Abstract: The trajectory planning system for integrating a computer numerical control (CNC) machine, trajectory planning device, trajectory planning method, and computer program thereof are provided. The aforementioned trajectory planning device includes a determining module. The determining module configures the related processing speed or processing acceleration based on type of the processing segment so as to provide a processing setting. Furthermore, the aforementioned trajectory planning device determines the processing segment whether the linear or circular segment and plans the tangent or normal acceleration of related processing segment so as to optimize the processing setting and finish the high order processing trajectory planning.

Abstract: An automatic stair-climbing robot platform is provided. The automatic stair-climbing robot platform of the present invention includes a personal computer module; a USB-CAN interface module; a motor module, including a plurality of motors and controlled by the USB-CAN interface module; a KINECT sensor module, obtaining point cloud data and image data by sensing a terrain ahead and transmitting the point cloud data and image data to the personal computer module; a first inertial measurement unit, measuring a body tilt of the KINECT sensor module, and transmitting data of the body tilt of the KINECT sensor module to the personal computer module; and a second inertial measurement unit, measuring a body tilt of the automatic stair-climbing robot platform, and transmitting data of the body tilt of the automatic stair-climbing robot platform to the personal computer module.

Abstract: The trajectory planning system for integrating a computer numerical control (CNC) machine, trajectory planning device, trajectory planning method, and computer program thereof are provided. The aforementioned trajectory planning device includes a determining module. The determining module configures the related processing speed or processing acceleration based on type of the processing segment so as to provide a processing setting. Furthermore, the aforementioned trajectory planning device determines the processing segment whether the linear or circular segment and plans the tangent or normal acceleration of related processing segment so as to optimize the processing setting and finish the high order processing trajectory planning.

Abstract: Provided is an assistive robot endoscopic system, including a wireless gyroscope, measuring an intuitive motion of a user's (e.g., a surgeon) head, generating data based on the intuitive motion of the user's head and transmitting the data to a computer; a control system, receiving the data from the computer; and a laparoscope, having a robotic endoscope and automatically controlled by the control system based on the intuitive motion of the user's head. In addition, the present invention further provides an assistive robot endoscopic method.

Abstract: An automatic stair-climbing robot platform is provided. The automatic stair-climbing robot platform of the present invention includes a personal computer module; a USB-CAN interface module; a motor module, including a plurality of motors and controlled by the USB-CAN interface module; a Kinect sensor module, obtaining point cloud data and image data by sensing a terrain ahead and transmitting the point cloud data and image data to the personal computer module; a first inertial measurement unit, measuring a body tilt of the Kinect sensor module, and transmitting data of the body tilt of the Kinect sensor module to the personal computer module; and a second inertial measurement unit, measuring a body tilt of the automatic stair-climbing robot platform, and transmitting data of the body tilt of the automatic stair-climbing robot platform to the personal computer module.

Abstract: One aspect of the instant disclosure is to provide a sensorless adaptive safety actuator. The safety actuator comprises a driving unit, a transmission unit coupled to the driving unit, and an output unit coupled to the transmission unit. The transmission unit comprises a load-adaptable retracting mechanism. When the output unit experiences a mechanical load exceeding a critical value, the load-adaptable retracting mechanism causes the transmission unit to decouple from the driving unit. Thus, responding to an accident where the impact on the output unit causes a force/torque overload, the instant safety actuator is capable of effectively stopping the force/torque transmission to the work output device without the use of active sensors.

Abstract: One aspect of the instant disclosure is to provide a sensorless adaptive safety actuator. The safety actuator comprises a driving unit, a transmission unit coupled to the driving unit, and an output unit coupled to the transmission unit. The transmission unit comprises a load-adaptable retracting mechanism. When the output unit experiences a mechanical load exceeding a critical value, the load-adaptable retracting mechanism causes the transmission unit to decouple from the driving unit. Thus, responding to an accident where the impact on the output unit causes a force/torque overload, the instant safety actuator is capable of effectively stopping the force/torque transmission to the work output device without the use of active sensors.

Abstract: A solid-state fringe effect capacitive proximity sensor is described which lends itself to use for surface mounting and other space constrained applications. The sensor comprises an insulating substrate having a plurality of sensing electrodes formed thereon and without any screen elements therebetween. The electrodes are adapted to measure the proximity distance of a target object (conductive or non-conductive) by means of the fringe capacitance effect created between the electrodes. Capacitance measurement processing circuitry is electrically connected to the plurality of sensory electrodes.