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New Method Developed to Improve Robot Performance in Helping Patients

Robots are becoming an increasingly important part of human care. (AFP)
Robots are becoming an increasingly important part of human care. (AFP)
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New Method Developed to Improve Robot Performance in Helping Patients

Robots are becoming an increasingly important part of human care. (AFP)
Robots are becoming an increasingly important part of human care. (AFP)

Robots are becoming an increasingly important part of human care, according to researchers based in Japan. To help improve the safety and efficacy of robotic care, the scientists have developed a control method that could help them better replicate human movement when lifting and moving a patient.

“In recent years, shortage of caregivers has become a serious social problem as the result of a falling birth rate and an aging population,” said researcher Changan Jiang, assistant professor of mechanical engineering at Ritsumeikan University, according to the German news agency.

According to the Phys.org website, the researchers have developed a method to control the movement of a nursing care robot's arm that doesn't produce the harmful movements or frictions usually produced by traditional robots' arms.

"Instead of compensating the friction, the new arm utilizes static friction that could reduce the patients' suffering when moved on their beds", the website reported.

In a related context, a team of researchers at the University of South California has developed a new technique that teaches robots different skills by competing with humans.

"This is the first robot learning effort using adversarial human users," said Stefanos Nikolaidis, a computer science researcher.

"Picture it like playing a sport: if you're playing tennis with someone who always lets you win, you won't get better. Same with robots: If we want them to learn a manipulation task, such as grasping, so they can help people, we need to challenge them," he added.

In his experiment, Nikolaidis used reinforcement learning, a technique in which artificial intelligence programs "learn" from repeated experimentation.

During the study, the researchers found that involving a human factor in teaching the AI system could help the robot acquire further skills by watching a human being completing his task. The experiment went something like this: the robot attempts to grasp an object, while the human observes the simulated robot's grasp. If the grasp is successful, the human tries to snatch the object from the robot's grasp.

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Japan's Space Agency Halts Epsilon S Rocket Engine Test after Fire

Smoke and fire is seen during a combustion test of an engine for a new small Japanese rocket Epsilon S at Tanegashima Space Center, Kagoshima prefecture, southern Japan, Tuesday, Nov. 26, 2024. (Kyodo News via AP)
Smoke and fire is seen during a combustion test of an engine for a new small Japanese rocket Epsilon S at Tanegashima Space Center, Kagoshima prefecture, southern Japan, Tuesday, Nov. 26, 2024. (Kyodo News via AP)
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Japan's Space Agency Halts Epsilon S Rocket Engine Test after Fire

Smoke and fire is seen during a combustion test of an engine for a new small Japanese rocket Epsilon S at Tanegashima Space Center, Kagoshima prefecture, southern Japan, Tuesday, Nov. 26, 2024. (Kyodo News via AP)
Smoke and fire is seen during a combustion test of an engine for a new small Japanese rocket Epsilon S at Tanegashima Space Center, Kagoshima prefecture, southern Japan, Tuesday, Nov. 26, 2024. (Kyodo News via AP)

Japan's space agency aborted an engine test for the Epsilon S rocket on Tuesday following a fire at the test site, a failure that could push the rocket's debut launch beyond the March-end target and cause further delays in the national space program.
An explosion could be heard and a blaze could be seen shortly after the ground combustion test started at the Tanegashima Space Center in southwestern Japan, according to footage from public broadcaster NHK.
The Japan Aerospace Exploration Agency (JAXA) said the engine test encountered a "combustion abnormality" 49 seconds after the ignition. It said there was no indication of injury or damage to the outside facility, Reuters reported.
"JAXA will conduct a thorough investigation into the cause of the problem and consider countermeasures," Chief Cabinet Secretary Yoshimasa Hayashi said at a regular press briefing.
Hayashi, the top government spokesperson, said rocket development is "extremely important" to ensure the autonomy of Japan's space program.
JAXA partnered with the aerospace unit of heavy machinery maker IHI to develop Epsilon S, the next generation in the Epsilon solid-fuel small rocket series. Shares in IHI were down as much as 6% in Tokyo trade. An IHI Aerospace spokesperson said the company is investigating the cause.
Epsilon S's debut flight was slated by the end of the fiscal year through March 31 depending on the success of Tuesday's engine test.
The test was conducted after previous failures triggered months of investigation that have delayed space missions and satellite launch plans.
In July last year, an Epsilon S engine test failed due to thermal damage to its ignition systems. That followed a launch failure in 2022.
JAXA's larger flagship rocket H3, built by Mitsubishi Heavy Industries, failed at its first launch last year but has succeeded in three flights this year, launching Japanese satellites and winning orders including from French satellite operator Eutelsat.
The H3 and Epsilon S are central to JAXA's ambition to build cost-competitive rockets amid the rise of American commercial launch providers such as market leader SpaceX and small rocket maker Rocket Lab.
In the private sector, IHI-backed Space One is set to attempt the second launch of its Kairos small rocket on Dec. 14 after the first flight exploded in March. It aims to become the first Japanese business to put a satellite in orbit.