Abstract: The present invention provides a system for monitoring a vehicle transported cargo shipment, the vehicle and its operator to address or prevent potential mishaps and loss of the cargo, wherein the system uses the smart phone of the operator of the vehicle and an application in the smart phone, wherein the application is activated by a first wireless communicating device placed in the vehicle and wherein the first communicating device is wirelessly and constantly linked to a second wireless communicating device attached to the cargo as long as the cargo is in the vehicle, wherein the application in the smart phone generates dynamic data about the vehicle and about the constant virtual link between the first and second communicating devices; and wherein the application sends the dynamic data to at least one computer server by means of the internet of things.

Abstract: Described here is a deep brain stimulation (“DBS”) approach that targets several relevant nodes within brain circuitry, while monitoring multiple symptoms for efficacy. This approach to multi-symptom monitoring and stimulation therapy may be used as an extra stimulation setting in extant DBS devices, particularly those equipped for both stimulation and sensing. The therapeutic efficacy of DBS devices is extended by optimizing them for multiple symptoms (such as sleep disturbance in addition to movement disorders), thus increasing quality of life for patients.

Abstract: Described here is a deep brain stimulation (“DBS”) approach that targets several relevant nodes within brain circuitry, while monitoring multiple symptoms for efficacy. This approach to multi-symptom monitoring and stimulation therapy may be used as an extra stimulation setting in extant DBS devices, particularly those equipped for both stimulation and sensing. The therapeutic efficacy of DBS devices is extended by optimizing them for multiple symptoms (such as sleep disturbance in addition to movement disorders), thus increasing quality of life for patients.

Abstract: Disclosed are various embodiments that relates to executing a sequence of messaging nodes, where the messaging sequence is defined by user-defined local triggering conditional expressions for each messaging node, and supporting proper data organization and links that integrate individual message instances in a protocol flow.

Abstract: Described here is a deep brain stimulation (“DBS”) approach that targets several relevant nodes within brain circuitry, while monitoring multiple symptoms for efficacy. This approach to multi-symptom monitoring and stimulation therapy may be used as an extra stimulation setting in extant DBS devices, particularly those equipped for both stimulation and sensing. The therapeutic efficacy of DBS devices is extended by optimizing them for multiple symptoms (such as sleep disturbance in addition to movement disorders), thus increasing quality of life for patients.

Abstract: Described here is a deep brain stimulation (“DBS”) approach that targets several relevant nodes within brain circuitry, while monitoring multiple symptoms for efficacy. This approach to multi-symptom monitoring and stimulation therapy may be used as an extra stimulation setting in extant DBS devices, particularly those equipped for both stimulation and sensing. The therapeutic efficacy of DBS devices is extended by optimizing them for multiple symptoms (such as sleep disturbance in addition to movement disorders), thus increasing quality of life for patients.

Abstract: Disclosed are various embodiments that relates to executing a sequence of messaging nodes, where the messaging sequence is defined by user-defined local triggering conditional expressions for each messaging node, and supporting proper data organization and links that integrate individual message instances in a protocol flow.

Abstract: A PCM encoder which receives asynchronous serial data and incorporating the serial data and eight channels of analog data into a PCM data stream. The encoder includes a microprocessor which processes the serial data provided in eight bit digital words and the analog data which the microprocessor converts to twelve bit digital words. The encoder also has a programmable gate array which receives six bits of data during each transfer of data from the microprocessor to the gate array. The gate array for the PCM encoder also receives a Frame Sync, and then processes the data to provide a data stream containing NRZL data and Bi Phase data.

Abstract: A semiconductor component that receives incoming light includes an integrated circuit, a package and an optics unit. The optics unit may provide a pathway, either generally or selectively, for the incoming light to the photodetector circuitry of the integrated circuit and may modify the incoming light, as well. The optics unit may be either electrically active or passive. When active, the optics unit is coupled to the integrated circuit with a conductor. The optics unit may also include a liquid crystal device, a beamsplitter assembly, a lensing assembly or other filters, and/or apertures. The liquid crystal device can act as a shutter or a display and the optics unit may be a single module or a plurality of modules. The integrated circuit may also include shutter drive circuitry and image processing circuitry.

Abstract: The invention is an imaging device having a high fill factor. The high fill factor is achieved by constructing the light sensors in a vertical fashion in the imaging device. The control circuitry of the light sensor is then contained inside the integrated circuit chip, rather than taking up area that could otherwise be used for light collection. The majority of the area on the surface of the IC chip is made up of light sensing elements, since the control circuitry is embedded in the IC chip. The control circuitry is connected to the light sensing devices through vias in the IC chip. The control circuitry of the chip is mainly contained within the die, rather than on it.

Abstract: A camera system employs an electronic imager such as a Charged Couple Device (CCD) or a Complementary Metal Oxide Semiconductor (CMOS) array that captures a first portion of light and reflects a second portion of light reflected from a target subject. The light reflected by the electronic imager may be reflected towards film media or a color filter, for example. The electronic imager may include an integrated circuit, or a dielectric reflecting coating that acts to partially reflect incoming light reflected from the target subject. A display, such as an LCD (Liquid Crystal Display), may be utilized to determine which images are desirable or to identify which films to develop. Film writing circuitry that allows various types of information to be written may be utilized. The camera system further features an electronic imager shutter, and a film shutter for shuttering purposes. The film shutter can provide exposure control.