In general, embodiments of the present invention relate to a robotic self-filming system. Specifically, the robotic self-filming system includes a base, robot arm, video recording device holder, a video recording device mounted on the video device holder, and a robot control unit. The robot control unit receives video data from the video recording device. Using the video data, the robot control unit detects an object and tracks the object as the object moves freely about the environment. The robotic self-filming system then produces a final video product based on the video data and predefined parameters.

Technologies for calibrating a pan tilt unit with a robot include a robot controller to move a camera of the pan tilt unit about a first rotational axis of the pan tilt unit to at least three different first axis positions. The robot controller records a first set of positions of a monitored component of the robot in a frame of reference of the robot and a position of the camera in a frame of reference of the pan tilt unit during a period in which the monitored component is within a field of view of the camera for each of the at least three different first axis positions. Further, the robot controller moves the camera about a second rotational axis of the pan tilt unit to at least three different second axis positions and records a second set of positions of the monitored component in the frame of reference of the robot and a position of the camera in the frame of reference of the pan tilt unit during a period in which the monitored component is within a field of view of the camera for each of the at least three different second axis positions. Further, the robot controller determines a transformation from the frame of reference of the robot to the frame of reference of the pan tilt unit based on the first set of recorded positions and the second set of recorded positions.

An operation portion elevates or lowers imaging units of a robot in response to the user's operation of the operation portion, and when the robot is moved from a first work stand to a second work stand which have different heights, a control unit determines whether the difference between the height of the imaging units before the moving of the robot and the height of the second work stand is present in a predetermined range, and when the control unit determines that the difference is not present in the predetermined range, a display unit controls a display device to display information that instructs a user to change the height of the imaging units via the operation portion.