Abstract: A multi-camera, multi-view light field endoscope simultaneously captures images of a body cavity using a plurality of camera sensors. The system makes use of input from an eye and head tracker to generate control signals selecting the specific pair of camera sensors that correspond to the user's eye and head position. By selecting only signals from the selected pair, transmission bandwidth, data rate, and system complexity are reduced. Use of the eye and head tracker give the user a look around, autostereoscopic capability with a simple, commercially available stereo display.

Abstract: A wireless power transmission system for a robotic surgical system includes features for optical data transmission. A first component of the surgical system includes a control element, a power transmission element and an optical data transmission element; and a second component of the surgical system including a wireless power receiving element and an optical data receiving element, the second component is removably mountable to the first component. In some embodiments, a barrier such as a surgical drape and/or hermetic enclosure is positioned between the first and second components. In one example, of the components is a robotic manipulator arm and another is a powered instrument removably mountable to the manipulator arm.

Abstract: A wireless power transmission system for a robotic surgical system includes features for optical data transmission. A first component of the surgical system includes a control element, a power transmission element and an optical data transmission element; and a second component of the surgical system including a wireless power receiving element and an optical data receiving element, the second component is removably mountable to the first component. In some embodiments, a barrier such as a surgical drape and/or hermetic enclosure is positioned between the first and second components. In one example, of the components is a robotic manipulator arm and another is a powered instrument removably mountable to the manipulator arm.

Abstract: A wireless power transmission system for a robotic surgical system includes features for optical data transmission. A first component of the surgical system includes a control element, a power transmission element and an optical data transmission element; and a second component of the surgical system including a wireless power receiving element and an optical data receiving element, the second component is removably mountable to the first component. In some embodiments, a barrier such as a surgical drape and/or hermetic enclosure is positioned between the first and second components. In one example, of the components is a robotic manipulator arm and another is a powered instrument removably mountable to the manipulator arm.

Abstract: A system for wireless transfer of power from a robotic arm to a surgical instrument assembly of a surgical robotic system includes a wireless power transmission coil on a robotic arm. A surgical instrument assembly is removably attachable to the robotic arm and includes a surgical instrument shaft and end effector, and a motor operable to actuate or articulate the end effector of the surgical instrument. A wireless power receive coil on the surgical instrument assembly is in electrical communication with the motor.

Abstract: A wireless power transmission system for a robotic surgical system includes features for optical data transmission. A first component of the surgical system includes a control element, a power transmission element and an optical data transmission element; and a second component of the surgical system including a wireless power receiving element and an optical data receiving element, the second component is removably mountable to the first component. In some embodiments, a barrier such as a surgical drape and/or hermetic enclosure is positioned between the first and second components. In one example, of the components is a robotic manipulator arm and another is a powered instrument removably mountable to the manipulator arm.

Abstract: The present invention provides methods for on-actuator temperature measurement and temperature control, including where one or more of the temperature sensors are combined with one or more heaters that are formed of wiring traces and/or providing heaters designed for one-to-one correspondence to the temperature sensors to form temperature sensor-heater pairs. The present invention also provides methods for on-actuator temperature measurement and temperature control in which the temperature sensors comprise a connection comprising a plurality of terminals by which an amount of current can be applied and then a voltage measured, wherein the voltage that is measured across the temperature sensors can be accurately correlated to a temperature.

Abstract: Systems and methods may be provided for wirelessly monitoring physiological vital signs. The systems and methods may include transmitting, from a local replication system via a wireless communications link, one or more stimulus signals to a remote signal acquisition subsystem that may be in communication with at least one remote sensor, where, responsive to the one or more stimulus signals, the at least one remote sensor is operable to generate one or more interrogation signals applied to a physiological system under test, where the at least one remote sensor may detect one or more response signal, where the one or more response signals may include a detected physiological system response to the one or more interrogation signals.

Abstract: A wireless system uses a direct UHF radio frequency (RF) signal to control electric trains and train accessories. A controller, such as a handheld unit used by the toy train operator, accepts control commands and transmits encoded control data over a high frequency radio link directly to a receiver, on the toy train or train accessory, which decodes the commands and controls the toy train or toy train accessory functions with either unidirectional or bidirectional communication between the controller and the model train or train accessory. One controller has the ability to control many trains and other model train layout components such as signals and track switches even while other train operators are operating their trains on the same electric train track layout.

Abstract: A wireless system uses a direct UHF radio frequency (RF) signal to control electric trains and train accessories. A controller, such as a handheld unit used by the toy train operator, accepts control commands and transmits encoded control data over a high frequency radio link directly to a receiver, on the toy train or train accessory, which decodes the commands and controls the toy train or toy train accessory functions with either unidirectional or bi-directional communication between the controller and the model train or train accessory. One controller has the ability to control many trains and other model train layout components such as signals and track switches even while other train operators are operating their trains on the same electric train track layout.

Abstract: An automated screening system and method for cytological specimen classification in which a neural network is utilized in performance of the classification function. Also included is an automated microscope and associated image processing circuitry.

Abstract: A method of classifying cells based upon their morphology includes a method of classifying objects in a cytological specimen, including the steps of obtaining a first image of at least part of a cytological specimen, classifying objects in the first image on the basis of a predetermined criteria, obtaining a second image of at least one of the objects most likely to have a predetermined criteria, and displaying at least part of the second image to produce a visual display of at least one of the objects most likely to have a predetermined criteria.