Lifeboat Foundation: Safeguarding Humanity
Toggle light / dark theme

Blog – Page 2383

👉For business inquiries: [email protected].
✅ Instagram: https://www.instagram.com/pro_robots.

DARPA: robots and technologies for the future management of advanced US research. DARPA military robots. DARPA battle robots. Military technologies DARPA. Battle robots of the future. Technologies of the future in the US Army.

0:00 Introduction.
01:03 DARPA mission.
01:30 Project ARPANET
02:09 First “smart machine” or robot.
03:05 The first self-driving vehicles and the first Boston Dynamics robot.
03:31 DARPA robot racing.
04:08 First Boston Dynamics Big Dog four-legged robot.
04:43 Energy Autonomous Tactical Robot Program.
05:00 Engineering Living Materials Program.
05:45 Spy Beetles — Hybrid Insect Micro-Electro-Mechanical Systems.
06:03 Robot Worm — Project Underminer.
06:23 DARPA — The Systems-Based Neurotechnology for Emerging Therapies.
06:57 Robotic pilots with artificial intelligence.
07:30 Artificial Intelligence Combat Air System — Air Combat Evolution.
08:14 UNcrewed Long Range Ships — Sea Train.
09:24 Project OFFSET
10:15 Project Squad X
10:47 Battle of human robots on DARPA Robotics Challenge.

Defense Advanced Research Projects Agency, abbreviated DARPA, or the Office of Advanced Research Projects of the U.S. Department of Defense, was established in 1958, almost immediately after the launch of the USSR Sputnik-1. The realization that the Soviets were about to launch into space not only satellites, but also missiles, greatly cheered up the government of the United States. The result was the creation of a unique agency with a huge budget, which could be spent at its own discretion. Watch a selection of the most unexpected, strange and advanced projects in the field of technology and artificial intelligence DARPA in one video!

Continue reading “DARPA — robots and technologies for the future management of advanced US research | PRO Robots” | >

Psychologist Yvonne R. Masakowski, Ph.D., a retired Associate Professor in the College of Leadership & Ethics at the USNWC, discusses the threat of psychological warfare in the 21st century and the disturbing possibilities that could shape how we think and act in the future. The Naval War College Foundation hosted this wide-ranging presentation — one of the most popular in our series — on February 23, 2022.

Read more | >

Neuroscientists discover the tricks and shortcuts the brain takes to help us survive.
Official Website: https://to.pbs.org/3Ic9dRS | #novapbs.
Is what you see real? Join neuroscientist Heather Berlin on a quest to understand how your brain shapes your reality, and why you can’t always trust what you perceive. In the first hour of this two-part series, learn what the latest research shows about how your brain processes and shapes the world around you, and discover the surprising tricks and shortcuts your brain takes to help you survive.

Chapters:
00:00 Introduction.
03:59 The Science of Optical Illusions and Blind Spots.
13:48 Is the Dress Blue and Black or White and Gold?
21:06 Yanny or Laurel? Auditory Illusions.
24:46 Is Pain an Illusion?
30:28 What is Consciousness? Blind Spots and Babies.
41:35 How is Consciousness Measured?
45:32 How the Brain Affects Memories.
50:14 Conclusion.

© 2023 WGBH Educational Foundation.

All rights reserved.

Continue reading “Your Brain: Perception Deception | Full Documentary | NOVA | PBS” | >

In 1960, DARPA funded three university-based Inderdisciplinary Laboratories (IDLs) that opened the way toward an enormous field of research and development known today as materials science and engineering. In this video, DARPA program managers, DARPA-funded researchers, and a Naval Research Laboratory scientist tell this field-building story as it unfolded over the past six decades, all the while delivering breakthroughs in the way materials are designed, processed, and deployed to push technologies forward. Intelligent processing of materials (IPM), accelerated insertion of materials (AIM), and integrated computational materials engineering (ICME) are among the specific programs detailed in the video. DARPA is currently developing technologies that enable the crafting of new materials with unprecedented properties by designing and controlling matter from atoms on up to human-scale systems.

Read more | >

Human chromosomes are long polymer chains that store genetic information. The nucleus of each cell contains the entire human genome (DNA) encoded on 46 chromosomes with a total length of about 2 meters. To fit into the microscopic cell nucleus and at the same time provide constant access to genetic information, chromosomes are folded in the nucleus in a special, predetermined way. DNA folding is an urgent task at the intersection of polymer physics and systems biology.

A few years ago, as one of the mechanisms of chromosome folding, researchers put forward a hypothesis of active extrusion of loops on chromosomes by molecular motors. Although the ability of motors to extrude DNA in vitro has been demonstrated, observing loops in a living cell experimentally is a technically very difficult, almost impossible, task.

A team of scientists from Skoltech, MIT, and other leading scientific organizations in Russia and the U.S. have presented a physical model of a polymer folded into loops. The analytical solution of this model allowed scientists to reproduce the universal features of chromosome packing based on the experimental data—the image shows the peak-dip derivative curve of the contact probability.

Read more | >

Biological computing machines, such as micro and nano-implants that can collect important information inside the human body, are transforming medicine. Yet, networking them for communication has proven challenging. Now, a global team, including EPFL researchers, has developed a protocol that enables a molecular network with multiple transmitters.

First, there was the Internet of Things (IoT) and now, at the interface of computer science and biology, the Internet of Bio-Nano Things (IoBNT) promises to revolutionize medicine and health care. The IoBNT refers to biosensors that collect and , nano-scale Labs-on-a-Chip that run medical tests inside the body, the use of bacteria to design biological nano-machines that can detect pathogens, and nano-robots that swim through the bloodstream to perform targeted drug delivery and treatment.

“Overall, this is a very, very exciting research field,” explained Assistant Professor Haitham Al Hassanieh, head of the Laboratory of Sensing and Networking Systems in EPFL’s School of Computer and Communication Sciences (IC). “With advances in bio-engineering, , and nanotechnology, the idea is that nano-biosensors will revolutionize medicine because they can reach places and do things that current devices or larger implants can’t,” he continued.

Read more | >

The COVID-19 pandemic supply shortfalls and geopolitical issues cast a bright light on the decline of semiconductor manufacturing in the United States, down from 37 percent of the global total in 1993 to about 12 percent now. The Creating Helpful Incentives to Produce Semiconductors and Science Act of 2022 (CHIPS Act) directed $280 billion in spending, with the bulk on scientific research and development.

America needs better computer chips.

Mobile devices are ubiquitous; we carry them around in a pocket or purse and use them for everyday tasks. However, they are connected to centralized servers and thus cannot learn much about or adjust to their complicated and changing environments independently.