astronauts aboard the International Space Station (ISS) have now successfully mixed cement off the Earth, studying microgravity’s effect on materials construction. Examining concrete’s potential use in space colony infrastructure, the ongoing Microgravity Investigation of Cement Solidification is the first to determine how cement in microgravity leads to unique microstructures. Demonstrating several prominent differences from cement samples processed on Earth, the researchers’ spacefaring cement was more porous. Yet further study has yet to determine how the material’s microstructure in low-gravity environments will affect the strength of concrete.

Why it’s important: One of the best candidates for space colony infrastructure, concrete is a highly sturdy building block that could protect future Martians or Moon-trotters from extreme temperatures and radiation. Yet perhaps one of concrete’s greatest advantages involves cost and flexibility: if cement can indeed behave properly in low-gravity environments (as is being studied on the ISS), this key ingredient could be mixed with rocks and dust on Mars, or lunar regolith (i.e. moon dust). On the heels of concrete’s successful production in microgravity, we might one day source our building materials from space, constructing the first-ever extraplanetary shelters at far lower cost. | Share on Facebook.

Facebook is Challenging Researchers to Build a Deepfakes Detector.

What it is: Facebook’s AI engineers are now teaming up with researchers from Microsoft and prominent academic institutions in a “Deepfake Detection Challenge.” While current methods can identify forged media, tedious vetting is often required by human experts, and automated tools for catching deepfakes are only just appearing. In an effort to counteract these deepfakes (think: videos of forged politician speeches you’ve likely seen on the Internet), Facebook is building an extensive data set of highly realistic fake videos of its own. Featuring paid actors doing routine tasks and speaking on neutral topics, these clips are used to test deepfake detection tools that can distinguish real footage from falsified audiovisual data. By pooling expertise and granting a prize to the winning team, Facebook is maximizing the AI research community’s upper hand against deepfakes and misinformation.

Why it’s important: More convincing than ever before, deepfakes are beginning to pose severe consequences— eroding our trust in online media, or possibly even prompting disputes and counterattacks in response to misinformation. As advances in machine learning give way to far more realistic image and video manipulation, some of which target real-life individuals, our ability to automatically flag and block fakes is more vital than ever before. At a macro scale, Facebook’s creation of benchmarks could even expand far beyond deepfakes, providing every user with transparency on news quality, media truthfulness, and countless other criteria. | Share on Facebook.

Precious metal flecks could be a catalyst for better cancer therapies.

What it is: A team of researchers at the University of Edinburgh and Spain’s Universidad de Zaragoza have now developed a way to target cancer cells with fragments of palladium. A key metal ingredient in motor manufacturing, electronics and the oil industry, palladium has long been a research candidate for aiding in cancer treatment. Yet until now, researchers have had no way of delivering minute fragments of the metal to affected areas. As a result, the team turned towards exosomes: bubble-like pouches that transport proteins and genetic material between cells. By creating artificial exosomes derived from lung cancer and glioma-associated cells, the researchers built a molecular shuttle system that could deliver palladium catalysts to primary tumors and metastatic cells. Once inside the cell membrane, these palladium fragments can then activate chemotherapy drugs, destroying cancer cells from within.

Why it’s important: In a remarkable win for cancer research, the researchers’ success proves that artificial exosomes can act as biological Trojan horses, delivering aggressive cancer therapeutics without harming healthy cells. As explained by Universidad de Zaragoza Professor Jesús Santamaría, “This has the potential to be a very exciting technology. It could allow us to target the main tumour and metastatic cells, thus reducing the side effects of chemotherapy without compromising the treatment.” As new methods of targeted drug delivery enter the testing phase, our ability to treat disease without compromising patient health will be a key driver in extending the human healthspan. | Share on Facebook.

Water found on a potentially life-friendly alien planet.

What it is: A super-Earth about 111 light-years away from our planet, K2-18b has now been found to contain water vapor in its atmosphere. Falling within what’s known as its star’s habitable zone, the exoplanet exceeds 8 times the mass of Earth. While current models predict an effective temperature of -100 to 116 degrees Fahrenheit, K2-18b might even have an equilibrium temperature comparable to that of our own planet, if as reflective as Earth. To determine these stats, astronomers used years of Hubble Space Telescope data to monitor K2-18b’s transits around its sun, examining how the star’s light shines through the exoplanet’s atmosphere. Determining visible signs of water vapor, which absorbs near-infrared light at specific wavelengths, two separate teams independently confirmed the finding.

Why it’s important: As explained by University College London astronomer Angelo Tsiaris, “This is the only planet right now that we know outside the solar system that has the correct temperature to support water, it has an atmosphere, and it has water in it—making this planet the best candidate for habitability that we know right now.” If valid, the astronomy teams’ conclusions make K2-18b the first-ever confirmed exoplanet with water vapor clouds. Beyond prompting follow-up missions and research on potentially life-supporting exoplanets, discoveries like that of K2-18b fundamentally transform the way we think about our place in the universe, as well as our role in exploring its depths. | Share on Facebook .

 

What is Abundance Insider?

This email is a briefing of the week's most compelling, abundance-enabling tech developments, curated by my team of entrepreneurs and technology scouts, including contributions from standout technology experts and innovators.

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Abundance Digital, a Singularity University program, is an online educational portal and community of abundance-minded entrepreneurs. You’ll find weekly video updates from Peter, a curated newsfeed of exponential news, and a place to share your bold ideas. Click here to learn more and sign up.

Know someone who would benefit from getting Abundance Insider? Send them to this link to sign up.