Investigate the collective behavior of multiple robots working collaboratively, mimicking the efficiency of natural swarms.
Explore the development of robots with soft and flexible materials, inspired by the adaptability of biological organisms.
Examine ways to enhance interactions between robots and humans in shared workspaces, promoting seamless collaboration.
Integrate living tissues with robotic components to create biohybrid systems for enhanced adaptability and functionality.
Focus on developing intelligent algorithms and systems for autonomous vehicles, addressing navigation and decision-making challenges.
Explore applications of robotics in healthcare, including robotic surgery, rehabilitation, and assistive devices for improved patient care.
Investigate the use of robots for environmental data collection, monitoring, and addressing ecological challenges.
Study the development of robots with human-like characteristics, aiming for improved social interaction and versatility in various tasks.
Examine the role of robots in precision agriculture, including tasks like planting, harvesting, and monitoring crop health.
Explore the integration of robotics and neuroscience, aiming to develop robots that mimic and understand human cognitive processes.