Patent application number | Description | Published |
20090309747 | TONGUE OPERATED MAGNETIC SENSOR SYSTEMS AND METHODS - A method of tracking movement, position, or both of a tongue of a subject. The method includes positioning a tracer unit on the tongue of the subject in a non-obstructively manner; positioning a sensor system in proximity to the tongue carrying the tracer unit; calibrating the sensor system relative to the tracer unit; and detecting the position of the tracer unit. An assistive system/apparatus can track movement, position, or both of the tongue. The system/apparatus includes the tracer unit; the sensor system for detecting position of the tracer unit and adapted for non-obstructive placement proximal the sensor system; and a control system for transmitting to a processing system. | 12-17-2009 |
20100007512 | Tongue Operated Magnetic Sensor Based Wireless Assistive Technology - An assistive apparatus and method for remote control of an appliance by a subject are provided. The apparatus can comprise a tracer unit affixed to the tongue of the subject such that a change in position of the tongue changes position of the tracer; at least one sensor for detecting a position of the tracer unit; and a transmitter for transmitting a sensor signal to an appliance based on the detected position of the tracer unit, wherein the sensor signal effects control of the appliance. A method for tracking movement, position, or both of a tongue in a subject using the assistive apparatus is also provided. | 01-14-2010 |
20100106041 | SYSTEMS AND METHODS FOR MULTICHANNEL WIRELESS IMPLANTABLE NEURAL RECORDING - A system for transmitting bioelectrical signals. The system includes an implantable bioelectrical sensor for receiving at least one bioelectrical signal; an analog-to-time converter for converting the received bioelectrical signal from an analog domain to a time domain signal; and a radio frequency (RF) modulator for transmitting the time domain signal. The the analog-to-time converter and the RF modulator are implantable in a living being. | 04-29-2010 |
20100322859 | ORAL DRUG COMPLIANCE MONITORING USING MAGNETIC-FIELD SENSORS - A method to measure compliance with a pharmaceutical regimen, by the steps of: (a) ingesting a dose of a medication ( | 12-23-2010 |
20110074349 | SYSTEMS AND METHODS FOR PROVIDING WIRELESS POWER TO A PORTABLE UNIT - A wireless charging system for inductively charging and/or powering a device. The system includes a stationary base system and a moving subject. The stationary base system includes an array of primary coils that are adapted to generate a magnetic field, and a sensor system. The moving subject carries a device that includes a secondary coil that can be inductively charged and/or powered by the magnetic field emitted from the primary coil, and a magnet to be tracked by the sensor system. The moving subject can move in proximity to a surface of the stationary base system. The sensor system is adapted to communicate the location of the moving subject along the surface, wherein those coils closest to the moving subject may be activated. | 03-31-2011 |
20120294386 | Pulse Harmonic Modulation Systems And Methods - The various embodiments of the present disclosure relate generally to pulse harmonic modulation systems and methods. An embodiment of the present invention provides a pulse harmonic modulation method comprising transmitting a first data initiation pulse to an input of a first resonant circuit thereby creating an oscillating waveform at an output of a second resonant circuit and transmitting a first modifying pulse to the input of the first resonant circuit. The first modifying pulse can modify a first portion of the oscillating waveform. | 11-22-2012 |
20130090931 | MULTIMODAL COMMUNICATION SYSTEM - The present invention, in various embodiments, comprises systems and methods for providing a communication system. In one embodiment, the system is an assistive technology (AT) in a single, highly integrated, multimodal, multifunctional, multipurpose, minimally invasive, unobtrusive, wireless, wearable, easy to use, low cost, and reliable AT that can potentially provide people with severe disabilities with flexible and effective computer access and environmental control in various conditions. In one embodiment, a multimodal Tongue Drive System (mTDS) is disclosed that uses tongue motion as its primary input modality. Secondary input modalities including speech, head motion, and diaphragm control are added to the tongue motion as additional input channels to enhance the system speed, accuracy, robustness, and flexibility, which are expected to address many of the aforementioned issues with traditional ATs that have limited number of input channels/modalities and can only be used in certain conditions by a certain group of users. | 04-11-2013 |
20140140420 | Wideband Data And Power Transmission Using Pulse Delay Modulation - Certain implementations may include systems, methods, and apparatus for wirelessly transmitting data and power across inductive links using pulse delay modulation (PDM). According to an example implementation, a method is provided that includes generating a power carrier signal; generating a data waveform from a series of binary bits, the data waveform including a series of pulses in synchronization with the power carrier signal; transmitting, from one or more transmitting (Tx) coils of an inductive link, the power carrier signal and the data waveform; receiving, by one or more receiving (Rx) coils of the inductive link, an interference signal, the interference signal based at least in part on a superposition of the transmitted power carrier signal and the transmitted data waveform; determining zero crossings of the received interference signal; determining delays associated with the zero crossings; and determining the data packet based at least in part on the delays. | 05-22-2014 |
20140236017 | CMUT-ON-CMOS BASED GUIDEWIRE INTRAVASCULAR IMAGING - An intravascular guidewire with integrated imaging and pressure measurement capabilities is disclosed. The guidewire can comprise an integrated CMUT-on-CMOS ultrasound transducer array to provide 3D imaging of vasculature and other tissue. The guidewire can also comprise a conventional FFR pressure sensor or Doppler flow sensor. Due to the low power consumption of the chip, power can be provided via a single pair of wire pair proximate the core wire of the guidewire to provide power and ground to the chip. The system can also include a power wire, a ground wire, and a data wire, the data wire using similar data transmission techniques. Data from the sensor array can be transmitted over the power wire using, for example, RF or impedance modulation. Data can also be transmitted through the body using an ultra wideband wireless transmitter and flexible patch antenna on the skin. | 08-21-2014 |
20140273835 | ENHANCED INDUCTIVE POWER AND DATA TRANSMISSION USING HYPER RESONANCE - A method of wirelessly transmitting power or data is disclosed. The method may include the step of providing a transmitter including a driver coil and a first transmitter resonator coil. The driver coil may have a driver coil resonance frequency, and the first transmitter coil may have a first transmitter resonator coil resonance frequency. The method may further include the step of providing a receiver including a load coil having a load coil resonance frequency. Furthermore, the method may include tuning the first transmitter coil resonance frequency to be higher than both of the driver coil resonance frequency and the load coil resonance frequency. | 09-18-2014 |
20140342324 | Wireless Real-Time Tongue Tracking for Speech Impairment Diagnosis, Speech Therapy with Audiovisual Biofeedback, and Silent Speech Interfaces - A real-time wireless system for recording natural tongue movements in the 3D oral space. By attaching a small magnetic tracer to the tongue, either temporarily or semi-permanently, and placing an array of magnetic sensors around the mouth, the tracer can be localized with sub-millimeter precision. The system can also combine the tracer localization with acoustic, video, and flow data via additional sensors to form a comprehensive audiovisual biofeedback mechanism for diagnosing speech impairments and improving speech therapy. Additionally, the system can record tongue trajectories and create an indexed library of such traces. The indexed library can be used as a tongue tracking silent speech interface. The library can synthesize words, phrases, or execute commands tied to the individual patterns of magnetic field variations or tongue trajectories. | 11-20-2014 |