Abstract: An apparatus for neutralizing an explosive comprises a housing including at least one relief groove along an outer portion of the housing, and an inner chamber. The inner chamber includes a first hollow section and a second hollow section. The cross-sectional area of the second hollow section is smaller than the cross-sectional area of the first hollow section. A forward section of the housing is adapted to receive a first nose member and a rear section of the housing is adapted to receive a removable fin set.

Abstract: Systems, methods, and devices providing for improved safety for an Intravascular Implantable Device (IID) are described herein. The IID includes a dislodgement detector that may include at least one accelerometer device and/or one or more microphones. In various embodiments, the accelerometer device is adapted to sense various forces or motions such that a dislodgement event may be detected. In one embodiment, the detector is adapted to sense movement of the IID through the vascular system as a result of dislodgement. In another embodiment, the detector is adapted to detect and compare accelerations caused by the force of gravity to determine a dislodgement event. In various embodiments, the detector includes a multi-axis accelerometer. In one such embodiment, the detector is adapted to detect an orientation of the IID in order to determine a dislodgement event.

Abstract: A homeostatic flying hovercraft preferably utilizes at least two pairs of counter-rotating ducted fans to generate lift like a hovercraft and utilizes a homeostatic hover control system to create a flying craft that is easily controlled. The homeostatic hover control system provides true homeostasis of the craft with a true fly-by-wire flight control and control-by-wire system control.

Abstract: A homeostatic flying hovercraft preferably utilizes at least two pairs of counter-rotating ducted fans to generate lift like a hovercraft and utilizes a homeostatic hover control system to create a flying craft that is easily controlled. The homeostatic hover control system provides true homeostasis of the craft with a true fly-by-wire flight control and control-by-wire system control.

Abstract: A baroreflex therapy system for providing intraoperative patient treatment. The system comprises an internal activation device adapted to be inserted into the throat area of a patient, an external activation device adapted to be located on the outside of a body of a patient such that an anatomical structure within the patient capable of creating a baroreflex response is located between the internal activation device and the external activation device, and an external controller, including a pulse generator operably connected to the internal activation device and the external activation device to deliver baroreflex therapy between the internal activation device and the external activation device.

Abstract: A homeostatic flying hovercraft preferably utilizes at least two pairs of counter-rotating ducted fans to generate lift like a hovercraft and utilizes a homeostatic hover control system to create a flying craft that is easily controlled. The homeostatic hover control system provides true homeostasis of the craft with a true fly-by-wire flight control and control-by-wire system control.

Abstract: A system for accessing, by a resource, a setting in a virtualized user profile includes an isolation environment, a resource, and a filter driver. The resource executes outside an isolation environment on a local machine and requests access to a setting in a user profile. The filter driver intercepts the request for access and identifies one of the isolation environment and a remote machine, responsive to an application of a rule to the request. The filter driver redirects the request to the one of the isolation environment and the remote machine. A method includes intercepting an instruction from a resource to modify a setting on a local machine, the resource provided by a local machine and executing outside of an isolation environment. The method includes identifying the isolation environment, responsive to an application of a rule to the instruction. The method includes redirecting the instruction to the isolation environment.

Abstract: A method and device for delivering and monitoring baroreflex and drug therapy to manage hypertension. The method includes providing an implanted an implanted medical device configured to automatically detect drug-related effects on the autonomic nervous system including the steps of measuring a physiologic status of the autonomic nervous system at desired intervals, logging the physiologic status of the autonomic nervous system at desired intervals, monitoring the measured and logged physiologic status of the autonomic nervous system for any changes and correlating the changes to a corresponding drug administration time. The device includes an implanted baroreflex activation device capable of administering one or more hypertension treatment drugs including a controller that activates and adjusts therapy delivery, a baroreflex activation therapy delivery device, a drug therapy delivery device and a device that senses physiologic parameters.

Abstract: A method of operating a baroreflex therapy system includes providing an implantable baroreflex activation device, providing a sensing arrangement, and providing a controller in operable communication with the baroreflex activation device and the sensing arrangement. The sensing arrangement is used to measure cardiac electrical activity of a patient to generate cardiac electrical activity data. The cardiac electrical activity data is communicated to the controller, wherein the controller performs heart rate variability analysis based on the cardiac electrical activity data. An indication of results of the heart rate variability analysis are provided, upon which a determination may be made to adjust a baroreflex therapy to be delivered by the implantable baroreflex activation device.

Abstract: A method of operating a baroreflex therapy system includes providing an implantable baroreflex activation device, providing a sensing arrangement, and providing a controller in operable communication with the baroreflex activation device and the sensing arrangement. The sensing arrangement is used to measure a physical parameter of a patient to generate physical parameter data. The physical parameter data is communicated to the controller, wherein the controller performs heart rate variability analysis based on the physical parameter data. An indication of results of the heart rate variability analysis are provided, upon which a determination may be made to adjust a baroreflex therapy to be delivered by the implantable baroreflex activation device.

Abstract: A lockout connector arrangement for implantable medical devices having at least one port for receiving a non-cardiac lead connector selectively permits only certain electrical leads to be connected to the implantable medical device. A lead connector pin of a non-cardiac lead connector is specially designed to be larger than a DF-1 lead connector pin, but smaller than an IS-1 lead connector pin. A corresponding header of implantable pulse generator has a connector port for a non-cardiac lead with a proximal-most portion that is larger than the DF-1 lead connector pin, but smaller than the IS-1 lead connector pin; and otherwise generally consistent with the other dimensions of an ISO standard IS-1 pacemaker lead connector.

Abstract: A breakaway device for use in a meter-pit environment that protects the connections between components of an AMR system. The AMR system includes a cable operably connected to a utility meter, an AMR device, and an RF antenna. The breakaway device acts prevents overstress on system components and connections when force is applied to the cable connecting these components.

Abstract: Methods and apparatus that employ a coil-less magnetoelectric flux switch arrangement to repeatedly switch magnetic flux from at least one permanent magnet for the purposes of generating motive force and/or electrical energy.

Abstract: A homeostatic flying hovercraft preferably utilizes at least two pairs of counter-rotating ducted fans to generate lift like a hovercraft and utilizes a homeostatic hover control system to create a flying craft that is easily controlled. The homeostatic hover control system provides true homeostasis of the craft with a true fly-by-wire flight control and control-by-wire system control.

Abstract: Methods and apparatus that employ a coil-less magnetoelectric flux switch arrangement to repeatedly switch magnetic flux from at least one permanent magnet for the purposes of generating motive force and/or electrical energy.

Abstract: A lockout connector arrangement for implantable medical devices having at least one port for receiving a non-cardiac lead connector selectively permits only certain electrical leads to be connected to the implantable medical device. A lead connector pin of a non-cardiac lead connector is specially designed to be larger than a DF-1 lead connector pin, but smaller than an IS-1 lead connector pin. A corresponding header of implantable pulse generator has a connector port for a non-cardiac lead with a proximal-most portion that is larger than the DF-1 lead connector pin, but smaller than the IS-1 lead connector pin; and otherwise generally consistent with the other dimensions of an ISO standard IS-1 pacemaker lead connector.