Abstract: A planar coil linear actuator/transducer. A stack of individually driven planar coils are used. A common core passes through the center of the stack of coils. A mobile magnet resides in the core. The coils are selectively energized in order to drive the magnet as desired. It is possible to control both frequency and amplitude by controlling the motion of the magnet. In a preferred embodiment, each planar coil is created as a copper (or other conductive material) trace on a multi-layer printed circuit board.

Abstract: A planar coil linear actuator/transducer. A stack of individually driven planar coils are used. A common core passes through the center of the stack of coils. A mobile magnet resides in the core. The coils are selectively energized in order to drive the magnet as desired. It is possible to control both frequency and amplitude by controlling the motion of the magnet. In a preferred embodiment, each planar coil is created as a copper (or other conductive material) trace on a multi-layer printed circuit board.

Abstract: An individualized machine learning model embedded on a mobile health application, coupled to autonomous workflow agents systems to operate as a small artificial intelligence program. The machine learning algorithm learns from small datasets—making it possible to compute real-time data even on a low-grade smartphone device. It predicts early worsening outcomes by extracting patterns (features) that correlate with the individual baseline changes in heart failure status. The workflow agents support dynamic machine learning model deployment to different devices and configurations for real-time prediction and intervention. The different device configurations include patients who own only a smartphone device, patients who own a smartphone and wearable/biosensors, and patients who own a smartphone and who have an implanted cardiac device.

Abstract: A planar coil linear actuator/transducer. A stack of individually driven planar coils are used. A common core passes through the center of the stack of coils. A mobile magnet resides in the core. The coils are selectively energized in order to drive the magnet as desired. It is possible to control both frequency and amplitude by controlling the motion of the magnet. In a preferred embodiment, each planar coil is created as a copper (or other conductive material) trace on a multi-layer printed circuit board.

Abstract: A planar coil linear actuator/transducer. A stack of individually driven planar coils are used. A common core passes through the center of the stack of coils. A mobile magnet resides in the core. The coils are selectively energized in order to drive the magnet as desired. It is possible to control both frequency and amplitude by controlling the motion of the magnet. In a preferred embodiment, each planar coil is created as a copper (or other conductive material) trace on a multi-layer printed circuit board.

Abstract: A multisensory interface for a tele-robotic surgical control system. The invention allows the surgeon to use natural gestures and motions to control the actions of end effectors in the robotic surgical apparatus. Multiple feedback mechanisms are provided to allow the physician a more intuitive understanding of what is being controlled, along with a greater situational awareness. Prior art robotic end effectors are inserted into the patient through a small incision—as is already known in the art. The invention presents an improved method of controlling these effectors.

Abstract: A multisensory interface for a tele-robotic surgical control system. The invention allows the surgeon to use natural gestures and motions to control the actions of end effectors in the robotic surgical apparatus. Multiple feedback mechanisms are provided to allow the physician a more intuitive understanding of what is being controlled, along with a greater situational awareness. Prior art robotic end effectors are inserted into the patient through a small incision—as is already known in the art. The invention presents an improved method of controlling these effectors.