Abstract: A Link 16 terminal. The Link 16 terminal includes a red enclave. The red enclave comprises a Link 16 radio. The Link 16 radio is configured to send commands to Link 16 modems. The commands specify time slots when operations in the commands should be performed by the Link 16 modems. The Link 16 terminal further includes a black enclave physically separated from the red enclave. The black enclave includes a Link 16 modem configured to receive commands from the Link 16 radio. The Link 16 terminal further includes a communication channel configured to facilitate communication between the red enclave and the black enclave. The Link 16 radio is configured to dynamically adjust when commands are sent to the Link 16 modem with respect to time slots specified in the commands based on latency between the Link 16 radio and the Link 16 modem.

Abstract: The present invention provides a system and single or multi-functional element device that can be inserted and temporarily placed or implanted into a structure having a lumen or hollow space, such as a subject's abdominal cavity to provide therewith access to the site of interest in connection with minimally invasive surgical procedures. The insertable device may be configured such that the functional elements have various degrees of freedom of movement with respect to orienting the functional elements or elements to provide access to the site from multiple and different orientations/perspectives as the procedure dictates, e.g., to provide multiple selectable views of the site, and may provide a stereoscopic view of the site of interest.

Abstract: A system and method for tracking a surgical implement in a patient can have an imaging system configured to obtain sequential images of the patient, and an image recognition system coupled to the imaging system and configured to identify the surgical implement in individual images. The image recognition system can be configured to identify the surgical implement relative to the patient in one of the images based, at least in part, on an identification of the surgical implement in at least one preceding one of the sequential images, and a probabilistic analysis of individual sections of the one of the images, the sections being selected by the image recognition system based on a position of the surgical implement in the patient as identified in the at least one preceding one of the images.

Abstract: The present invention provides a system and single or multi-functional element device that can be inserted and temporarily placed or implanted into a structure having a lumen or hollow space, such as a subject's abdominal cavity to provide therewith access to the site of interest in connection with minimally invasive surgical procedures. The insertable device may be configured such that the functional elements have various degrees of freedom of movement with respect to orienting the functional elements or elements to provide access to the site from multiple and different orientations/perspectives as the procedure dictates, e.g., to provide multiple selectable views of the site, and may provide a stereoscopic view of the site of interest.

Abstract: Appearance learning systems, methods and computer products for three-dimensional markerless tracking of robotic surgical tools. An appearance learning approach is provided that is used to detect and track surgical robotic tools in laparoscopic sequences. By training a robust visual feature descriptor on low-level landmark features, a framework is built for fusing robot kinematics and 3D visual observations to track surgical tools over long periods of time across various types of environments. Three-dimensional tracking is enabled on multiple tools of multiple types with different overall appearances. The presently disclosed subject matter is applicable to surgical robot systems such as the da Vinci® surgical robot in both ex vivo and in vivo environments.

Abstract: A system and method for tracking a surgical implement in a patient can have an imaging system configured to obtain sequential images of the patient, and an image recognition system coupled to the imaging system and configured to identify the surgical implement in individual images. The image recognition system can be configured to identify the surgical implement relative to the patient in one of the images based, at least in part, on an identification of the surgical implement in at least one preceding one of the sequential images, and a probabilistic analysis of individual sections of the one of the images, the sections being selected by the image recognition system based on a position of the surgical implement in the patient as identified in the at least one preceding one of the images.

Abstract: A Surgical Structured Light (SSL) system is disclosed that provides real-time, dynamic 3D visual information of the surgical environment, allowing registration of pre- and intra-operative imaging, online metric measurements of tissue, and improved navigation and safety within the surgical field.

Abstract: A body-insertable imaging device includes a first camera that comprises a first image sensor and a first lens to pass incident light onto the first image sensor, a control interface to receive a remotely generated control signal, and an actuator communicatively coupled to the control interface and configured to support the camera and manipulate the camera about a pan axis, a tilt axis, and along a zoom direction in response to the control signal while the camera and actuator are within a body cavity, wherein the zoom direction extends out from a distal end of the body-insertable camera.

Abstract: The present invention provides a system and single or multi-functional element device that can be inserted and temporarily placed or implanted into a structure having a lumen or hollow space, such as a subject's abdominal cavity to provide therewith access to the site of interest in connection with minimally invasive surgical procedures. The insertable device may be configured such that the functional elements have various degrees of freedom of movement with respect to orienting the functional elements or elements to provide access to the site from multiple and different orientations/perspectives as the procedure dictates, e.g., to provide multiple selectable views of the site, and may provide a stereoscopic view of the site of interest.

Abstract: The present invention provides a system and single or multi-functional element device that can be inserted and temporarily placed or implanted into a structure having a lumen or hollow space, such as a subject's abdominal cavity to provide therewith access to the site of interest in connection with minimally invasive surgical procedures. The insertable device may be configured such that the functional elements have various degrees of freedom of movement with respect to orienting the functional elements or elements to provide access to the site from multiple and different orientations/perspectives as the procedure dictates, e.g., to provide multiple selectable views of the site, and may provide a stereoscopic view of the site of interest.

Abstract: A first magnetic field can be produced across a tissue region using a first magnetic field source, providing a magnetic coupling force between the first magnetic field source and a first object, wherein the first object provides a magnetic field or a magnetic susceptibility to obtain the magnetic coupling force. The magnetic coupling force can be sensed using a force sensor and a resulting sensed force signal can be provided to a controller. The controller can provide an output signal to control the magnetic coupling force using the sensed forced signal to obtain a constant or desired magnetic coupling force.

Abstract: A body-insertable imaging device includes a first camera that comprises a first image sensor and a first lens to pass incident light onto the first image sensor, a control interface to receive a remotely generated control signal, and an actuator communicatively coupled to the control interface and configured to support the camera and manipulate the camera about a pan axis, a tilt axis, and along a zoom direction in response to the control signal while the camera and actuator are within a body cavity, wherein the zoom direction extends out from a distal end of the body-insertable camera.

Abstract: The present invention provides a system and single or multi-functional element device that can be inserted and temporarily placed or implanted into a structure having a lumen or hollow space, such as a subject's abdominal cavity to provide therewith access to the site of interest in connection with minimally invasive surgical procedures. The insertable device may be configured such that the functional elements have various degrees of freedom of movement with respect to orienting the functional elements or elements to provide access to the site from multiple and different orientations/perspectives as the procedure dictates, e.g., to provide multiple selectable views of the site, and may provide a stereoscopic view of the site of interest.

Abstract: A system and method for generating a three-dimensional representation of an object or scene which minimizes the number of range scans required from different positions to produce an image of acceptable resolution. The technique first produces an initial mesh representation from a predetermined number of scans which is transformed into a solid. Vertices and surfaces in the solid mesh are tagged with either an occluded (unscanned) or imaged (scanned) tag. The occlusion tags allows the technique to select the best view for next scanning iteration by identifying the scanable surface area with the most occlusions. The technique then adjusts the object-scanner positioning so that the targeted view is scanned next. The process is repeated until an acceptable resolution of the object is achieved. The use of occlusion tags with a planning stage decreases the minimum number of scans necessary to complete the process.