Abstract: A neuromodulation therapy is delivered via at least one electrode implanted subcutaneously and superficially to a fascia layer superficial to a nerve of a patient. In one example, an implantable medical device is deployed along a superficial surface of a deep fascia tissue layer superficial to a nerve of a patient. Electrical stimulation energy is delivered to the nerve through the deep fascia tissue layer via implantable medical device electrodes.

Abstract: A neuromodulation therapy is delivered via at least one electrode implanted subcutaneously and superficially to a fascia layer superficial to a nerve of a patient. In one example, an implantable medical device is deployed along a superficial surface of a deep fascia tissue layer superficial to a nerve of a patient. Electrical stimulation energy is delivered to the nerve through the deep fascia tissue layer via implantable medical device electrodes.

Abstract: A system and method are disclosed for establishing hierarchal subcomponent sensor communication for a vehicle. A database includes information associated with a plurality of subcomponents having a sensor. A software modeling tool implements a safety model and a fault detection and isolation (FDI) model. The safety model determines a probability of a constraint being violated given a probability of failure of each subcomponent. The FDI model determines a probability associated with a risk exposure for known and unknown faults for each subcomponent. A processor identifies those subcomponent sensors that reduce risk-exposure based on probabilities generated using the safety model and FDI model and generates an output of a set of vehicle subcomponent sensors for connection to an vehicle communication system for communication at a higher level of hierarchy, such that the vehicle communication system can receive information indicative of a subcomponent fault and generate an alert about the fault.

Abstract: A method of defining policies for controlling access to resources of a system. Authorization requirements for the system are modeled to obtain a model expressing each of a plurality of access control policies as a constraint. From the model is generated a single policy set in an authorization markup language that captures the requirements. This method can be used to define role-based access control policies in a format that can be adapted for input to a variety of access control mechanisms. This generative approach to access control design allows maintenance to be performed at the requirements level.