Abstract: A system and method that facilitates multiple systems of communicating devices, i.e., a master device and one or more implantable slave devices, to coexist on a common, e.g., RF, communication channel having a limited temporal bandwidth while maintaining the required update rate between each master device and its associated slave devices. In embodiments of the present invention, master devices periodically transmit one or more beacon messages that are suitable for identification by other such master devices at a communication range greater than the communication range that may cause interference between systems and thus enabling one or more systems to cause the position of its frame periods to be interleaved with the frame periods of other such systems in anticipation of systems moving in closer proximity and actually interfering with each other.

Abstract: Techniques are generally described for low average power communications that can be used for communications between one or more bionic implants and/or one or more control units. Bionic implants and/or control units can be adapted to provide stimulus control and/or sensory or other feedback back from the bionic implants. An example system may include implant devices configured to exchange brief messages between other devices. Some examples may rely on coarse message timing that can be derived from a quartz tuning fork type of resonator. Carrier frequency control can be derived from an on-chip MEMS resonator adapted for high frequency use. An electrical stimulation power supply in each implant can be configured for use in nerve/muscle excitation and/or as a polarizing voltage source for the MEMS resonator. Various compensation mechanisms are described that can be used to compensate for the imprecise and/or temperature dependent frequency in the MEMS resonator.

Abstract: The present disclosure relates to location and communication systems that can be utilized for locating people, pets and other objects with a software defined radio set. A personal electronic device (PED) such as a cellular telephone, personal data assistant (PDA) or other device that include a software defined radio set can be configured for operation as a locator device. The PED transmits a signal A transponder or micro-transponder (MT) that is tagged to an object is arranged to reply to a transmission received from the PED. The PED based locator is arranged to calculate a distance between the PED and the MT using the time-of-flight (TOF) between the transmission and the receipt of a reply. The absolute geographic position of the PED can be determined using satellite navigation information, while the position of the MT relative to the PED can be determined from the TOF information.

Abstract: The present disclosure relates to location and communication systems that can be utilized for locating cargo containers using tags with a radio communication subsystem in the form of a transponder or micro-transponder. Each cargo container tag (CCT) is capable of communicating with either other cargo container tags or a base-station (BS) locator devices. The tags can be arranged for tracking the opening and closing of doors on individual cargo containers using radio communication methods. Lost cargo container can be located using communications from a base station and the cargo container tags. CCT devices can also detect intrusions and/or tampering with cargo containers, and store a variety of collected data for later retrieval.

Abstract: A transmission sequence is broadcast from a locator to a group of transponder devices. Each transponder identified with the group is arranged to receive and capture at least a portion of the transmission, correlate the captured information with an internally stored reference sequence for the identified group, and identify a correlation when the captured information correlates with the internally stored reference sequence. Each transponder that finds a correlation is arranged to broadcast a transmission reply sequence at a precisely determined time interval so that the transponders in a group transmit at different times. A series of locators receive the transmission reply sequence(s), each at a precisely logged time of arrival, and the locators forward the received results to a central processing unit for time synchronization, location tracking, and inventory logging.

Abstract: The present disclosure relates to location and communication systems that can be utilized for locating people, pets and other objects with a software defined radio set. A personal electronic device (PED) such as a cellular telephone, personal data assistant (PDA) or other device that include a software defined radio set can be configured for operation as a locator device. The PED transmits a signal A transponder or micro-transponder (MT) that is tagged to an object is arranged to reply to a transmission received from the PED. The PED based locator is arranged to calculate a distance between the PED and the MT using the time-of-flight (TOF) between the transmission and the receipt of a reply. The absolute geographic position of the PED can be determined using satellite navigation information, while the position of the MT relative to the PED can be determined from the TOF information.

Abstract: A transmission sequence is broadcast from a locator to a group of transponder devices. Each transponder identified with the group is arranged to receive and capture at least a portion of the transmission, correlate the captured information with an internally stored reference sequence for the identified group, and identify a correlation when the captured information correlates with the internally stored reference sequence. Each transponder that finds a correlation is arranged to broadcast a transmission reply sequence at a precisely determined time interval so that the transponders in a group transmit at different times. A series of locators receive the transmission reply sequence(s), each at a precisely logged time of arrival, and the locators forward the received results to a central processing unit for time synchronization, location tracking, and inventory logging.

Abstract: Communication techniques are described that can improve signal reception from an implanted wireless device to a main control unit (MCU) while in the presence of a narrowband interferer. The implanted wireless device can be any appropriate device such as a microtransponder, microstimulator, a sensor device or a drug delivery device. The MCU captures samples of signals emanating from the wireless device during an expected transmission time interval. The captured samples are evaluated and transformed into a series of spectral terms that are then evaluated to identify narrowband interference signals. The identified narrowband interference terms can be initialized to a null value to remove the signal spectrum resulting from the communication, and an inverse transformation can be used to generate a time domain signal that is free from interference. Overlapping windows and other signal processing techniques can also be applied to improve overall communications.

Abstract: Electrical power can be generated from impact based energy, such as from a golf ball being struck by a golf club. One or more piezo-electric devices, which are embedded in the core of the golf ball, are stressed by the impact and generate energy. Each piezo-electric device generates energy when stressed, which is then rectified and stored in a capacitor circuit. The stored energy in the capacitor circuit is used to power a transmitter to emit energy via an antenna, including all necessary electronics such as an oscillator, a modulator, and various control and logic circuits. The transmitted signals can be received by a hand held locator device. The described impact generated energy powers the transmitter a sufficiently long amount of time for the golfer to locate the golf ball. The impact based energy generation can also be used for other non-golf applications.

Abstract: A hand-held remote locator (RL) device is used to locate a transponder or micro-transponder (MT). The user activates the RL to transmit a multi-frame ping to the MT in a slow ping mode, where the MT transmits reply messages when the multi-frame ping is received The RL calculates a distance between the RL and the MT using the time-of-flight (TOF) between the transmission of a ping and the receipt of a reply. The user can then engage a fast ping mode, where the RL transmits the multi-frame ping at an increased rate. The user then extends the RL device away from their body and turns through at least a partial arc length about their center line such that data is collected including compass readings, Doppler information, and distance calculations. The directional location for the MT is determined by the RL using the collected data.

Abstract: An apparatus, system and method can be arranged for coding and/or decoding with a phase invariant coding scheme that is useful for short burst signaling devices. 10-bit data is mapped into a 12-bit data with a non-coherent burst code mapper. A parity generator creates a 12-bit parity data to form a 24-bit extended binary Golay code from the 12-bit data. The values for selected bit fields in the 12-bit data and 12-bit parity data are swapped to generate I and Q data such that sensitivity to changes in rotational phase is removed. I and Q data can be used by a transmitter to transmit a rotationally-invariant signal. On receipt, I and Q signals can be recovered, reverse swapped to generate the parity and data signals, and remapped to recover the transmitted 10-bit data. The receiver can also be arranged to use a soft decoding method for improved signal integrity.

Abstract: A wireless implantable device for communicating with a remote unit, wherein the wireless device is capable of self-initializing, namely initial booting without requiring an external general booting program to force the booting process. The implantable device can download program instructions from the remote unit for the operation of the implantable device. Moreover, the implantable device provides for checking the validity and integrity of any program instructions received from the remote unit for the operation of the implantable device. The implantable device has power-saving capability in order to extend the operation of the implantable device between battery charges.

Abstract: FM-based emergency alert systems and methods are very reliable, intrude only minimally on program material, leave battery life unchanged, and do not add to the cost of embedding FM reception in portable electronic devices such as cellular handsets. For compatibility with intermittently operating, low-energy-consumption FM receivers in cell phones, an alerting signal spanning at least the wake-up period of the FM receiver is transmitted prior to data transmission. The receiver may wake up at a rate of a few tenths of a hertz to a few hertz. Various modulation schemes may be used for the transmitted signal. After a sufficient amount of incoming signal is detected, an alarm or data relating to an emergency situation may be received. A plurality of transmitters may be used to transmit the signal redundantly.

Abstract: A transmission sequence is broadcast from a locator to a group of transponder devices. Each transponder identified with the group is arranged to receive and capture at least a portion of the transmission, correlate the captured information with an internally stored reference sequence for the identified group, and identify a correlation when the captured information correlates with the internally stored reference sequence. Each transponder that finds a correlation is arranged to broadcast a transmission reply sequence at a precisely determined time interval so that the transponders in a group transmit at different times. A series of locators receive the transmission reply sequence(s), each at a precisely logged time of arrival, and the locators forward the received results to a central processing unit for time synchronization, location tracking, and inventory logging.

Abstract: Described is a communication system including mobile communication devices. In the described system, the mobile devices may be wrist-worn watches such as are in common use today, except that the watches are specially configured to receive data in a “broadcast” mode and transmit and/or receive data in a “localcast” mode. The localcast mode includes the ability to transmit and receive data in a peer-to-peer fashion, allowing mobile devices to communicate directly with each other. The ability to combine two of these communication modes in a small, integrated and hence inexpensive and low-power package provides many advantages over existing personal communication device solutions.

Abstract: Communication between a remote locator and a transponder is used to determine the relative position of the transponder. The transponder and locator each include a transmitter and a receiver. The locator transmits an inquiry in the form of a relatively powerful cyclically encoded signal with repetitive elements, uniquely associated with a target transponder. Periodically, each transponder correlates its coded ID against a possible inquiry signal, determining frequency, phase and framing in the process. Upon a match, the transponder transmits a synthesized response coherent with the received signal. The locator integrates multiple cyclical response elements, allowing low-power transmissions from the transponder. The locator correlates the integrated response, determines round-trip Doppler shift, time-of-flight, and then computes the distance and angle to the transponder. The transponder can be wearable, bionically implanted, or attached to, or embedded in, some object.

Abstract: A system, method and apparatus are described for digitally synthesizing a signal for FM transmission. A complex variable frequency digital IF signal is generated for use by a digital modulator in transmission of a signal with an integrated circuit. In some examples, the integrated circuit includes various baseband processing blocks, an up-sampler, a summer, a numerically controlled oscillator (NCO) and a complex rotator, all arranged in cooperation with one another. The complex variable frequency digital IF signal can be used by a digital quadrature modulator for generation of the synthesized analog RF transmission signal, and optionally for use with an orthogonal frequency division multiplexing (OFDM) scheme.

Abstract: The location of a transponder or micro-transponder (MT) device can be determined relative to a remote locator (RL) device. The RL transmits a multi-frame ping to the MT when initiated by a user. The MT receives the multi-frame ping, and transmits a multi-frame reply that can be hollowed out to conserve transmit power and reduce interference between devices. The RL calculates a distance between the RL and the MT using the time-of-flight (TOF) between the transmission of a ping and the receipt of a reply. The user designates one or more threshold ranges for the MT relative to the RL. The RL provides a user alert whenever the MT travels outside a threshold range. Alerts can be provided through a number of mechanisms including an audible alert, a visible alert, a vibrating alert, an email message, an SMS message, an instant message, a pager message, a telephone call, etc.

Abstract: Described is a communication system including mobile communication devices. In the described system, the mobile devices may be wrist-worn watches such as are in common use today, except that the watches are specially configured to receive data in a “broadcast” mode and transmit and/or receive data in a “localcast” mode. The localcast mode includes the ability to transmit and receive data in a peer-to-peer fashion, allowing mobile devices to communicate directly with each other. The ability to combine two of these communication modes in a small, integrated and hence inexpensive and low-power package provides many advantages over existing personal communication device solutions.

Abstract: Described is a communication system including mobile communication devices. In the described system, the mobile devices may be wrist-worn watches such as are in common use today, except that the watches are specially configured to receive data in a “broadcast” mode and transmit and/or receive data in a “localcast” mode. The localcast mode includes the ability to transmit and receive data in a peer-to-peer fashion, allowing mobile devices to communicate directly with each other. The ability to combine two of these communication modes in a small, integrated and hence inexpensive and low-power package provides many advantages over existing personal communication device solutions.