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A recent study published in Communications Psychology reveals that individuals with higher psychopathic traits show reduced sensitivity to pain, which affects their ability to learn from painful consequences. The researchers found that people with elevated psychopathic traits tend to revert quickly to initial beliefs after experiencing pain. This new insight could help us understand why individuals with these traits often struggle to adapt their behavior despite negative consequences.

People with psychopathic traits frequently ignore the negative consequences of their actions, likely due to differences in how they process punishment. Past studies have indicated that psychopathy is associated with both an insensitivity to punishment and an excessive drive toward reward, but this study aimed to explore the computational learning processes specifically related to pain. Pain can serve as a powerful teaching signal, so understanding how reduced pain sensitivity influences learning in people with psychopathic traits could shed light on the mechanisms behind their often harmful decision-making.

“One of the hallmarks of psychopathy is aggressive, exploitative behavior with little regard for the wellbeing of others,” said study author Dimana Atanassova, a postdoctoral researcher at the Donders Institute for Brain, Cognition and Behaviour at Radboud University.

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A groundbreaking study using PET scans has revealed that autistic individuals have fewer brain synapses, directly correlating with more pronounced autism traits like social and communication challenges.

This discovery, illustrating clear links between brain structure and behavioral expressions, could revolutionize diagnostic approaches and enhance support mechanisms, potentially leading to more targeted interventions and improved quality of life for those on the autism spectrum.

Synaptic Research in Autism.

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Summary: Researchers found that exercise promotes neuron growth through both biochemical signals (myokines) and physical stretching. Muscle cells, when contracted, release myokines that boost neuron growth and maturity. Furthermore, neurons that were “exercised” through mechanical movement grew just as much as those exposed to myokines.

These findings reveal the dual role of exercise in stimulating nerves, offering hope for developing therapies targeting nerve repair and neurodegenerative diseases. This research opens new avenues in treating nerve damage through “exercise as medicine.”

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MIT CSAIL researchers have developed a generative AI system, LucidSim, to train robots in virtual environments for real-world navigation. Using ChatGPT and physics simulators, robots learn to traverse complex terrains. This method outperforms traditional training, suggesting a new direction for robotic training.

A team of roboticists and engineers at MIT CSAIL, Institute for AI and Fundamental Interactions, has developed a generative AI approach to teaching robots how to traverse terrain and move around objects in the real world.

The group has published a paper describing their work and possible uses for it on the arXiv preprint server. They also presented their ideas at the recent Conference on Robot Learning (CORL 2024), held in Munich Nov. 6–9.

Continue reading “Virtual training uses generative AI to teach robots how to traverse real world terrain” | >

Waymo has expanded its robotaxi service to the general public in Los Angeles, allowing anyone with the Waymo One app to request a ride. This marks a significant step in autonomous vehicle technology, as Waymo continues to lead the industry with over 50,000 weekly passengers and a strong safety record.

Waymo on Tuesday opened its robotaxi service to anyone who wants a ride around Los Angeles, marking another milestone in the evolution of self-driving car technology since the company began as a secret project at Google 15 years ago.

The expansion comes eight months after Waymo began offering rides in Los Angeles to a limited group of passengers chosen from a waiting list that had ballooned to more than 300,000 people. Now, anyone with the Waymo One smartphone app will be able to request a ride around an 80-square-mile (129-square-kilometer) territory spanning the second largest U.S. city.

After Waymo received approval from California regulators to charge for rides 15 months ago, the company initially chose to launch its operations in San Francisco before offering a limited service in Los Angeles.

Continue reading “Waymo’s robotaxis now open to anyone who wants a driverless ride in Los Angeles” | >

Researchers at Penn Engineering have developed PanoRadar, a system that uses radio waves and AI to provide robots with detailed 3D environmental views, even in challenging conditions like smoke and fog. This innovation offers a cost-effective alternative to LiDAR, enhancing robotic navigation and perception capabilities.

In the race to develop robust perception systems for robots, one persistent challenge has been operating in bad weather and harsh conditions. For example, traditional, light-based vision sensors such as cameras or LiDAR (Light Detection And Ranging) fail in heavy smoke and fog.

However, nature has shown that vision doesn’t have to be constrained by light’s limitations—many organisms have evolved ways to perceive their environment without relying on light. Bats navigate using the echoes of sound waves, while sharks hunt by sensing electrical fields from their prey’s movements.

Continue reading “Giving robots superhuman vision using radio signals” | >

Groundbreaking research presented at UEG Week 2024 reveals a promising new treatment strategy for type 2 diabetes (T2D) that could significantly reduce or even eliminate the need for insulin therapy.

This innovative approach, which combines a novel procedure known as ReCET (Re-Cellularization via Electroporation Therapy) with semaglutide, resulted in the elimination of insulin therapy for 86% of patients.

Globally, T2D affects 422 million people, with obesity recognized as a significant risk factor. While insulin therapy is commonly used to manage blood sugar levels in T2D patients, it can result in side effects such as weight gain and further complicate diabetes management. A need therefore exists for alternative treatment strategies.

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While labeled a “robot wolf” by its designers, this platform presents itself as a powerful tactical tool likely aimed at military or security applications, where its design and capabilities stand to offer significant operational value.

The robot’s four-legged design is an immediate indicator of its…

At China’s Zhuhai Air Show, a new robotic quadruped known as robot-wolf stole the spotlight demonstrating its capability to respond to real-time voice commands.

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Principal investigator Eric Pierce pointed out that the trial shows that gene therapy for hereditary vision loss is a worthy pursuit for future research. He believes the early research is promising.

“It’s a big deal to hear how thrilled they were to finally be able to see food on their plates,” said Pierce. “These were individuals who couldn’t read a single line on an eye chart. They had no treatment options, which is an unfortunate reality for most people with inherited retinal disorders.”

The goal is to inject CRISPR so that it reaches the retina to restore the ability to produce genes and proteins.

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