8 min read

Abundance Insider: December 21st, 2019

By Peter H. Diamandis on Dec 21, 2019

In this week's Abundance Insider: AI-induced super resolution, robotic safety inspectors, and Lamborghini’s inroads in 3D printing.

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.

P.P.P.S. Want a chance to read Peter’s upcoming book before anyone else? Join the Future is Faster Than You Think launch team (applications close on December 6th)! Get an advanced digital copy, access to our private Facebook group, behind the scenes specials, a live Q&A with Peter and Steven, and hundreds of dollars in exclusive bonuses. Click here for details.

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It’s Not You. Clothing Sizes Are Broken.

What it is: Size and fit are two of the leading reasons for online returns, according to e-commerce software company Narvar Inc., translating to costs that further reduce retailers’ already slim profit margins. From 3D body-scanning apps like MTailer and My Size, to startup Shima Seiki’s machines that knit garments with less than 1% variation, a plethora of companies has recently emerged to combat the issue of inconsistent sizing. Women’s sizes in the U.S. range from 00 to 18, yet there are no standardized body metrics across these sizes. This type of variation is not represented in online sizing guides, and few explain the stretch or texture of the fabric, which may also affect fit. Solutions like those offered by True Fit Corp.—which uses a data platform and AI-driven personalized recommendation engine to help consumers find their right size and taste-tailored items—are growing in demand from major retailers. Others, like RedThread, use 3D mobile body scanning and tailoring algorithms to best determine fit.

Why it’s important: Some executives, like Levi Strauss & Co.’s CEO Chip Bergh, believe sizes will become obsolete in the next decade. Smartphone-conducted body scans will offer precise measurements that automatically populate online retail platforms. From there, fits can be matched with existing designs or tailored with programmed sewing machines. Offering an even more personalized fit, 3D-printed garments are also on the rise, changing the economics of mass manufacturing. As retail sales continue to migrate to online platforms, virtual try-on software is slated to decimate returns—now a major pain point for both the retailer and the consumer. Yet the convergence of these technologies will not only cut costs, but will also dramatically reduce the environmental toll of shipping, packaging, and textile waste.

AI super resolution lets you “zoom and enhance” in Pixelmator Pro.

What it is: For just $60, Pixelmator is making the “zoom and enhance” trope seen in movies (the ability to zoom into images and retain sharpness) a reality. Using AI algorithms, Pixelmator’s “ML Super Resolution” is a novel function that allows users to scale an image up to 3X its original resolution without pixelation or blurriness. Similar to Google’s and Nvidia’s algorithms, Pixelmator’s software is trained on a dataset containing pairs of low-resolution and high-resolution images and thereby generates rules for how the pixels change from image to image. Pixelmator, however, is about 50 times smaller (than its Google and Nvidia counterparts) at just 5MB, which is lightweight enough to run on a device and needs merely 15,000 sample images to create the tool.

Why it’s important: In just the past 12 months, we’ve seen an explosion in AI and machine learning tool sets newly democratized for accessible consumer use. Yet many have required significant computing resources for top performance. Now, however, products like Pixelmator’s “ML Super Resolution” have achieved powerful algorithms trained on significantly lighter data sets that require far less memory and power. Particularly in the art and imaging realm, the availability of such algorithms to end users will lower the barrier for artists, filmmakers, and small firms in everything from design to marketing.

Lamborghini places emphasis on additive manufacturing, extends partnership with Carbon.

What it is: 3D printing company Carbon has just expanded its partnership with Lamborghini. Famous for its Digital Light Synthesis (DLS) technology—which prints components using a photochemical process leveraging oxygen and light—Carbon plans to use DLS to manufacture the dashboard air vents for Lamborghini’s first hybrid production car, the Sián FKP 37. This development follows Carbon’s earlier work in partnership with the car maker, whereby it produced textured fuel caps and air duct clips for the Urus Super Vehicles. Successful in reducing Lamborghini’s production time to just 12 weeks, Carbon’s DLS can produce geometric shapes that are extraordinarily difficult to mold using traditional processes, which often include multiple iterations on the design.

Why it’s important: 3D printing is transforming the manufacturing industry (literally) from the bottom-up, whether in production of minute, customized and complex automotive parts to rocket engine parts and organ tissues. We’re rapidly entering an era of programmable production, allowing for far cheaper, more versatile, and quickly prototyped goods. As 3D printing technologies move from deceptive to disruptive, what potential uses might you experiment with in your own business?

Building robotic safety inspectors nabs Gecko Robotics $40 million.

What it is: Pittsburgh-based Gecko Robotics has just landed US$40 million in additional financing, which it will use to add an additional 40 robots to its 60-bot fleet, helping meet demand for the company’s safety and infrastructure monitoring services. Gecko’s wall-climbing robots perform non-destructive testing on industrial machinery like tanks and boilers, assessing metrics like wall thickness, cracking, and pitting. Gecko’s robots can even predictively detect other issues likely to result in downtime or more serious hazards, such as explosions and emissions leaks.

Why it’s important: While much of today’s public debate on robotics centers around the replacement of human labor, one emerging phenomenon in the industry involves preventative, automated approaches to safety and compliance use cases. In many of these cases, robotics and software services like that of Gecko are augmenting human experts’ capabilities by granting them new data, which would otherwise be extremely difficult or hazardous to collect manually. Increasingly a collaborator for human practitioners, robotics and AI are beginning to tackle industrial monitoring tasks that have never before been possible, preventing infrastructural and machinery damage before it occurs.

How artificial intelligence is making health care more human.

What it is: MIT Technology Review Insights, in association with GE Healthcare, recently released survey results of over 900 healthcare professionals, revealing the ways in which AI is already being used in healthcare. Nearly 80% of respondents are set to increase their budgets on AI applications in 2020. And today, the key areas in which AI is already being deployed include: (1) AI for patient flow optimization; (2) medical imaging and diagnostics; (3) automation of electronic health records via natural language processing tools; (4) AI for predictive analytics; and (5) patient data and risk  analytics. In terms of outcomes, 78% of medical staffers report that AI deployments have already improved workflows, reducing time spent on mundane administrative tasks and thus unlocking more time for procedures and patient interactions. Even more importantly, AI is reducing clinical errors, and 75% of AI-using medical staff agree that the technology has bettered predictions in disease treatment.

Why it’s important: AI is transforming the healthcare system as we know it, touching everything from diagnostics to drug discovery. In the wake of “smart” patient scheduling tools, even the number of patients seen by doctors per day has been maximized. And AI is even helping optimize outcomes of the appointments themselves. Medical professionals typically spend 10% of their workweek taking notes or updating electronic health records. As AI begins to systematize these repetitive tasks, doctors are freed to dedicate more time to procedures and patient relations. Applying AI algorithms to medical imaging has also already improved clinical decision-making. For reference, surveyed doctors who have yet to adopt AI report clinical error as their key challenge two-thirds of the time (more than double the figure for those who have adopted AI tools). Moving forward, doctors and healthcare workers must continue to collaborate with machines, leveraging comprehensive pools of AI-mediated data to make important medical decisions. An invaluable new collaborator, AI is helping doctors and clinicians focus on what they do best, helping humanize the healthcare industry and improve the patient experience.

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.)

Topics: Abundance Insider AR/VR AI machine learning Artificial Intellegence Batteries solar energy drone technology social responsibility
8 min read

Abundance Insider: December 13th, 2019

By Peter H. Diamandis on Dec 13, 2019

In this week's Abundance Insider: Coca-Cola’s autonomous truck pilot, a new approach to computer vision, and the mysterious ‘X17 particle.’

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.

P.P.P.S. Want a chance to read Peter’s upcoming book before anyone else? Join the Future is Faster Than You Think launch team (applications close on December 6th)! Get an advanced digital copy, access to our private Facebook group, behind the scenes specials, a live Q&A with Peter and Steven, and hundreds of dollars in exclusive bonuses. Click here for details.

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High-Tech Planes, Supercomputers and Helitankers Help Fight Wildfires.

What it is: Firefighters are increasingly adopting sophisticated technologies in the fight against blazes. Fire departments across Southern California have now partnered with Dr. llkay Altintas, head of the WIFIRE Lab and the San Diego Supercomputer Center (part of UCSD). WIFIRE combines weather data, topography, and information about the dryness of brush to model in near-real time how a wildfire might spread and at what speeds. This, in turn, helps local leaders create evacuation plans and determine where departments might deploy fire crews. Until recently, mapping fires has been a laborious, hard-drawn process that often requires as much as a day of work. Yet armed with far more accurate data, firefighters and partners such as Coulson Aviation are now using military-grade night-vision goggles to operate at night, when winds often die down and give teams an advantage over the fire. The night vision goggles allow teams to determine key geographic targets as well as hover for water refills without having to land their helitankers.

Why it’s important: As the cost of computing power plummets, converging technologies are beginning to aid in disaster relief at price tags now affordable for budget-strapped state and local governments. While AI grants fire departments far more predictive capacity and higher mapping speeds, its hardware counterparts (whether drones, sensors, or the like) are finding their way into other realms of disaster relief, and even disaster prevention.

Coca-Cola test-drives Einride’s autonomous truck in Sweden.

What it is: Coca-Cola European Partners (CCEP) will soon release a fleet of Einride autonomous electric transport vehicles onto the streets of Jordbro, Sweden. Founded in 2016, Einride has produced sleek “T-Pod” electric propulsion trucks that do not require a driver, though there are still remote drivers who can take control if needed. Currently, the T-Pods carry 200kWh batteries that allow for 124 miles of travel between charges. The fleet will transport goods from two warehouses, operated by CCEP and leading food retailer Axfood, just outside of Stockholm. Some will remain in fenced regions while others will interact on public roads.

Why it’s important: Road freight transport contributes about 7 percent of global carbon dioxide emissions each year. CCEP aims to use these Einride vehicles to meet its sustainability and efficiency goals. The company projects it could cut its carbon dioxide emissions by up to 90 percent with these new vehicles. After a hoped-for success of this pilot test, the fleet could even potentially scale across the nation of Sweden, throughout which CCEP distributes Coca-Cola products. Sustainable supply chains will grow increasingly important as consumers desire greater transparency in their purchasing decisions and place more emphasis on environmentally responsible goods.

Observe.ai raises $26 million for AI that monitors and coaches call center agents.

What it is: While numerous Software-as-a-service (SaaS) platforms are beginning to disrupt the customer service realm, some SaaS products are designed to augment human customer care workers. One example involves U.S.-Indian startup and Y Combinator alum Observe.ai, which just announced a $26 million series A funding round. Observe.ai uses natural language processing (NLP) to analyze conversations between human agents and customers. After transcribing each call, Observe’s platform runs sentiment analysis, draws correlations between the support agent’s verbal and behavioral data and the customer’s happiness level, and then ultimately determines overall customer satisfaction. This data is then used to benchmark top performers and find best practices across teams. Results can even be applied to other discrete use cases, such as monitoring compliance in the healthcare industry, where conversations involve sensitive and often legally protected information.

Why it’s important: Observe and a number of other companies—NICE, Verint, Cogito, Gong, Chorus.ai, among others—make up a growing number of companies using AI improve the connection between humans, as opposed to replacing it outright. While many fear the encroachment of AI and automation on our contemporary job market, in what areas might we flip this concern? How might we leverage AIs to help augment our social and professional skills, provide a better service, or gain common ground with our clients?

Machine vision that sees things more the way we do is easier for us to understand.

What it is: Researchers have devised a new method for training neural networks in image recognition. Rather than training their model on full images of birds, scientists from Duke University and MIT’s Lincoln Laboratory trained a network specifically on features of birds: beak shape, head shape, feather coloration and the like. When the algorithm is then presented with a new picture of a bird, it searches for specific features, generates predictions about the bird’s species, and uses the cumulative evidence to come to a final conclusion.

Why it’s important: Recently, the push to make neural networks more explainable and transparent has gained significant traction in both the private sector and academia. Especially in the case of high-stakes applications—such as medical image recognition—AIs that can demonstrate which features contributed to its decision will help to solve the longstanding “black box” problem associated with today’s algorithms. By engineering neural networks to devise predictions in a manner more akin to our own human thought processes, AI engineers will also be able to more easily diagnose problems when networks make incorrect predictions.

A nanotube material conducts heat in just one direction.

What it is: Scientists at the University of Tokyo have now developed a method of synthesizing aligned carbon nanotubes. Normally, producing nanotubes in a bulk material results in poorly aligned configurations of individual tubes. Yet in order to take advantage of the thermal properties of the tube, it is necessary to align the tubes end-to-end. To achieve this, the researchers used a technique known as controlled vacuum filtration, a procedure whereby nanotubes are mixed with a liquid solution whose properties induce a natural self-organization of the tubes. The liquid is then carefully removed with a vacuum, leaving a thin sheet of highly-aligned nanotubes. This sheet has some extraordinary properties: perhaps most importantly, it has one-way thermal conductivity. This means that the sheet can conduct heat about 1,000 times more efficiently in the direction of the alignment than perpendicular to the alignment.

Why it’s important: Heat leakage is a tremendous problem for electrical engineers and circuit designers. This one-way thermal conduction material could serve as a game-changing solution, as it mitigates the need for large cooling systems and can interact at the nanoscale (the size of modern-day transistors). Needless to say, more efficient cooling systems will open tremendous new possibilities in design for computer hardware engineers.

Mysterious ‘Particle X17’ Could Carry a Newfound Fifth Force of Nature, But Most Experts Are Skeptical.

What it is: Four fundamental forces—gravity, electromagnetism, the strong force, and the weak force—govern the universe as we know it. Yet the reported discovery of a particle dubbed X17 could add a fifth force to this list. Researchers at the Institute of Nuclear Research in Hungary first reported evidence of the particle in 2016, when they noticed radioactive beryllium atoms releasing pairs of electrons and their antimatter counterparts (positrons) at specific angles. Based on this evidence, the team concluded that there must be an intermediary “particle X” that the beryllium atom converts into before emitting the electron-positron pairs. With a mass of 17 megaelectronvolts, the particle earned its name X17. More recently, the team even detected a similar X17 particle of the same mass in the radioactive decay of helium. While most matter is made up of fermion particles, the X17 particle is considered a boson, meaning it carries energy and sometimes forces.

Why it’s important: Studying the X17 boson-type particle could unlock important insights into the nature of dark matter and potentially even a fifth force. Dark matter constitutes 85 percent of matter in the universe, yet is only detectable through gravity and does not react to light. The globally held Standard Model of particle physics could be revolutionized by this finding. Most research in the past fifty years has relied heavily on high-energy accelerators to collide particles at rapid speeds, but this team’s work offers a lower-cost alternative to understanding our universe. While findings have not yet been peer-reviewed, several groups are working to verify the Hungarian research institute’s work, driving progress towards a more accurate understanding of the matter that makes up our universe.

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.)

Topics: Abundance Insider AR/VR AI machine learning Artificial Intellegence Batteries solar energy drone technology social responsibility
8 min read

Abundance Insider: December 6th, 2019

By Peter H. Diamandis on Dec 6, 2019

In this week's Abundance Insider: DeepMind’s latest AI win, a promising treatment candidate for pancreatic cancer, and 5 emerging energy technologies.

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.

P.P.P.S. Want a chance to read Peter’s upcoming book before anyone else? Join the Future is Faster Than You Think launch team (applications close on December 6th)! Get an advanced digital copy, access to our private Facebook group, behind the scenes specials, a live Q&A with Peter and Steven, and hundreds of dollars in exclusive bonuses. Click here for details.

Share Abundance Insider on LinkedIn | Facebook | Twitter.

Google DeepMind gamifies memory with its latest AI work.

What it is: If you’ve ever wished you could go back in time to tell your younger self a critical piece of advice, AIs may soon be able to do just that within their own networks. Google’s DeepMind unit recently announced a program that resembles the human capacity to mentally time travel by incorporating long-term consequences into machine learning. AI programs typically rely on reinforcement learning with short-term, immediate “rewards.” DeepMind’s new program, called Temporal Value Transport (TVT), transforms reinforcement learning by sending reward signals backwards from far in the future as an alternative form of neural networks. The program operates in simulated worlds, and it might “explore” a path to a certain target. If the program uses its memory of this path in a future pursuit to the same target, it is rewarded. This process, termed the “Reconstructive Memory Agent,” marks the first time memories of past events have been “encoded.”

Why it’s important: Many sociologists and economists have explored the realm of long-term human decision-making. While DeepMind’s TVT is not entirely representative of human thought, the cognitive mechanisms of the program could greatly impact human thought processes. We easily learn to avoid hot stoves after accidentally burning our hand once. Yet many of us fall into the long-term pattern of following an unfulfilling career path. Because long-term decisions lack immediate feedback, the signs pointing us in the “right direction” are difficult to detect and learn from early on. With the help of AIs that generate future pathways and then inform us of consequences in the present, humans could learn in entirely new ways. From investment decisions to government policy, wisdom from the future will undoubtedly aid our present choices.entertainment, and human interaction.

Jet-powered VTOL drone is like a quadcopter on steroids.

What it is: Texas-based FusionFlight has just invented a jet-powered drone capable of vertical take-off and landing operations. Yet rather than using propellers and electric motors like traditional drones, this drone ups the ante, using four diesel-powered microturbine jet engines and a proprietary vectoring system. Known as the H-Configuration, this latter component enables the drone to direct its engines’ thrust either vertically (for take-off and landing) or horizontally (while in flight). Reportedly capable of reaching a top speed of over 300 mph, the aircraft’s final production version includes a fuel tank sufficient for 30 minutes of hovering and 15 minutes of cruising. Down the line, FusionFlight aims to boost speed and performance with afterburners and other components.

Why it’s important: Drones are rapidly permeating our airspace. They are now used for crop monitoring, military combat, delivery services, and viral YouTube videos. FusionFlight’s newest iteration expands the range of possibilities for drones, especially in the case of time-sensitive tasks, where speed is key. Furthermore, enabled by its jets’ production of a combined 200 horsepower, the drone can carry up to 40 pounds of cargo, making it an ideal candidate for shipping and delivery applications.

Israeli scientists find a way to treat deadly pancreatic cancer in 14 days.

What it is: After just two weeks of daily injections, a new treatment reduced the number of cancerous pancreatic cells in mice by up to 90 percent. Led by Professor Malka Cohen-Armonat at Tel Aviv University, the team used a molecule called PJ34, one originally developed to treat stroke patients. After implanting human pancreatic cancer into immune-suppressed mice, the team intravenously injected the PJ34 treatment for fourteen days. During the cell replication process known as mitosis, the PJ34 molecule causes an anomaly that triggers the cell to self-destruct. In cancer cells that are duplicating uncontrollably, this type of stop signal is critical to controlling the tumor. Only 30 days after the treatment ended, an 80-90 percent reduction in cancer cells was observed, accompanied by zero negative impacts to healthy cells.

Why it’s important: Pancreatic cancer is one of the most difficult cancers to treat, and few patients survive more than five years after diagnosis. Today, most treatment options involve chemotherapy, a systemic approach aimed at halting cell division in the entire body. Yet because this form of therapy lacks discriminatory targeting, cell replication slows across the entire body, causing many patients to experience negative side effects like hair loss, inflammation of the digestive tract, and decreased blood cell production. A solution like PJ34, which specifically targets only cancer cells, could revolutionize cancer therapy and significantly enhance patient quality of life. Venturing beyond pancreatic cancer, the team even successfully tested the treatment on cell cultures of aggressive forms of breast, lung, brain and ovarian cancer. According to the team, this treatment is about two years away from human trials, potentially promising a major boost to healthy human lifespans.

5 Emerging Energy Technologies to Watch Out For in 2020.

The story: This year, technologies in solar, wind, and battery storage have achieved remarkable economies of scale and now compete almost at parity with fossil fuels. In the coming year, breakthrough after breakthrough may finally usher in a watershed moment for the energy sector, and experts recommend keeping an eye on several key areas.

What to watch: (1) Floating solar arrays have surged in popularity for use on freshwater bodies, but photovoltaic solar panels are now moving to the open ocean. (2) Static compressors, which help to maintain the constant frequency of electric power grids, are starting to see an uptick in certain countries and should help with overall incorporation of renewables into the power grid. (3) Several companies are now working to increase the power capacity of dynamic export cables. These are critical to bringing power from offshore floating wind turbines (as opposed to static turbines fixed to the seafloor) back to shore. (4) Now backed by significant funding, molten salt reactors are a new form of nuclear power that promise to emit less radiation than traditional nuclear. (5) Renewably produced hydrogen has witnessed considerable growth in at least 10 countries, with projected utility in everything from industrial heating and cooling to the integration of renewables into the grid. As plummeting renewable energy costs and improved grid storage propel us into 2020, we may soon expect dramatic shifts in the global energy economy.

SLAC scientists invent a way to see attosecond electron motions with an X-ray laser.

What it is: Researchers at Stanford University have developed a method to measure electrons at an unfathomable timescale: 280 attoseconds, to be precise. For reference, an attosecond is to a second what a second is to roughly 31.71 billion years, longer than the age of the universe. To achieve this, the researchers developed a procedure involving X-ray bursts generated by fast-moving electron bursts. To see at smaller and smaller timescales, scientists needed to create shorter and more intense bursts. These bursts, in turn, create the requisite intense and fast X-rays when they are passed through a magnet. Ultimately, the Stanford scientists were able to develop a more capable beam using a technique called XLEAP, first proposed about 14 years ago but now finally coming to fruition.

Why it’s important: This is a tremendous boost for ultrafast science. “Until now, we could precisely observe the motions of atomic nuclei, but the much faster electron motions that actually drive chemical reactions were blurred out,” explained SLAC scientist James Cryan, one of the paper’s lead authors and an investigator with the Stanford PULSE Institute (a joint institute of SLAC and Stanford University). “With this advance, we’ll be able to use an X-ray laser to see how electrons move around and how that sets the stage for the chemistry that follows. It pushes the frontiers of ultrafast science.” What does this mean? Now capable of observing at infinitesimal scales, we may soon probe some of the world’s most fundamental mysteries, particularly in photosynthesis and biochemistry.

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.

The Future is Faster Than You Think: Want a chance to read my new book before anyone else? Join the Future is Faster Than You Think launch team (applications close on December 6th)! Get an advanced digital copy, access to our private Facebook group, behind the scenes specials, a live Q&A with Steven and me, and hundreds of dollars in exclusive bonuses. Click here for details.

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.)

Topics: Abundance Insider AR/VR AI machine learning Artificial Intellegence Batteries solar energy drone technology social responsibility
9 min read

Abundance Insider: November 23rd, 2019

By Peter H. Diamandis on Nov 23, 2019

In this week's Abundance Insider: Heliogen's concentrated solar power breakthrough, AI bots inventing new tools, and Lenovo's use of VR as an anesthesia alternative.

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.

Share Abundance Insider on LinkedIn | Share on Facebook | Share on Twitter.

Lenovo pilots VR as an alternative to general anesthesia for kids.

What it is: As doctors realize the immense potential of VR in medical training, practitioners are now exploring equally profound medical applications of VR, namely its use for distraction of patients during surgical procedures. In partnership with the Starlight Children’s Foundation and (mobile device management provider) SOTI, Lenovo is now testing VR headsets as an alternative to general anesthetics for kids. Using largely off-the-shelf headgear and software—Lenovo Mirage Solo headsets and games curated by Starlight—participating hospitals, such as Children’s Hospital Colorado, have already seen impressive results. Whether in alleviating panic, pain, or similar side effects, the VR distraction aid has proved successful in everything from lumbar punctures and dressing of damaged limbs to endoscopies when combined with a local anesthetic.

Why it’s important: While virtual reality’s use cases in entertainment and even education are fairly obvious, a slew of niche applications across medicine are only now beginning to surface. Particularly as VR grows ever more hyper-realistic, thanks to surging bandwidth and resolution, resulting virtual experience products will soon be capable of addressing immersive distraction (in medical and other contexts) and even potentially long-term pain relief in adults.

Lab-grown meat gains muscle as it moves from petri dish to dinner plate.

What it is: A Harvard research team has now created lab-grown rabbit and cow muscle cells that resemble the texture and consistency of their animal counterparts. By applying regenerative medicine to food, the team at Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) created an edible gelatin scaffold that could transform the scalability of lab-grown meat. Animal meat is primarily composed of skeletal muscle fibers that must adhere to a structure to grow. The team decided to create this structure out of gelatin using immersion Rotary Jet-Spinning (iRJS), which uses centrifugal force to spin long nanofibers of specific shapes and sizes. The gelatin fibers resemble the extracellular matrix and promote muscle cell growth. Eventually, the team hopes to design meats with defined textures, tastes, and nutritional profiles— all at an affordable price.

Why it’s important: Livestock contributes 14.5% of total greenhouse gas emissions worldwide. Yet the global market for meat is worth upwards of US$1.8 trillion. One third of human-consumed calories come from meat products, and the average American today eats 220 pounds of red meat and poultry each year (up from 167 pounds in 1990). To curb the detrimental environmental damage associated with these consumption habits, we need an alternative that tastes just as good. While many lab-grown meat companies have mastered texture, issues of price and scale still hinder widespread adoption of their products. The SEAS team’s gelatin scaffold technology could solve both challenges, as it allows muscle cells to quickly grow and can be ingested alongside meat. Now increasingly price-competitive, numerous lab-grown products, like Clara’s egg substitute and Memphis Meats’ meatballs, will soon begin to undercut plant-based products on the market today. But beyond economics, a host of new food tech advancements are allowing us to customize nutritional content, flavor profiles, and texture.

Bill Gates-backed solar startup announces major breakthrough.

What it is: Bill Gates-backed startup Heliogen recently unveiled its solar concentration technology, one expected to “commercially replace fuels with carbon-free, ultra-high temperature heat from the sun.” Founder Bill Gross (who also founded Idealab) has been working on the company in his very own incubator, alongside numerous other clean energy startups. The first of its kind, Heliogen’s system consists of a computer vision software that coordinates a large array of mirrors to reflect sunlight at a single target, which can then supply up to 1,000 degrees C of heat. This extreme amount of heat is necessary for industrial processes like those used to make cement, steel, and other materials, the production of which contributes to one-fifth of global fossil fuel emissions, according to Bill Gates. If companies purchase Heliogen’s system outright, however, Gross claims the technology could pay for itself within 2-3 years, reducing firms’ fossil fuel emissions by up to 60%.

Why it’s important: Electricity accounts for less than a quarter of global energy demand. Heliogen’s technology addresses a large chunk of the remaining 75% by providing an alternative energy supply for large industrial needs. Sunshine is a free commodity, and this simple fact offers a tremendous economic incentive for businesses to invest in effective concentrated solar power. Although our individual daily energy decisions impact the environment, large corporations can stand to both gain from and contribute to the shared pursuit of a zero-emissions future. While most heavy industry players rely solely on fossil fuels to achieve high temperatures, systems like that of Heliogen could provide long-term energy alternatives, capitalizing on an essentially free asset: the Sun.

Playing Hide-and-Seek, Machines Invent New Tools.

What it is: Programming researchers at OpenAI recently taught a group of AI bots to play hide-and-seek, unleashing them in teams of up to three agents on hundreds of millions of back-to-back games. While the AI hiders and seekers began with a clean slate and no play instructions, they soon learned to chase and hide, build fortifications (at about the 25 million-game mark), and even uncover unexpected uses of unusual tools. Engaged in a cat-and-mouse battle, OpenAI’s bots gradually learned increasingly complex attack and defense strategies. After nearly 390 million games, for instance, seeker bots learned to use virtual boxes to “surf” around the arena and gain visibility— a strategy quickly stymied by hiders, which learned to lock these boxes and prevent surfing after about 458 million games.

Why it’s important: The rapid progression of OpenAI bots’ game-playing strategies over millions of iterations, yielding advantageous traits, has been likened by some to the evolution of human intelligence. Yet more importantly, OpenAI’s algorithms demonstrated the remarkable ability to identify creative uses for undefined tools, paving the way for AIs that might soon solve far more complex strategy-related problems in unstructured contexts. According to Danny Lange, VP of AI at Unity Technologies (a game engine company), “There’s nothing here that prevents this from [...] going on a path where tool usage gets more and more complex.” Such complex tool usage (a hallmark of human intelligence) appears to be further spurred on by AI game play, as competitive environments prompt algorithms to learn from and circumvent their own mistakes over time.

Quantum computers learn to mark their own work.

What it is: Researchers at the University of Warwick have now devised a method to check answers output by a quantum computer. By using problems for which answers are already known, the team is able to quantify the effect of noise within the computer, creating two percentage metrics for determining accuracy. The first metric is an estimate of how close the quantum computer’s answer is to the real answer, while the second is a confidence score of that closeness. In this way, quantum computer engineers can further refine the machines, identifying sources of error and paving the way for future applications.

Why it’s important: By definition, quantum computers are designed for problems that would take classical computers an exponential amount of time to solve. Thus, in the past, researchers required exorbitant classical computing resources to error-check their answers—a task that quickly becomes infeasible in the case of applications designed for quantum computers. Yet with the researchers’ newly developed protocol, quantum computing systems can check themselves, independent of large servers, and thereby provide far more utility.

South Australia household batteries keeps lights on in Queensland after coal unit fails.

Story contributed by Tom Connor.

What it is: Last month, after a large power plant suddenly went offline in Queensland, Australia, an unlikely renewable contender came to the rescue. A distributed solar and battery project, the South Australia Virtual Power Plant (VPP)—led by US Battery and Tesla—aggregates stored solar resources from hundreds of homes with rooftop photovoltaic power stations (or rooftop PV). On October 9th, when the coal-fired Kogan Creek power station in Queensland tripped, reducing supply by 784 MW and putting the grid at risk, the VPP had a chance to prove its utility. Detecting the drop in frequency, the VPP immediately injected power from its 900+ systems back into the grid, helping to stabilize the system.

Why it’s important: Kogan Creek is the largest single power plant in Australia, so a distributed renewable energy network’s ability to immediately step in has drawn significant praise throughout the country and beyond. Today, energy storage is a key limiting reagent in our efforts to popularize renewable sources, critical to buffering the variability of solar and wind. Demonstrated successes in distributed storage at grid scale could thereby have a considerable impact on widespread adoption of solar and microgrid technologies, particularly in the case of residential rooftop solar PV systems.

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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

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.

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Topics: Abundance Insider Energy AI Longevity machine learning Artificial Intellegence Drones Batteries Autonomous Drones IoT solar solar energy internet of things aging drone technology solar power energy storage energy abundance future of energy genetic engineering brain genome sequencing water battery Alzheimer's dementia neuroscience optimization Apple Yeezy
8 min read

Abundance Insider: November 16th, 2019

By Peter H. Diamandis on Nov 16, 2019

In this week's Abundance Insider: Memory-mapping neurons, FAA-approved ‘blind’ drone flights, and Fukushima’s renewable energy future.

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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Japan is reinventing Fukushima as a renewable energy hub.

What it is: Japan is now working to revamp the Fukushima nuclear meltdown zone to once again produce electricity, but this time using solar and wind power. Thanks to a loan from the state-run Development Bank of Japan and the Mizuho Bank, the region will soon produce about 600 megawatts of electricity, courtesy of 11 new solar plants and 10 new wind farms. With expected completion in March of 2024 at a cost of $2.7 billion, the power plants are predicted to generate enough power for about 114,000 average American homes.

Why it’s important: Nearly 43,000 Japanese citizens remain displaced by the Fukushima disaster, while about 143 square miles of the prefecture stand in a permanent evacuation zone. Yet Japan now seeks to capitalize on this seeming “dead zone,” leveraging the expanse of uninhabitable land to power residential regions. Contributing to the prefecture’s goal of achieving 100 percent renewable energy-derived power by 2040, this power infrastructure will help pave the way for similar initiatives worldwide.

Drone company Iris Automation makes first-of-its-kind FAA-approved ‘blind’ drone flight.

What it is: In partnership with the Kansas Department of Transportation, drone startup Iris Automation has successfully completed the first FAA-approved BVLOS (“beyond the visual line of sight”) drone flight. Until now, the FAA and most other jurisdictions have required human observers and on-ground radar systems for testing of new services, costing companies up to $50 million and thereby hindering development of viable drone services. Yet with newfound FAA approval, Iris Automation utilized solely onboard detect-and-avoid systems. The flight follows the company’s successful test run in Alaska earlier this year, wherein its autonomous systems beat out human-operated drones 95 percent of the time in avoiding head-on collisions with other vehicles.

Why it’s important: We’re now seeing a massive surge in the development rate and approval of autonomous drone use for delivery of critical supplies and commerce. Meanwhile, numerous regulatory agencies—including state-level government departments in even technologically lagging regions—continue to define and refine the right guidelines of operation. As the immediacy of retail interactions, aid delivery, and small-scale cargo transit continues to skyrocket, expect the proliferation of drone manufacturers, complex sensors, and AI navigation software systems.

Specific neurons that map memories have now been identified in the human brain.

What it is: Scientists at Columbia University have found the first-ever evidence that individual neurons target specific memories during willful memory recall— think: recalling navigation details when a stranger asks you for directions. In their experiment, the neuroengineers first used electrodes implanted in neurosurgical patients to track brain signals. In particular, they monitored signals that were active when patients searched for objects from memory in a virtual reality game. Ultimately, they found that specific patterns of neuronal activity were matched with specific memories.

Why it’s important: Researchers have long known that certain activated neurons correspond with specific geographic locations, demonstrated by a Nobel Prize-winning discovery that linked “grid cells” and “place cells” to spatial location. However, prior to this experiment, it was unclear how spatial cells relate to memories made (through events or experiences) in that location. As explained by the study’s lead author Salman E. Qasim, “This discovery might provide a potential mechanism for our ability to selectively call upon different experiences from the past and highlights how these memories may influence our brain's spatial map.”

Apple plans standalone AR and VR gaming headset by 2022 and glasses later.

What it is: Apple recently announced its latest plan to release a series of AR/VR devices over the next four years. Just next year, the company will introduce 3D sensors to the iPad Pro, allowing users to reconstruct rooms, people, and objects in three dimensions. After their initial debut, these sensors will next be rolled out on iPhones (expected by end of 2020), building on current Face ID technology. In the following two years, Apple then aims to release its standalone AR/VR headset for use in virtual meetings, gaming, and entertainment. And by 2023, lightweight Apple glasses will reach consumers for everyday use. Although Apple’s release dates are later than anticipated, the tech giant’s 1,000 AR/VR engineers are forging ahead to deliver perfectly fine-tuned devices. Resulting technology will represent the beginning of Apple’s next big hardware push, building upon the wearables segment that now offsetts a decline in iPhone sales.

Why it’s important: By adding AR/VR glasses to a growing list of wearables—including the Apple Watch, AirPods, and Beats headphones—Apple is now making the leap from the iPhone revolution to far more accessible smart interfaces, seamlessly integrated in our everyday lives. Advancing steadily within the deceptive growth phase, AR glasses will soon allow you to navigate the streets of a new city without staring into a phone screen. Learn about the history of a new place, keep up to date on news alerts, and stay in touch with your favorite contacts, no intermediary 2D digital portal needed. Apple’s wearable revolution will transform the way we interact with our physical environments, converting every surface into an opportunity to work, learn, or play.

DNA is just one of more than one million possible ‘genetic molecules,’ scientists find.

What it is: A new study published in the Journal of Chemical Information and Modeling suggests that more than 1 million chemical look-alikes might encode biological information, as does DNA. So far, DNA, RNA, and a few man-made molecules are the only known nucleic acids capable of linking up, storing and relaying data, depending on their sequence. By designing a computer program that can generate chemical formulas, researchers at Emory University tested countless generated molecules to determine whether they resembled nucleotides. A surprise to everyone, their results identified over 1,160,000 molecules that could couple up in distinct pairings and assemble in a line, akin to DNA and RNA.

Why it’s important: Prompting us to fundamentally rethink optimal means of genetic data conveyance, this discovery has vast new implications. As a number of current drugs resembling nucleotides are effective in combating viruses and some malignant cancer cells, the team’s generated list could pave the way for novel pharmaceutical products. Within evolutionary biology, the finding that DNA and RNA have plenty of company may yield new truths about how life first evolved on Earth.

Kanye West’s sustainable Yeezy concept uses algae foam.

What it is: Kanye West’s Yeezy line is now diving into algae foam. West’s latest shoe, revealed at Fast Company’s Innovation Festival this week, is an algae-based creation modeled after the Yeezy foam runner. While its khaki color does not necessarily draw the eye, the shoe’s designers and engineering team are working to refine the color with environmentally friendly dyes. Meanwhile, Yeezy now plans to move its headquarters to a 4,000-acre ranch in Wyoming, enabling the company to grow algae in a hydroponic farm to further iterate on and rollout the new shoe product. The line’s transition to sustainable materials aligns with its parent brand’s eco-friendly initiatives. Driven by similar motives, Adidas recently pledged to manufacture solely with recycled plastics by 2024, and has already released the 100 percent recyclable Futurecraft Loop shoe.

Why it’s important: Second only to oil, the clothing and textile industry is the largest polluter in the world. Even once clothing reaches buyers’ shopping carts, consumer waste of textile products further contributes to the problem. The average American, for instance, throws away roughly 80 pounds of used clothing every year, much of which can be recycled but instead goes to the landfill. Yet big name brands hold tremendous power to popularize sustainable fashion and decreased production waste by innovating in the materials science realm. Boosting consumer awareness, Yeezy’s transition marks a key step towards ecologically responsible footwear, helping reduce fast-fashion waste.

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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

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.)

Topics: Abundance Insider Energy AI Longevity machine learning Artificial Intellegence Drones Batteries Autonomous Drones IoT solar solar energy internet of things aging drone technology solar power energy storage energy abundance future of energy genetic engineering brain genome sequencing water battery Alzheimer's dementia neuroscience optimization Apple Yeezy
9 min read

Abundance Insider: November 8th, 2019

By Peter H. Diamandis on Nov 8, 2019

In this week's Abundance Insider: Toshiba's IoT alliance with Softbank and KDDI, an energy breakthrough in solar power storage, and new genetic clues for Alzheimer's prevention.

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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Toshiba's IoT alliance with Softbank and KDDI, an energy breakthrough in solar power storage, and new genetic clues for Alzheimer's prevention.

What it is: Copper-producing giant Freeport-McMoran is introducing a machine learning model to its production processes. While intended to increase the mining company’s annual output of copper by 90,000 tons (or 200 million pounds), the use of AI aims to minimize capital investment in doing so, as explained by chief executive Richard Adkerson. Developed with the management consulting firm McKinsey, Freeport-McMoran’s model integrates data from sensors across the company’s Bagdad mine in Arizona and suggests methods to optimize production, including adjusting the processing pH level to recover more copper.

Why it’s important: A production bump of this scale typically requires capital investment on the order of US$1.5 to 2 billion— not to mention far more industrial equipment. Harnessing the power of machine learning, however, Freeport-McMoran is planning to use the excess cash generated by increased production to pay down debt and power shareholder returns. Yet beyond mining, the use of integrated sensors and AI in even the most technologically lagging sectors is a tremendous validator of machine learning’s potential. By integrating data from key industrial processes and checkpoints, machine learning models can identify sources of inefficiency, non-intuitive shortcuts, and optimization decisions that create economic value far exceeding needed expenditures.

UPS and CVS deliver prescription medicine via drone to US residential customers.

What it is: Just this week, UPS announced that its drone delivery subsidiary, UPS Flight Forward, has completed its first two prescription medication deliveries to consumers in Cary, North Carolina. Both deliveries utilized the Matternet M2 drone system, now FAA-approved (as of last month) for UPS’s commercial use. Although a remote operator remained on hand, both deliveries were entirely autonomous, as drones hovered roughly 20 feet over each residential property to slowly lower packages by cable and winch to the ground. The announcement comes just one month after Flight Forward achieved its Part 135 air carrier certification, allowing the company's drones to “fly over people, at night, and out of an operators line of sight.”

Why it’s important: So far, UPS and Matternet have focused principally on deliveries to large healthcare campuses, with over 1,500 revenue-generating drone deliveries completed to date. The move to partner with CVS and to include residential deliveries is yet another signal we have been tracking, indicating that urban airspace, cargo transit and personalized deliveries are about to change significantly. What new opportunities open up when last mile delivery is no longer tethered to trucks and road transit?

Toshiba to form IoT alliance with SoftBank, KDDI and others.

What it is: In partnership with SoftBank, wireless carrier KDDI, and utility Tokyo Gas, Toshiba will launch an IoT platform called ifLink Open Community. To be formally established next March, the association aims to include over 100 Japanese companies, making it far easier for participating businesses to build IoT solutions without significant coding and technical hardware experience. Akin to Amazon’s model—which grants connection kits to smart device manufacturers that use Alexa—ifLink will similarly offer access to products sourced from the open community. This way, member companies no longer need to design prototypes and services from scratch.

Why it’s important: Standing at the intersection of connectivity, sensors and AI, the IoT market is booming. IDC projects the global market could top US$1 trillion by 2022, almost 2X last year’s US$646 billion market valuation. As major players like General Electric and Hitachi build their own proprietary IoT systems, IoT’s rise has largely been fueled by exponential advances in the price-performance ratio and miniaturization of sensors, surges in computing power, and the rapid emergence of 5G. With these converging foundations in place, we are about to witness a Cambrian explosion in new business models, smart and connected systems, and even intelligent urban networks. What intelligence would you gather within your own business if IoT platforms were readily buildable? What new products might you create?

An Energy Breakthrough Could Store Solar Power for Decades.

What it is: Swedish researchers have recently identified a molecule that can trap and store solar energy for up to decades, ultimately releasing the energy as heat on-demand. The secret sauce: a molecule made of carbon, hydrogen, and nitrogen that absorbs the Sun’s energy and holds it until a catalyst triggers its release. The team, led by Kasper Moth-Poulsen at Chalmers University of Technology in Gothenburg, also created a unique storage unit that can outperform the 5- to 10-year lifespan of standard lithium-ion batteries. Lastly, the group developed a transparent coating that absorbs sunlight and converts it to heat energy on the spot. Now working to demonstrate the technology at scale, the researchers are coating an entire building on campus with this material to reduce electricity requirements for heating and thereby curve carbon emissions. Once successful, the team aims to bring the storage unit to market in six years and the coating in only three— a timeline contingent on necessary funding streams.

Why it’s important: The big challenge that remains for Moth-Poulsen’s team is long-term energy storage for not only heat, but also electricity supply. While cost is yet another factor in recent solar-harnessing technologies, Moth-Poulson’s approach does not require expensive rare elements. Converting solar energy into heat through the team’s transparent coating could supply enough heat for vehicles and small buildings without any intermediary emission-producing machinery. Moving forward, this technology could even be incorporated into clothing to insulate humans in lightweight designs. In construction, window coatings could transform architectural designs in frigid regions, allowing more access to natural light during the winter. As demonstrated here, sometimes the greatest innovations begin on the micro-scale, harnessing unique chemical combinations for local use.

Three-story water battery cuts university's energy usage by 40 percent.

What it is: Having switched on its three-story “water battery” in September, Australia’s University of the Sunshine Coast (USC) is now receiving enough power to cut its reliance on the grid by over 40 percent. Essentially a giant thermal energy storage system, USC’s “water battery” harnesses 6,000 solar panels (lining campus roofs and carparks), which comprise a 2.1 megawatt photovoltaic system. In turn, this generated energy then serves to cool 4.5 megaliters of water within a three-story tank. As air conditioning constitutes two fifths of the campus’s energy costs, water cooled using solar-generated energy can offset this, saving the university an estimated “US$69 million in energy costs over the next 25 years,” according to USC’s COO Dr. Scott Snyder.

Why it’s important: Charging ahead full force, Australia’s USC has pledged to be carbon-neutral by 2025. Now operational, the university’s battery system is slated to cut CO2 emissions by upwards of 92,000 tons in the coming 25 years (already having reduced USC’s carbon footprint by 42 percent). Further earning the university international acclaim—through an award at Iceland’s 2019 Global District Energy Climate Awards—USC’s water battery is now inspiring similar energy innovations. Through customization around niche energy uses, renewable energy generation and storage systems are gradually fulfilling distinct slices of the energy needs pie, edging us closer to a carbon-neutral future worldwide.

Rare genetic mutation might hold clues to preventing Alzheimer's.

What it is: In an unprecedented new case, a Colombian woman developed early-stage Alzheimer’s yet experienced no common dementia symptoms for decades, likely due to a unique genetic mutation. While most Alzheimer’s cases are not linked to genetics, about 1,200 people in Colombia do face high early-onset genetic risk for the disease. Individuals with the E280A mutation of a gene called Presenilin 1 (PSEN1) are prone to developing Alzheimer’s in their forties or earlier. Yet while this female patient experienced the same unusually high level of brain amyloid-beta deposits as typical E280A individuals, she entirely evaded dementia symptoms like confusion and memory loss. When investigating this seeming anomaly, researchers found that she carried two additional “Christchurch” mutations in the APOE3 gene. While some E280 peers carried one version of this mutation, they were not protected against dementia in the same way.

Why it’s important: These findings open up a new realm of Alzheimer’s research, focused on preventing the development of dementia even as Alzheimer’s may progress. Without memory and normal brain function, it becomes almost impossible for Alzheimer’s patients to function independently. If effective in delaying the onset of dementia, however, a genetic treatment would not only increase lifespan but also vastly improve quality of life. While the genetic underpinnings of this newly discovered correlation will require further exploration, the recent surge of gene-editing tools can surely help apply these findings to therapeutic applications in the future. As genome-sequencing continues to demonetize, tracking mutations and their correlations with disease incidence will be easier than ever before.

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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

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.)

Topics: Abundance Insider Energy AI Longevity machine learning Artificial Intellegence Drones Batteries Autonomous Drones IoT solar solar energy internet of things aging drone technology solar power energy storage UPS energy abundance softbank future of energy genetic engineering brain genome sequencing water battery CVS Alzheimer's dementia neuroscience Toshiba optimization
8 min read

Abundance Insider: October 28th, 2019

By Peter H. Diamandis on Oct 28, 2019

In this week's Abundance Insider: Google's quantum computing breakthrough, a new gene-editing technique, and NASA's collaboration with Caterpillar on Moon mining machines.

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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New gene editing technology could correct 89% of genetic defects.

What it is: Researchers at the Broad Institute of MIT and Harvard have now developed a new gene-editing technique called “prime editing.” Built upon the foundations of CRISPR technology, prime editing has the expected potential to correct up to 89 percent of genetic defects, including those responsible for diseases like sickle cell anemia. By combining the traditional CRISPR-Cas9 approach with a protein that can generate new DNA, prime editing can thereby both snip DNA strands and transfer edited sequences to target DNA, allowing scientists to delete and replace whole sections of DNA strands.

Why it’s important: Single point gene mutations constitute roughly two-thirds of known human genetic variants associated with disease. As a result, effective gene editing techniques—once perfected—could correct mutations and wipe out a number of debilitating conditions. As explained by one of the authors of the study, Andrew Anzalone, “The versatility of prime editing quickly became apparent as we developed this technology [...] The fact that we could directly copy new genetic information into a target site was a revelation.” Now refining the new prime editing technique, Broad Institute’s scientists hope future iterations of CRISPR could target everything from obesity to Alzheimer’s to some of today’s most vexing genetic maladies. |Share on Facebook.

NASA's collaborating with Caterpillar on Moon mining machines.

What it is: NASA has recently teamed up with autonomous construction vehicle manufacturer Caterpillar to develop machines for excavating and mining the Moon. The two have long collaborated on robotics projects, but it is the autonomous capabilities of Caterpillar’s vehicles that make the company uniquely positioned to develop technology for NASA's lunar exploration programs. According to NASA spokesperson Clare Skelly, “there are many synergies between what NASA needs to meet exploration goals and Caterpillar technologies used here on Earth.”

Why it’s important: On the heels of revived interest in lunar exploration and the goal of establishing a lunar base, NASA has been heavily pursuing methods to make tasks easier for astronauts. Given multiple hazards associated with navigating the lunar surface, semi-autonomous vehicles could minimize dangerous construction work done conducted directly by astronauts. Once validated and fully autonomous, Moon-mining machines might one day provide a continuous supply of raw materials, from dust to water, for NASA’s proposed lunar outpost. | Share on Facebook.

Tesla’s new Solar Roof costs less than a new roof plus solar panels, aims for install rate of 1K per week.

What it is: Tesla has just launched its third-generation Solar Roof for residential home use. Planning to start installations in the coming month, the company is now aiming for a production rate of up to 1,000 new roofs per week. Long a work in progress, Tesla’s Solar Roof is designed to double as both an aesthetically appealing roof tile and set of home power-generating solar panels with high surface area coverage. While the installation process remains “very non-trivial,” according to Elon Musk, Tesla hopes to gamify consumer installation learning through ‘installathons’ and is investing in R&D to lower this critical barrier.

Why it’s important: Although individual tiles’ power-gathering cells are still less energy-efficient than traditional solar cells, version three of the Solar Roof well exceeds the energy-generating capacity of similarly sized roofs retrofitted with traditional tiles, on balance. Furthermore, V3 marks a tremendous improvement over previous iterations of the Solar Roof, and Musk forecasts a total addressable market of up to 100 million households globally. As installation procedures plummet in complexity and cost, and solar continues to demonetize, self-sustaining and energy-efficient residences could fast become the norm worldwide.

Google Confirms Achieving Quantum Supremacy.

What it is: Google’s quantum computer, Sycamore, has just claimed “quantum supremacy” after completing a computation that would normally take 10,000 years on the most powerful supercomputers, in just 200 seconds. Led by experimental physicist John Martinis at UC Santa Barbara, the Google team published its feat in Nature magazine this week. Instead of traditional semiconductor computers, which store data in 1s or 0s, quantum bits (qubits) can exist in a third superposition state of both 0 and 1 simultaneously. With more degrees of bit variability, quantum computers can thereby perform exponentially more calculations per second than traditional computers. Quantum entanglement, described by Einstein as “spooky action at a distance,” then allows computers to measure entangled qbits at the same time. As Google’s Sycamore contains 54 qbits capable of storing over 10 quadrillion combinations of values, the tech giant now boasts the potential to tackle computational problems inconceivable in the past.

Why it’s important: While real-world applications of quantum computing may lie further on the horizon, Sycamore’s scientific achievement is a tremendous milestone for the many companies investing in this space already. In just the last two years, about US$400 million has been channeled towards private quantum-related firms—doubling investment figures of the past five years. Intel and IBM have demonstrated processors similar in scale to that of Sycamore, yet error-checking remains an issue for all three. Moving forward, Google aims to implement full error-checking once it can create processors with at least a million qubits. Currently, however, a second Google team is exploring how Sycamore-like computers can develop machine learning algorithms that generate realistic images. Meanwhile, competitor IBM offers quantum cloud access to partners such as drugmaker Merck. Even Airbus Ventures has invested in quantum startup IonQ, which may eventually aid in aircraft physics simulations. Spanning countless applications, the long-term vision of early investors in quantum computing will pay off sooner than you might think. |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

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.)

Topics: Abundance Insider Robotics google solar solar energy autonomous vehicles Genetics CRISPR quantum computing nasa solar cells solar power solar roof extraplanetary colonies genetic engineering Caterpillar
8 min read

Direct Air Capture & the Carbon Revolution

By Peter H. Diamandis on Aug 18, 2019

Imagine making fuel, plastics, and concrete out of “thin air." That’s the promise of Direct Air Capture (DAC), a technology that fundamentally disrupts our contemporary oil economy.

Topics: Energy Abundance Exponentials XPRIZE solar energy solar power energy storage fossil fuels energy abundance future of energy direct air capture carbon carbon dioxide fuel future of fuel carbon capture carbon capture and sequestration Global Thermostat Climeworks Carbon Engineering CO2 fuels NRG Cosia Carbon XPRIZE
8 min read

(Sun)Bathed in Solar Energy Abundance

By Peter H. Diamandis on Aug 4, 2019

Every five days, the Sun provides the Earth with as much energy as all proven supplies of oil, coal and natural gas.

Topics: Energy Abundance Exponentials Tesla solar solar energy solar cells solar power energy storage energy abundance SolSunTech photovoltaics perovskite SunPower SolarCity solar roof panel efficiency Sun future of energy Perovskite PV Panasonic
9 min read

Energy Abundance: The Future of Nuclear

By Peter H. Diamandis on Jul 14, 2019

Yes, I want nuclear energy *in my back yard*!

Topics: Energy Abundance Exponentials environment Batteries solar energy exponential technology footprint energy storage oil fossil fuels nuclear fusion fission nuclear power U-Battery energy abundance nuclear energy ITER
14 min read

Abundance Insider: June 14th 2019

By Peter H. Diamandis on Jun 14, 2019

In this week's Abundance Insider: Amazon's commercial delivery drone, lab-grown stem cell heart patches, and a new artificial reef.

Cheers,
Peter, Marissa, Kelley, Greg, Bri, Jarom, Joseph, Derek, Jason, Claire, Max and Nora

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 hone in on your MTP/ Moonshot? Abundance Digital, a Singularity University Program, includes 100+ hours of course work 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.

 

You Can Train An AI To Fake UN Speeches In Just 13 Hours

What it is: ​Researchers from the UN’s big data and innovation initiative, Global Pulse, set out to demonstrate the powerful implications of deep learning on governmental affairs and disseminated news. To do so, they created a deep learning system that generates fake UN speeches, using only open-source tools and data. The team employed a readily available, open-source deep learning language model, trained with publicly available Wikipedia articles. They further refined the deep learning model with speeches given at the UN General Assembly from 1970 to 2015. Their resulting system generated hyper-realistic political speeches on complex, high-stakes topics ranging from nuclear weapons to refugee crises. Achieved at an extraordinarily low cost, the procedure required a mere 13 hours and $7.80 worth of cloud computing power.

Why it's important: Providing clear grounds for counteraction, this research compellingly demonstrates that we have reached the point at which anyone, anywhere can produce hyper-realistic fake content, essentially for free. Entrepreneurs today thereby face a major business opportunity to build creative solutions that combat misinformation and educate people across the globe on the rise of ‘deep fakes.’ How does the world — not to mention our current business practices — change when anyone, anywhere can digitally replicate you, your loved ones, and even our world leaders?  Share on Facebook

Spotted by Marissa Brassfield / Written by Claire Adair 

Watch Amazon’s All-New Delivery Drone Zipping Through The Sky

What it is: Amazon has now completed a successful test of its latest delivery drone. Having demonstrated advances in the Prime Air drone's safety and efficiency, according to Amazon executive Jeff Wilke, Amazon now claims its commercial drone delivery service will be a reality “in the coming months,” despite FAA red tape. Featuring six rotors, the electric-powered aircraft can take off like a helicopter, fly for 15 miles, and deliver a package of up to five pounds (covering the majority of consumer orders). Leveraging machine learning, the drone is additionally equipped with advanced object-detection systems to safely navigate neighborhood environments.

Why it's important: Commercial delivery drones represent a massive step forward for online retail. Autonomous delivery aircrafts decimate the time between consumer purchase and product enjoyment. Historically, brick and mortar retail has maintained a competitive edge over its online counterpart given its ability to satisfy the consumer’s desire for instant gratification. However, by nearly eliminating wait times, not to mention consumer-borne travel, delivery drones will satisfy that very impulse and increasingly dominate contemporary retail.  Share on Facebook

Spotted by Marissa Brassfield / Written by Aaron Bronfman 

After 40 Years Of Searching, Scientists Identify The Key Flaw In Solar Panel Efficiency

What it is: ​For the past 40 years, scientists have attempted in vain to determine a key flaw in solar cells responsible for Light Induced Degradation (LID), a 2 percent efficiency drop in solar cells during their first hours of use. In a new study, however, scientists used an electrical and optical technique called deep-level transient spectroscopy (DLTS) to identify weaknesses in the silicon used to produce solar cells. Previously undetected, a critical material defect was found to trap the flow of electrons once solar cells’ electronic charge is transformed from sunlight. This, in turn, reduces the electrical power generated as soon as solar panels are heated.

Why it's important: While an efficiency reduction of 2 percent might seem negligible, the aggregate global efficiency loss from LID is estimated to exceed the equivalent of all energy generated by the U.K.’s 15 nuclear power plants. As solar panels proliferate in number, eliminating this loss could have a tremendous impact in helping solar farms meet the world’s growing energy needs. Now that researchers have discovered this consequential material flaw, engineers are on the move to provide an optimal fix, one of many breakthroughs-in-progress charting the path towards solar energy abundance.  Share on Facebook

Spotted by Claire Adair / Written by Claire Adair 

This Lab-Grown Patch Could Repair Your Heart After a Heart Attack

What it is: A research team from Imperial College London has presented a novel solution for heart tissue damage resulting from heart disease and heart attacks. The team has created thumb-sized patches, each containing up to 50 million human stem cells. Once patches are sown onto damaged tissue, the stem cells they contain are “programmed” to grow into functional heart tissue. Offering a highly efficient and fast-acting solution, the stem cell-embedded patches can mimic fully mature heart tissue within just one month of attachment. While still awaiting clinical trials, this technology holds tremendous promise to prolong millions of lives in the future.

Why it's important: Every year, American adults suffer an estimated 735,000 heart attacks. In the same period, roughly 610,000 die as a result of heart disease, now the leading cause of death in the U.S. Resulting complications from heart disease and heart attacks often leave people with damaged heart tissue, making high-exertion activities exhausting and dangerous. Strengthened by this stem cell patch, however, a patient’s heart could heal and regain full functionality within several weeks. A remarkable advancement in regenerative medicine, this and similar therapies could soon give way to alternative forms of tissue regeneration, prolonging and improving people’s lives. As our ability to repair human tissue extends the professional lifespan, how might such an increase in "workable" longevity impact tomorrow’s labor force?  Share on Facebook

Spotted by Marissa Brassfield / Written by Hawken Wanamaker 

This Cool Artificial Reef Was Just Deployed In Sydney Harbor

What it is: About 1,000 miles south of the Great Barrier Reef sits a newly installed series of modular, artificial reefs, right in the heart of Sydney Harbor. Built by Reef Design Lab in partnership with the University of Technology Sydney (UTS), Sydney’s Opera House, and the New South Wales government, the reef consists of eight pods, each containing three hexagonal units. Constructed from marine-grade steel and concrete, these complex built structures are designed to become quickly encrusted with seaweed and similar sea life, attracting new marine inhabitants and providing shelter to those fish previously driven away from the Opera House’s surroundings.

Why it's important: It is no secret that today’s oceans are under attack. As plastic waste and agricultural runoff cause mass waterway contamination and detrimental harm to marine species, rising temperatures have led to astounding rates of coral bleaching. Yet while artificial reefs are not a holistic solution to these issues, they can help restore the complex ecosystems of affected natural reefs, repopulating diverse fish populations and attracting new marine life. In just a few weeks, Sydney Harbor’s reef structures have begun to attract curious, new inhabitants and could soon provide a promising model for similar areas in need.  Share on Facebook

Spotted by Marissa Brassfield / Written by Claire Adair 

Amazon launches Personalize, A Fully Managed AI-Powered Recommendation Service

What it is: This month, Amazon Web Services announced a newly available, AI-powered recommendation service called Amazon Personalize. A powerful new tool for content managers, app developers, consumer-facing businesses, and the like, Personalize allows users to incorporate tailored search results, product suggestions, and even on-the-fly customized funnels into a variety of web platforms. As locational availability expands, Personalize may soon allow anyone with Internet access to leverage recommendation engines powered by the same machine learning algorithms that fuel Amazon’s product recommendations.

Why it's important: In an age of constant disruption, what was once scarce and expensive is now abundant and nearly free. Only a decade ago, predictive analytics and its younger precursors, big data and machine learning, were relegated to the domain of multi-billion-dollar companies. Now, anyone anywhere can rapidly spin up powerful machine learning models that exponentially enhance one’s business, customer experience, and bottom line. How are you incorporating predictive analytics and recommendation services into your business?  Share on Facebook

Spotted by Marissa Brassfield / Written by Max Goldberg 

What is Abundance Insider?

This email is a briefing of the week's most compelling, abundance-enabling tech developments, curated by Marissa Brassfield in preparation for Abundance 360. Read more about A360 below.

Want more conversations like this?

At Abundance 360, a Singularity University Program, we teach the metatrends, implications and unfair advantages for entrepreneurs enabled by breakthroughs like those featured above. We're looking for CEOs and entrepreneurs who want to change the world. The program is highly selective. If you'd like to be considered, apply here

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.

Topics: Abundance Insider Energy AI Artificial Intellegence Drones solar energy Amazon autonomous vehicles oceans
14 min read

Abundance Insider: June 7th 2019

By Peter H. Diamandis on Jun 8, 2019

In this week's Abundance Insider: Fake news AIs, the world’s first 1 GW energy storage project, and an ocean mapping breakthrough.

Cheers,
Peter, Marissa, Kelley, Greg, Bri, Jarom, Joseph, Derek, Jason, Claire, Max, Nora, Hawken and Aaron

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 hone in on your MTP/ Moonshot? Abundance Digital, a Singularity University Program, includes 100+ hours of course work 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.

Topics: Abundance Insider Energy Finance AI blockchain Deepmind Artificial Intellegence XPRIZE solar energy autonomous vehicles oceans
11 min read

Musk vs. Bezos: The Great Migration into Space

By Peter H. Diamandis on May 19, 2019

We are witnessing the next great space race… but this time, it is not the U.S. vs. USSR. This race is between Elon Musk and Jeff Bezos.

Topics: Space Energy Abundance Transportation space exploration Abundance 360 a360 Blue Origin Private Space SpaceX solar energy solar cells solar power cars multiplanetary species
12 min read

Top 5 Energy & Transportation Breakthroughs (2019 - 2024)

By Peter H. Diamandis on May 12, 2019

The energy and transportation industries are being aggressively disrupted by converging exponential technologies.

Topics: Energy Abundance Transportation Abundance 360 a360 solar energy autonomous vehicles self-driving cars convergence catalyzer convergence electric vehicles wind power geothermal solar cells solar power internal combustion engine cars ridesharing
11 min read

Future of Cities Part 2: Visions of the Future

By Peter H. Diamandis on Mar 10, 2019

Tomorrow’s cities are reshaping almost every industry imaginable, and birthing those we’ve never heard of.

Topics: Energy Abundance Materials Science Data AI Real Estate Artificial Intellegence Autonomous Drones IoT materials connectivity solar energy trillion sensor economy autonomous vehicles China smart cities internet of things Spatial Web construction mobile devices cities infrastructure urbanization Estonia megacities microcities Dubai Xiong'an New Area traffic flying cars
9 min read

Future of Smart Cities - Part 1

By Peter H. Diamandis on Mar 3, 2019

Each week alone, an estimated 1.3 million people move into cities, driving urbanization on an unstoppable scale. 

Topics: Energy Abundance Materials Science Data AI Real Estate Artificial Intellegence IoT materials connectivity solar energy trillion sensor economy China smart cities internet of things Spatial Web construction mobile devices cities infrastructure urbanization Estonia megacities microcities Dubai Xiong'an New Area traffic
12 min read

Abundance Insider: January 18th, 2019

By Peter H. Diamandis on Jan 18, 2019

In this week's Abundance Insider: One-minute healthcare clinics, bioprinted spinal cord repairs and how AI systems “think.”

Cheers,
Peter, Marissa, Kelley, Greg, Bri, Jarom, Joseph, Derek, Jason, Claire and Max

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. Abundance 360 is only a week away! Join Abundance Digital to view the full livestream of this event, where we appreciate the technological breakthroughs of this past year and draw attention to the technologies that will move from deceptive to disruptive in 2019. Full livestream schedule and speaker descriptions can be found here

A Neural Network Can Learn to Organize the World It Sees Into Concepts -- Just Like We Do

What it is: Researchers at the MIT-IBM Watson Lab are using General Adversarial Networks, or GANs, to help explain how artificial intelligence systems “think.” GANs are a form of AI that pits two neural networks against each other to achieve a larger goal, such as creating new pictures of dogs, human faces or swapping heads in photos. In a process akin to knockout genes in biology, the researchers trained their GANs on pictures, and then turned neurons on and off to discover what they represented. Strikingly, the GANs representation of features closely mirrors how humans represent concepts like trees or doors — and even the nuances between types of trees or doors and how they fit into particular images (e.g. clouds go in the sky, versus the grass). As an illustration, the team has created an app called GANpaint, which you can use to experiment.

Why it's important: As we grow increasingly reliant on AI systems to make decisions for us and automate our lives, it’s critical that we begin to understand how these algorithms work.  Look for this example to spur new lines of research, as well as feedback loops to make AI’s smarter and more effective.  Share on Facebook

Spotted by Claire Adair / Written by Jason Goodwin 

Bio-Printers Are Churning Out Living Fixes To Broken Spines

What it is: In a groundbreaking study, researchers from the University of California at San Diego successfully bioprinted spinal implants to regenerate spinal cords in injured mice. Essentially, the team printed a 3D biomimetic hydrogel scaffolding, customized to a given rodent with spinal cord damage. They filled this scaffolding with neural progenitor cells (basically spinal cord stem cells), which facilitate axon (spinal cord cell) regeneration. After implanting the scaffold-neural cell matrix into the mice, the researchers observed axon regrowth around the implant. Eventually, the mice regained partial movement of their hind legs.

Why it's important: Bioengineers are using 3D printers and regenerative medicine to completely transform how we rehabilitate, cure and repair the human body. Current applications include replacing bones, augmenting dentistry, custom-fitting prosthetics, replacing organs and repairing nerves. While most bioprinting research is carried out in vitro (in Petri dishes), this experiment was performed in living mice, explicitly showcasing this technology’s ability to transform quality of life. As Peter is discussing in his Longevity and Vitality blog series, various regenerative medicine technologies are converging to dramatically extend the healthy human lifespan.  Share on Facebook

Spotted by Marissa Brassfield / Written by Max Goldberg

Researchers Discover A Method To Make 3D Printing 100 Times Faster Using Light

What it is: Researchers at the University of Michigan have developed a new 3D printing method that can produce complex shapes at up to 100 times the speed of traditional 3D printers. In conventional stereolithography, 2D images are projected onto liquid resin that hardens when exposed to light, but the stacking of these solid layers is far too slow a process for commercial-scale print runs. By using two different wavelengths of light, however, this printing method can now selectively harden specific parts of the printed resin while keeping resin near the projection window liquid. This allows for continuous printing (no incremental layering involved!) and massive speed improvements.

Why it's important: 3D printing has seen impressive adoption rates across manufacturing, but with slow printing speeds, it has yet to hit the big ranks. By selectively hardening photoreactive resin and thereby enabling a continuous print job, however, this method offers both a speed upgrade and major advances in structural integrity over filament 3D printing. Also capable of printing with a number of new resins, the technology has tremendous potential to commercialize high-speed and high-resolution additive manufacturing. Move aside, injection molds.  Share on Facebook

Spotted by Marissa Brassfield / Written by Claire Adair

Face-Scanning A.I. Can Help Doctors Spot Unusual Genetic Disorders

What it is: DeepGestalt, an AI built by the Boston-based tech company FDNA, is extending the applications of facial expression to identify children with rare genetic disorders. In a recent study involving 17,000+ kids with over 200 disorders -- many of which have recognizable facial features -- the AI correctly distinguished between subtypes of disorders 64 percent of the time. In contrast, human clinicians have a roughly 20 percent success rate. To achieve this feat, FDNA first trained DeepGestalt to identify faces in general, and then applied transfer learning to identify deviations from normal to spot possible disorders.

Why it's important:  Already in use with FDNA’s Face2Gene platform, this AI will help clinicians accurately identify and treat disorders faster and less invasively. This AI also leverages transfer learning, one of the key breakthroughs from DeepMind that enabled it to learn to play new Atari games from scratch. Where else can this process be applied? Share on Facebook

Spotted by Marissa Brassfield / Written by Jason Goodwin

Ping An Good Doctor Launches Commercial Operation of One-Minute-Clinics-In-China

What it is: Ping An Good Doctor, China’s largest online healthcare services provider, has now expanded its AI-geared “one-minute clinics” across eight major Chinese provinces and cities. With signed service contracts for almost 1,000 units and a growing user reach of over 3 million patients, the company has stocked its 24/7 compact booths with more than 100 categories of cryogenically refrigerated common drugs, purchasable through smart vending machines. Each clinic houses an ‘AI Doctor,’ trained to collect data on patient symptoms and medical history through voice and text input, after which one of Ping An’s human doctors provides remote diagnoses, medical advising, and immediate online prescriptions.

Why it's important: As the Chinese government drives forward a comprehensive “Healthy China” strategy, the nation’s online healthcare market continues to boom. Predicted to surpass US$14.4 billion in value by 2025, the domestic market has seen countless new players, with Ping An Good Doctor at the helm. Offering everything from online consultations for over 2,000 common diseases to one-hour drug delivery services, Ping An’s platform serves as a groundbreaking example of digitized and democratized healthcare: a glimpse of the future in which any patient can access transparent health information, expert advising and medical care anytime, anywhere. Share on Facebook

Spotted by Marissa Brassfield / Written by Claire Adair

Tesla Proposes Microgrids With Solar And Batteries To Power Greek Islands

What it is: Tesla leadership recently met with the government of Greece as a preliminary step in deploying energy storage microgrids on the Greek islands. Similar to the systems that Tesla deployed in Hawaii, Puerto Rico and Samoa, these systems would include photovoltaic solar arrays to capture energy, and energy storage battery banks. Tesla has had a presence in Greece for several years, and previously built an electric motor research and development center there.

Why it's important: This year, solar energy broke records all over Europe. Across the region -- and the world -- we’re seeing lower prices and larger solar farms than ever before. Tesla’s efforts to drive down the cost of photovoltaics and battery storage put the company at the forefront of the solar energy evolution.  Share on Facebook

Spotted by Marissa Brassfield / Written by Max Goldberg 

What is Abundance Insider?

This email is a briefing of the week's most compelling, abundance-enabling tech developments, curated by Marissa Brassfield in preparation for Abundance 360. Read more about A360 below.

Want more conversations like this?

At Abundance 360, Peter's 360-person executive mastermind, we teach the metatrends, implications and unfair advantages for entrepreneurs enabled by breakthroughs like those featured above. We're looking for CEOs and entrepreneurs who want to change the world. The program is highly selective. If you'd like to be considered, apply here

Abundance Digital is Peter’s 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.

Topics: Abundance Insider 3D Printing Data healthcare Tesla Batteries bio-printing solar solar energy biotech
12 min read

Abundance Insider: November 15th, 2018

By Peter H. Diamandis on Nov 16, 2018

In this week's Abundance Insider: AI news anchors, urine-based bio-bricks, and crowdsourced AI ethics.

Cheers,
Peter, Marissa, Kelley, Greg, Bri, Jarom, Joseph, Derek, Jason, Claire and Max

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 hone in on your MTP/ Moonshot? Abundance Digital includes 100+ hours of course work 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.

P.P.P.S. This week we feature the work of four of Peter's Strike Force Fellows. The Strike Force Fellowship Program aims to connect & empower young entrepreneurs to find their MTP, take moonshots and leverage exponential technologies as they start their careers. To learn more about the program, and to meet the Fellows, visit this page.

Topics: Abundance Insider Space Energy Artificial Intellegence materials solar energy China biotech