Lifeboat Foundation: Safeguarding Humanity
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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.

Dr. Radin’s video from the April 2016 conference introducing the results from this experiment is available online through the IONS channel. I highly recommend watching the video in its entirety to get a full understanding of the experiment results, research protocols, variables, controls and the results from other labs and researchers who have replicated these results.

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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.

The “stentrode” is a group of small (750 µm) recording electrodes attached to an intracranial endovascular stent, which allows implantation of the electrodes inside the brain without invasive surgery. This allows high quality recording or stimulation of specific areas of the brain, without many of the risks associated with invasive brain surgery.

Continue reading “Research using sheep leads to a new device to record and stimulate the brain” | >

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.

Using a skullcap fitted with 128 electrodes wired to a computer, researchers are able to control multiple drones using human thought and vision to guide the quadcopters wirelessly. The device records electrical brain activity and measures the movement of the drones based on parts of the brain that light up. This signal is monitored and sent to another computer that transmits a signal to the drones, making them move. Panagiotis Artemiadis, director of the Human-Oriented Robotics and Control Lab and an assistant professor of mechanical and aerospace engineering at the School for Engineering of Matter, Transport and Energy in the Ira A. Fulton Schools of Engineering, has been working with funding from the Defense Advanced Research Projects Agency (DARPA) and U.S. Air Force to develop this technology. Artemiadis has been working on brain-to-machine interfaces since 2009, but only recently made the leap to controlling more than one device.

Continue reading “Farewell Remote Controllers, Hello Brain Controlled UAV’s” | >

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.

Tohoku University and the NEC Corporation have been collaborating on research and development since 2013 with the purpose of improving the safety of ICT devices. In particular, they aim to build a system that will allow the new IoT services to be enjoyed with confidence. This will be done by developing technology that embeds encryption in small devices and sensors for the first time. This research and development is being carried out as part of the Grants-in-Aid for Scientific Research (KAKENHI) program No. 25240006 “Development of formal design technology for VLSI data path based on the Galois field computations.” (Research representative: Naofumi HOMMA, Tohoku University).

Continue reading “World’s most efficient AES crypto processing technology for IoT devices developed” | >

Want to be the next Captain Kirk or Spock; we’re getting more close of being a Star Trek & Star Wars world with drones and fighter jets with death lasers, cyborgs with BMI technology, sabers being developed, and now the Star Trek phaser is being developed.

Every year Star Trek’s futuristic sci-fi technology comes closer to just being “technology.” We live in a world where video chats, communicators, and real-time translators are normal, where androids are becoming more and more realistic and food replicators are almost here thanks to 3D printing. The next step? Phasers!

Next month the Smithsonian Channel will air a two-hour Star Trek special to celebrate the show’s 50th Anniversary, which will take a look at some of the technologies the show predicted. In this just-released segment of Building Star Trek, future phaser use is predicated by laser scientist Rob Afzal of Lockheed Martin who, let’s be honest, has one of the coolest titles in the world. (“What do you do?” “I’m a LASER SCIENTIST.”)

Continue reading “Scientists are working on a real-life Star Trek phaser” | >

Russian defense analyst Vladimir Tuchkov analyses Russian, Chinese and American developments in hypersonic weapons technology, including the expected timeframe for their deployment, which is sooner than you may expect.

Last week, Tactical Missile Systems Corporation general director Boris Obnosov told Russian media that he was confident that Russia would be introducing hypersonic missiles capable of speeds between Mach 6 and Mach 7 by the year 2020.

A Russian anti-ballistic missile test

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Among others, the Pentagon is funding the Lockheed Martin Falcon Hypersonic Technology Vehicle 2 (HTV-2) program; the Raytheon Hypersonic Air-breathing Weapon Concept (HAWC) and the Raytheon/Lockheed Tactical Boost Glide (TBG) program.

HTV-2 is a multiyear research and development effort to increase the technical knowledge base and advance critical technologies to make long-duration hypersonic flight a reality. The Falcon HTV-2 is an unmanned, rocket-launched, maneuverable aircraft that glides through the Earth’s atmosphere at Mach 20.

HAWC is a joint DARPA/ Air Force effort to develop and demonstrate critical technologies that enable an effective and affordable air-launched hypersonic cruise missile. It will pursue flight demonstrations to address three critical technology challenges: air vehicle feasibility, effectiveness, and affordability.

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Experts of the state-run corporation Roscosmos started designing a new superheavy rocket on the basis of the “Energia–Buran” program.

The new rocket is said to be built with the use of the existent RD-171 rocket engine. “We do not consider using hydrogen circuits on the first and second stages of this carrier. We intend to take the third stage from the currently-operating Angara rocket,” a representative for the corporation told the Izvestia newspaper.

According to General Director of Rocket and Space Corporation Energia, Vladimir Solntsev, the new rocket will be able to deliver about 80 tons of payload into low support orbit. Its further evolution on the basis of RD-171 engines implies the possibility of increasing the carrying capacity up to 120 tons and, if necessary, to 160 tons. It will be possible to increase the payload by changing the rocket structure and expanding the capacity of the engine.

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