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Method and apparatus for receiving a plurality of time spaced signals

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • H03K-009/00
출원번호 US-0879198 (2001-06-13)
발명자 / 주소
  • Cowie, Ivan A.
  • Roberts, Mark D.
출원인 / 주소
  • Time Domain Corporation
대리인 / 주소
    Venable LLP
인용정보 피인용 횟수 : 115  인용 특허 : 22

초록

A method and system for receiving time spaced signals transmitted in accordance with a time layout is provided. The time spaced signals may be pulses or bursts. The time spaced signals convey at least one intelligence signal. The time spaced signals are received at an antenna. Once received, the tim

대표청구항

A method and system for receiving time spaced signals transmitted in accordance with a time layout is provided. The time spaced signals may be pulses or bursts. The time spaced signals convey at least one intelligence signal. The time spaced signals are received at an antenna. Once received, the tim

이 특허에 인용된 특허 (22)

  1. Davarian Faramaz (Los Angeles CA), Antimultipath communication by injecting tone into null in signal spectrum.
  2. Barnes Mark A. ; Fullerton Larry W., Chiral and dual polarization techniques for an ultra-wide band communication system.
  3. Ashe Jeffrey Michael ; Nevin Robert Leland ; Silverstein Seth David ; Xu Guanghan, Coherent detection architecture for remote calibration of coherent systems using direct sequence spread spectrum transm.
  4. Furuno Kenichi (Amagasaki JPX), Control device for power amplifier.
  5. Fullerton Larry W., Fast locking mechanism for channelized ultrawide-band communications.
  6. Fullerton Larry W. (Huntsville AL), Full duplex ultrawide-band communication system and method.
  7. Fenner David K. (Columbia MD), Method and system for the sequential adaptive deterministic calibration of active phased arrays.
  8. Richards James L. ; Jett Preston ; Fullerton Larry W. ; Larson Lawrence E. ; Rowe David A., Precision timing generator system and method.
  9. McCorkle John W., Random number generator for jittered pulse repetition interval radar systems.
  10. Gilhousen Klein S. (San Diego CA) Jacobs Irwin M. (La Jolla CA) Weaver ; Jr. Lindsay A. (San Diego CA), Spread spectrum multiple access communication system using satellite or terrestrial repeaters.
  11. Fullerton Larry W. (Huntsville AL), Spread spectrum radio transmission system.
  12. Chiu Chen-Shu (Placentia CA), Synchronization preamble correlation detector and frequency estimator.
  13. Richards James L. ; Fullerton Larry W. ; Meigs David C. ; Stanley Randall S. ; Cowie Ivan A., System and method for distance measurement by inphase and quadrature signals in a radio system.
  14. Fullerton Larry W. ; Richards James L. ; Cowie Ivan A., System and method for position determination by impulse radio.
  15. Fullerton Larry W., Time domain radio transmission system.
  16. Fullerton Larry W. (Huntsville AL), Time domain radio transmission system.
  17. Fullerton Larry W. (Huntsville AL), Time domain radio transmission system.
  18. Fullerton Larry W. (Huntsville AL), Time domain radio transmission system.
  19. McEwan Thomas E. (Livermore CA), Ultra-wideband receiver.
  20. Barrett Terence W. (1453 Beulah Rd. Vienna VA 22182), Ultrafast time hopping CDMA-RF communications: code-as-carrier, multichannel operation, high data rate operation and dat.
  21. Fullerton Larry W. (Huntsville AL) Cowie Ivan A. (Madison AL), Ultrawide-band communication system and method.
  22. Fullerton Larry W. ; Cowie Ivan A., Ultrawide-band communication system and method.

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  1. Lee, Chong U.; Ekbal, Amal; Julian, David Jonathan; Shi, Jun, AGC for slicer-based low power demodulator.
  2. Lee, Chong U; Julian, David Jonathan; Garudadri, Harinath; Majumdar, Somdeb, Adaptive Dynamic Range Control.
  3. Molisch, Andreas F.; Orlik, Philip, Adaptive frame durations for time-hopped impulse radio systems.
  4. Molisch,Andreas F., Adaptive frame durations for time-hopped impulse radio systems.
  5. Ching, Michael; Woo, Steven, Adaptive-allocation of I/O bandwidth using a configurable interconnect topology.
  6. Ching,Michael; Woo,Steven, Adaptive-allocation of I/O bandwidth using a configurable interconnect topology.
  7. Jia, Zhanfeng; Julian, David Jonathan, Addressing schemes for wireless communication.
  8. Jia, Zhanfeng; Julian, David Jonathan, Addressing schemes for wireless communication.
  9. Fagg, Russell John, Apparatus and method for generating fine timing from coarse timing source.
  10. Fagg, Russell John, Apparatus and method for modulating an amplitude, phase or both of a periodic signal on a per cycle basis.
  11. Fagg, Russell John, Apparatus and method for modulating an amplitude, phase or both of a periodic signal on a per cycle basis.
  12. Julian, David Jonathan; Ekbal, Amal; Lee, Chong U.; Ulupinar, Fatih, Apparatus and method of low latency multi-hop communication.
  13. Mohammadian, Alireza Hormoz, Apparatus including housing incorporating a radiating element of an antenna.
  14. Jia, Zhanfeng; Ekbal, Amal; Julian, David Jonathan; Ulupinar, Fatih, Channel access scheme for ultra-wide band communication.
  15. Miller,Timothy R., Circuit and method for rake training during acquisition.
  16. Ware, Frederick A.; Perego, Richard E.; Hampel, Craig E., Communication channel calibration for drift conditions.
  17. Ware, Frederick A.; Perego, Richard E.; Hampel, Craig E., Communication channel calibration for drift conditions.
  18. Ware, Frederick A.; Perego, Richard E.; Hampel, Craig E., Communication channel calibration for drift conditions.
  19. Ware, Frederick A.; Perego, Richard E.; Hampel, Craig E., Communication channel calibration for drift conditions.
  20. Ware, Frederick A.; Perego, Richard E.; Hampel, Craig E., Communication channel calibration for drift conditions.
  21. Ware, Frederick A.; Perego, Richard E; Hampel, Craig E., Communication channel calibration for drift conditions.
  22. Ware,Frederick A.; Perego,Richard E.; Hampel,Craig E., Communication channel calibration for drift conditions.
  23. Ware,Frederick A.; Perego,Richard E; Hampel,Craig E, Communication channel calibration for drift conditions.
  24. Kim, Jun; Richardson, Wayne S.; Chiu, Glenn, Communication channel calibration using feedback.
  25. Kim, Jun; Richardson, Wayne S.; Chiu, Glenn, Communication channel calibration using feedback.
  26. Kim, Jun; Richardson, Wayne S.; Chiu, Glenn, Communication channel calibration using feedback.
  27. Kim, Jun; Richardson, Wayne S.; Chiu, Glenn, Communication channel calibration using feedback.
  28. Yeung, Philip; Perego, Richard E; Best, Scott C, Communication channel calibration with nonvolatile parameter store for recovery.
  29. Yeung, Philip; Perego, Richard E; Best, Scott C, Communication channel calibration with nonvolatile parameter store for recovery.
  30. Petzold,Karen E.; Smith,Stephen C., Cross-correlation signal detector.
  31. Lee, Chong U.; Julian, David Jonathan; Ekbal, Amal, Delay line calibration.
  32. Lee, Chong U.; Julian, David Jonathan; Ekbal, Amal, Delay line calibration.
  33. Lee, Chong U.; Julian, David Jonathan; Ekbal, Amal, Delay line calibration.
  34. Shi, Jun; Julian, David Jonathan; Ekbal, Amal, Determination of receive data values.
  35. Sherman, Neil S., Direct memory access (DMA) controlled medical devices.
  36. Sherman, Neil S., Direct memory access (DMA) controlled stimulation.
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  38. Agrawal, Avneesh; Lee, Chong U.; Moallemi, Kamran; Julian, David Jonathan; Jaime, Manuel E.; Douglas, Robert Keith; Rose, Gregory Gordon; Xiao, Lu, Distance-based association.
  39. Julian, David Jonathan; Lee, Chong U.; Moallemi, Kamran; Agrawal, Avneesh; Jaime, Manuel E.; Douglas, Robert Keith; Xiao, Lu; Rose, Gregory Gordon, Distance-based presence management.
  40. Best, Scott C.; Abhyankar, Abhijit M.; Chang, Kun Yung; Lambrecht, Frank, Drift tracking feedback for communication channels.
  41. Best, Scott C.; Abhyankar, Abhijit M.; Chang, Kun-Yung; Lambrecht, Frank, Drift tracking feedback for communication channels.
  42. Best, Scott C.; Abhyankar, Abhijit M.; Chang, Kun-Yung; Lambrecht, Frank, Drift tracking feedback for communication channels.
  43. Best, Scott C.; Abhyankar, Abhijit Mukun; Chang, Kun Yung; Lambrecht, Frank, Drift tracking feedback for communication channels.
  44. Best, Scott C; Abhyankar, Abhijit M; Chang, Kun-Yung; Lambrecht, Frank, Drift tracking feedback for communication channels.
  45. Bar Ness,Yeheskel; Diaz,Jordi, Dynamic differentiated link adaptation for ultra-wideband communication system.
  46. Moallemi, Kamran; Ekbal, Amal; Lee, Chong U.; Julian, David Jonathan; Jaime, Manuel E.; Jia, Zhanfeng, Dynamic distribution of device functionality and resource management.
  47. Rajan, Rajeev D.; Moallemi, Kamran; Koenig, Michal James; Michaelis, Oliver; Jacobs, Paul E.; Dos Santos, Jose Ricardo; Vo, Dang Minh, Dynamic electronic coupon for a mobile environment.
  48. Rajan, Rajeev D.; Moallemi, Kamran; Koenig, Michal; Michaelis, Oliver; Jacobs, Paul E.; Dos Santos, Jose Ricardo Goncalves Leal; Vo, Dang Minh, Dynamic electronic coupon for a mobile environment.
  49. Kennedy, Philip T.; Gerke, Joseph A.; Snyder, David M.; Stanford, Jon G.; Song, Xuejie; Probst, Gregory P., High bandwidth data transport system.
  50. Kennedy, Philip T.; Gerke, Joseph A.; Snyder, David M.; Stanford, Jon G.; Song, Xuejie; Probst, Gregory P., High bandwidth data transport system.
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  57. Rajan, Rajeev D.; Moallemi, Kamran; Koenig, Michal James; Michaelis, Oliver; Jacobs, Paul E.; Dos Santos, Jose Ricardo, Management of dynamic electronic coupons.
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  60. Shi, Jun, Method and apparatus for clock drift compensation during acquisition in a wireless communication system.
  61. Dally, William J, Method and apparatus for data recovery.
  62. Dally,William J, Method and apparatus for data recovery.
  63. Rogerson, Gerald D.; Furuno, David S.; Gehring, Stephan W.; Walker, Michael L.; Aiello, Roberto, Method and apparatus for data transfer using a time division multiple frequency scheme supplemented with polarity modulation.
  64. Fagg, Russell John; Wheatley, III, Charles E., Method and apparatus for generating oscillating signals.
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  67. Kohno, Ryuji, Method of generating pulse waveform.
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  69. Lee, Chong U.; Ekbal, Amal; Julian, David Jonathan; Moallemi, Kamran, Methods and apparatuses of initiating communication in wireless networks.
  70. Jia, Zhanfeng; Julian, David Jonathan; Lee, Chong U., Multi-level duty cycling.
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  72. Ekbal, Amal; Lee, Chong U.; Julian, David Jonathan, Multiple access techniques for a wireless communiation medium.
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  77. Woods, Gregory K.; Ganapathy, Chinnappa K.; Dolter, James William; Bica, Vito R.; Grubb, Jared S., Optimized transfer of packets in a resource constrained operating environment.
  78. Hampel, Craig E.; Ware, Frederick A.; Perego, Richard E., Periodic calibration for communication channels by drift tracking.
  79. Hampel, Craig E.; Ware, Frederick A.; Perego, Richard E., Periodic calibration for communication channels by drift tracking.
  80. Hampel, Craig E.; Ware, Frederick A.; Perego, Richard E., Periodic calibration for communication channels by drift tracking.
  81. Hampel, Craig E.; Ware, Frederick A.; Perego, Richard E., Periodic calibration for communication channels by drift tracking.
  82. Hampel,Craig E.; Ware,Frederick A.; Perego,Richard E., Periodic calibration for communication channels by drift tracking.
  83. Hampel,Craig E; Ware,Frederick A.; Perego,Richard E, Periodic calibration for communication channels by drift tracking.
  84. Kizer,Jade M., Periodic interface calibration for high speed communication.
  85. Jia, Zhanfeng; Julian, David Jonathan; Ekbal, Amal, Preamble capture and medium access control.
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  87. Julian, David Jonathan; Jia, Zhanfeng, Randomization of periodic channel scans.
  88. Maravic, Irena; Vetterli, Martin; Kusuma, Julius, Sampling method for a spread spectrum communication system.
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  90. Vetterli, Martin; Marziliano, Pina; Blu, Thierry, Sampling method, reconstruction method, and device for sampling and/or reconstructing signals.
  91. Vetterli, Martin; Marziliano, Pina; Blu, Thierry, Sampling method, reconstruction method, and device for sampling and/or reconstructing signals.
  92. Dowla, Farid U.; Nekoogar, Franak; Spiridon, Alex, Self organization of wireless sensor networks using ultra-wideband radios.
  93. Lee, Chong U.; Julian, David Jonathan; Ekbal, Amal; Monat, Pavel; Xiong, Wei, Signal generator with adjustable frequency.
  94. Lee, Chong U.; Julian, David Jonathan; Ekbal, Amal; Monat, Pavel; Xiong, Wei, Signal generator with adjustable phase.
  95. Lundby,Stein A.; Tiedemann, Jr.,Edward G.; Holtzman,Jack M.; Terasawa,Daisuke, Signal splitting method for limiting peak power in a CDMA system.
  96. Lee, Chong U.; Ekbal, Amal; Julian, David Jonathan, Sub-packet pulse-based communications.
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  100. Garudadri, Harinath; Majumdar, Somdeb; Kashef, Rouzbeh; Ganapathy, Chinnappa K., Synchronizing timing mismatch by data insertion.
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  102. Jacobs, Scott William; Kleimenhagen, Karl William; Watkins, Roger Dwight; Travis, Dexter Grant, System and method for multiple access sensor networks.
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  105. Fagg, Russell John, System and method of companding an input signal of an energy detecting receiver.
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  107. Shi, Jun; Ekbal, Amal; Julian, David Jonathan; Black, Peter John, System and method of puncturing pulses in a receiver or transmitter.
  108. Fagg, Russell John, System and method of using residual voltage from a prior operation to establish a bias voltage for a subsequent operation.
  109. Balachandran,Krishna; Calin,Doru; Ji,Tingfang; Kang,Joseph H., Systems and methods for providing adaptive pulse position modulated code division multiple access for ultra-wideband communication links.
  110. Balachandran,Krishna; Calin,Doru; Ji,Tingfang; Kang,Joseph H., Variable spacing pulse position modulation for ultra-wideband communication links.
  111. Julian, David Jonathan; Ekbal, Amal; Lee, Chong U., Verified distance ranging.
  112. Lee, Chong U.; Jacobs, Paul E.; Julian, David Jonathan; Moallemi, Kamran; Jaime, Manuel E., Waveform encoding for wireless applications.
  113. Merz, Roman; Botteron, Cyril; Farine, Pierre-André, Wireless data communication method via ultra-wide band encoded data signals, and receiver device for implementing the same.
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  115. Julian, David Jonathan; Lee, Chong U.; Moallemi, Kamran; Jaime, Manuel E.; Wengler, Michael James, Wireless localization apparatus and method.
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