Abstract: The present invention is a device for improving the aortic vessel recoil and overcoming aortic stiffness to provide a therapy to improve heart function and decrease high blood pressure, said device being an Intraluminal Pressure Dampening and Energy Recoil Device (IPDERD), an implantable device within a tubular or sac wall of said vessel in a human or animal body, said device including a changeable volume portion which is adapted to interact with said vessel so as to modify the volume within said vessel; and an energy storage means functioning with said changeable volume portion whereby a decrease in the volume of said changeable volume portion creates a pressure or energy charge in said energy storage means, said pressure or energy charge being able to be subsequently released to cause said changeable volume portion to increase in volume, said device including a fixation feature such as a stent for fixation and a changeable volume feature such as a balloon for dampening and counterpulsating.

Abstract: A system and method for model-based camera tracking and image occlusion removal for a camera viewing a sports field (or other scene) includes receiving a synthesized data set comprising at least one empty field image of the field, the empty field image with at least one occlusion graphic, and camera parameters corresponding to the empty field image, training a neural network model to estimate the empty field image and the corresponding camera parameters by providing the model with an input training image comprising the empty field image with occlusion graphic, and providing the model with model output targets comprising the empty field image and the corresponding camera parameters as targets for the model, receiving by the neural network model, alive input image comprising a view of the field with live occlusions, and providing by the neural network model, using trained model parameters, estimated live camera parameters or an estimated empty field image associated with the live input image.

Abstract: A system and method for providing multi-camera 3D body part labeling and performance metrics includes receiving 2D image data and 3D depth data from a plurality image capture units (ICUs) each indicative of a scene viewed by the ICUs, the scene having at least one person, each ICU viewing the person from a different viewing position, determining 3D location data and visibility confidence level for the body parts from each ICU, using the 2D image data and the 3D depth data from each ICU, transforming the 3D location data for the body parts from each ICU to a common reference frame for body parts having at least a predetermined visibility confidence level, averaging the transformed, visible 3D body part locations from each ICU, and determining a performance metric of at least one of the body parts using the averaged 3D body part locations. The person may be a player in a sports scene.

Abstract: A system and method for providing multi-camera 3D body part labeling and performance metrics includes receiving 2D image data and 3D depth data from a plurality image capture units (ICUs) each indicative of a scene viewed by the ICUs, the scene having at least one person, each ICU viewing the person from a different viewing position, determining 3D location data and visibility confidence level for the body parts from each ICU, using the 2D image data and the 3D depth data from each ICU, transforming the 3D location data for the body parts from each ICU to a common reference frame for body parts having at least a predetermined visibility confidence level, averaging the transformed, visible 3D body part locations from each ICU, and determining a performance metric of at least one of the body parts using the averaged 3D body part locations. The person may be a player in a sports scene.

Abstract: A system and method for model-based camera tracking and image occlusion removal for a camera viewing a sports field (or other scene) includes receiving a synthesized data set comprising at least one empty field image of the field, the empty field image with at least one occlusion graphic, and camera parameters corresponding to the empty field image, training a neural network model to estimate the empty field image and the corresponding camera parameters by providing the model with an input training image comprising the empty field image with occlusion graphic, and providing the model with model output targets comprising the empty field image and the corresponding camera parameters as targets for the model, receiving by the neural network model, alive input image comprising a view of the field with live occlusions, and providing by the neural network model, using trained model parameters, estimated live camera parameters or an estimated empty field image associated with the live input image.

Abstract: A method of forming an imaging calibration device for a biological material imaging system, the method comprises: providing one or more discrete regions upon or within a retaining member, each region for the receipt of a selected predetermined biological stain material; selecting one or more predetermined biological stain materials, wherein each of the selected predetermined biological stain materials has a predetermined optical response, and providing one or more of the selected predetermined biological stain materials to the said one or more discrete regions such that the said material is localised in the said region.

Abstract: Systems and methods for the insertion of graphics into stereoscopic live action 3D video using image models taking into account positional data from the stereoscopic camera rig.

Abstract: Techniques for processing a partial response channel are disclosed. A segment of the signal is matched to one or more of a set of signal patterns. The set of the signal patterns is changed for a subsequent segment of the signal.

Abstract: A method of forming an imaging calibration device for a biological material imaging system, the method comprises: providing one or more discrete regions upon or within a retaining member, each region for the receipt of a selected predetermined biological stain material; selecting one or more predetermined biological stain materials, wherein each of the selected predetermined biological stain materials has a predetermined optical response, and providing one or more of the selected predetermined biological stain materials to the said one or more discrete regions such that the said material is localised in the said region.

Abstract: Data storage and retrieval methods and apparatus are provided for facilitating data de-duplication for serial-access storage media such as tape. During data storage, input data is divided into a succession of chunks and, for each chunk, a corresponding data item is written to the storage media. The data item comprises the chunk data itself where it is the first occurrence of that data, and otherwise comprises a chunk-data identifier identifying that chunk of subject data. To facilitate reconstruction of the original data on read-back from the storage media a cache (50) is used together with a database (35R), stored on the media, that includes for each duplicated chunk, the location of the corresponding chunk of subject data.

Abstract: A method is provided of forming a micro-channel structure for use in a biosensing device. A master structure is provided having a first configuration of micro-channels with respective first fluid flow characteristics. One or more regions of material are deposited onto the master structure using a fluidjet process so as to modify the first configuration into a second configuration having respective second fluid flow characteristics, different from the first. Functional biosensing devices formed using the method are also described.

Abstract: Data storage and retrieval methods and apparatus are provided for facilitating data de-duplication for serial-access storage media such as tape. During data storage, input data is divided into a succession of chunks and, for each chunk, a corresponding data item is written to the storage media. The data item comprises the chunk data itself where it is the first occurrence of that data, and otherwise comprises a chunk-data identifier identifying that chunk of subject data. To facilitate reconstruction of the original data on read-back from the storage media a cache (50) is used together with a database (35R), stored on the media, that includes for each duplicated chunk, the location of the corresponding chunk of subject data.

Abstract: Systems and methods for the insertion of graphics into stereoscopic live action 3D video using image models taking into account positional data from the stereoscopic camera rig.

Abstract: A method of treating a stiffened blood vessel (2) is disclosed. The method comprises at least substantially encasing a portion of the blood vessel (2) with an elastic membrane (6) formed of biocompatible material such the membrane (6) engages the blood vessel (2) to thereby reduce the diameter of the blood vessel (2).

Abstract: An optical communication interface for insertion into an optical network is capable of automatically recovering an embedded clock from a received optical signal across multiple communication standards. An optical receiver receives an optical signal and converts it into an electrical signal having the embedded clock. A frequency selector controller automatically selects between at least two reference frequencies from different optical communication standards to provide to a clock data recovery block for use in recovering the embedded clock.

Abstract: A connector for connecting first and second electronic devices together. The first electronic device has a light emitting device to indicate a status, and the connector body forms a light pipe to guide light from the light emitting device to outside of the connector body so that the guided light can be viewed outside of the connector to thereby determine the status of the connection.

Abstract: A training device for measuring the impact of an athlete on the training device is provided. The training device comprises a striker module, a display module and a communication system. The striker module comprises a front, a back, and a detector. The front comprises a flexible material, and is connected to the back to define a space. The detector comprises at least two components, one mounted on the front and the other on the back, such that upon flexing of the front, the components approach one another. The communication system sends information from the detector to the display module. A method of assessing an athlete's impact is also provided.

Abstract: An integrated stimp-putt meter for use with a golf ball, putter and distance measure, for assessing golf ball speed along a given path is provided. The stimp-putt meter comprises: at least two transmitter/receiver pairs, for transmission and reception of an electromagnetic beam; a microcontroller in electronic communication with the transmitter/receiver pairs; a display in electronic communication with the microcontroller; and a housing. The transmitter/receiver pairs are located along a given path, and the transmitter and receiver of each pair are separated by a predetermined distance sufficient for a golf ball to pass through and positioned such that each beam is interrupted by the passage of a golf ball.

Abstract: An apparatus to actively monitor a network having a plurality of twisted-pair communication links. The apparatus includes a plurality of amplifiers corresponding, respectively, to the plurality of twisted-pair communication links, each amplifier having a sufficiently high input impedance and common-mode voltage tolerance to non-intrusively copy a data signal transmitted through a corresponding twisted-pair communication link and amplify the copied data signal. The apparatus further includes a plurality of isolation transformers corresponding, respectively, to the plurality of amplifiers, each isolation transformer receiving the amplified, copied data signal from the corresponding amplifier, and outputting a transformed data signal, and a connector receiving the transformed data signals from the plurality of isolation transformers in a pin order corresponding to the plurality of twisted-pair communication links.

Abstract: A data read system comprising a read channel for processing a signal, and a diagnostic controller in communication with the read channel. The diagnostic controller is configured to measure at least one metric of the read channel during processing of a signal containing unknown data. The measured metric is then compared against a stored nominal metric and a warning is generated in response to a result of the comparison. In particular, the warning is generated only if the difference between the measured metric and the stored nominal metric exceeds a threshold.