European researchers have developed a robot capable of moving autonomously using humanlike visual processing. The robot is helping the researchers explore how the brain responds to its environment while the body is in motion. What they discover could lead to machines that are better able to navigate through cluttered environments. The robot consists of a wheeled platform with a robotic ‘head’ that uses two cameras to capture stereoscopic vision. The robot can turn its head and shift its gaze up and down or sideways to gauge its surroundings, and can quickly measure its own speed relative to its environment. The machine is controlled by algorithms designed to mimic different parts of the human visual system. Rather than capturing and mapping its surroundings over and over in order to plan its route--the way most robots do--the European machine uses a simulated neural network to update its position relative to the environment, continually adjusting to each new input. This mimics human visual processing and movement planning.
The robot mimics several different functions of the human brain--object recognition, motion estimation, and decision making--to navigate around a room, heading for specific targets while avoiding obstacles and walls. Ten different European research groups, each with expertise in fields including neuroscience, computer science, and robotics, designed and built the robot through a project called Decisions in Motion. The group's challenge was to pull together traditionally disparate fields of neuroscience and integrate them into a ‘coherent model architecture’. To develop a real, humanlike computer model for navigation, the researchers needed to incorporate all these aspects into one system. Once the robot had been given the software, the researchers found that it did indeed move like a human. When moving slowly, it passed close to an obstacle, because it knew that it could recalculate its path without changing course too much. When moving more quickly toward the target, the robot gave obstacles a wider berth since it had less time to calculate a new trajectory.
More information:
http://www.technologyreview.com/computing/22946/
The robot mimics several different functions of the human brain--object recognition, motion estimation, and decision making--to navigate around a room, heading for specific targets while avoiding obstacles and walls. Ten different European research groups, each with expertise in fields including neuroscience, computer science, and robotics, designed and built the robot through a project called Decisions in Motion. The group's challenge was to pull together traditionally disparate fields of neuroscience and integrate them into a ‘coherent model architecture’. To develop a real, humanlike computer model for navigation, the researchers needed to incorporate all these aspects into one system. Once the robot had been given the software, the researchers found that it did indeed move like a human. When moving slowly, it passed close to an obstacle, because it knew that it could recalculate its path without changing course too much. When moving more quickly toward the target, the robot gave obstacles a wider berth since it had less time to calculate a new trajectory.
More information:
http://www.technologyreview.com/computing/22946/