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Cardiologist wins 3rd place at Anthropic's hackathon. Out of 13,000 applications. Built in 7 days by Michał Nedoszytko MD. Coded day and night - in the hospital, in the cloud, while flying from Brussels to San Francisco. A few years ago, it would have been impossible for a doctor to build this alone in just a couple of days. AI changed that. The project is called https://t.co/wAliajqjVF. It is an AI agentic care platform for patients. Including reverse AI scribe it is a companion that guides the patient from the moment they leave the doctor's office. Powered by the massive context window of Opus 4.6, it allows patients to explore their full medical history, connected devices, Evidence Based resources and external data sources — all in one place. Today, the barrier to entry has vanished; even a practicing physician can build an application from scratch.

Researchers at the University of Genoa’s RICE lab have introduced Porcospino Flex, a bio-inspired robot built to move through places where standard wheeled or legged robots cannot operate. Its design takes cues from segmented invertebrates, featuring a flexible, 3D-printed spinal structure that can bend, compress, and reshape itself. The body uses meta materials made from thermoplastic polyurethane (TPU) and acrylonitrile butadiene styrene (ABS), which cut the total weight down to 3.6 kg while increasing impact resistance. Locomotion: Instead of using many joints or tracks, Porcospino Flex moves with one continuous track that wraps around its body. Steering happens through an internal wire and winch system, which bends the body laterally to help it adapt to rough ground while keeping traction. This setup lets the robot travel through tight or cluttered spaces like collapsed buildings, industrial pipes, or EV battery compartments, where traditional or modular snake robots often fail. The demo video shows how its flexible body and constant track contact let it move steadily through debris without complicated gait control.

Shipbuilding normally needs shipyards. This boat came out of a microfactory. Printed by robots. A full-scale vessel made inside an AI-driven facility, not a dockyard. Forget molds, heavy tooling, and offshore fabrication: Just a digital file → robotic print → finished structure. Large physical objects no longer require large factories. Seen at https://t.co/b0j82VhTR9 ——- if it matters in AI or Robotics you'll see it here first: https://t.co/9Nm01QUcw3

Over the past 150 years, only a few inventions have changed the world. Phones, cars, computers. Humanoids will be the next big thing. Today, we’re releasing our new documentary, an honest look at what it really takes to be part of the humanoid race. You’ll hear from engineering, hardware, product, and other teams building the robot. Welcome behind the scenes! Watch here: https://t.co/W5jz1iQ5Qf

Okay this is wild. My Tesla stopped for pedestrians like it’s supposed to. They waved it on. And the car actually understood the hand signal… and went. No awkward pause. No confusion. It just got it. A car reading human body language in real time. On a normal street. We’re way past “driver assist” at this point. Has anyone else had FSD do something that made you stop and say… okay, this is different? $TSLA