DNA, blood, heart, glucose, body temperature, skin and other medical diagnostic communications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-001/69
A61B-005/00
G06F-019/00
H04W-064/00
H04W-088/06
출원번호
US-0025683
(2013-09-12)
등록번호
US-9173566
(2015-11-03)
발명자
/ 주소
Feher, Kamilo
출원인 / 주소
Feher, Kamilo
인용정보
피인용 횟수 :
12인용 특허 :
248
초록▼
Medical diagnostic and digital communication methods for processing in a mobile device a DNA, or blood, or heart or glucose, or body temperature or skin, or urine, or another medical device provided signal into a processed signal. Providing processed medical signals to a Code Division Multiple Acces
Medical diagnostic and digital communication methods for processing in a mobile device a DNA, or blood, or heart or glucose, or body temperature or skin, or urine, or another medical device provided signal into a processed signal. Providing processed medical signals to a Code Division Multiple Access (CDMA) processor or to a Orthogonal Frequency Orthogonal Frequency Division Multiplex (OFDM) processor for processing, modulation and transmission of mobile device modulated signals in a wireless system. Processing a touch screen generated signal in mobile device into a touch screen processed signal for control of mobile device. Digital communications to and from a heart pacemaker for wireless mobile diagnostics and control of heart pacemaker.
대표청구항▼
1. A diagnostic and communication method comprising steps of: receiving in a mobile device a received DNA, or blood, or heart, or glucose, or body temperature or skin, or urine, or stool, or a medical device originated or provided signal for connecting said received signal to a Code Division Multipl
1. A diagnostic and communication method comprising steps of: receiving in a mobile device a received DNA, or blood, or heart, or glucose, or body temperature or skin, or urine, or stool, or a medical device originated or provided signal for connecting said received signal to a Code Division Multiple Access (CDMA) processor and to a Orthogonal Frequency Orthogonal Frequency Division Multiplex (OFDM) processor for processing said received signal into a processed CDMA signal and into a processed OFDM signal, said CDMA signal comprises in-phase and quadrature-phase cross-correlated baseband signals and said baseband signals are processed and filtered into Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals;modulating said processed CDMA signal into a modulated CDMA signal or modulating said processed OFDM signal into a modulated OFDM signal;connecting said, modulated CDMA signal or said modulated OFDM signal to one or more transmitters and transmitting said modulated CDMA signal or said modulated OFDM signal in said one or more transmitters; andprocessing a touch screen generated signal in said mobile device into a touch screen processed signal, said touch screen processed signal is used for control of said transmitting, said modulated CDMA signal or said modulated OFDM signal. 2. The method of claim 1, further comprising method of cross-correlating and filtering in a cross-correlator and in a transmit baseband filter said processed CDMA, signal into in-phase and quadrature-phase baseband cross-correlated filtered signal and a receiver and demodulator for receiving and demodulating a modulated signal, wherein said receiver and demodulator comprises an antenna for receiving said modulated signal and a receive baseband filter for receiving and filtering the demodulated signal, and for providing cross-correlated in-phase and quadrature-phase filtered baseband signals wherein said receive baseband filter is mis-matched to said transmit baseband filter. 3. The method of claim 1, further comprising, a first amplifier operated in a first radio frequency (RF) band in a linearly amplified (LINA) mode and a second amplifier operated in a second radio frequency (RF) band, wherein the second RF band is different from the first RF band and said second amplifier is operated in a LINA mode, for amplification of said modulated CDMA signal or of said modulated OFDM signal and said mobile device comprises a method for fingerprint authentication of said mobile device and said mobile device further comprises a telemetry transmitter and telemetry receiver for transmission and reception of signals, wherein said telemetry signals are used by an authorized physician or other authorized medical or health or emergency service provider to monitor and control operation of an implantable cardiac stimulation device and said mobile device is used in telematics. 4. The method of claim 1, further comprising a processor for receiving and processing multiple signals received from multiple locations and for generating from said received signals a processed position finder signal and for providing said processed position finder signal to said one or more modulators for signal modulation and transmission. 5. The method of claim 1, further comprising a first cross-correlator and a transmit baseband filter for generating cross-correlated in-phase and quadrature-phase processed filtered baseband signals, a processor, comprising a spread spectrum processor and a second cross-correlator, for generating cross-correlated in-phase and quadrature-phase processed spread spectrum signals. 6. The method of claim 1, further comprising a first cross-correlator and a transmit baseband filter for generating cross-correlated Time Division Multiple Access (TDMA) baseband signals used in Global Mobile System (GSM) systems. 7. The method of claim 1, wherein said mobile device further comprises a telemetry transmitter and telemetry receiver for transmission and reception of signals, wherein said telemetry signals are used by an authorized physician or other authorized health or emergency service provider to monitor or control operation of an implantable cardiac stimulation device and said mobile device is used in telematics and said mobile device comprises a method for fingerprint authentication of said mobile device. 8. A medical digital communication method comprising steps of: processing, in a mobile device, signals received from one or more medical diagnostic devices into processed signals;processing said processed signals into a digital first bit, rate signal;processing said processed signals into a digital second bit rate signal;processing and modulating said second bit rate signal into a OFDM processed and modulated signal in a processor and a modulator;processing, filtering and modulating said first bit rate signal in a cross-correlator, transmit baseband filter and a modulator into cross-correlated in-phase and quadrature-phase processed filtered baseband signal;processing in a processor a touch screen generated signal into a touch screen generated control signal, said touch screen generated control signal is used for control of said, mobile device; andsaid mobile device comprises a method for fingerprint authentication of said mobile device. 9. The method of claim 8, further comprising the step of receiving, demodulating and processing in said mobile device a Global Positioning System (GPS) location finding signal into a processed GPS signal and processing and transmitting said processed GPS signal and said mobile device further comprises a telemetry transmitter and telemetry receiver for transmission and reception of signals, wherein said telemetry signals are used by an authorized physician or other authorized medical or health or emergency service provider to monitor and control operation of an implantable cardiac stimulation device and said mobile device is used in telematics. 10. A medical digital communication method comprising steps of: processing, in a mobile device, signals received from one or more medical diagnostic devices into processed signals;processing said processed signals into a digital first bit rate signal, said first bit rate signal is a Code Division Multiple Access (CDMA) signal and comprises in-phase and quadrature-phase cross-correlated baseband signals and said baseband signals are processed and filtered into Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals;or processing said processed signals into a digital second bit rate signal for processing and modulating said second bit rate signal into a OFDM processed and modulated signal;or processing, filtering and modulating said first bit rate signal in a cross-correlator and a transmit baseband filter into cross-correlated in-phase and quadrature-phase processed filtered baseband signal; andprocessing in a processor a touch screen generated signal into a touch screen generated control signal, said touch screen generated control signal is used for control of said mobile device. 11. The method of claim 8, wherein said mobile device comprises a fingerprint sensor for fingerprint authentication of a user of said mobile device and a processor for processing Radio Frequency Identification Detection (RFID) signals. 12. A medical digital communication method comprising steps of: processing, in a mobile device, signals received from one or more medical diagnostic devices into processed signals;processing said processed signals into a digital first bit rate signal, said first bit rate signal is a Time Division Multiple Access (TDMA) signal and comprises in-phase and quadrature-phase baseband signals and said baseband signals are processed into cross-correlated and filtered Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals;or processing said processed signals into a digital second bit rate signal for processing and modulating said first bit rate signal into a OFDM processed and modulated signal;or processing, filtering and modulating said first bit rate signal in a cross-correlator and a transmit baseband filter into cross-correlated in-phase and quadrature-phase processed filtered baseband signal;processing in a processor a touch screen generated signal into a touch screen generated control signal, said touch screen generated control signal is used for control of said mobile device; andprocessing in said mobile device a fingerprint generated signal for fingerprint authentication of said mobile device. 13. A diagnostic and communication method comprising steps of: receiving in a mobile device a received DNA, or blood, or heart or glucose, or body temperature or skin, or urine, or stool, or a medical device originated signal and providing said received signal to a spread spectrum processor for processing said signal into a processed spread spectrum signal;providing said received signal to a Gaussian Minimum Shift Keying (GMSK) baseband processor for processing said received signal into a processed GMSK baseband said processed GMSK signal comprises cross-correlated and filtered Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals;modulating said processed spread spectrum signal into a modulated spread spectrum signal;modulating said processed GMSK signal into a modulated GMSK signal;connecting said modulated spread spectrum signal or said modulated GMSK signal to a transmitter for transmitting said modulated spread spectrum signal; andprocessing a touch screen generated signal in said mobile device into a touch screen processed signal, said touch screen processed signal is used for control of said transmitting, said modulated spread spectrum signal and of said modulated GMSK signal. 14. The method of claim 13, wherein said mobile device further comprises a telemetry transmitter and telemetry receiver for transmission and reception of signals, wherein said telemetry signals are used by an authorized physician or other authorized medical or health or emergency service provider to monitor and control operation of an implantable cardiac stimulation device and said mobile device is used in telematics. 15. The method of claim 13, wherein said processed spread spectrum signal is a Code Division Multiple Access (CDMA) signal and comprises in-phase and quadrature-phase cross-correlated baseband signals and said baseband signals are processed and filtered into Time Constrained (TCS) waveforms and cascaded Long Response (LR) filter filtered signals and further comprising in said mobile device a processor a modulator and transmitter for processing said processed signal into an OFDM processed signal and modulating in said modulator said processed OFDM signal into a modulated OFDM signal and providing said modulated OFDM signal to said transmitter for transmission and further comprising a fingerprint sensor for fingerprint authentication of a user of said mobile device. 16. The method of claim 13, further comprising the step of receiving, demodulating and processing in said mobile device a Global Positioning System (GPS) location finding signal into a processed GPS signal and processing and transmitting said processed GPS signal and said mobile device comprises a fingerprint sensor for fingerprint authentication of a user of said mobile device. 17. The method of claim 13, wherein said GMSK modulated signal is used in a Global Mobile System (GSM) system. 18. The method of claim 13, wherein said mobile device further comprises a telemetry transmitter and telemetry receiver for transmission and reception of signals, wherein said telemetry signals are used by an authorized physician or other authorized medical or health or emergency service provider to monitor and control operation of an implantable cardiac stimulation device and said mobile device is used in telematics.
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Lee,Yong Suk; Kim,Sung Jin; Lee,Jong Hyeuk; Park,Sang Hwan; Kim,Hun Kee, Apparatus and method for transmitting and receiving data using an antenna array in a mobile communication system.
Yang, Yongwen; Moy, Carol; DiVincenzo, Christine, Apparatus, methods and articles of manufacture for signal correction using adaptive phase re-alignment.
Lehman Brian James,CAX ; Morris Bradley John,CAX ; Monette Gilles,CAX ; Geddes Blaine,CAX, Common digitizing rate for multiple air interfaces for generic cell sites in cellular radio.
Thro, Stuart Wells; Labun, Nicholas M.; Pan, Shaowei; Sawinski, John P; Dorenbosch, Jheroen, Communication services through multiple service providers.
Richard K. Snelling ; P. Stuckey McIntosh ; John C. W. Taylor ; Mark Tucker, Communications webs with personal communications links for PSTN subscribers.
Perrott Michael H. ; Sodini Charles G. ; Chandrakasan Anantha P., Digital compensation for wideband modulation of a phase locked loop frequency synthesizer.
Boesch, Ronald D.; Arpaia, Domenico, Dual-mode modulation systems and methods including oversampling of narrow bandwidth signals and DC offset compensation.
Feher Kamilo (El Macero CA) Wu Kuang-Tsan (Burnaby CA CAX) Huang John C. Y. (Palo Alto CA) MacNally Donald E. (Campbell CA), Efficiency data transmission technique.
Sommer Naftali,ILX ; Shalvi Ofir,ILX ; Segal Mordechai,ILX, High stability fast tracking adaptive equalizer for use with time varying communication channels.
Luis Perez-Breva ES; Chee-Yee Chong ; Robert M. Dressler ; Padmanabha R. Rao ; Paolo Siccardo ; David S. Spain, Location determination using RF fingerprinting.
McZeal, Jr., Alfred, MULTIFUNCTIONAL WORLD WIDE WALKIE TALKIE, A TRI-FREQUENCY CELLULAR-SATELLITE WIRELESS INSTANT MESSENGER COMPUTER AND NETWORK FOR ESTABLISHING GLOBAL WIRELESS VOLP QUALITY OF SERVICE (QOS) COMMUNICATI.
Sheynblat,Leonid; Wrappe,Thomas, Method and apparatus for determining location of a base station using a plurality of mobile stations in a wireless mobile network.
Kyrtsos Christos T. (Peoria IL) Gudat Adam J. (Edelstein IL) Friedrich Douglas W. (Pekin IL), Method and apparatus for determining vehicle position using a satellite based navigation system.
Padovani, Roberto; Bender, Paul E.; Black, Peter J.; Grob, Matthew S.; Hinderling, Jurg K.; Sindhushayana, Nagabhushana T.; Wheatley, III, Charles E., Method and apparatus for high rate packet data transmission.
Harris,John M.; Jayapalan,Jay; Kay,John C.; Kelley,Sean S., Method and apparatus for providing deferrable data services in a cellular communication system.
Hershey, John E.; Harrison, Daniel D.; Grabb, Mark L.; Welles, Kenneth B.; Nestler, Douglas G., Method and apparatus for steganographic embedding of meta-data.
Omura Jimmy K. (Cupertino CA) Avidor Dan (Sunnyvale CA) Heising Mark (Palo Alto CA), Method and apparatus for the modulation of spread spectrum radio signals.
Meissner ; deceased Holger (late of Munich DEX by Ursula Meissner ; heir and legal representative) Stoerzbach Werner (Martinsried DEX), Method and arrangement for transmitting data between a central data station and a plurality of data terminals in a local.
Alamouti Siavash ; Casas Eduardo F.,CAX ; Hirano Michael ; Hoole Elliott ; Jesse Mary ; Michelson David G.,CAX ; Poon Patrick ; Veintimilla Gregory J. ; Zhang Hongliang, Method for frequency division duplex communications.
Moy,Carol; DiVincenzo,Christine; Carey,Eoin; Jaeger,Herbert; Servilio,Robert, Methods and apparatus for signal modification in a fractional-N phase locked loop system.
McNamara Robert P. (San Jose CA) Murphy Timothy P. (Mountain View CA) Long James C. (Sunnyvale CA), Modulation and demodulation system employing AM-PSK and QPSK communication system using digital signals.
Black Gregory R. (Vernon Hills IL) Hietala Alexander W. (Cary IL), Power amplifier having nested amplitude modulation controller and phase modulation controller.
Shingal, Tonmoy; Srinivasan, Chakravarthy; Karantha, Shankaranarayana, Processes, circuits, devices, and systems for encryption and decryption and other purposes, and processes of making.
Wang Yi-Pin Eric ; Hassan Amer ; Reinhold Stanley L. ; Massingill Larry W., Spread spectrum random access systems and methods for time division multiple access radiotelephone communication systems.
Gilhousen Klein S. (San Diego CA) Jacobs Irwin M. (La Jolla CA) Padovani Roberto (San Diego CA) Weaver ; Jr. Lindsay A. (San Diego CA) Wheatley ; III Charles E. (Del Mar CA) Viterbi Andrew J. (La Jol, System and method for generating signal waveforms in a CDMA cellular telephone system.
Gilhousen Klein S. ; Jacobs Irwin M. ; Padovani Roberto ; Weaver ; Jr. Lindsay A. ; Wheatley ; III Charles E. ; Viterbi Andrew J., System and method for generating signal waveforms in a CDMA cellular telephone system.
Feher, Kamilo, System and method for interoperable multiple-standard modulation and code selectable Feher's GMSK, enhanced GSM, CSMA, TDMA, OFDM, and third-generation CDMA, W-CDMA and B-CDMA.
de Jager Frank (Eindhoven NLX) Dekker Cornelis B. (Eindhoven NLX) Muilwijk Dirk (Hilversum NLX), System for data transmission by means of an angle-modulated carrier of constant amplitude.
Pavlak, Thomas; Anderson, Arlen; Carisch, James; Ackerman, Michael A., Systems and methods for delivering feed rations to feedbunks using a global positioning system.
Elsey, Nicholas J.; Samudio, Michael T.; Timmins, Timothy A., Technique for effectively providing concierge-like services in a directory assistance system.
Schrader,Marc; Lochau,Mirko; Harms,Lars; Hentati,Nabil, Transmitter for transmitting signals over radio channels and method for transmitting signals over radio channels.
Simon Marvin K. (La Canada CA) Divasalar Dariush (Pacific Palisades CA), Trellis coded modulation for transmission over fading mobile satellite channel.
Dabak,Anand G.; Sriram,Sundararajan; Hosur,Srinath, Wireless communications system with secondary synchronization code based on values in primary synchronization code.
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