Abstract: A cellular radio architecture that includes a programmable bandpass sampling radio frequency front-end and an optimized digital baseband. The architecture includes a multiplexer having signal paths that include a bandpass filter that passes a different frequency band than the other bandpass filters and a circulator that provides signal isolation between the transmit signals and the receive signals. The architecture also includes a receiver module having a separate signal channel for each of the signal paths in the multiplexer, where each signal channel in the receiver module includes a receiver delta-sigma modulator that converts analog receive signals to a representative digital signal. The architecture further includes a transmitter module having a transmitter delta-sigma modulator for converting digital data bits to analog transmit signals, where the transmitter module includes a power amplifier and a switch for directing the transmit signals to one of the signal paths in the multiplexer.

Abstract: A cellular radio architecture that includes a programmable bandpass sampling radio frequency front-end and an optimized digital baseband. The architecture includes a receiver module having a plurality of signal channels for different frequency bands, where each signal channel in the receiver module includes a receiver delta-sigma modulator that converts analog receive signals to a representative digital signal. The architecture also includes a transmitter module having a transmitter delta-sigma modulator for converting digital data bits to analog transmit signals, where the transmitter module includes a power amplifier and a switch for directing the transmit signals to one of the signal paths. The architecture also includes a dual self-cancellation circuit providing digital and analog cancellation of the transmit signal in the receiver module.

Abstract: A back end-circuit for randomized non uniform and alias-free subsampling, comprising: an analog-to-digital converter (ADC) configured for sampling an input signal at random non uniform times; a compressive sensing processor, coupled to the ADC, to recover a sparse spectral representation of the input signal; and a Fourier transformer for converting the sparse spectral representation to a time sampled representation of the input signal.

Abstract: A controllable opto-electronic time stretcher comprising a first wave guide and a second waveguide coupled to the first waveguide along a coupling portion; wherein at least one of the first and second waveguides in the coupling portion has a controllable refractive index.

Abstract: A cellular radio architecture for a vehicle that includes a triplexer coupled to an antenna structure and including three signal paths, where each signal path includes a bandpass filter that passes a different frequency band than the other bandpass filters and a circulator that provides signal isolation between the transmit signals and the receive signals. The architecture also includes a receiver module having a separate signal channel for each of the signal paths in the triplexer, where each signal channel in the receiver module includes a receiver delta-sigma modulator that converts analog receive signals to a representative digital signal. The delta-sigma modulator includes an LC filter having a plurality of LC resonator circuits, a plurality of transconductance amplifiers and a plurality of integrator circuits, where a combination of one resonator circuit, transconductance amplifier and integrator circuit represents a two-order stage of the LC filter.

Abstract: A cellular radio architecture for a vehicle that includes a programmable bandpass sampling radio frequency front-end and an optimized digital baseband. The architecture includes a triplexer having signal paths that include a bandpass filter that passes a different frequency band than the other bandpass filters and a circulator that provides signal isolation between the transmit signals and the receive signals. The architecture also includes a receiver module having a separate signal channel for each of the signal paths in the triplexer, where each signal channel in the receiver module includes a receiver delta-sigma modulator that converts analog receive signals to a representative digital signal. The architecture further includes a transmitter module having a transmitter delta-sigma modulator for converting digital data bits to analog transmit signals, where the transmitter module includes a power amplifier and a switch for directing the transmit signals to one of the signal paths in the triplexer.

Abstract: A method for reducing power consumption in a transceiver front-end circuit for a cellular radio. The transceiver circuit includes a receiver module having a delta-sigma modulator that converts analog receive signals to a representative digital signal in an interleaving process, where the delta-sigma modulator includes a combiner, a low noise amplifier (LNA), an LC filter and a quantizer circuit. The LC filter is a multi-order filter and the quantizer circuit is an interleaving quantizer circuit that interleaves multiple groups of bits from the filter. The method includes selectively reducing the order of the LC filter in situations where a full dynamic range of the cellular radio is not required and reducing a bit resolution of the quantizer circuit so as to reduce the power requirements of the cellular radio.

Abstract: A cellular radio architecture for a vehicle that includes a receiver module having a receiver delta-sigma modulator that converts analog receive signals to a representative digital signal. The architecture further includes a transmitter module having a transmitter delta-sigma modulator for converting digital data bits to analog transmit signals. Portions of the receiver and transmitter modules are fabricated with indium phosphide (InP) technologies and portions of the receiver and transmitter modules are fabricated with CMOS technologies.

Abstract: An RF transmitter module for a cellular radio that includes a delta-sigma modulator having a plurality of interleaving dynamic element matching (DEM) circuits providing interleaved digital bits at a reduced clock rate. An interleaver controller controls the DEM circuits so as to provide groups of the digital bits at different points in time. In one embodiment, a summation junction adds the groups of the digital bits to provide a continuous stream of the interleaved digital bits, a DAC converts the stream of interleaved digital bits to an analog signal, and a power amplifier amplifies the analog signal.

Abstract: A digital filter bank includes a first sample and hold unit, one or more second sample and hold units one or more quantizers and one or more polyphase component filters. In another aspect, a digital filter bank includes a first sample and hold unit, a discrete time commutator and one or more polyphase component filters. In another aspect, a method for digitally filtering a signal includes sampling an input signal at a first frequency, sampling and holding the first sampled signal at a second frequency, quantizing the one or more second sampled signals to output channelized signals, and filtering the one or more quantized signals and outputting one or more filtered signals using one or more polyphase component filters.

Abstract: Described is a method for accurately reconstructing analog signals. The present invention considers a general parameter estimation problem, extends the utility of compressive sensing to real scenarios, and is able to accurately estimate center frequencies and amplitudes. Specifically, an unknown continuous analog signal comprising a set of arbitrary frequencies and amplitudes is received. A set of non-uniform samples of the unknown continuous analog signal is then obtained at multiple times. Finally, an iterative reconstruction process is utilized to determine a set of frequencies and a set of amplitudes that best fit the set of non-uniform samples in a global minimum problem in order to accurately reconstruct the continuous analog signal.

Abstract: The present invention is a conductive isolator including a damping structure, a conductive bridge component positioned within the damping structure, axial contact points between the damping structure and the conductive bridge component and radial contact points between the damping structure and the conductive bridge component.

Abstract: A method is provided that determines a delay and phase of an ultra-wide band signal in a communication system using a single correlator. A pulse search is executed that includes correlating a signal template with a UWB signal and sampling a preamble of the UWB signal at various time positions until a pulse in the signal template matches a pulse in the preamble. A chip boundary at which the pulse in the preamble is detected is identified using the signal template. A code search is executed for determining the correct phase of the received signal. The code search utilizes a plurality of phases having a same time-hopping sequence as the received signal. Each pulse of the phases is positioned at the determined chip boundary within each respective chip pulse position. Chips pulse positions of the phases are compared with the chip pulse positions of the UWB signal for determining a phase match.

Abstract: The present invention provides a scalable and reliable collaborative multicast routing for multicasting in hybrid, multi-tiered, mobile heterogeneous wireless networks. It establishes a multicast tree, maintains the established route, detects and prevents most link breakage within the multicast tree by a neighboring node or the cooperation of the neighboring node, and enables merging of partitioned multicast trees of the same multicast group by nodes that participate in one of the partitioned multicast trees. The use of local nodes to collaboratively establish, maintain, recover, and merge the hybrid, multi-tiered mobile wireless networks that use heterogeneous set of mobile wireless nodes is the fundamental basis for the collaborative multicast routing scheme of the present invention.

Abstract: Communicating between a plurality of nodes includes sensing spectrum activity on at least one channel; generating spectrum awareness data based at least in part on the sensed spectrum activity; determining at least one selected bearer based on the spectrum awareness data; negotiating among nodes to select at least one bearer based on various spectral use criteria.

Abstract: A method is provided that determines a delay and phase of an ultra-wide band signal in a communication system using a single correlator. A pulse search is executed that includes correlating a signal template with a UWB signal and sampling a preamble of the UWB signal at various time positions until a pulse in the signal template matches a pulse in the preamble. A chip boundary at which the pulse in the preamble is detected is identified using the signal template. A code search is executed for determining the correct phase of the received signal. The code search utilizes a plurality of phases having a same time-hopping sequence as the received signal. Each pulse of the phases is positioned at the determined chip boundary within each respective chip pulse position. Chips pulse positions of the phases are compared with the chip pulse positions of the UWB signal for determining a phase match.

Abstract: A method, apparatus, and computer program product are presented for providing a measure of fault tolerance and security in the operation of cross layer communication agents (CCA) in a hybrid network. Specifically, this method, apparatus and computer program provide the detection and control necessary to prevent network disruptions due to failures, attacks, or link unavailability.

Abstract: The Monarch anchor is a nut & bolt system specially designed to be pushed through a hole wide enough to allow the bolt with collapsed wings fitted at its back end through, but not wide enough to let the bolt with stretched wings slip back. It is designed to be firmly placed on the wall with the front end of the outer nut locked at the front surface of the wall by a flange and the stretched wings locked at the back surface of the wall. Thus it can act as a firm support on the wall when an item is bolted through the inner nut of the anchor.

Abstract: The present invention relates to the field of code-switching in multi-hop wireless networks. More specifically, the present invention pertains to a method and apparatus that uses orthogonal codes as the forwarding labels in multi-hop forwarding. The processing of the forwarding labels is done at the physical layer. Advantages include reduced processing and energy to forward a packet; reduced latency; reduced bandwidth overhead; and increased security.

Abstract: The present invention provides a scalable and reliable collaborative multicast routing for multicasting in hybrid, multi-tiered, mobile heterogeneous wireless networks. It establishes a multicast tree, maintains the established route, detects and prevents most link breakage within the multicast tree by a neighboring node or the cooperation of the neighboring node, and enables merging of partitioned multicast trees of the same multicast group by nodes that participate in one of the partitioned multicast trees. The use of local nodes to collaboratively establish, maintain, recover, and merge the hybrid, multi-tiered mobile wireless networks that use heterogeneous set of mobile wireless nodes is the fundamental basis for the collaborative multicast routing scheme of the present invention.