Abstract: The present invention provides a self-photographing system and method. The self-photographing system comprises an electronic device having a taking photo or recording video, and a self-photographing device. The electronic device is disposed on the self-photographing device. The self-photographing device comprises a controller, an infrared receiver and a rotating platform. The controller defines a first area from a signal sensing range of the infrared receiver. The controller controls the rotation of the rotating platform, so that the infrared receiver is able to receive the infrared signal in the first area of the signal sensing range, and therefore a lens of the electronic device can take photo or record video for the user in a particular angle.
Abstract: The present invention provides a self-photographing system and method. The self-photographing system comprises an electronic device having a taking photo or recording video, and a self-photographing device. The electronic device is disposed on the self-photographing device. The self-photographing device comprises a controller, an infrared receiver and a rotating platform. The controller defines a first area from a signal sensing range of the infrared receiver. The controller controls the rotation of the rotating platform, so that the infrared receiver is able to receive the infrared signal in the first area of the signal sensing range, and therefore a lens of the electronic device can take photo or record video for the user in a particular angle.
Abstract: The present invention provides a time-lapse photography system, which comprises a rotating platform and an electronic device comprising a time-lapse photography program. The time-lapse photography program sets a first position, a second position, and a time for recording video, and calculates an angular velocity. When the electronic device executes a time-lapse photography process, the time-lapse photography program sends a start signal and an indication signal including a message of angular velocity, the rotating platform starts to rotate from the start position based on the start signal and control a rotating speed based on the angular velocity, while the electronic device executes a video recording process. When the rotating platform has rotated to the second position, the time-lapse photography program will send an end signal, the rotating of the rotating platform can be stopped, thereby the electronic device can finish the video recording process to generate a video.