“The money pouring into ed tech tells a different story, however. Despite the volume of novel products aimed at schools, the biggest investments are largely going to start-ups focused on higher education or job-related skills — businesses that feed a market of colleges, companies and consumers willing to spend to promote career advancement.”
Welcome to a new age of AI Healthcare
Although we’re in the early release/ deployment stages of the AI doctor experience and compound that with a 10 year evolution of technology and health science being intertwined together as one/ Singularity; could we see a day soon when technology and engineering graduates having their own education include medical school? Definitely could be as we move more into a singularity future and as the many of the routine patient services evolve to AI and Robotics.
Granted, companies hire today doctors and nurses, etc. to consult their engineers and techies; however, Singularity and as we evolve to it, will require engineers and techies to have their own level of a in-depth medical background/ knowledge due to it’s complexity. Now, imagine the change and transformation that will be required across our educational system as well in order for us to be prepared for this new future.
London-based digital healthcare startup, Babylon is an artificially intelligent ‘doctor’ that aims to prevent illnesses before they occur. To do this, the program tracks your daily habits, diagnosis illness based on symptoms and integrating data about heart rate, diet and medical records.
Currently, this AI doctor is available in the form of an app used by 250,000 people in the UK, who each pay £4.99 ($7.19) to get 7-day-a-week access to a pool of human doctors over video chat.
After securing $25 million in funding — the largest series A round in European digital healthcare to date — Babylon hopes to make waves in digital healthcare in the UK by providing better preventative services. For example, the digital doctor can warn you about an increased heart rate, which could be a sign of an oncoming cold.
Narrated by Gabriel Byrne, Flight from Death, is a seven-time Best Documentary award-winning film which uncovers death anxiety as a possible root cause of many of our behaviors on a psychological, spiritual, and cultural level.
The real question is: “what is the healing time in space v. earth? What is the risk of infection on earth v. space when surgery is performed in space?” If stats show patient survival, healing, and low to no infection rates in space v. earth; we could see a time when hospital colonies in space exist to handle initially complicated and high risks surgeries by robots v. earth.
NASA is grooming its robonauts to eventually perform surgery on people living in remote areas, like space. Lisa D’Souza has more on the future droid docs.
Buzz60 is designed for the way we live now. Short, quirky video snacks that are a little sassy, and always smart. Buzz 60 — and the Buzz60 channel on YouTube — produces all kinds of news video clips for web viewers who want more than just repurposed content. Our team is a diverse group of video journalists with dozens of Emmy awards, an authentic sense of humor, and a mandate to connect with viewers every day.
DNA is similar to a hard drive or storage device, in that contains the memory of each cell of every living, and has the instructions on how to make that cell. DNA is four molecules combined in any order to make a chain of one larger molecule. And if you can read that chain of four molecules, then you have a sequence of characters, like a digital code. Over the years the price of sequencing a human genome has dropped significantly, much to the delight of scientists. And since DNA is a sequence of four letters, and if we can manipulate DNA, we could insert a message and use DNA as the storage device.
At this point in time, we are at the height of the information age. And computers have had an enormous impact on all of our lives. Any information is able to be represented as a collection of bits. And with Moore’s law, which states that computing power doubles every 18 months, our ability to manipulate and store these bits has continued to grow and grow. Moore’s law has been driven by scientists being able to make transistors and integrated circuits continuously smaller and smaller, but there eventually comes a point we reach in which these transistors and integrated circuits cannot be made any smaller than they already are, since some are already at the size of a single atom. This inevitably leads us into the quantum world. Quantum mechanics has rules which are, in many ways, hard for us to truly comprehend, yet are nevertheless tested. Quantum computing looks to make use of these strange rules of quantum physics, and process information in a totally different way. Quantum computing looks to replace the classical bits which are either a 0 or a 1, with quantum bits, or qubits, which can be both a 0 and a 1 at the same time. This ability to be two different things at the same time is referred to as a superposition. 200 qubits hold more bits of information than there are particles in the universe. A useful quantum computer will require thousands or even millions of physical qubits. Anything such as an atom can serve as a quantum bit for making a quantum computer, then you can use a superconducting circuit to build two artificial atoms. So at this point in time we have a few working quantum transistors, but scientists are working on developing the quantum integrated circuit. Quantum error correction is the biggest problem encountered in development of the quantum computer. Quantum computer science is a field that right now is in its very early stages, since scientists have yet been able to develop any quantum hardware.
A quantum computer would be perfect for tackling quantum problems like simulating the properties of a new molecule or material or help us to create a catalyst that will remove CO2 from the atmosphere, or make pattern recognition in computers much more efficient, and also in code breaking, and privacy and security of personal information since quantum information can never be copied.
A great deal of the energy we create has to go into maintaining computations and data storage but we can reduce our energy expenditure significantly by looking to nature. Nature is much more effective at information processing. For example, in the process of photo synthesis, there is a nanowire, who’s quantum efficiency is almost 100%. DNA is also a great example of energy efficiency represented in nature, since DNA base pairing can be considered a computational process. Computers generate heat by performing computations because each computation is irreversible. Quantum mechanics can make those computations reversible, since a quantum computer can perform two functions at the same time.
Science Documentary: Large Hadron Collider, Time, Galaxy Formation a Documentary on Particle Physics.
Cambridge scientists are “teaching machines to see” using a new smartphone-based system (or a regular camera), without GPS or a wireless connection.
This has applications in everything from driverless cars to autonomous vacuum cleaners.
https://youtube.com/watch?v=PDS4oOd4EQY
“Inhuman: The Next & Final Phase of Man is Here” is not fiction or a mockudrama but a new investigative documentary from Defender Films and Raiders News Productions.
Inhuman travels the globe to unveil for the first time how breakthrough advances in science, technology and philosophy—including cybernetics, bioengineering, nanotechnology, machine intelligence and synthetic biology are poised to create mind-boggling game changes to everything we have known until now about Homo sapiens.
As astonishing technological developments push the frontiers of humanity toward far-reaching morphological transformation (which promises in the very near future to redefine what it means to be human), an intellectual and fast-growing cultural movement known as transhumanism intends the use of these powerful new fields of science and technology as tools that will radically redesign our minds, our memories, our physiology, our offspring, and even perhaps—as Professor Joel Garreau, Lincoln Professor of Law, claims—our immortal souls.
Posted in education, ethics, open source, robotics/AI | Leave a Comment on Why Infosys is joining Elon Musk, Y Combinator and others in pledging $1 billion for OpenAI — By Harshith Mallya | YourStory
““Our trust in complex systems stems mostly from understanding their predictability, whether it is nuclear reactors, lathe machines, or 18-wheelers; or of course, AI. If complex systems are not open to be used, extended, and learned about, they end up becoming yet another mysterious thing for us, ones that we end up praying to and mythifying. The more open we make AI, the better.””
Throughout many remote villages in Ethiopia, water gathering is quite an ardous and dangerous task. With the burden typically falling on matriarchs of the family, the trip to the nearest water source can take hours if not all day. More often than not, that water fetched on these long journeys is commonly contaminated with dangerous elements such as human and animal waste. Additionally, many women have little choice but to bring their young children along, which not only puts them in harm’s way, but also keeps them out of school.
Related: Water-Storing Himalaya Towers Take First Place in 2012 eVolo Skyscraper Competition
The WarkaWater Towers were inspired by the local Warka tree, a large fig tree native to Ethiopia that is commonly used as a community gathering space. The large 30 foot, 88 pound structures are made out of juncus stalks or bamboo woven together to form the tower’s vase-like frame. Inside, a plastic mesh material made of nylon and polypropylene fibers act as micro tunnels for daily condensation. As droplets form, they flow along the mesh pattern into the basin at the base of the towers. By harvesting atmospheric water vapor in this way, it’s estimated that at least 25 gallons of potable water can be sustainably and hygienically collected by the towers every day.
Well if we do have a major SHTF event even though we don’t have many skilled tool makers any more. Then at least the remains of society should be able to teach itself tool making.
A new study from the University of Exeter has found that teaching is not essential for people to learn to make effective tools. The results counter established views about how human tools and technologies come to improve from generation to generation and point to an explanation for the extraordinary success of humans as a species. The study reveals that although teaching is useful, it is not essential for cultural progress because people can use reasoning and reverse engineering of existing items to work out how to make tools.
The capacity to improve the efficacy of tools and technologies from generation to generation, known as cumulative culture, is unique to humans and has driven our ecological success. It has enabled us to inhabit the coldest and most remote regions on Earth and even have a permanent base in space. The way in which our cumulative culture has boomed compared to other species however remains a mystery.
It had long been thought that the human capacity for cumulative culture was down to special methods of learning from others — such as teaching and imitation — that enable information to be transmitted with high fidelity.
