It allows robots to remain resilient when faced with intermittent communication losses on the battlefield.
Apr 30th, 2021
Jenna Brady
Army researchers develop a technique that allows robots to remain resilient when faced with intermittent communication losses on the battlefield. Experimental results were reported on simulated robots within multiple environments and physical Clearpath Jackal Robots.
U.S. Army
ADELPHI, Md. Army researchers developed a technique that allows robots to remain resilient when faced with intermittent communication losses on the battlefield.
The technique, called α-shape, provides an efficient method for resolving goal conflicts between multiple robots that may want to visit the same area during missions including unmanned search and rescue, robotic reconnaissance, perimeter surveillance and robotic detection of physical phenomena, such as radiation and underwater concentration of lifeforms.
New Technique Allows Robots to Remain Resilient on the Battlefield
Written by AZoRoboticsApr 28 2021
Army researchers developed a technique that allows robots to remain resilient when faced with intermittent communication losses on the battlefield.
The technique, called α-shape, provides an efficient method for resolving goal conflicts between multiple robots that may want to visit the same area during missions including unmanned search and rescue, robotic reconnaissance, perimeter surveillance and robotic detection of physical phenomena, such as radiation and underwater concentration of lifeforms.
Researchers from the U.S. Army Combat Capabilities Development Command, known as DEVCOM, Army Research Laboratory and the University of Nebraska, Omaha Computer Science Department collaborated, which led to a paper featured in ScienceDirect s journal
It allows robots to remain resilient when faced with intermittent communication losses on the battlefield.
Apr 30th, 2021
Jenna Brady
Army researchers develop a technique that allows robots to remain resilient when faced with intermittent communication losses on the battlefield. Experimental results were reported on simulated robots within multiple environments and physical Clearpath Jackal Robots.
U.S. Army
ADELPHI, Md. Army researchers developed a technique that allows robots to remain resilient when faced with intermittent communication losses on the battlefield.
The technique, called α-shape, provides an efficient method for resolving goal conflicts between multiple robots that may want to visit the same area during missions including unmanned search and rescue, robotic reconnaissance, perimeter surveillance and robotic detection of physical phenomena, such as radiation and underwater concentration of lifeforms.
For millions of people in the United States, being attached to a kidney dialysis machine for hours on end, multiple times per week is reality. Researchers working to restore some normalcy for kidney dialysis patients, by developing a wearable system that would give them freedom of movement, are encouraged by a new finding about a material that could vastly reduce the size of the blood filtration system.
Drexel University
Medical device startup picks MXene filter materials for artificial kidney
Nephria Bio plans to use Drexel’s MXene filter materials in its wearable artificial kidney technology.
Drexel University’s MXene material is one step closer to transforming the lives of people suffering from end-stage kidney disease. Nephria Bio Inc., a U.S.-based spin-off of the South Korean medical device company EOFlow Co. Ltd., has signed a licensing agreement with the University to use the two-dimensional material, discovered at Drexel, as a filter in a wearable artificial kidney d