• Army future combat technology demonstrated for Congress

    The Army exhibited its future combat systems on Capitol Hill last week; among the items demonstrated: urban unattended ground sensors, land warrior, small UGV, and Class I UAV

  • Armed robots pulled out of Iraq

    Last August, three gun-totting robots were deployed to Iraq — the first such deployment in military history; the armed robots had a short career as soldiers, though: For reasons yet to be determined, the robots kept training their guns on their operators; no shots were fired, but the military decided more work was required

  • Cornell robot sets a record for distance walking

    A walking robot developed at Cornell University set a world record for non-stop walking — 5.6 miles; robot aims to advance the study of walking motion and energy efficiency

  • Four-legged robot simulates human motion

    Four-legged, all-terrain robot can maintain its balance over rugged terrain while carrying a payload of up to 340 pounds; robot can also cope with man-made obstacles and gallop (well, something between “gallop” and “canter”) over impediments

  • FIRST robotics competition comes back to UC Davis

    Robotic competition among high-school students aims to promote and reward students’ engagement in innovation and engineering, and encourage youngsters to become curious and interested in science and mathematics

  • Six-inch, bat-like UAV to assist in urban combat

    U.S. Army awards $10 million to Wolverines researchers to develop a six inch, bat-like UAV to be used in urban combat; UAV would gather data from sights, sounds, and smells in urban combat zones

  • RAF buys UAVs to fight Taliban

    U.S. forces have been using UAVs with ever-greater lethality against al-Qaeda and Taliban fighters in Afghanistan and Pakistan; the United Kingdom is buying three Reaper UAVs at £10 million each — it will eventually buy twelve — to help British forces in Afghanistan

  • iRobot brings robotic WLAN to urban battlefield

    Everything you want a robot to be: Portable, small, inexpensive, intelligent, and robust; iRobot will develop robots to serve as relay node for urban battle-field WLAN

  • Robots designed to search disaster areas for survivors

    Researchers to build robot that uses vision and tactile sensors to navigate homes, buildings, and the outdoors; robot will be equipped with a small camera and a vision algorithm that will allow it to see, recognize and avoid running into objects; goal is to send swarms of these robots to crawl over the rubble of disaster areas in search of survivors

  • Can robots commit war crimes?

    As the move continues toward autonomous killing machines — robots which spot, identify, and kill on their own, without human intervention — questions are raised about moral, ethical, and legal aspects of this trend

  • Decision-making killer robots to be used by armies -- and terrorists

    More and more militaries and law enforcement services rely on unmanned machines to perform more and more missions; currently, human beings are still in the decision loop — but this is changing, as the U.S. and Israel lead the march toward the employment of robots which will determine for themselves who,where, and when to kill; also: It is only a question of time before terrorist organizations begin to use robots to carry out their nefarious plans

  • Researchers develop "whiskered" robots with rat-like tactile sensitivity

    Whiskered robots could be used in a variety of applications — search and rescue, mine-clearing, planetary rovers in space, and domestic applications such as vacuum cleaners

  • World's first thermal glider takes off

    The world’s first thermally powered robotic vehicle takes off; the new glider draws its energy for propulsion from the differences in temperature — thermal stratification — between warm surface waters and colder, deeper layers of the ocean

  • Robots use electromagnetic force to create shape-shifting swarm

    Carnegie Mellon researchers develop herds, or swarms, of robots using electromagnetic forces to cling to each other so they assume any shape or formation on the go; The prototype robots use electromagnetic forces to maneuver themselves, communicate, and even share power

  • Thales to develop autonomous underwater vehicle (AUV)

    Thales, in collaboration with seven partners, will develop a fully autonomous underwater vehicle dedicated to maritime surveillance and security; specifications call for high levels of energy and decision-making autonomy