Patent application number | Description | Published |
20100066587 | Method and System for Controlling a Remote Vehicle - A system for controlling a remote vehicle comprises: a LIDAR sensor, a stereo vision camera, and a UWB radar sensor; a sensory processor configured to process data from one or more of the LIDAR sensor, the stereo vision camera, and the UWB radar sensor; and a remote vehicle primary processor configured to receive data from the sensory processor and utilize the data to perform an obstacle avoidance behavior. | 03-18-2010 |
20110264303 | Situational Awareness for Teleoperation of a Remote Vehicle - A method for improving situational awareness for teleoperation of a remote vehicle by creating a 3D map display of an area around the remote vehicle comprises: receiving an original image from a stereo vision camera and utilizing the original image to perform visual odometry to determine the x, y, z, roll, pitch, and yaw for the original image; applying a fill-in algorithm to the original image to fill in an estimated depth for areas of the original image for which no depth data is available, which creates an enhanced depth image; combining the enhanced depth image with the x, y, z, roll, pitch, and yaw for the original image to create the 3D map display of the area around the remote vehicle; and displaying the 3D map display on an operator control unit used to control the remote vehicle. | 10-27-2011 |
20140247261 | Situational Awareness for Teleoperation of a Remote Vehicle - A method for improving situational awareness for teleoperation of a remote vehicle by creating a 3D map display of an area around the remote vehicle comprises: receiving an original image from a stereo vision camera and utilizing the original image to perform visual odometry to determine the x, y, z, roll, pitch, and yaw for the original image; applying a fill-in algorithm to the original image to fill in an estimated depth for areas of the original image for which no depth data is available, which creates an enhanced depth image; combining the enhanced depth image with the x, y, z, roll, pitch, and yaw for the original image to create the 3D map display of the area around the remote vehicle; and displaying the 3D map display on an operator control unit used to control the remote vehicle. | 09-04-2014 |