Minimum Shift Keying Patents (Class 375/336)
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Patent number: 6879647Abstract: A radio receiver (10) adapted to receive an AM-MSK modulated carrier signal includes an envelope detector (24) and a transformer (28) which restores the real signal to complex MSK format. A Doppler remover (34) removes any Doppler shift of the MSK due to relative motion of the transmitter and receiver (10). A sample rate reducer (56) may reduce the sample rate used in the Doppler remover (34) to the transmitted symbol rate used during the modulation process.Type: GrantFiled: September 29, 2000Date of Patent: April 12, 2005Assignee: Northrop Grumman CorporationInventor: Michael H. Myers
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Publication number: 20040252789Abstract: A receiver for receives transmitted signals and each transmitted signal contains at least two known portions which are spaced from one another in the signal and at least one other portion. The receiver comprises channel estimation means for estimating a channel based on at least one of the known portions, and means for using the channel estimate and at least two of the known portions to determine a characteristic of the channel.Type: ApplicationFiled: May 13, 2004Publication date: December 16, 2004Inventor: Sathiaseelan Sundaralingam
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Publication number: 20040071228Abstract: A wobble demodulator for reproducing digital information from an optical recording medium in which a track is formed in accordance with a wobble signal that is MSK-modulated so as to contain the digital information by a carrier signal with a predetermined frequency and a sine wave signal with a frequency different from that of the carrier signal, includes: a wobble signal detector for detecting a wobble signal of the track from the optical recording medium; a wobble PLL for detecting the carrier signal based on the wobble signal detected by the wobble signal detector; a multiplier for multiplying the carrier signal detected by the wobble PLL by the wobble signal detected by the wobble signal detector and outputting a multiplied output; a MSK detector for detecting a MSK modulation mark having a phase or a frequency different from that of the carrier signal, based on an integrated value obtained by integrating the multiplied output from the multiplier on a predetermined section basis; and a MSK synchronizationType: ApplicationFiled: September 10, 2003Publication date: April 15, 2004Applicant: MATSUSHITA ELECTRIC INDUSTRIAL CO., LTD.Inventors: Kohei Nakata, Toyoji Gushima, Makoto Usui, Kazuya Ohshima, Junichi Minamino
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Patent number: 6711218Abstract: A system and method for sequence estimation decoding allows a receiver to decode a received signal modulated according to one of plurality of possible modulating methods. In a preferred approach, a sequence estimation decoder detects the modulating method that was applied to the received signal, and adjusts its decoding process accordingly. In this manner, the decoder adjusts its operations to the specific one of the plurality of possible modulating methods used by the transmitting system originating the received signal. In an exemplary application, signals are modulated using either Gaussian Minimum Shift Keying (GMSK) or Offset Quadrature Amplitude Modulation (Offset-QAM), and the decoder adjusts its operations to either one of these modulating methods based on its detection of the particular method used.Type: GrantFiled: December 6, 2000Date of Patent: March 23, 2004Assignee: Ericsson Inc.Inventor: Paul W. Dent
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Publication number: 20030223513Abstract: The present invention relates generally to communication systems, both wired and wireless, employing a continuous phase modulation (“CPM”) waveform with a minimum shift keying (“MSK”) preamble. The present inventive system and method uses information from contiguous Fourier Transforms taken on contiguous data blocks to determine baud rate, phase, frequency offset, and bit timing of the CPM waveform or can be used to determine the frequency of continuous wave waveform. More particularly, the inventive system and method is applicable to the military satellite communications UHF frequency band for deciding whether a signal of interest is.Type: ApplicationFiled: June 3, 2002Publication date: December 4, 2003Inventors: James A. Norris, Clifford Hessel
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Publication number: 20030118143Abstract: Multiple-mode direct phase/amplitude modulation circuitry (20) for use in a transceiver (17) of a device such as a wireless handset (10) is disclosed. The modulation circuitry (20) includes a modulation loop (36) for modulating a phase signal into a Gaussian-Minimum-Shift-Keyed (GMSK) signal for transmission in a first mode. The modulation loop (36) may include a phase-locked loop (45) with its frequency controlled by a &Sgr;-&Dgr; demodulation of a compensated version of the phase signal, or alternatively may produce a modulated signal from a direct digital synthesis circuit (70; 70′). An amplitude signal is converted into an analog signal and applied to a single-sideband mixer (43) for combination with a frequency multiplied version of the phase-modulated signal (GMSK(t); PH(t)), producing an amplitude and phase modulated signal for transmission in a second mode.Type: ApplicationFiled: April 30, 2002Publication date: June 26, 2003Applicant: Texas Instruments IncorporatedInventors: Abdellatif Bellaouar, Charles Gore, Jeff D. Laster
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Publication number: 20030042974Abstract: Methods and devices for demodulators for continuous phase modulation waveforms. A modulated sampled signal is received. A consecutive sequence of the modulated sampled signal is buffered. The consecutive sequence is compared with all possible valid modulated sampled signals. A bit decision representing a demodulation of the consecutive sequence of the modulated sampled signal is determined based on a closest valid modulated sampled signal located closest to the consecutive sequence of the modulated sample signal in a constellation.Type: ApplicationFiled: August 31, 2001Publication date: March 6, 2003Inventors: Anthony D. Patire, Andy Chan, Ronald P. Smith
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Patent number: 6411661Abstract: A GMSK timing recovery loop in a receiver of a Gaussian Minimum Shift Keying (GMSK) link with a low channel Bit Signal-to-Noise Ratio (BSNR) and a small bandwidth-bit period BT product in a high bandwidth efficiency channel, includes a hard limiter for converting at baseband a GMSK demodulated received signal into a hard clocking signal clocking a conventional digital tracking transition loop generating the bit timing signal in closed loop control for stable time tracking performance for coherent demodulation of GMSK signals. The hard limiter provides the hard clocking signal at baseband having transitions at multiple bit periods adjusted by the bit timing error signal from the digital tracking transition loop for providing reduced jitter of the bit timing signal for accurate timing recovery and detection of communicated data.Type: GrantFiled: May 7, 1999Date of Patent: June 25, 2002Assignee: The Aerospace CorporationInventors: Tien M. Nguyen, Jack K. Holmes, Srini H. Raghavan
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Patent number: 6323727Abstract: A symbol detector for frequency modulated (FM) symbols includes a section determiner, a direction of movement determiner and a data symbol determiner. The section determiner receives a sample of in-phase and quadrature signals associated with a baseband transmitted FM symbol and determines the section value of a unit circle in an in-phase—quadrature coordinate system in which the sample lies. The direction of movement determiner receives the section value of a current sample and the section value of a neighboring sample and generates a positive direction of movement value if the direction of movement along the unit circle from the neighboring sample to the current sample is counterclockwise, a negative direction of movement value if the direction of movement is clockwise and 0 otherwise. The data symbol determiner receives the direction of movement values and decodes the transmitted FM symbol by masking N direction of movement values.Type: GrantFiled: November 19, 1999Date of Patent: November 27, 2001Assignee: DSPC Technologies Ltd.Inventors: David Burshtein, Doron Rainish
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Patent number: 6160858Abstract: A method and apparatus for demodulating and decoding an MSK signal utilizing synchronous accumulation and simultaneous synchronization of reference carrier and MSK data clocks enables a GPS correlator channel in a multi-channel GPS receiver to be used for processing MSK signals. The PRN code epochs are synchronized with the MSK data clocks and the process of de-spreading with a PRN code is disabled in order to obtain coherent MSK demodulation without corrupting the MSK signal with a PRN code within the channel.Type: GrantFiled: August 4, 1997Date of Patent: December 12, 2000Assignee: Starlink, Inc.Inventors: David L. Hindman, Clarence W. Fowler, Gerald D. Powell, David A. Fowler, David L. Hirsch, Charles L. Ladwig, IV
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Patent number: 5994953Abstract: A symbol detector for frequency modulated (FM) symbols includes a section determiner, a direction of movement determiner and a data symbol determiner. The section determiner receives a sample of in-phase and quadrature signals associated with a baseband transmitted FM symbol and determines the section value of a unit circle in an in-phase--quadrature coordinate system in which the sample lies. The direction of movement determiner receives the section value of a current sample and the section value of a neighboring sample and generates a positive direction of movement value if the direction of movement along the unit circle from the neighboring sample to the current sample is counterclockwise, a negative direction of movement value if the direction of movement is clockwise and 0 otherwise. The data symbol determiner receives the direction of movement values and decodes the transmitted FM symbol by masking N direction of movement values.Type: GrantFiled: March 27, 1998Date of Patent: November 30, 1999Assignee: D.S.P.C. Technologies Ltd.Inventors: David Burshtein, Doron Rainish
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Patent number: 5991346Abstract: A method for determining the best time to sample data bits of a data bit stream of a received information signal in a digital communication system includes the steps of determining the current derivative of a respective sample of the information signal, weighting the sample by a predetermined amount, determining an accumulated derivative value for the same sample number of a previous symbol of the information signal, weighting the previous accumulated derivative value by another predetermined amount, summing the two weighted values together and assigning this accumulated derivative value to the respective sample. The method further includes the step of comparing the accumulated derivative values of a predetermined number of consecutive samples to determine which sample has the greatest accumulated derivative value. The sample having the greatest accumulated derivative value substantially corresponds to the beginning of a symbol.Type: GrantFiled: April 2, 1997Date of Patent: November 23, 1999Assignee: Uniden San Diego Research and Development Center, Inc.Inventor: Keh-Shehn Lu
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Patent number: 5963586Abstract: A technique for modulating and demodulating CPM spread spectrum signals and variations of CPM spread spectrum signals. A transmitter divides a signal data stream into a plurality of data streams (such as I and Q data streams), independently modulates the I and Q data streams using CPM or a related technique, and superposes the plurality of resultants for transmission. A receiver receives the superposed spread spectrum signal and simultaneously attempts to correlate for a plurality of chip sequences (such as I and Q chip sequences), and interleaves the correlated I and Q data streams into a unified signal data stream. In one embodiment, the receiver separates the received spread spectrum signal into real and imaginary parts, attempts to correlate both real and imaginary parts for a plurality of chip sequences, and combines the real I, real Q, imaginary I, and imaginary Q signals into a unified signal data stream.Type: GrantFiled: June 7, 1995Date of Patent: October 5, 1999Assignee: Omnipoint CorporationInventors: Randolph L. Durrant, Mark Burbach
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Patent number: 5963585Abstract: A method for demodulating a received spread-spectrum signal using a minimum-shift-keyed (MSK) receiver. Using the method, an in-phase-component and a quadrature-phase-component of the received spread-spectrum signal are processed and combined in such a way as to estimate data of the received-spread-spectrum signal.Type: GrantFiled: March 16, 1998Date of Patent: October 5, 1999Assignee: P-Com, Inc.Inventors: Jimmy K. Omura, Paul T. Yang, Gurgen H. Khachatrian, Karen M. Nikogossian, Karen S. Hovakimian, Armen L. Vartapetian
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Patent number: 5903186Abstract: A demodulator for demodulating an MSK signal constituted by a sequence of MSK modulated symbols is disclosed. An exclusive OR signal obtained by delay detection is delayed by delay times shorter than one symbol time. The delayed signals thus obtained are logically processed in parallel. Each symbol thus can be recovered by demodulation in one symbol time.Type: GrantFiled: January 29, 1998Date of Patent: May 11, 1999Assignee: NEC CorporationInventor: Takahiro Ono
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Patent number: 5881100Abstract: A technique for modulating and demodulating CPM spread spectrum signals and variations of CPM spread spectrum signals. A transmitter divides a signal data stream into a plurality of data streams (such as I and Q data streams), independently modulates the I and Q data streams using CPM or a related technique, and superposes the plurality of resultants for transmission. A receiver receives the superposed spread spectrum signal and simultaneously attempts to correlate for a plurality of chip sequences (such as I and Q chip sequences), and interleaves the correlated I and Q data streams into a unified signal data stream. In one embodiment, the receiver separates the received spread spectrum signal into real and imaginary parts, attempts to correlate both real and imaginary parts for a plurality of chip sequences, and combines the real I, real Q, imaginary I, and imaginary Q signals into a unified signal data stream.Type: GrantFiled: November 14, 1997Date of Patent: March 9, 1999Assignee: Omnipoint CorporationInventors: Randolph L. Durrant, Mark Burbach
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Patent number: 5875213Abstract: A communication device test system is unnecessary to consider a phase offset between reproduced ideal data and phase data to be measured.Type: GrantFiled: February 5, 1997Date of Patent: February 23, 1999Assignee: Advantest Corp.Inventors: Koji Asami, Juichi Nakada
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Patent number: 5867059Abstract: A demodulating system for estimating frequency offset and sampling time error by a Fast Fourier Transform operation, which receives a modulated signal sent from a GMSK (Gaussian Low-Pass Filtered Minimum Shift Keying) or a MSK (Minimum Shift Keying) transmitter and demodulates the signal. The demodulating system uses a Fast Fourier Transform converter to obtain frequency offset and sampling time error by applying to it an initial demodulated result generated from a discriminator or a phase differentiator.Type: GrantFiled: June 22, 1995Date of Patent: February 2, 1999Assignee: National Science CouncilInventors: Chia-Chi Huang, Yung-Liang Huang, Kon-Da Fan
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Patent number: 5856998Abstract: A technique for modulating and demodulating continuous phase modulation (CPM) spread spectrum signals and variations thereof. A transmitter encodes M data bits using a selected spread spectrum code, divides the spread spectrum code into a plurality of chip codes (such as even chips and odd chips), independently modulates the even and odd chips with orthogonal carrier signals using CPM or a related technique, and superposes the plurality of resultants for transmission. A receiver receives the superposed spread spectrum signal, divides the spread spectrum signal into duplicate signals, separately demodulates the duplicate signals into an odd chip signal and an even chip signal, simultaneously attempts to correlate the odd chip signal with a locally generated odd chip sequence and the even chip signal with a locally generated even chip sequence, and interleaves the correlation signals into a unified correlation signal.Type: GrantFiled: December 18, 1996Date of Patent: January 5, 1999Assignee: Omnipoint CorporationInventors: Randolph L. Durrant, Mark Burbach
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Patent number: 5848105Abstract: A method and apparatus for separating and removing distortion from interfering co-channel signals and suppressing adjacent-channel interfering signals of the Gaussian Minimum-Shift Keyed (GMSK) or other MSK type with filtering structures that exploit the cyclostationarity of the received GMSK or other MSK signals in order to accommodate a greater number (or the same number, but with greater quality) of transmitted signals received by one or more antennas than can be accommodated by existing filters. The parameters in these filtering structures are adapted by either of two adaptation apparatus that exploit both the known training sequence that is transmitted in most wireless communications systems, and the constant modulus property exhibited by each of the transmitted GMSK or other MSK signals.Type: GrantFiled: October 10, 1996Date of Patent: December 8, 1998Inventors: William A. Gardner, Stephan V. Schell
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Patent number: 5796780Abstract: Coherent modulation schemes for CPM signals. The disclosed schemes avoid the error probability increase due to the differential encoding by using a coherent encoder. A simple demodulator can be implemented by using a Nyquist-3 CPM scheme with coherent encoding. Such a scheme can be demodulated in substantially the same manner as signals modulated using M-PSK.Type: GrantFiled: February 9, 1996Date of Patent: August 18, 1998Assignee: Ericsson Inc.Inventor: Rajaram Ramesh
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Patent number: 5784416Abstract: The disclosed communication unit functions to detect a signal by detecting the zero crossing of a current sample (and prior samples) and determining a sample value for each sample, and to determine an estimated bit value of a previous sample based on upper and lower node metrics. In the preferred embodiment a two-state decoder is used. Using prior sample values, the possible upper and lower node path distance metrics are first determined, then path difference metrics are determined for each node based on the path distance metrics. The difference metrics are then compared against a threshold, preferably zero, to determine the estimated bit value (or which surviving path to use) in decoding a prior sample.Type: GrantFiled: September 29, 1995Date of Patent: July 21, 1998Assignee: Motorola, Inc.Inventors: Gordon Guowen Yang, William Chee-Foon Chong
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Patent number: 5754585Abstract: A technique for modulating and demodulating CPM spread spectrum signals and variations of CPM spread spectrum signals. A transmitter divides a signal data stream into a plurality of data streams (such as I and Q data streams), independently modulates the I and Q data streams using CPM or a related technique, and superposes the plurality of resultants for transmission. A receiver receives the superposed spread spectrum signal and simultaneously attempts to correlate for a plurality of chip sequences (such as I and Q chip sequences), and interleaves the correlated I and Q data streams into a unified signal data stream. In one embodiment, the receiver separates the received spread spectrum signal into real and imaginary parts, attempts to correlate both real and imaginary parts for a plurality of chip sequences, and combines the real I, real Q, imaginary I, and imaginary Q signals into a unified signal data stream.Type: GrantFiled: June 7, 1995Date of Patent: May 19, 1998Assignee: Omnipoint CorporationInventors: Randolph L. Durrant, Mark Burbach
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Patent number: 5727030Abstract: An automatic frequency control circuit comprises an quadrature demodulation unit for creating an in-phase signal and an antiphase signal by quadrature-demodulating a Gaussian Minimum Shiftkeying signal and supplying an electric field strength signal exhibiting an electric field strength of the Gaussian Minimum Shiftkeying signal as well as the created in-phase and antiphase signals; a quality judging unit for judging the quality of the Gaussian Minimum Shiftkeying signal and creating an automatic frequency-controlling data indicating a compensation amount in accordance with the obtained quality signal; a converter for converting into digital signals the in-phase signal, antiphase signal and electric field strength signal supplied from the quadrature demodulation unit and converting the automatic frequency-controlling data into an analog signal; a temperature compensated crystal oscillation circuit for compensating the frequency of the GMSK signal on the basis of the compensation amount indicated by the automaType: GrantFiled: April 5, 1996Date of Patent: March 10, 1998Assignee: NEC CorporationInventor: Toshikazu Miyashita
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Patent number: 5659574Abstract: A technique for demodulating CPM spread spectrum signals and variations thereof. A receiver receives a CPM spread spectrum signal, splits it into two signals, demodulates the signals (either coherently or non-coherently) and simultaneously attempts to correlate for a plurality of chip sequences (e.g., I and Q or even and odd), ultimately combining the results into a unified correlation signal. A plurality of A/D converters quantize the demodulated signals into multi-bit digital signals prior to correlation, and multi-bit correlators operate on the multi-bit digital signals to produce correlation signals that are combined to form a unified correlation signal for detection.Type: GrantFiled: June 7, 1995Date of Patent: August 19, 1997Assignee: Omnipoint CorporationInventors: Randolph L. Durrant, Mark T. Burbach
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Data demodulator employing decision feedback for reference parameter recovery and method used therin
Patent number: 5652541Abstract: A data demodulator operating to recover symbols from a data signal including, an estimator, coupled to the data signal, for estimating a reference parameter, and a decision function that is responsive to the reference parameter and the data signal, for selecting a symbol for a symbol time from a set of predetermined symbols where the symbol is coupled to the estimator for updating the reference parameter when the symbol is representative of the reference parameter.Type: GrantFiled: March 19, 1996Date of Patent: July 29, 1997Assignee: Motorola, Inc.Inventors: Gordon G. Yang, William Chong, David W. Russo -
Patent number: 5633895Abstract: A communication device with a synchronized zero-crossing demodulator is described. A synchronizer system (123, 223, 125, 227) and method derives symbol transition timing information from a zero-crossing detector output. The synchronizer (123, 223) is, in one embodiment, connected to the output of a zero-crossing detector (120, 220), to provide an edge clock signal to a phase angle estimator (122, 226), which is passed to a decision device 124, which provides a symbol estimate which is later decoded into an information message. In an alternative embodiment, a synchronizer is combined with the phase angle estimator (125, 227) to provide as an output, a phase angle estimate which is passed to a decision device (124) which provides a symbol estimate signal (127, 229), which is later decoded to obtain the information message.Type: GrantFiled: August 3, 1995Date of Patent: May 27, 1997Assignee: Motorola, Inc.Inventors: Clinton C. Powell, II, Edward K. B. Lee, Hyuck M. Kwon
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Patent number: 5629956Abstract: A technique for modulating and demodulating continuous phase modulation (CPM) spread spectrum signals and variations thereof. A transmitter encodes M data bits using a selected spread spectrum code, divides the spread spectrum code into a plurality of chip codes (such as even chips and odd chips), independently modulates the even and odd chips with orthogonal carrier signals using CPM or a related technique, and superposes the plurality of resultants for transmission. A receiver receives the superposed spread spectrum signal and divides it into a real signal and an imaginary signal. The real signal is connected to a first correlator which divides its input into a real I signal and a real Q signal, serially correlates the real I signal with the odd chips of a chip code and the real Q signal with the even chips of the chip code, and combines the correlation signals into a real correlation signal.Type: GrantFiled: June 7, 1995Date of Patent: May 13, 1997Assignee: Omnipoint CorporationInventors: Randolph L. Durrant, Mark Burbach
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Patent number: 5602877Abstract: A radio communication device (100) for recovering information from a received signal includes a demodulator (110) for demodulating the received signal into in-phase (I) and quadrature (Q) components and a multiplier (115) for multiplying the I and Q components together to generate a multiplied waveform. A polarity detector (125) coupled to the multiplier (115) determines from the multiplied waveform a polarity variable indicative of a data symbol, and a processor (135) recovers the information from the received signal in accordance with the data symbol.Type: GrantFiled: August 28, 1995Date of Patent: February 11, 1997Assignee: Motorola, Inc.Inventors: Joseph Boccuzzi, Clinton C. Powell, II
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Patent number: 5592514Abstract: The invention provides a method of performing signal reconstruction at the receiving end of a communications system that uses a discrete channel estimate of the communications channel for the communications system. The discrete channel estimate is obtained from received discrete signal samples, which have N discrete channel tap components, where N is a positive integer. One method includes the steps of: reconstructing a first discrete signal using N of the discrete channel tap components of the discrete estimate of the communications channel; and reconstructing a second discrete signal using the first reconstructed discrete signal and one of the N discrete channel tap components. Another method includes the steps of: reconstructing a first discrete signal using N of the discrete channel tap components of the discrete estimate of the communications channel; and reconstructing a second discrete signal from the first reconstructed discrete signal by complementing the first reconstructed discrete signal.Type: GrantFiled: March 8, 1995Date of Patent: January 7, 1997Assignee: Lucent Technologies Inc.Inventor: Mohammad S. Mobin
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Patent number: 5583890Abstract: A method and corresponding apparatus for error correction of MSK-coded data receives a signal (101) partitionable into adjacent frames (111,113) each subdividable into three tridents (103, 105, 107). A first sample quality metric (225) applicable to a p (123) of the signal (101) associated with a last trident (107) of the tridents of a first frame (111) of the adjacent frames (111, 113) is synthesized, and a second sample quality metric (227) applicable to a portion (125) of the signal (101) associated with a first trident (103') of the tridents of a second frame (113) following the first frame (111) is synthesized. Each of the first and second sample quality metrics (225, 227) have a magnitude dependent on a time that the associated portion (123) of the signal (101) has a magnitude exceeding an average magnitude (127) of the signal (101).Type: GrantFiled: September 19, 1994Date of Patent: December 10, 1996Assignee: Motorola, Inc.Inventor: Steven D. Bromley
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Patent number: 5557643Abstract: An AFC system and method of detecting and compensating frequency drift in the carrier frequency of a Gaussian filtered Minimum Shift Keying (GMSK) signal by demodulated frequency compensated samples of the received signal and calculating a frequency compensation angle based upon the demodulated frequency compensation samples. The compensation angle is fed back to the frequency compensator and error detector and used to calculate the error signal.Type: GrantFiled: April 7, 1995Date of Patent: September 17, 1996Assignee: Hughes ElectronicsInventors: In-Kyung Kim, Zhendong Cao
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Patent number: 5514998Abstract: A decision feedback multiple symbol differential demodulator for Gaussian filtered Minimum Shift Keying (GMSK) has a performance very close to theoretical limit even under a fading channel. The demodulator implements a non-coherent, maximum likelihood (ML) search over multiple bit-time intervals. The past bit decisions are fed back to the ML decision logic. The improved performance of the demodulator is achieved by using old decisions in the ML decision logic.Type: GrantFiled: January 27, 1994Date of Patent: May 7, 1996Assignee: Hughes Aircraft CompanyInventor: Youngky Kim
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Patent number: 5459762Abstract: A variable multi-threshold detection circuit for a sampled baseband signal in the receiver of a communication system using GMSK modulation is disclosed. The circuit comprises an integrate/dump circuit for accumulating a predetermined number of samples of the baseband signal to generate a sum for a present bit, a level selector for selecting a threshold from a plurality of groups of multi-thresholds based on an estimated phase offset and the binary value of two previous bits, a compare circuit for comparing the sum from the integrate/dump circuit with the threshold selected from the level selector to generate a binary value of either one of "0" or "1" for the present bit, and a delay circuit for delaying the present bit to be used by the level selector to determine a next threshold for a next bit.Type: GrantFiled: September 16, 1994Date of Patent: October 17, 1995Assignee: Rockwell International CorporationInventors: Jiangzhou Wang, Ker Zhang
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Patent number: 5450446Abstract: The demodulator for digital modulation signals comprises a frequency detection device, an integral discharge filter, a summing device, a discrimination device, and a noise-compensating signal generation device. The frequency detection device outputs frequency detection signals by detecting frequencies of the digital modulation signals. The integral discharge filter outputs phase deviation signals by integrating the frequency detection signals for a given interval. The feedback summing device outputs compensated phase deviation signals to the discrimination device by feeding back the noise-compensating signals from the noise-compensating signal generation device to phase deviation signals from the integral discharge filter. The discrimination device outputs demodulation data by discriminating the deviation of the digital modulation signals based on the compensated phase deviation signals.Type: GrantFiled: August 4, 1994Date of Patent: September 12, 1995Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Koichiro Tanaka, Toshikazu Nezu
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Patent number: 5448594Abstract: A one-bit differential detector for a GMSK signal operates independently of an offset frequency. In particular, a decision signal used by a decision circuit to distinguish between logic "0" and logic "1" is always equal to sin[.DELTA..phi.(T)]. The inventive detector has an improved bit error rate performance in comparison to the prior art.Type: GrantFiled: January 21, 1993Date of Patent: September 5, 1995Assignee: Industrial Technology Research InstituteInventors: Yung-Liang Huang, Chung H. Lu, Ji-Shang Yu, June-Dan Shih
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Patent number: 5444415Abstract: In the modulation and demodulation of a plurality of frequency separated channels on a radio frequency carrier by digitally coded speech or data, the speech or data is modulated on a digitally generated sub-carrier by quadrature phase shift keying and after conversion to analogue form the modulated sub-carrier is mixed with an RF carrier of fixed frequency to produce the signal for transmission. Reception and demodulation of the transmitted signal are effected by the reverse processes. Frequency multiplication is effected after the digital to analogue conversion by producing analogue samples of very short duration and applying them to a suitable filter. Frequency division during the analogue to digital conversion is effected by sub-sampling.Type: GrantFiled: March 1, 1994Date of Patent: August 22, 1995Assignee: Texas Instruments IncorporatedInventors: Peter Dent, Martin Greenwood
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Patent number: 5425058Abstract: An MSK receiver includes a downconverter for downconverting the received MSK signals. The phase drift or phase error per bit of the message preamble is determined. The reference carriers are generated, and the phase of the reference signals is adjusted during message demodulation under the control of the estimated rate of phase change across the preamble portion. In accordance with another aspect of the invention, the downconverted MSK signal burst is digitized and the digitized burst signal is stored in memory, following which it is read repeatedly so that bit timing, start-of-message timing, carrier phase, and carrier drift processing may be performed in a desired sequence, using all the available information for more accurate demodulation. According to a yet further aspect of the invention, a second order tracking loop is used to adjust the phase of the demodulation reference signals.Type: GrantFiled: July 28, 1993Date of Patent: June 13, 1995Assignee: Martin Marietta CorporationInventor: Shou Y. Mui