Abstract: Technology is described for visually communicating using a robotic device. An example of a method can include a video feed sent from the video camera of the robotic device to the remote user. A projection surface identified in the video feed can then be sent to the remote user using an application. Another operation can be obtaining an image from the remote user using the application. The image created by the remote user can then be projected on the projection surface.

Abstract: Various embodiments related to automatically exchanging a discharged battery for a charged battery in an autonomous device are disclosed. For example, one disclosed embodiment provides a method of operating an autonomous device, the method including autonomously moving to and operatively engaging with a battery exchange dock such that a discharged battery in the autonomous device is automatically removed from the autonomous device and placed into a charging receptacle on the battery exchange dock and a charged battery is automatically received from the battery exchange dock by the autonomous device. The method further includes autonomously disengaging from the battery exchange dock after receiving the charged battery.

Abstract: Technology is described for visually communicating using a robotic device. An example of a method can include a video feed sent from the video camera of the robotic device to the remote user. A projection surface identified in the video feed can then be sent to the remote user using an application. Another operation can be obtaining an image from the remote user using the application. The image created by the remote user can then be projected on the projection surface.

Abstract: Described herein are technologies pertaining to robot navigation. The robot includes a video camera that is configured to transmit a live video feed to a remotely located computing device. A user interacts with the live video feed, and the robot navigates in its environment based upon the user interaction. In a first navigation mode, the user selects a location, and the robot autonomously navigates to the selected location. In a second navigation mode, the user causes the point of view of the video camera on the robot to change, and thereafter causes the robot to semi-autonomously drive in a direction corresponding to the new point of view of the video camera. In a third navigation mode, the user causes the robot to navigate to a selected location in the live video feed.