Abstract: Disclosed herein are methods, apparatus and computer program products for use in manufacturing an anatomical protective item for one or more users. Embodiments of anatomical protective items may comprise a single layer of energy controlling cells. Input data associated with one or more users is obtained. The obtained input data is processed to identify one or more energy controlling criteria for the anatomical protective item. A packing process is employed to generate each energy controlling cell in the single layer. Each energy controlling cell comprises one or more walls which extend from an upper surface of the single layer to a lower surface of the single layer. The packing process is performed at least on the basis of the identified one or more energy controlling criteria. The anatomical protective item comprising the single layer of energy controlling cells is manufactured.

Abstract: An Adaptive Tangible User Interface (ATUI) for use in an extended reality environment in which tangible interfaces are composed in real time based on identified affordances of existing objects in the physical environment and the input tasks of a user. An extended reality system can be provided with instructions executable by one or more processors to perform processing including: generating a representation of the real-world environment within a field of view of the user; identifying physical objects within the real-world environment; generating a set of possible performable gestures afforded by available object affordance factors; determining potential input tasks; composing performable gestures for the potential input tasks; and selecting a physical object for use as an adaptive tangible user interface. Techniques for designing a virtual user interface, overlaying the virtual user interface on a selected ATUI physical object, and maintaining alignment of the virtual user interface, are also provided.

Abstract: Disclosed herein are integrated circuit (IC) supports with microstrips, and related embodiments. For example, an IC support may include a plurality of microstrips and a plurality of conductive segments. Individual ones of the conductive segments may be at least partially over at least two microstrips, a dielectric material may be between the plurality of microstrips and the plurality of conductive segments, and an individual conductive segment may have a conductivity that is close to or less than a conductivity of a conductive line of an individual microstrip.

Abstract: An apparatus for transporting an animal is provided. The apparatus includes a body having a plurality of panels that are operative to transition between a closed position and an open position. In the closed position, the panels define a cavity that is configured to contain an animal. In the open position, the panels define a bed mat.

Abstract: An apparatus for transporting an animal is provided. The apparatus includes a body having a plurality of panels that are operative to transition between a closed position and an open position. In the closed position, the panels define a cavity that is configured to contain an animal. In the open position, the panels define a bed mat.

Abstract: Techniques for systems and methods for remotely monitoring a patient are provided. The system comprises a plurality of input sources operable to acquire patient-specific information corresponding to a condition of a patient. A patient-centric threshold is computed based on relevant environmental, cultural, societal, religion, and economic data for evaluation of the acquired physiological parameters. Risk stratification is performed to determine the risk level of the patient based on the patient-centric threshold, and a recommendation is generated. The recommendation includes a treatment/care plan that can consist of prescriptions and patient education tailored to the risk stratification and patient-specific information.

Abstract: Techniques for systems and methods for remotely monitoring a patient are provided. The system comprises a plurality of input sources operable to acquire patient-specific information corresponding to a condition of a patient. A patient-centric threshold is computed based on relevant environmental, cultural, societal, religion, and economic data for evaluation of the acquired physiological parameters. Risk stratification is performed to determine the risk level of the patient based on the patient-centric threshold, and a recommendation is generated. The recommendation includes a treatment/care plan that can consist of prescriptions and patient education tailored to the risk stratification and patient-specific information.

Abstract: A computerized method for online brokering of multiple leasing products from multiple providers is provided. The method includes determining the creditworthiness of a Buyer, and determining whether or not to offer a lease, based on the specific criteria provided by multiple credit providers.

Abstract: In a cable television system a system for supporting SCU return in FTTB-MDU and FTTC/FTTcab configurations. Fiber, baseband transceiver and networking capabilities are shared with data and voice portions of the system for enabling communication from the SCUs to the HE over a packet based networking system. Return packets/upstream packets are passed into the network upstream channel only when a signal is present for eliminating transmission of upstream traffic that contains no signal for conserving upstream bandwidth.

Abstract: Methods, apparatuses and computer programs for protecting a network against forged messages, or impersonation attacks, which do not require the use cryptography. One or more nodes on the network are configured to detect a forged message and to output an indication that a forged message has been detected. Nodes that receive an indication that a forged message has been detected may then take certain actions, such as, for example, discontinuing use of the protocol associated with the forged message for a period of time.

Abstract: A method and apparatus (500) for operating a node within an ad-hoc communication system (100) is provided herein. A single-radio relay node (500) is used to link overlapping piconets operating on different radio channels. All nodes (203-208) within the ad-hoc communication system (100) operate on multiple channels, which differ for each associated piconet (201, 202). When relaying data between piconets, a node's transceiver (505) will be receiving data during a first time period on a first channel (the data transmitted from a first node existing in a first piconet). During a second time period, the transceiver (505) will relay the data over a second channel to a second node existing in a second piconet.

Abstract: In a cable television system a system for supporting SCU return in FTTB-MDU and FTTC/FTTcab configurations. Fiber, baseband transceiver and networking capabilities are shared with data and voice portions of the system for enabling communication from the SCUs to the HE over a packet based networking system. Return packets/upstream packets are passed into the network upstream channel only when a signal is present for eliminating transmission of upstream traffic that contains no signal for conserving upstream bandwidth.