Humans can grab a book from a shelf with little obvious thought. But it's a complex process for the brain that involves planning and navigating around obstacles, like other books or knickknacks. Robotics researchers have struggled to replicate this kind of human movement when their systems perform similar tasks. Known as motion planning, the process of training a robot to get an object from one point to another without hitting any obstacles takes time and resources because the robot can't react dynamically like humans in unknown environments.
Robots are widely used in the automotive industry and have started entering new application domains such as logistics in the last few years. However, current robots still face many limitations. They typically perform a single action or a fixed sequence of actions, repeating them the same way each time.
We’re releasing two updated production-ready Gemini models
We’re releasing two updated production-ready Gemini models
We’re releasing two updated production-ready Gemini models
We’re releasing two updated production-ready Gemini models
We’re releasing two updated production-ready Gemini models
We’re releasing two updated production-ready Gemini models
We’re releasing two updated production-ready Gemini models
We’re releasing two updated production-ready Gemini models
With two Tier 1 research institutions, CMU and the University of Pittsburgh (Pitt), Pittsburgh is uniquely suited to provide the skilled and talented workers necessary for companies looking to launch, scale and grow in a place that provides a soft landing.
The emerging low-altitude economy brings unconventional opportunities for urban and economic development, including revolutionizing parcel delivery. Researchers at the Hong Kong Polytechnic University (PolyU) have utilized cutting-edge technology to pioneer the extensive application of unmanned drones in different aspects of life.
Drones can make air freight cheaper and remote areas more connected. But tracking them will be key.
Drones can make air freight cheaper and remote areas more connected. But tracking them will be key.
Engineers working on Google's DeepMind project have announced the development of two new AI-based robot systems. One called ALOHA Unleashed was developed to advance the science of bi-arm manipulation. The other, called DemoStart, was developed to advance the capabilities of robot hands that have multiple fingers, joints, or sensors.