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Aug 22, 2016

Indian Railways eyeing speed with Gatimaan Express, Talgo trains, but Tesla chief Elon Musk’s Hyperloop is a game changer

Posted by in categories: Elon Musk, government, quantum physics, transportation

I can see ads now with Ozzy’s “Crazy Train” playing in the background.


There’s no doubt India needs faster trains. The NDA government has set the ball rolling by launching the Gatimaan Express. Trials are on with the Spanish Talgo trains on the Delhi-Mumbai route and Japan has agreed to provide soft loans for the proposed Mumbai-Ahmedabad bullet train. But, for achieving a one-time quantum jump in technology, the possibility of introducing the Hyperloop—Tesla’s Elon Musk’s concept of moving people and goods at high speeds in capsules within tubes using powerful magnets—could be a game-changer. Going by current speeds, Hyperloop can crunch a one-way Delhi-Mumbai trip to just one hour. The advantages are numerous—much faster travel, limited land acquisition and lower building cost that could lead to cheaper travel.

It is still early days as far as Hyperloop is concerned. Two companies, Hyperloop Technologies and Hyperloop Transportation Technologies, are in talks with 10 countries including China and India for introduction.

Continue reading “Indian Railways eyeing speed with Gatimaan Express, Talgo trains, but Tesla chief Elon Musk’s Hyperloop is a game changer” »

Aug 22, 2016

Relativity Predicts Universal Wormhole

Posted by in categories: cosmology, quantum physics

Matterless wormhole theory predicts a potential universal wormhole. Researcher James Goetz theorizes that extra-dimensional relativity indicates a possible omnicluster of matterless wormholes or in other words a universal wormhole. Amazing properties of the wormhole include no dimensions and zero distance to all points in the universe. Moreover, a hypothetical observer in the wormhole could observe a universal chronology despite the relativity of time. This modifies the theory of relativity.

The theory is part of Goetz’s introduction to the natural theology called semiclassical theism. Goetz proposes a model of God, time, and creation that fits with modern physics, such as relativity, quantum mechanics, quantum gravity, Big Bang cosmology, zero-energy universe and multiverse geometry. This is a theory of everything.

Apart from physics, the universal wormhole theory helps to explain the theology of divine omniscience and omnipresence. Also, semiclassical theism proposes that God is omnipresent in tenseless eternity and tensed creation.

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Aug 22, 2016

Quantum Physicists Eager To Hear What Frank At The Pub Reckons They Should Study

Posted by in categories: cosmology, quantum physics

Actually, I know many scientists and techies who hang out with the average Joe or Jill to get their minds off of being 1 dimensional and as a result gives them the recharge they need for innovation and creativity.


Quantum physicists studying the edges of our understanding of the universe are reportedly very eager to hear what Frank down at the local reckons they should study next, following Treasurer Scott Morrison’s warning that research should pass the ‘pub test’.

Morrison warned against esoteric, pointless research that costs an abundance of public money and has only lead to major, world-changing breakthroughs in unexpected areas a few times. Instead, the Treasurer has advised that before engaging in any boring and elitist research that only people specifically studying the field would care about, scientists should head down to the pub and check in with Frank to see what he thinks.

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Aug 22, 2016

HKUST Develops Tiny Lasers that Opens New Era for Light-based Computing

Posted by in categories: computing, engineering, physics, solar power, sustainability

Congrats Hong Kong Univ.


Researchers at The Hong Kong University of Science and Technology (HKUST) have fabricated microscopically-small lasers directly on silicon, enabling the future-generation microprocessors to run faster and less power-hungry – a significant step towards light-based computing.

The innovation, made by Prof Kei-may Lau, Fang Professor of Engineering and Chair Professor of the Department of Electronic and Computer Engineering, in collaboration with the University of California, Santa Barbara; Sandia National Laboratories and Harvard University, marks a major breakthrough for the semiconductor industry and well beyond.

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Aug 22, 2016

5 Incredible Ways Scientists Are Merging Our Brains With Machines

Posted by in categories: biotech/medical, computing, nanotechnology, neuroscience

I’ve been reading Ramez Naam’s fantastic book “Nexus,” which is set in a near-future where a powerful nano-drug allows human minds to connect together. In the story, a group of enterprising neuroscientists and engineers discover they can use the drug in a new way — to run a computer operating system inside their brains. Naam’s characters telepathically communicate with each other using a mental chat app and even manipulate other people’s bodies by gaining control of their brains’ operating systems.

Sounds far-fetched, right?

It might not be as far-fetched as you think. From connecting a human brain to a basic tablet to help a paralyzed patient communicate with the outside world to memory-boosting brain implants and a prototype computer chip that runs on live neurons — the real world progress we’re seeing today is nearly as strange as fiction.

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Aug 22, 2016

Groundbreaking Research Shows Conscious Intention Directly Affects Quantum States; Scientific Basis for Mind of Over Matter?

Posted by in categories: neuroscience, particle physics, quantum physics, robotics/AI

Dean Radin, Ph.D. and Chief Scientist of IONS, the Institute for Noetic Sciences, recently introduced the results of a series of experiments that may provide the missing link between consciousness and matter, turning the tables on materialism and asserting consciousness as a fundamental component of reality itself. Using a variation of the famous double-slit experiment, he and his team hypothesized that the conscious intent of a human mind might be able to collapse a quantum wave function without direct interaction. Simply by concentrating they postulated, meditation might be able to affect and influence quantum particles – the smallest components of matter that form our physical universe. .

Initial experiments used participants 2 meters away from the device. Alternating between asking participants to concentrate on the apparatus, then removing their attention showed astounding results. Fearing that temperature differences or other variables might have influenced the test, they offered the experiment to participants online. Using several thousand robotic control sessions to ensure that a determination could be made for the factor of human consciousness, the results were likewise astounding, with initial trial results of greater than 5 sigma.

Continue reading “Groundbreaking Research Shows Conscious Intention Directly Affects Quantum States; Scientific Basis for Mind of Over Matter?” »

Aug 22, 2016

Research using sheep leads to a new device to record and stimulate the brain

Posted by in categories: biotech/medical, computing, neuroscience

The new BMI stentrode came from the research on sheep; nice to know for the next Trivia night at the local pub.


A group of Australian and American researchers have used sheep to develop and test a new device (original paper) – the stentrode – for recording electrical signals from inside the brain. The research was published in Nature Biotechnology. This new technology removes one of the main obstacles to developing efficient brain-computer interfaces: the need for invasive surgery.

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Aug 22, 2016

Farewell Remote Controllers, Hello Brain Controlled UAV’s

Posted by in categories: computing, drones, engineering, neuroscience, robotics/AI

When the Holiday season kicks off next fall (2017); I have a feeling that I may end up buying a Penny Robot or a BMI controlled drone for my niece & nephews.


The post is also available in: Hebrew :הכתבה זמינה גם ב

A new research out of Arizona State University with DARPA funding.

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Aug 22, 2016

World’s most efficient AES crypto processing technology for IoT devices developed

Posted by in categories: encryption, energy, finance, internet

Energy efficient IoT — proven to reduce energy usage by 50% via new technique for compressing the computations of encryption and decryption operations known as Galois field arithmetic operations.


Our research group has discovered a new technique for compressing the computations of encryption and decryption operations known as Galois field arithmetic operations, and has succeeded in developing the world’s most efficient Advanced Encryption Standard (AES) cryptographic processing circuit, whose energy consumption is reduced by more than 50% of the current level. With this achievement, it has become possible to include encryption technology in information and communication technology (ICT) devices that have tight energy constraints, greatly enhancing the safety of the next-generation Internet of Things (IoT). This result was announced on August 19, 2016 during the Conference on Cryptographic Hardware and Embedded Systems 2016 (CHES 2016) hosted by the International Association for Cryptologic Research (IACR) in Santa Barbara, USA.

It is currently very common to exchange important personal or financial information over the Internet through ICT devices. Cryptographic techniques are used inside these devices to protect important information. In next-generation networks such as the IoT, which has attracted attention in recent years, it is expected that myriad devices will be connected to the network. Hence, it will be necessary to have built-in encryption technology in these connected devices to prevent malicious attacks. However, many battery or cell-driven devices with tight energy constraints are also included in the IoT and running energy-consuming encryption processes on these is a big challenge. One of the most widely used international standard encryption methods is AES. Since this is used in areas such as wireless LANs, it is very important for practical reasons to design energy-saving AES cryptographic processing.

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Aug 22, 2016

Scientists Inspired by Skin to Find a Way To Encrypt Messages

Posted by in category: encryption

Photo credit: ShutterstockThis is certainly a much better idea than a message that self-destructs after you read it (we’re looking at you, Inspector Gadget).Researchers.

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