• Autonomous underwater vehicles pre-programmed to make independent decisions

    More than 70 percent of the Earth’s surface is covered by water, yet scientists know more about space than about what happens in the ocean. One way scientists are trying to improve their understanding of the marine environment is through the use of autonomous underwater vehicles (AUVs), programmable robotic vehicles that can independently study the ocean and its inhabitants.

  • Technologies enabling automated lookouts for unmanned surface vessels sought

    DARPA’s Anti-Submarine Warfare (ASW) Continuous Trail Unmanned Vessel (ACTUV) program seeks to develop a new type of unmanned surface vessel that could independently track adversaries’ ultra-quiet diesel-electric submarines over thousands of miles. ACTUV program invites input so future unmanned ships could operate safely near manned maritime vessels in all weather and traffic conditions, day or night.

  • Snake robots learn to turn by emulating real sidewinders

    Researchers who develop snake-like robots have picked up a few tricks from real sidewinder rattlesnakes on how to make rapid and even sharp turns with their undulating, modular device. Working with colleagues at the Georgia Institute of Technology and Zoo Atlanta, they have analyzed the motions of sidewinders and tested their observations on snake robots. They showed how the complex motion of a sidewinder can be described in terms of two wave motions — vertical and horizontal body waves — and how changing the phase and amplitude of the waves enables snakes to achieve exceptional maneuverability.

  • Remote-controlled robot inspects suitcase bombs

    Abandoned items of luggage are frequently found at airports and train stations. This is a case for the emergency services, which have to assume that these items might contain bombs. They must assess the potential threat quickly, avert any possible danger, and preserve evidence for criminal proceedings. In the future, police will have the support of a remote-controlled sensor system as they go about their duties. Researchers are developing this sensor suite in cooperation with industry partners and criminal investigation authorities.

  • Snake robot range-sensing control system improves search-and-rescue performance

    Rescue operations at disaster scenes often use robots to avoid further human danger. Modelling robots on snakes can provide better access through narrow paths in rubble, but previous models which control snake robots by the head do not adequately avoid collisions between the body of the robot and surrounding obstacles. Researchers say that to be more effective in search and rescue missions, robotic snakes should comprise a series of sections joined by links which either pitch up and down or yaw through sideways turning angles.

  • Locust-inspired robot traverses rocky terrain, assists in search and rescue

    Since the 1980s, advanced robotic platforms have provided assistance to crisis intervention teams in the wake of man-made and natural disasters. The objective of such robots, in various sizes and shapes, has been to intervene where humans cannot and send life-saving data to rescue teams in the field. A new, locust-inspired robot, can jump eleven feet high — more than twice the height of similar-sized robots — and cover a horizontal distance of 4.5 feet in one leap. The researchers believe the robot will perform well in search-and-rescue missions and in reconnaissance operations in rough terrain.

  • Unmanned Maritime Systems 2015 conference: “Reliability, Economy, Endurance”

    The theme of the Unmanned Maritime Systems 2015 conference, being held 7-9 December 2015 in Arlington, Virginia, is “Reliability, Economy, Endurance: Requirements for Next-Generation Unmanned Surface and Undersea Systems.” The organizers note that there is a growing demand for Unmanned Maritime Systems (UMS) as today’s geopolitical environment poses a number of unique security challenges in the maritime domain. Advances in power, robotics, computing, sensors, and navigation technologies drive a growing DoD demand for unmanned systems that can provide increased autonomy, persistent resilience, and functionality with decreased risk and expense, showing their value across multiple applications, including otherwise dull, dirty, or dangerous missions.

  • Most people object to fully autonomous weapons: Survey

    Public opinion is against the use of autonomous weapons capable of identifying and destroying targets without human input, according to a new survey. “It has been said that future wars will be fought with completely automated systems,” said one of the researchers behind the survey. “The survey results clearly show that more public discussion is necessary so that we can make intelligent decisions about robotic weapon technologies.”

  • Walking robots a step nearer

    Engineers suggests that they have achieved the most realistic robotic implementation of human walking dynamics that has ever been done, which may ultimately allow human-like versatility and performance. The system is based on a concept called “spring-mass” walking that was theorized less than a decade ago, and combines passive dynamics of a mechanical system with computer control. It provides the ability to blindly react to rough terrain, maintain balance, retain an efficiency of motion, and essentially walk like humans do.

  • Robots to pull wounded soldiers off battlefield

    Most Americans have seen at least one war movie, where at some point a fresh-faced young private is hit with some shrapnel. From the ground, he calls out for the unit medic — another young guy, from another small town, whose quick reaction and skill just may save his life. In the near future, however, it may no longer be another soldier, who comes running to his side. Instead, it might be an Army-operated unmanned aerial or ground vehicle.

  • U.S. Navy champions unmanned systems over, on, and under the sea

    The presence of unmanned systems in the maritime military domain is growing, and the U.S. Navy has decided to make several organizational, and conceptual, changes in order to deal with unmanned systems in a more holistic fashion. Rear Adm. Robert P. Girrier has been named the Navy’s first director of unmanned weapon systems, and Secretary of the Navy Ray Mabus announced in April that he would appoint a new Deputy Assistant Secretary of the Navy for Unmanned Systems, “so that all aspects of unmanned — in all domains — over, on and under the sea and coming from the sea to operate on land — will be coordinated and championed.”

  • Florida teens hold their own in challenging maritime robotics competitions

    For the past three years, Team S.S. Minnow from Florida – consisting of Nick Serle, 15, and Abby Butka, 14 – has been competing against some of the finest technical universities in the world via the SeaPerch, RoboSub, and RoboBoat robotic competitions, all cosponsored by the Office of Naval Research (ONR). “I’ve seen Nick and Abby rise through these contests and become fierce competitors,” said Kelly Cooper, a program officer in ONR’s Sea Warfare and Weapons Department. “It is success stories like theirs that motivate us to support these competitions.”

  • DHS S&T licenses third cybersecurity innovation for commercialization

    The Department of Homeland Security (DHS) Science and Technology Directorate (S&T) yesterday announced that another cybersecurity technology has been licensed for commercialization. This is S&T’s third technology that has successfully gone through the Transition to Practice (TTP) program and into the commercial market. The Network Mapping System (NeMS), developed by Lawrence Livermore National Laboratory, is a software-based tool that tells users what is connected to their network so that they know what needs to be protected.

  • RoboBoats compete for water supremacy

    In a race for points, honor and cash, sixteen teams — from the United States and as far away as Indonesia, Taiwan, and South Korea — hit the water with custom-built autonomous surface vehicles (ASVs) at the eighth annual RoboBoat Competition, held 7-12 July in Virginia Beach, Virginia. The competition is an autonomous robotics contest where teams put their student-built ASVs through a series of challenges.

  • Robots on reins to be the “eyes” of firefighters in dark, smoke-filled buildings

    Currently, even when they have a map of the building, firefighters have to grope their way forward if smoke has badly affected visibility, feeling their way along a wall or following ropes laid by the first firefighter on the scene. But with only twenty minutes of oxygen per firefighter, there is a real need for any innovation that can help them move more quickly and easily. Now, firefighters moving through smoke-filled buildings will save vital seconds and find it easier to identify objects and obstacles, thanks to revolutionary reins that enable robots to act like guide dogs.