Class / Patent application number | Description | Number of patent applications / Date published |
375136000 | Receiver | 55 |
20080219325 | MMSE MUD IN 1x MOBILES - Systems and methodologies are described that facilitate equalizing inter-sector interference and performing interference cancellation on a forward link by utilizing a combination of pilot interference cancellation followed by selective interference cancellation. Selective interference cancellation can be performed using, for instance, a reduced-rank minimum mean-squared error multi-user detection receiver. A system matrix can be reduced by the combined cancellation protocols, and can be further reduced by performing a fast Hadamard transform there on, which in turn can minimize matrix complexity, as well as computational overhead associated with processing the system matrix. | 09-11-2008 |
20080253431 | Receiving apparatus and signal processing method - In the reception and demodulation of a communication signal with frequency hopping among a plurality of frequency bands, a demodulator is formed by a balance circuit. The demodulator performs frequency conversion by multiplying signals in_a and in_b, which are obtained by converting a received signal into differential signals, by local signals Lo | 10-16-2008 |
20080304550 | Method and System for Fast Synchronization and Data Reception for Frequency Hopping Wireless Communication Systems - Methods and systems for fast synchronization and data reception for frequency hopping wireless communication systems are disclosed. Aspects of one method may include receiving a plurality of RF signals corresponding to a plurality of hopping frequencies. The RF signals may be processed in parallel to determine a hopping sequence. For example, the plurality of RF signals may be down-converted to a corresponding plurality of IF or baseband signals. The down-converted signals may be combined together to a single combined signal, and the single combined signal may then be processed to determine the frequency hopping sequence. | 12-11-2008 |
20090010311 | Antenna Diversity - A communication device for receiving a signal in the form of a series of bursts, each burst being at one of a plurality of different available transmission modes, the communication device comprising: two antennas; a receiver unit coupled to the antennas for preferentially receiving signals from a selected one of the antennas; and an antenna selection unit for selecting for each received burst with which of the antennas the receiver unit is to preferentially receive signals. | 01-08-2009 |
20090028220 | Robust packet detection, symbol timing, channel length estimation and channel response estimation for wireless systems - A method. The method includes producing a first signal match indication based on at least one match indication indicative of a match between at least one signal received in at least one band and a reference signal. The method also includes producing a first signal multipath combined signal based upon the first signal match indication, and detecting a first peak in the first multipath combined signal. | 01-29-2009 |
20090046763 | Conditional Scanning - A method of controlling a low power radio receiver including controlling the radio receiver for a first, relatively short, period of time to detect radio transmissions in a predetermined frequency band, and determining whether to control the radio receiver for a subsequent second relatively longer period of time to receive data from a subsequent radio transmission in the predetermined frequency band. | 02-19-2009 |
20090080498 | ADAPTIVE RADIO FREQUENCY INTERFERENCE MITIGATION DURING CHANNEL SCANNING OR HOPPING - In some embodiments an adaptive clock controller is to determine clock interference associated with a channel changing pattern for a radio in a computing platform, and to determine an earliest switching time of a clock of the computing platform. A clock generator is to change a frequency of the clock in response to the determined clock interference and in response to the earliest switching time. Other embodiments are described and claimed. | 03-26-2009 |
20090103591 | Bit confidence weighting based on levels of interference - Methods and systems of frequency hopping communication are disclosed. One method includes a receiver obtaining a frequency hopping sequence, wherein the frequency hopping sequence defines a time sequence of reception through each of a plurality of frequency hopping bands. For each of the plurality of frequency hopping bands, the receiver estimates an interference level and assigns a band weight to the frequency hopping band based on the estimated interference level. The receiver receives a signal that includes symbols occupying the plurality of frequency hopping bands according to the frequency hopping sequence, and demodulates the symbols producing a stream of estimated bit values and corresponding bit value confidence levels. The bit value confidence levels of each of the estimated bit values are adjusted according to the band weight of a corresponding frequency hopping band. | 04-23-2009 |
20090116541 | Mitigating interference in a coded communication system - A technique weights noise power used in a demodulation/demapping process using on an estimate of interference and its associated power. Using this technique the effect of partial interference can be ameliorated. For example, a value, σ | 05-07-2009 |
20090168847 | Tunable Diversity Antenna for use with Frequency Hopping Communications Protocol - A sound reproducing device. The sound reproducing device for receiving a frequency-hopping signal having an instantaneous frequency within a hopping bandwidth. The sound reproducing device comprises a first antenna having a bandwidth including the hopping bandwidth for producing a first received signal and a second antenna tunable to frequencies within the hopping bandwidth responsive to an instantaneous hopping frequency. The second antenna produces a second received signal. The device further comprises a module for processing one or both of the first and second received signals to produce a signal for driving the sound reproducing device. | 07-02-2009 |
20090262786 | POLARIZATION DIVERSITY - A communication device for receiving a signal in the form of a series of bursts, each burst being in one of a plurality of different available transmission modes, the communication device comprising: a receiver unit coupled to a single antenna operable to receive bursts in first and second polarizations, the receiver unit preferentially receiving signals in a selected polarization; a selection unit for selecting for each received burst in which polarization the receiver unit is to preferentially receive signals; and a signal analysis unit for analyzing each received burst to determine whether it meets a predetermined reception quality criterion; wherein the signal analysis unit is arranged to control the selection unit to: if a burst is to be received with a certain transmission mode and the last burst received with that transmission mode was received above the reception quality criterion, preferentially receive the burst in the same polarization in which the last burst was received; and if a burst is to be received with a certain transmission mode and the last burst received with that transmission mode was received below the reception quality criterion, preferentially receive the burst in a different polarization from that in which the last burst was received. | 10-22-2009 |
20100091818 | DYNAMIC CHANNEL EVALUATION IN WIRELESS COMMUNICATION DEVICE - A frequency hopping wireless communication device including a controller configured to evaluate channels received by the wireless receiver for interference and to identify channels subject to interference as being unavailable for use by the wireless communication device. The controller is also configured to re-evaluate channels identified as being unavailable for use by the wireless communication device after expiration of a channel assessment time-out interval, and to dynamically change the channel assessment time-out interval based on location or mobility of the wireless communication device. | 04-15-2010 |
20100238977 | WIRELESS COMMUNICATIONS DEVICE AND METHOD - A wireless device is described that comprises a spread spectrum radio-frequency (RF) communications portion, such as a Bluetooth module, and an ancillary RF receiver portion. The spread spectrum RF communications portion is activated on receipt of a characteristic RF signal by the ancillary RF receiver portion. The ancillary RF receiver portion may consume substantially less power than the spread spectrum RF communications portion thereby allowing a low power standby mode to be implemented. The wireless device may be a measurement probe, such as a temperature probe, for use with machine tools and the like. An interface for transmitting the characteristic RF signal is also described. | 09-23-2010 |
20100254432 | TRANSMITTER-EMITTER SYSTEM USING FREQUENCY HOPPING WITH UNIDIRECTIONAL COMMUNICATION - A communication method for transmitting a digital data sequence by a transmitter to a remote receiver, using frequency hopping spread spectrum, said data sequence comprising a plurality of blocks terminated by an end block, each block consisting of a plurality of consecutive data frames interspersed in time, each block being modulated at a carrier frequency belonging to a predetermined ordered hopset, the method comprising the steps of:
| 10-07-2010 |
20100260233 | PHASE TRACKING IN FREQUENCY DOMAIN IN A WIRELESS COMMUNICATION SYSTEM - Techniques for correcting sampling frequency offset (SFO) and carrier frequency offset (CFO) in a wireless communication system are disclosed. An apparatus for correcting SFO and CFO may include a pilot tone extractor for extracting a plurality of pilot tones from one or more first symbols, a demodulator, an error signal generator, a loop filter, an angle generator, and a device for applying a correction phase to one or more symbols subsequent to the one or more first symbols. The demodulator is configured to demodulate the pilot tones. The error signal generator is configured to generate an error signal by summing and calculating the arctangent of the plurality of demodulated pilot tones. The loop filter is configured to generate an estimated phase rotation due to a residual CFO and the angle generator is configured to generate a correction phase for the plurality of tones. | 10-14-2010 |
20100296549 | NOISE SUPPRESSION APPARATUS - A noise suppression apparatus is provided with: an offset correction unit that corrects changes in a DC offset generated by the hopping of radio frequencies or a local leak correction unit that corrects changes of local leaks generated by hopping of radio frequencies; and a noise elimination unit that suppresses the amplitude of noise generated by the offset correction unit or local leak correction unit and that is provided with switches that turn ON and OFF in synchronization with the hopping of radio frequencies, and an amplitude suppression unit connected between two differential output lines of the offset correction unit or the local leak correction unit by way of the switches. | 11-25-2010 |
20100322288 | RADIO COMMUNICATION APPARATUS AND OFFSET CORRECTION METHOD - An apparatus includes: an offset adjustment unit that supplies an offset correction signal corresponding to a frequency switching to an adder unit that receives an output from a mixer; a timing adjustment unit that adjusts the timing of a frequency switching signal supplied to a local oscillator and the timing of an offset correction amount switching signal supplied to the offset adjustment unit for changing an offset amount in correspondence with the frequency switching in the local oscillator; a noise amount measurement and calculation unit that receives a signal obtained by amplifying and filtering of the signal from the adder unit, to measure a noise amount of the signal and generates a timing determination signal based on the measured noise amount; and a control unit that controls the timing of the frequency switching signal and the offset correction amount switching signal supplied to the timing adjustment unit, based on the timing determination signal from the noise amount measurement and calculation unit. | 12-23-2010 |
20110007780 | Receiver with automatic gain control - An automatic gain control (AGC) system and corresponding method is configured to increase signal to noise in a receiver. The AGC system includes: a signal level detector for determining a signal level for a desired signal; a wideband signal detector for determining a wideband signal level of a wideband signal, the wideband signal being indicative of an interferring signal being present; and a controller coupled to both detectors and configured to provide one or more AGC signals to the receiver to establish a gain setting for the receiver, wherein an initial AGC setting for the receiver is based on the signal level, and AGC adjustments, based e.g., on one or more of the signal level and the wideband signal level, are provided such that an adjusted AGC setting for the receiver increases the signal to noise. | 01-13-2011 |
20110026565 | FREQUENCY HOPPING RF RECEPTION SYSTEM WITH PROGRAMMABLE ANTENNA AND METHODS FOR USE THEREWITH - A (radio frequency) RF reception system includes an RF receiver that demodulates an RF signal at a sequence of selected carrier frequencies. A frequency hop module, coupled to the RF receiver generates the sequence of selected carrier frequencies. A programmable antenna is tuned to each of the sequence of selected carrier frequencies to receive the RF signal via an antenna current. | 02-03-2011 |
20110090939 | System and Method for Management of a Shared Frequency Band - A system, method, software and related functions are provided for managing activity in a radio frequency band that is shared, both in frequency and time, by signals of multiple types. An example of such a frequency band is an unlicensed frequency band. Radio frequency energy in the frequency band is captured at one or more devices and/or locations in a region where activity in the frequency band is happening. Signals occurring in the frequency band are detected by sampling part or the entire frequency band for time intervals. Signal pulse energy in the band is detected and is used to classify signals according to signal type. Using knowledge of the types of signals occurring in the frequency band and other spectrum activity related statistics (referred to as spectrum intelligence), actions can be taken in a device or network of devices to avoid interfering with other signals, and in general to optimize simultaneous use of the frequency band with the other signals. The spectrum intelligence may be used to suggest actions to a device user or network administrator, or to automatically invoke actions in a device or network of devices to maintain desirable performance. | 04-21-2011 |
20110122923 | PREAMBLE DETECTION APPARATUS, PREAMBLE DETECTION METHOD, AND PROGRAM - A preamble detection apparatus includes: a correlation maximum value detection threshold generation unit that determines a correlation maximum value detection threshold on the basis of a correlation peak value; a correlation maximum value detection determination unit that detects one of correlation results, which exceeds the correlation maximum value detection threshold, as a correlation maximum value; a correlation peak detection unit that updates the correlation peak value to the detected correlation maximum value when the correlation maximum value is detected; and a control unit that sets a period, where a correlation peak caused by an LO spurious component may occur, to a first period, sets a period, centering on a position where a distance from a correlation peak position is an integer multiple of a frequency hopping cycle, to a second period, and monitors presence or absence of a correlation result that exceeds the correlation maximum value detection threshold in the first and second periods, while not applying an erroneous detection threshold to the first period. | 05-26-2011 |
20110150043 | FREQUENCY HOPPING RECEIVER CIRCUIT - A frequency hopping receiver circuit has a frequency converter ( | 06-23-2011 |
20110188544 | Interference Classification with Minimal or Incomplete Information - Interference classification with minimal or incomplete information. Receivers in access points and in other network devices on a wireless digital network may be switched to a spectrum monitor mode in which they provide amplitude-versus-frequency information for a chosen part of the spectrum. This may be performed by performing a FFT or similar transform on the signals from the receiver. Receivers are calibrated with known interference sources in controlled environments to determine peaks, pulse frequency, bandwidth, and other identifying parameters of the interference source in best and worst case conditions. These calibrated values are used for matching interference signatures. Calibration is also performed using partial signatures collected over a short period in the order of microseconds. These partial signals may be used to detect interferers while scanning. Another aspect of the invention is to record the variation of noise floor in the presence of interference sources. Multiple interference sources may be detected. While data collection is performed in one or more APs, classification may be performed in the | 08-04-2011 |
20110206088 | APPARATUS AND METHOD FOR FREQUENCY SHIFTING OF A WIRELESS SIGNAL AND SYSTEMS USING FREQUENCY SHIFTING - Systems, methods and apparatus for improving the coverage of a wireless network based on frequency shifting scheme. A wireless signal in a frequency band is shifted to another distinct band, and carried in the shifted band, using wired or wireless mediums to another location, wherein the wireless signal is shifted back to the original frequency band. The frequency shifting may make use of a conventional frequency shifting schemes such as mixer/filter and heterodyne. In one embodiment the wireless signal is frequency shifted by converting it to other representing signals (such as I/Q components) and forming the frequency-shifted signal from the representations. The system is may be used to increase in-door or outdoor coverage, as well as bridging between in-door and outdoor networks. The medium may use dedicated wiring or existing service wiring in a residence or building, including LAN, telephone, AC power and CATV wiring. The system (in whole or in part) may be enclosed as a stand-alone unit, housed in integrated form as part of a service outlet or as a snap-on/plug-in module. Methods and other systems with different advantageous configurations are also described. | 08-25-2011 |
20110243192 | METHOD AND APPARATUS FOR TRACKING A FREQUENCY-HOPPED SIGNAL - A frequency hopping signal receiving system comprising: a receiver for extracting discrete-time samples from the signal; a memory connected to the receiver for storing the extracted discrete-time samples from the signal; at least one processor operatively connected to the memory for: determining a state-space vector that captures relevant information to describe the dynamics of the signal; selecting a parameter to represent the probability of hopping associated with the signal; generating particle filters to estimate unknown parameters in the state-space vector based upon the extracted discrete-time samples by generating random particles that approximate the filtering distribution having importance weights; specifying the importance function in closed-form in a convenient mixture representation, which enables drawing particles and updating the importance weights; constructing an estimator to generate hop particles based upon observing at least one sample hop and then evaluating the estimator using a conditional expected value; using a spectrogram to generate particles in conjunction with an importance function; and estimating the hop frequency, hop time, and amplitude parameters, and a method thereof. | 10-06-2011 |
20120002704 | Measuring Received Signal Strength on Neighboring Frequencies of a Channel with Interference in a Wireless Device - System and method for operating a wireless narrowband receiver. A signal may be received on a channel of the wireless narrowband receiver. At least a portion of the signal may be received from a first wireless narrowband transmitter. The wireless narrowband receiver may implement an adaptive frequency hopping algorithm. It may be determined if interference is present on the channel and one or more errors are detected in receiving the signal. In response to determining that interference is present on the channel and one or more errors are detected in receiving the signal, received signal strength of one or more neighboring frequencies of the channel may be measured, and the resulting measurements may be stored in a memory. The measurements may be used to determine interference sources interference on the channel. | 01-05-2012 |
20120020388 | Reception apparatus, reception method, program, and reception system - Disclosed herein is a reception apparatus including: a reception section configured to receive a signal at a frequency being changed; and a control section configured such that before changing the frequency to receive the signal, the control section stores control information about the reception section receiving the signal at the current frequency as last control information and that upon receiving again the signal at the frequency in effect before the change, the control section sets the last control information to the reception section as an initial value. | 01-26-2012 |
20120044973 | SYSTEMS AND METHODS FOR IMPROVING RECEPTION OF DATA IN WIRELESS COMMUNICATION ENVIRONMENTS - Generally described, the disclosed subject matter is directed to improving the reception of data in wireless communication environments. In accordance with one embodiment, a method is provided for improving the reception of meter data in an AMR system. In particular, the method includes obtaining a sample of data indicative of channel quality for each transmission channel in the operational frequency band of the endpoint device. Then, the data is analyzed and a determination is made as to whether the reception of data by the collection system can be improved. If the reception of data by the collection system can be improved, a command is generated for reprogramming the endpoint device. In one embodiment, the command includes channel reprogramming data for reprogramming the endpoint device. | 02-23-2012 |
20120243576 | METHODS AND APPARATUSES FOR RECEPTION OF FREQUENCY-HOPPING SPREAD SPECTRUM RADIO TRANSMISSIONS - A frequency-agile radio receiver controlled by a radio controller hops through a plurality of radio frequencies where discrete frequency-hopping spread spectrum digital transmissions may exist, where the transmitter's hopping sequence is not known, and where it is not necessary to receive every transmission of interest. The controller accumulates counters of the number of transmissions of interest it receives at each of a plurality of frequencies. It then creates a new frequency-hopping sequence consisting primarily of those frequencies whose received transmission counts exceed a certain threshold. The controller continues to tune the receiver in a hopping pattern, allocating more of the receiver's time to those frequencies where more transmissions have been received in the past. Doing so improves the likelihood that transmissions of interest will be received in the future. | 09-27-2012 |
20120281730 | Method and System for Fast Synchronization and Data Reception for Frequency Hopping Wireless Communication Systems - Methods and systems for fast synchronization and data reception for frequency hopping wireless communication systems are disclosed. Aspects of one method may include receiving a plurality of RF signals corresponding to a plurality of hopping frequencies. The RF signals may be processed in parallel to determine a hopping sequence. For example, the plurality of RF signals may be down-converted to a corresponding plurality of IF or baseband signals. The down-converted signals may be combined together to a single combined signal, and the single combined signal may then be processed to determine the frequency hopping sequence. | 11-08-2012 |
20130070811 | TRANSMISSION/RECEPTION APPARATUS AND METHOD FOR FILTERED MULTI-TONE SYSTEM - Disclosed are an apparatus for transmitting multi-carrier signals, including: a signal spreading unit configured to generate band-spread signals through band spreading of a plurality of symbol-mapped signals; and a modulation unit configured to generate a modulation signal by mixing the band-spread signals with a plurality of sub-carriers and adding up the mixed band-spread signals, and a method for transmitting multi-carrier signals. | 03-21-2013 |
20130100987 | Multiple Protocol Receiver - Implementation and operation of a multiple protocol receiver are described herein. In one example, a multiple protocol receiver in a node may alternate between first and second states. In a first state, the multiple protocol receiver listens simultaneously for a plurality of differently modulated signals. Such listening may be performed in a parallel manner, wherein a plurality of preamble detection processes each listens for a specific preamble. The listening may result in detection of a preamble of a packet, which triggers transition to the second state. The detected preamble may indicate a protocol used in transmission of the packet. The received packet may then be demodulated according to, for example, a data rate, synchronization, redundancy and/or other factors indicated by the protocol. The received packet may be utilized by the node or retransmitted. The multiple protocol receiver may return to the first state to repeat and continue the procedure. | 04-25-2013 |
20130136154 | CIRCUITS, DEVICES, AND PROCESSES FOR IMPROVED POSITIONING SATELLITE RECEPTION AND OTHER SPREAD SPECTRUM RECEPTION - An integrated circuit for facilitating spread spectrum reception of data having a data bit period includes an hypothesis search circuit ( | 05-30-2013 |
20130195147 | RADIO COMMUNICATION APPARATUS - An apparatus includes: an offset adjustment unit supplying an offset correction signal corresponding to a frequency switching to an adder unit receiving output from a mixer; a timing adjustment unit adjusting the timing of a frequency switching signal supplied to a local oscillator and the timing of an offset correction amount switching signal supplied to the offset adjustment unit for changing an offset amount in correspondence with the frequency switching in the local oscillator; a noise amount measurement and calculation unit receiving a signal obtained by amplifying and filtering the signal from the adder unit, to measure a noise amount of the signal and generates a timing determination signal based on the noise amount; and a control unit controlling frequency switching signal timing and the offset correction amount switching signal supplied to the timing adjustment unit, based on the timing determination signal from the noise amount measurement and calculation unit. | 08-01-2013 |
20130223481 | SYSTEM AND METHOD FOR MULTI-CHANNEL FREQUENCY HOPPING SPREAD SPECTRUM COMMUNICATION - One embodiment of the present invention sets forth a technique for transmitting data in a frequency hopping spread spectrum (FHSS) wireless communication system. A multi-channel receiver is configured to receive data from one or more channels simultaneously. The multi-channel receiver enables efficient implementation of a transmission protocol in which multiple candidate nodes within a wireless mesh network are polled for availability to receive a packet of data. The packet of data is transmitted to one or more available nodes based on prevailing link conditions, thereby increasing the likelihood of successful delivery. Data flooding may be selectively implemented to further increase the likelihood of successful delivery. | 08-29-2013 |
20130251002 | TERMINAL APPARATUS AND COMMUNICATION METHOD - In order to reduce interference between cells through hopping and use frequencies in a good propagation situation, a scheduler section carries out scheduling for determining to which user data should be sent using CQI from each communication terminal apparatus, selects a user signal to be sent in the next frame and determines in which subcarrier block the data should be sent. Au MCS decision section selects a modulation scheme and coding method from the CQI of the selected user signal. A subcarrier block selection section selects a subcarrier block instructed by the scheduler section | 09-26-2013 |
20130336363 | ITERATIVE INTERFERENCE SUPPRESSION USING MIXED FEEDBACK WEIGHTS AND STABILIZING STEP SIZES - A receiver is configured for canceling intra-cell and inter-cell interference in coded, multiple-access, spread-spectrum transmissions that propagate through frequency-selective communication channels. The receiver employs iterative symbol-estimate weighting, subtractive cancellation with a stabilizing step-size, and mixed-decision symbol estimate. Receiver embodiments may be implemented explicitly in software of programmed hardware, or implicitly in standard Rake-based hardware either within the Rake (i.e., at the finger level) or outside the Rake (i.e., at the user of subchannel symbol level). | 12-19-2013 |
20140064335 | Circuit for Signal Processing and Method Performed by such Circuit - A method includes receiving a signal transmitted by a transmitter, wherein the transmitter transmits with a transmit power and the signal includes a pilot signal transmitted by the transmitter with a fraction of the transmit power. The method further includes equalizing the received signal, determining a despread pilot signal based on the equalized signal, and determining the fraction of the transmit power based on the despread pilot signal. | 03-06-2014 |
20140133521 | Method and Apparatus for Analyzing the Spectrum of Radio-Frequency Signals Using a Fiber Optic Recirculation Loop - An apparatus comprising a fiber optical loop for conducting a first and a second pulse having a corresponding first and second wavelength, a first splitter for separating the first and second light pulses in the optical loop into a first and second light path to introduce a predetermined time delay between the first and second light pulses, a coupler for tapping a replica of the pair of light pulses from the loop, an auto-correlation module, coupled to the coupler, for correlating the replica of the pair of light pulses with each other to produce a set of data points comprising a plurality of multiplied and correlated pair of pulses and a transform module, coupled to the auto-correlation module, for transforming the data points into a channelized frequency spectrum. | 05-15-2014 |
20140328376 | RADIO COMMUNICATION DEVICE AND SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE USED FOR THE SAME - A semiconductor integrated circuit for a radio communication terminal sequentially uses a plurality of frequency channels by instructions from a hopping frequency decision unit to receive packet data by a reception unit. When the integrated circuit cannot detect the head of the packet data in reception operations, the integrated circuit cannot receive packet data should be received originally then assumes that the received packet data is a packet error. And the integrated circuit calculates packet error rates for each frequency channel on the basis of the number of times of reception operations performed for each frequency channel and of the number of times of packet errors to estimate channel qualities by using the packet error rates. | 11-06-2014 |
20140348209 | RADIO COMMUNICATION APPARATUS - An apparatus includes: an offset adjustment unit supplying an offset correction signal corresponding to a frequency switching to an adder unit receiving output from a mixer; a timing adjustment unit adjusting the timing of a frequency switching signal supplied to a local oscillator and the timing of an offset correction amount switching signal supplied to the offset adjustment unit for changing an offset amount in correspondence with the frequency switching in the local oscillator; a noise amount measurement and calculation unit receiving a signal obtained by amplifying and filtering the signal from the adder unit, to measure a noise amount of the signal and generates a timing determination signal based on the noise amount; and a control unit controlling frequency switching signal timing and the offset correction amount switching signal supplied to the timing adjustment unit, based on the timing determination signal from the noise amount measurement and calculation unit. | 11-27-2014 |
20150055685 | BASE STATION CONNECTIVITY WITH A BEACON HAVING INTERNAL GEOGRAPHIC LOCATION TRACKING THAT RECEIVES THE LOCATION IN A BEACON TRANSMISSION - Systems, methods and apparatus are provided through which in some implementations a geographic location of a beacon is determined by a component integrated within or in close proximity to the beacon and the geographic location is communicated to an external network using a wireless communications channel between the beacon and the external network. | 02-26-2015 |
20150131704 | RECEIVER AND RECEIVING METHOD - A receiver for receiving a frame including a pilot signal and a data signal, referring to an impulse response of a propagation path estimated from the pilot signal, and performing compensation processing on the data signal, the receiver includes: an extraction unit configured to extract the pilot signal of the frame; and an estimation unit configured to execute orthogonal matching pursuit (OMP) method which is a decoding algorithm for compressive sensing and to estimate the impulse response from the pilot signal, wherein the estimation unit refers to a pilot signal of a first frame, estimates an impulse response, determines position information on the estimated impulse response, refers to a pilot signal corresponding to the determined position information, of a second frame subsequent to the first frame, estimates an impulse response, and determines position information on the estimated impulse response. | 05-14-2015 |
375137000 | Having specific code acquisition or tracking | 12 |
20090147830 | Synchronization band selection of a frequency hopping wireless receiver - Methods and systems of a receiver selecting a subset of plurality of frequency hopping bands for synchronization of the receiver are disclosed. One method includes the receiver determining a receive signal quality metric for each band of the plurality of frequency hopping bands, and selecting at least one synchronization band as a subset of the plurality of frequency hopping bands for synchronization based on the receive signal quality metric of each of the plurality of frequency hopping bands. | 06-11-2009 |
20090154529 | METHOD AND APPARATUS FOR ACQUIRING OFDM SYNCHRONIZATION - Provided is a method and apparatus for acquiring OFDM synchronization even when it fails to detect a plurality of symbols at an initial stage. In the method, a frequency is adjusted to a first frequency band and a cross correlation value between a received preamble symbol and a preset preamble symbol is calculated. When the calculated cross correlation value is larger than a predetermined reference value and is first detected, frequency hopping is performed to receive subsequent symbols and cross correlation values to the subsequent symbols are reexamined. When the reexamined cross correlation value larger than the predetermined reference value is detected, timing synchronization, frequency offset estimation, and frame detection are performed. | 06-18-2009 |
20090161731 | Wideband frequency hopping spread spectrum receivers and related methods - Systems and methods are disclosed that provide ultra-wideband frequency hopping spread spectrum (UWB-FHSS) solutions for receive architectures. These UWB-FHSS receive architectures can receive signals transmitted over an extremely wide bandwidth while using a relatively slow analog-to-digital converter (ADC) without suffering from unacceptable performance degradation. For example, ADCs can be used having sample rates lower than standard Nyquist criteria would require for the bandwidth of the spread spectrum utilized. | 06-25-2009 |
20090232189 | Method, apparatus and computer program to efficiently acquire signals in a cognitive radio environment - Signal instances are detected from within a long period of a received radiofrequency RF signal envelope, grouped according to signal level, and periodicities are determined among the grouped signal instances. Periodicity of one of the groups is matched to a known periodicity, and a frequency domain is estimated at a time instance derived from the matched periodicity. If an expected frequency pattern is found that occupies the derived time instance in the estimated frequency domain, then a receiver is synchronized to a candidate signal that lies within the frequency pattern. Then content of the candidate signal is decoded and that content is used to access a cognitive radio system (e.g., register to the system, start the normal operation in the network such as spectrum detection and/or transmission in a traffic channel, etc.). | 09-17-2009 |
20090279588 | WIRELESS COMMUNICATION APPARATUS AND A RECEPTION METHOD INVOLVING FREQUENCY HOPPING - Disclosed is a receiver of a direct conversion receiving scheme in which a packet is transmitted or received while performing frequency hopping for each symbol and demodulation is started by carrier sensing at the beginning of the packet, which performs demodulation without hopping frequencies of LOs of receiving systems to reliably execute fast carrier sensing and hopping synchronization at the beginning of the packet and remove the DC offset jump. At a time of demodulation of a payload part, the frequencies of LOs of the receiving system are hopped to allow a transition of MIMO. Further, by concurrently using complex bandpass filters while fixing all the LOs at a center LO frequency, complete removal of the DC offset jump over the entire length of the packet and MIMO can be simultaneously implemented. | 11-12-2009 |
20100008400 | Receiving wireless signals with multiple diversity settings - Methods and systems of receiving wireless signals are disclosed. One method includes a receiver characterizing signal quality parameters of receive signals for a plurality of receive diversity settings. The receiver selects a first receive diversity setting for synchronizing the receiver with the receive signal based on the characterized signal quality parameters. The receiver selects a second receive diversity setting for receiving data with the receive signal based on the characterized signal quality parameters. | 01-14-2010 |
20110158291 | Automatic Gain Control for Frequency-Hopped OFDM - An automatic gain control method and system for use in signal processing of OFDM symbols at a receiver. Two stages of coarse and fine automatic gain control are implemented that adjust different gains in an analog RF processing stage of the receiver. Gain of a low noise amplifier and a mixer are adjusted during a first and coarse automatic gain control stage based on feedback from a digital baseband stage. During a subsequent fine gain control period, the gain of a programmable gain amplifier is adjusted separately for each frequency band used by the OFDM symbols based on a histogram bin that counts the number of output samples of an analog to digital converter whose magnitude falls within certain ranges. Coarse and fine gains are updated after each OFDM symbol. | 06-30-2011 |
20130163643 | SCHEDULED GAIN CONTROL IN COLLOCATED WIRELESS RECEIVERS USING FORWARD TIMED SIGNAL STRENGTH PREDICTIONS - An apparatus is disclosed comprising collocated primary receiver (PR) and a time synchronized receiver (TSR), with a Low Noise Amplifier (LNA) configured by a LNA gain control signal to create a shared amplified signal sent to the PR and the TSR for them to concurrently receive packets. The TSR is configured to generate a timed signal strength prediction signal based on the shared amplified signal and the LNA gain control signal. The primary receiver is configured to generate the LNA gain control signal based, at least in part, on the timed signal strength prediction signal. The PR may include a spread spectrum receiver, and the TSR may include a frequency hopping receiver. | 06-27-2013 |
20140098838 | DIGITAL RECEIVER PERFORMANCE IN THE PRESENCE OF IMAGE FREQUENCIES - A digital Radio Frequency (RF) receiver may exhibit image frequencies and these image frequencies may be mathematically related to the intermediate frequency (IF) that is utilized for transmission and reception. In accordance with an embodiment, channel switching may be performed to identify an appropriate receive frequency in the presence of image frequencies on other channels. In accordance with another embodiment, data on a receive channel is evaluated to determine whether the data is inverted, and then appropriate correction may be performed on subsequently received data. | 04-10-2014 |
20150049789 | METHOD AND DEVICE FOR SEARCHING SIGNALS, GNSS SIGNAL RECEPTION APPARATUS AND INFORMATION EQUIPMENT TERMINAL - A method for searching a signal to capture a target signal. Integrated correlation values are acquired with all code phases by setting a plurality of frequencies at intervals of 1,000 Hz into a single group. A peak correlation value that is a highest integrated correlation value with each frequency forming the group is acquired. The peak correlation values of the respective frequencies are compared to each other, a highest value thereof is set to be a highest peak value, and a second highest value thereof is set to be a highest noise value. If a ratio between the highest peak value and the highest noise value is lower than a threshold, it is determined that cross-correlation occurred, and if the ratio is higher than the threshold, the highest peak value is determined to be from the target signal, and the signal is captured. | 02-19-2015 |
20150055686 | BASE STATION CONNECTIVITY WITH A BEACON HAVING INTERNAL GEORGAPHIC LOCATION TRACKING THAT RECEIVES THE LOCATION IN A REGISTRATION TRANSMISSION - Systems, methods and apparatus are provided through which in some implementations a geographic location of a beacon is determined by a component integrated within or in close proximity to the beacon and the geographic location is communicated to an external network using a wireless communications channel between the beacon and the external network. | 02-26-2015 |
20150358048 | FREQUENCY CORRECTION CIRCUIT, RADIO RECEIVING APPARATUS, AND FREQUENCY CORRECTION METHOD - A frequency correction circuit used in a radio receiving apparatus that receives a preamble signal through one frequency band and also detects a periodic symbol timing in a receiving period of a part of a symbol that composes the preamble signal, the frequency correction circuit includes a generating unit that generates a detection window of a predetermined time width including each of a first symbol timing and a second symbol timing in the receiving period of a remaining symbol that composes the preamble signal, the first and the second symbol timing being previously determined among periodic symbol timings, a detecting unit that sequentially receives a correlation value between the preamble signal and a reference signal and detects a maximum value from the correlation value input during a period when the detection window is opened, and a correction unit that corrects a frequency deviation of the one frequency band. | 12-10-2015 |