The US Marine Corps are testing tiny drones capable of performing a range of duties – including striking remote enemy targets with military-grade grenades. The application adds another reason to react fast to any buzzing sounds swiftly approaching from above… See More.
US Marines test the Australian Drone40, a high-tech, multifunctional drone capable of delivering military grenade payloads above targets.
The inventor of the first robot in Greece, Konstantinos Soukos, has pushed Greece into a new era by creating laser weapons that target drones.
When the inventor and businessman Konstantinos Soukos built the first robot in Greece in 1985, he did not imagine that 36 years later he would supply many military forces across the world.
One of the newest creations that stands out at the DEFEA 2021 Defence Exhibition in Athens is the High Energy Laser Weapon developed by the Soukos Robots company which promises to transfer energy at lightning speed.
Circa 2017
MIT spinout Open Water Power, founded by alumni Ian McKay and Tom Milnes, has developed an aluminum-based power source that will extend the range of unpiloted underwater vehicles (UUVs) tenfold for military, research, mapping, oil drilling, and other applications.
Soldiers and Marines teamed up to test new tactical biological detection and chemical contamination systems that aim to keep service members safe. The systems indicate when chemical agents are present so decontamination can take place.
DUGWAY PROVING GROUND, Utah — Soldiers from Fort Drum and Joint Base Lewis-McChord teamed with Marines from Camp Pendleton to test new tactical biological detection and chemical contamination indicator systems here.
Soldiers with the 59th Hazard Response Company and 13th Combat Sustainment Support Battalion along with Marines from the 3rd Marine Air Wing went hands-on with the Joint Biological Tactical Detection System (JBTDS) and the Contamination Indication Disclosure Assurance System (CIDAS), which indicates chemical agent contaminants so proper decontamination can take place.
“These two operational tests have given my company the opportunity to focus on our critical war-time collective tasks of site assessment and decontamination and refine our tactics, techniques, and procedures,” said Capt. Ryan Oatman, company commander of 59th Chemical, Biological, Radiological and Nuclear (CBRN) Hazard Response Company.
The U.S. military says it is months away from launching clinical trials of a pill designed to block or reduce many degenerative effects of aging—an oral treatment that a leading researcher in the field says is better than nothing while questioning how effective it will ultimately prove.
U.S. Special Operations Command (SOCOM)—which develops and employs Special Operations Forces worldwide to advance U.S. policies and objectives—has “completed preclinical safety and dosing studies in anticipation of follow-on performance testing” of a first-in-class nicotinamide adenine dinucleotide, oxidized state (NAD+) enhancer, a small molecule drug being developed by Metro International Biotech (MetroBiotech), Navy Cmdr. Timothy A. Hawkins, a spokesperson for SOCOM, told GEN.
SOCOM and MetroBiotech are set to start clinical trials during the 2022 federal fiscal year, which starts October 1.
Jacopo Buongiorno and others say factory-built microreactors trucked to usage sites could be a safe, efficient option for decarbonizing electricity systems.
We may be on the brink of a new paradigm for nuclear power, a group of nuclear specialists suggested recently in The Bridge, the journal of the National Academy of Engineering. Much as large, expensive, and centralized computers gave way to the widely distributed PCs of today, a new generation of relatively tiny and inexpensive factory-built reactors, designed for autonomous plug-and-play operation similar to plugging in an oversized battery, is on the horizon, they say.
These proposed systems could provide heat for industrial processes or electricity for a military base or a neighborhood, run unattended for five to 10 years, and then be trucked back to the factory for refurbishment. The authors — Jacopo Buongiorno, MIT’s TEPCO Professor of Nuclear Science and Engineering; Robert Frida, a founder of GenH; Steven Aumeier of the Idaho National Laboratory; and Kevin Chilton, retired commander of the U.S. Strategic Command — have dubbed these small power plants “nuclear batteries.” Because of their simplicity of operation, they could play a significant role in decarbonizing the world’s electricity systems to avert catastrophic climate change, the researchers say. MIT News asked Buongiorno to describe his group’s proposal.
Drone swarms are a new concept and are linked to the development of artificial intelligence and networked military units, a futuristic battlefield application that uses the latest advances in technology.
The use of this kind of technology in conflict has raised concerns for years as human-rights groups decried the advent of “killer robots.” Evidence shows that what is actually happening is not the creation of “killer robots,” but rather the use of technology to enable drones and other autonomous or unmanned systems to work together.
Why this matters is because other countries in the region are working on new technologies as well. Iran used drones and cruise missiles to attack Saudi Arabia in September 2019. Turkey has built a drone that reportedly “hunted down” people in Libya, although much remains shrouded in mystery regarding how autonomous the drone was and whether it really hunted down adversaries using artificial intelligence.
Regardless of how Turkey’s Kargu-2 autonomous drone worked, media headlines said it may represent the first use of “AI-armed drones,” and the “new era” of robot war may be upon us.
A prenatal test used worldwide sends gene data of pregnant women to the company that developed it with China’s military. The U.S. sees a security risk.
What the FENCE program hopes to do is to create event-based cameras that are more intelligent thanks to the use of brain-mimicking or neuromorphic circuits. What these do is to drastically reduce the amount of data that needs to be handled by disregarding irrelevant parts of the image. Instead of dealing with an entire scene, the event-based camera focuses only on the pixels that have changed.
DARPA has announced the start of the Fast Event-based Neuromorphic Camera and Electronics (FENCE) program, which is designed to make computer vision cameras more efficient by mimicking how the human brain processes information. Three teams of scientists led by Raytheon, BAE Systems, and Northrop Grumman, are tasked with developing an infrared (IR) camera system that needs to process less data, operates faster, and uses less power.
Modern imaging cameras are growing increasingly sophisticated, but they are also becoming victims of their own success. While state-of-the-art cameras can capture high-resolution images and track objects with great precision, they do so by processing large amounts of data, which takes time and power.
According to DARPA, this is fine when the task is something like tracking an airplane in a clear blue sky, but if the background becomes cluttered or starts to change, as is often the case in military operations, these cameras can soon be overwhelmed.
The US Defense Advanced Research Projects Agency (DARPA) has selected three teams of researchers led by Raytheon, BAE Systems, and Northrop Grumman to develop event-based infrared (IR) camera technologies under the Fast Event-based Neuromorphic Camera and Electronics (FENCE) program. It is designed to make computer vision cameras more efficient by mimicking how the human brain processes information. DARPA’s FENCE program aims to develop a new class of low-latency, low-power, event-based infrared focal plane array (FPA) and digital signal processing (DSP) and machine learning (ML) algorithms. The development of these neuromorphic camera technologies will enable intelligent sensors that can handle more dynamic scenes and aid future military applications.
New intelligent event-based — or neuromorphic — cameras can handle more dynamic scenes.
