[특허]Integrated or autonomous system and method of satellite-terrestrial frequency reuse using signal attenuation and/or blockage, dynamic assignment of frequencies and/or hysteresis

Integrated or autonomous system and method of satellite-terrestrial frequency reuse using signal attenuation and/or blockage, dynamic assignment of frequencies and/or hysteresis 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	H04B-007/185
출원번호	US-0549548 (2009-08-28)
등록번호	US-8369775 (2013-02-05)
발명자 / 주소	Karabinis, Peter D. Singh, Rajendra
출원인 / 주소	ATC Technologies, LLC
인용정보	피인용 횟수 : 3 인용 특허 : 334

초록 ▼

A signal strength that is associated with a first wireless communications channel is detected. Electromagnetic energy is transmitted over the first wireless communications channel in response to the signal strength being sufficiently weak. A determination is made whether a handoff should be made to a second wireless communications channel having a signal that is weaker than a signal of the first wireless communications channel. Related systems and methods are described.

대표청구항 ▼

1. A communications system comprising a ground based system that is associated with a space based system that comprises at least one satellite, each satellite transmitting and/or receiving waveforms using a first portion of a predetermined frequency band that is authorized for the provision of space based communications; the ground based system comprising at least one base station, each base station transmitting and/or receiving waveforms utilizing a second portion of the predetermined frequency band; wherein the ground based system is configured to provide communications to subscriber terminals using a radio resource manager that is not used by the space based system and/or a mobile switching center that is not used by the space based system, wherein there is no frequency overlap between the first portion and the second portion, so that frequencies used by the space based system are mutually exclusive to frequencies used by the ground based system. 2. The system according to claim 1, wherein the predetermined frequency band comprises a space based system uplink portion, a space based system downlink portion, and a ground based system portion. 3. The system according to claim 1, wherein first and second cells of the space based system use mutually exclusive portions of the first portion of the predetermined frequency band. 4. The system according to claim 1, wherein a subscriber terminal is configured to preferentially communicate with the at least one base station. 5. The system according to claim 4, wherein the subscriber terminal comprises a first vocoder having a first data rate and a second vocoder having a second data rate. 6. The system according to claim 5, wherein the radio resource manager assigns and/or activates the first vocoder and/or the second vocoder in response to predetermined criteria. 7. The system according to claim 6, wherein the predetermined criteria comprise at least one of capacity demand, voice quality and received signal level. 8. The system according to claim 6, wherein the radio resource manager further assigns and/or activates a different vocoder to a voice communications circuit in response to the predetermined criteria. 9. The system according to claim 8, wherein the predetermined criteria comprises capacity demand, voice quality, signal strength, and/or received signal level having changed substantially since assignment or activation of the at least one of the first vocoder and the second vocoder. 10. The system according to claim 4, wherein the subscriber terminal communicates with the at least one base station by transmitting at frequencies that are authorized to provide uplink communications of the space based system, and/or receiving at frequencies that are authorized to provide downlink communications of the space based system. 11. The system according to claim 4, wherein the subscriber terminal communicates with the at least one base station by transmitting at frequencies that are authorized to provide downlink communications of the space based system, and/or receiving at frequencies that are authorized to provide uplink communications of the space based system. 12. The system according to claim 4, wherein the subscriber terminal communicates with the at least one base station by transmitting at frequencies that are authorized to provide uplink communications of the space based system, and/or receiving at frequencies that are authorized to provide uplink communications of the space based system. 13. The system according to claim 4, wherein the subscriber terminal communicates with the at least one base station by transmitting at frequencies that are authorized to provide downlink communications of the space based system, and/or receiving at frequencies that are authorized to provide downlink communications of the space based system. 14. The system according to claim 1, wherein a satellite of the at least one satellite communicates with subscriber terminals using a first air interface and a base station of the at least one base station communicates with subscriber terminals using a second air interface. 15. The system according to claim 14, wherein the first air interface comprises channels that are separated by frequency and/or time and the second air interface comprises channels that are separated by frequency and/or time. 16. The system according to claim 15, wherein the first and/or second air interface comprises a Time Division Multiple Access (TDMA) protocol. 17. The system according to claim 14, wherein the first air interface comprises channels that are separated by frequency and/or code and the second air interface comprises channels that are separated by frequency and/or code. 18. The system according to claim 17, wherein the first and/or second air interface comprises a Code Division Multiple Access (CDMA) protocol. 19. The system according to claim 14, wherein the first air interface comprises channels that are separated by frequency and/or time and the second air interface comprises channels that are separated by frequency and/or code. 20. The system according to claim 19, wherein the first air interface comprises a Time Division Multiple Access (TDMA) protocol and the second air interface comprises a Code Division Multiple Access (CDMA) protocol. 21. The system according to claim 4, wherein the subscriber terminal comprises at least one variable rate vocoder. 22. The system according to claim 14, wherein the first air interface comprises channels that are separated by frequency and/or code and the second air interface comprises channels that are separated by frequency and/or time. 23. The system according to claim 22, wherein the first air interface comprises a Code Division Multiple Access (CDMA) protocol and the second air interface comprises a Time Division Multiple Access (TDMA) protocol. 24. The system according to claim 6, wherein the radio resource manager monitors inband interference, received signal quality and/or received signal strength and avoids using channels containing interference exceeding a predetermined threshold. 25. The system according to claim 4, wherein the subscriber terminal is configured to communicate with the space based system and with the ground based system. 26. The system according to claim 1, wherein the subscriber terminals are configured to communicate with the space based system and with the ground based system. 27. The system according to claim 24, wherein the radio resource manager executes utilization of a different communications channel when a quality measure of an existing communications channel has fallen below a predetermined level. 28. The system according to claim 1, wherein the ground based system is further configured to provide communications to the subscriber terminals using a network operations center that is not used by the space based system. 29. The system according to claim 28, wherein the network operations center utilizes past system traffic patterns to administer reconfiguration, assignment and/or use of frequencies. 30. The system according to claim 28, wherein the network operations center utilizes at least one of hysteresis and negative hysteresis to administer reconfiguration, assignment and/or use of frequencies. 31. The system according to claim 1, wherein the space based system is configured to communicate with subscriber terminals that are not capable of communicating with the ground based system and with subscriber terminals that are capable of communicating with the ground based system. 32. A method of providing ground based communications for at least one subscriber terminal that communicates with a space based system by transmitting and/or receiving waveforms using a first portion of a predetermined frequency band, wherein the space based system comprises at least one satellite and the predetermined frequency band is authorized for the provision of space based communications; the method of providing ground based communications comprising communicating between a ground based system and the at least one subscriber terminal by transmitting and/or receiving waveforms utilizing a second portion of the predetermined frequency band, wherein the ground based system comprises at least one base station; the ground based system providing communications to the at least one subscriber terminal using a radio resource manager that is not used by the space based system and/or a mobile switching center that is not used by the space based system, wherein there is no frequency overlap between the first portion and the second portion, so that frequencies used by the space based system are mutually exclusive to frequencies used by the ground based system. 33. The method according to claim 32, wherein the predetermined frequency band comprises a space based system uplink portion, a space based system downlink portion, and a ground based system portion. 34. The method according to claim 32, wherein first and second cells of the space based system use mutually exclusive portions of the first portion of the predetermined frequency band. 35. The method according to claim 32, wherein a subscriber terminal is configured to preferentially communicate with the at least one base station. 36. The method according to claim 35, wherein the subscriber terminal comprises a first vocoder having a first data rate and a second vocoder having a second data rate. 37. The method according to claim 36, further comprising assigning and/or activating of the first vocoder and/or the second vocoder in response to predetermined criteria by the radio resource manager. 38. The method according to claim 37, wherein the predetermined criteria comprises at least one of capacity demand, voice quality, and received signal level. 39. The method according to claim 37, wherein the radio resource manager further assigns and/or activates a different vocoder to a voice communications circuit in response to the predetermined criteria. 40. The method according to claim 39, wherein the predetermined criteria comprises capacity demand, voice quality, signal strength, and/or received signal level having changed substantially since assignment or activation of the at least one of the first vocoder and the second vocoder. 41. The method according to claim 35, wherein the subscriber terminal communicates with the at least one base station by transmitting at frequencies that are authorized to provide uplink communications of the space based system, and/or receiving at frequencies that are authorized to provide downlink communications of the space based system. 42. The method according to claim 35, wherein the subscriber terminal communicates with the at least one base station by transmitting at frequencies that are authorized to provide downlink communications of the space based system, and/or receiving at frequencies that are authorized to provide uplink communications of the space based system. 43. The method according to claim 35, wherein the subscriber terminal communicates with the at least one base station by transmitting at frequencies that are authorized to provide uplink communications of the space based system, and/or receiving at frequencies that are authorized to provide uplink communications of the space based system. 44. The method according to claim 35, wherein the subscriber terminal communicates with the at least one base station by transmitting at frequencies that are authorized to provide downlink communications of the space based system, and/or receiving at frequencies that are authorized to provide downlink communications of the space based system. 45. The method according to claim 32, wherein a satellite of the at least one satellite communicates with subscriber terminals using a first air interface and a base station of the at least one base station communicates with subscriber terminals using a second air interface. 46. The method according to claim 45, wherein the first air interface comprises channels that arc separated by frequency and/or time and the second air interface comprises channels that arc separated by frequency and/or time. 47. The method according to claim 46, wherein the first and/or second air interface comprises a Time Division Multiple Access (TDMA) protocol. 48. The method according to claim 45, wherein the first air interface comprises channels that are separated by frequency and/or code and the second air interface comprises channels that are separated by frequency and/or code. 49. The method according to claim 48, wherein the first and/or second air interface comprises a Code Division Multiple Access (CDMA) protocol. 50. The method according to claim 45, wherein the first air interface comprises channels that are separated by frequency and/or time and the second air interface comprises channels that are separated by frequency and/or code. 51. The method according to claim 50, wherein the first air interface comprises a Time Division Multiple Access (TDMA) protocol and the second air interface comprises a Code Division Multiple Access (CDMA) protocol. 52. The method according to claim 35, wherein the subscriber terminal comprises at least one variable rate vocoder. 53. The method according to claim 45, wherein the first air interface comprises channels that are separated by frequency and/or code and the second air interface comprises channels that are separated by frequency and/or time. 54. The method according to claim 53, wherein the first air interface comprises a Code Division Multiple Access (CDMA) protocol and the second air interface comprises a Time Division Multiple Access (TDMA) protocol. 55. The method according to claim 37, wherein the radio resource manager monitors in-band interference, received signal quality and/or received signal strength and avoids using channels containing interference exceeding a predetermined threshold. 56. The method according to claim 35, wherein the subscriber terminal is configured to communicate with the space based system and with the ground based system. 57. The method according to claim 32, wherein the subscriber terminals are configured to communicate with the space based system and with the ground based system. 58. The method according to claim 55, wherein the radio resource manager executes utilization of a different communications channel when a quality measure of an existing communications channel has fallen below a predetermined level. 59. The method according to claim 32, wherein the ground based system further provides communications to the at least one subscriber terminal using a network operations center that is not used by the space based system. 60. The method according to claim 59, wherein the network operations center utilizes past system traffic patterns to administer reconfiguration, assignment and/or use of frequencies. 61. The method according to claim 59, wherein the network operations center utilizes at least one of hysteresis and negative hysteresis to administer reconfiguration, assignment and/or use of frequencies. 62. The method according to claim 32, wherein the space based system is configured to communicate with subscriber terminals that are not capable of communicating with the ground based system and with subscriber terminals that are capable of communicating with the ground based system.

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Leopold Raymond Joseph ; Olds Keith Andrew ; Daniel Brian Michael, Interference mitigation system for protecting radio astronomy and method of using same.
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DiFonzo Daniel F. (Rockville MD), Interference reduction circuit.
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Arnold Hamilton W. ; Seidel Scott Yates, Interference reduction in shared-frequency wireless communication systems.
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O'Donovan Val,CAX ; Beauchamp Gary,CAX ; Peach Robert,CAX, Intersatellite communications systems.
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Chambers Paul,GBX, Interworking between telecommunications networks.
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Karabinis,Peter D.; Dutta,Santanu; Churan,Gary G.; Zheng,Dunmin, Intra-and/or inter-system interference reducing systems and methods for satellite communications systems.
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Karabinis, Peter D., Intra-system and/or inter-system reuse of feeder link frequencies including interference suppression systems and methods.
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Toya,Ken Ichi, Land mobile satellite-communication system.
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Yan Tsun-Yee (Northridge CA) Rafferty William (Pasadena CA) Dessouky Khaled I. (Santa Monica CA) Wang Charles C. (Arcadia CA) Cheng Unjeng (Laguna Niguel CA), Land-mobile satellite communication system.
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Soliman Samir S., Load monitoring and management in a CDMA wireless communication system.
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Wiedeman Robert A., Low earth orbit communication satellite gateway-to-gateway relay system.
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Wiedeman Robert A ; Monte Paul A, Low earth orbit distributed gateway communication system.
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Wiedeman Robert A. ; Monte Paul A., Low earth orbit distributed gateway communication system.
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Curello, Charles; Barnes, Scott P.; Fishman, Barry; Rosen, Harold A., Low-cost multi-mission broadband communications payload.
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Ghazvinian Farzad ; Sturza Mark A. ; Hinedi Sami M. ; Sarrafan Shiva S. ; Shah Biren N., Low-earth orbit satellite acquisition and synchronization system using a beacon signal.
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Jeffries Andrew William,GBX ; Ward Christopher Robert,GBX ; Hudson John Edward,GBX, Means of increasing capacity in cellular radio (mobile and fixed) systems.
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Csapo John ; Chen Brian Cheng-Jean ; Hallman Kenneth Blake, Method and apparatus for a radio remote repeater in a digital cellular radio communication system.
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Lu Xiaolin, Method and apparatus for bandwidth reuse in a communication network.
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Armbruster Peter Joseph ; Sowles Kenneth Lee ; Tayloe Daniel Richard, Method and apparatus for communications hand-off between multiple satellite systems.
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Ramasastry Jayaram, Method and apparatus for diversity enhancement using pseudo-multipath signals.
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Dorenbosch Jheroen Pieter ; Breeden Robert L., Method and apparatus for dynamically selecting a frequency reuse plan for a radio messaging system.
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Gitlits Maxim Vladimirovich,AUX, Method and apparatus for frequency allocation in a cellular telecommunications network.
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Meidan Reuven (Ramat Hasharon) Livneh Noam (D.N. Misgav) Silbershatz Giora (Halfa) Ritz Mordechai (Givat-Elah ILX), Method and apparatus for improving detection of data bits in a slow frequency hopping communication system.
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Zehavi Ephraim,ILX, Method and apparatus for joint transmission of multiple data signals in spread spectrum communication systems.
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Weaver ; Jr. Lindsay A. (Boulder CO) Bayley Gwain (San Diego CA) Tiedemann ; Jr. Edward G. (San Diego CA) Gilhousen Klein S. (Bozeman MT), Method and apparatus for providing mobile unit assisted hard handoff from a CDMA communication system to an alternative.
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Chennakeshu Sandeep ; Reinhold Stanley Lynn, Method and apparatus for reducing co-channel interference.
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Santoru, Joseph, Method and apparatus for reducing interference between terrestrially-based and space-based broadcast systems.
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Meidan Reuven (Ramat Hasharon ILX) Livneh Noam (D.N. Misgav ILX) Silbershatz Giora (Halfa ILX) Ritz Mordechai (Givat-Elah ILX), Method and apparatus for reducing interference in a radio communication link of a cellular communication system.
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Olds Keith A. (Mesa AZ) Spicer Tadd E. (Mesa AZ) Terris David (Phoenix AZ), Method and apparatus for regional cell management in a satellite communication system.
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McGann William E. (Satellite Beach FL), Method and apparatus for relaying signals between a ground station and a satellite using a ground relay station.
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Dillon Douglas M. ; Gupta Vivek, Method and apparatus for selectively retrieving information from a source computer using a terrestrial or satellite int.
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McDonald James A. (Buffalo Grove IL) Ruthenberg Ross (Wood Dale IL), Method and apparatus for sharing radio frequency spectrum in a radio frequency communication system.
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Martinez ReneD. (Newfield NY) Compton Richard C. (Ithaca NY), Method and apparatus for spectrum sharing between satellite and terrestrial communication services using temporal and sp.
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Haber William Joe ; Kroncke George Thomas ; Schmidt William George, Method and apparatus for transmitting user-customized high-quality, low-bit-rate speech.
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Haartsen Jacobus C.,SEX, Method and system for autonomously allocating a frequency hopping traffic channel in a private radio system.
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Youssefzadeh Emil ; Luecke James R. ; Serafinko Robert E., Method and system for providing rural subscriber telephony service using an integrated satellite/cell system.
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S. Lynne Wainfan ; Ellen K. Wesel ; Michael S. Pavloff ; Arthur W. Wang, Method and system for providing wideband communications to mobile users in a satellite-based network.
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Wainfan S. Lynne ; Wesel Ellen K. ; Pavloff Michael S. ; Wang Arthur W., Method and system for providing wideband communications to mobile users in a satellite-based network.
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Olds Keith Andrew ; Davieau Gerald Joseph, Method and system for real-time channel management in a radio telecommunications system.
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Bella Luigi,NLX, Method and system for transmitting radio signals between a fixed terrestrial station and user mobile terminals via a n.
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Yamada Jun (Yokohama JPX) Terashima Masaki (Yokohama JPX) Ooyama Kenichi (Yokohama JPX) Ohmori Eiji (Ohya JPX), Method for allocating channels in a microcellular system.
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Yamada Jun,JPX ; Terashima Masaki,JPX ; Ooyama Kenichi,JPX ; Ohmori Eiji,JPX, Method for allocating idle channels of a cellular mobile telephone system for use in a microcellular system.
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Benner Frank D. (Calgary CAX), Method for assigning telecommunications channels in a cellular telephone system.
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Zdunek Kenneth J. (Schaumburg IL) Hess Garry C. (Hanover Park IL) Comroe Richard A. (Dundee IL), Method for dynamically allocating data channels on a trunked communication system.
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Koch Harry (Burgwedel DEX), Method for establishing a connection with a mobile subscriber and system for implementing the method.
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Vasudevan Mini ; Lin Sheng-Chou ; Tseng Stone H., Method for optimizing spectral re-use.
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Hinedi Sami ; Sarrafan Shiva, Method for reducing co-channel of cross-polarization interference in a satellite data communication system by offsetting channel frequencies.
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Perahia Eldad ; Wilcoxson Donald C. ; Saunders Oliver W., Method for reducing interference and increasing spectral efficiency.
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Douthitt Brian L. (Bothell WA) Rupolo Russ M. (Bothell WA) Sek Stephen (Lake In The Hills IL), Method of acquiring a channel in a general frequency reuse system.
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Lopponen Jussi (Helsinki FIX) Rautiola Markku (Tampere FIX), Method of allocating radio channels.
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O\Neill Frank (Richland Hills TX), Method of reuse through remote antenna and same channel cell division.
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Ziv Noam A. ; Padovani Roberto ; Levin Jeffrey A. ; Easton Kenneth D., Method of searching for a bursty signal.
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Gerakoulis Diakoumis Parissis, Method of synchronizing satellite switched CDMA communication system.
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Matsushima, Kazuhisa; Yokoyama, Hideaki; Okubo, Hiroshi; Katoh, Tadayoshi; Saito, Takashi, Method, system and apparatus for transmitting, receiving, and reproducing a digital broadcast signal.
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Karabinis, Peter D., Methods and systems for configuring satellite antenna cell patterns in response to terrestrial use of satellite frequencies.
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Karabinis,Peter D., Methods and systems for configuring satellite antenna cell patterns in response to terrestrial use of satellite frequencies.
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Karabinis,Peter D., Methods and systems for modifying satellite antenna cell patterns in response to terrestrial reuse of satellite frequencies.
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Karabinis, Peter D., Methods and systems providing adaptive feeder links for ground based beam forming and related systems and satellites.
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Olds Keith A. (Mesa AZ) Cutler ; Jr. Victor H. (Mesa AZ) Davieau Gerald J. (Eldersburg MD), Methods of demand-based adaptive channel reuse for telecommunications systems.
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Dutta, Santanu, Methods of ground based beamforming and on-board frequency translation and related systems.
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Karabinis, Peter D., Methods, radioterminals, and ancillary terrestrial components for communicating using spectrum allocated to another satellite operator.
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Cyrulnik Reuven A. (639 Marshall St. Long Beach CA 90807), Microwave frequency modulation of x-ray beam for radio therapy treatment system.
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Dao Son K. ; Zhang Yongguang ; Shek Eddie C. ; Vellaikal Asha, Mobile and wireless information dissemination architecture and protocols.
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Cunningham Marion L. (Orlando FL) Endicott John R. (Maitland FL) Freeman Lionel D. (Orlando FL), Mobile communication system and method employing frequency reuse within a geographical service area.
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Uchida Yoshinori,JPX ; Ishida Kenichi,JPX ; Kashiwagi Takashi,JPX, Mobile communication system using various multiple access methods.
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Aoki Katsuhiko (Amagasaki JPX) Tsuchiya Makio (Amagasaki JPX) Inoue Seiya (Amagasaki JPX), Mobile communication terminal equipment usable for both satellite and terrestrial communications.
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Ward Michael K. ; Churan Gary G. ; Tisdale William R. ; Ross David J., Mobile earth terminal communication device providing voice, data, facsimile, and/or roaming communication features.
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Baranowsky ; II Patrick W. ; Meseke Craig R. ; Cressman Brooks, Mobile terminal apparatus and method having network inter-operability.
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Karabinis, Peter D., Modification of transmission values to compensate for interference in a satellite down-link communications.
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Bruno Ronald ; Schuchman Leonard, Multi-access CS-P/CD-E system and protocols on satellite channels applicable to a group of mobile users in close proximity.
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Karabinis,Peter D., Multi-band/multi-mode satellite radiotelephone communications systems and methods.
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Zicker Robert G., Multi-mode communication network with handset-selected channel assignments.
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Cherpantier Corinne,FRX, Multilayer cellular mobile radio network with optimized frequency re-use plan, and associated method.
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Rabe Duane C. ; Alberth ; Jr. William P. ; Rauch John G., Multimode communication device and method for operating a multimode communication device.
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Papadopoulos Haralabos C. (Cambridge MA) Sundberg Carl-Erik W. (Chatham NJ), Multiple access cellular communication with dynamic slot allocation and reduced co-channel interferences.
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Sherman Richard H. ; Gallagher Vijaya ; Huang John J. Y., Multiple satellite system power allocation by communication link optimization.
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Robert A Wiedeman, Multiple vocoder mobile satellite telephone system.
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Natarajan Kadathur S. ; Turcotte Randy Lee ; Aguirre Sergio, Network and method for controlling steerable beams.
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Agrawal Prathima ; Narendran Balakrishnan ; Shivakumar Narayanan, Network flow framework for online dynamic channel allocation.
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Leopold Raymond J. (Tempe AZ) Vatt Gregory B. (Mesa AZ) Zancho William F. (Hawthorn Woods IL), Network of hierarchical communication systems and method therefor.
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Threadgill Michael E. ; Biegel Charles H., Network operations center for mobile earth terminal satellite communications system.
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Churan,Gary G., Network-assisted global positioning systems, methods and terminals including doppler shift and code phase estimates.
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Churan,Gary G., Network-assisted global positioning systems, methods and terminals including doppler shift and code phase estimates.
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Cook Dean Lawrence ; Andresen Michael J. ; Corman David Warren, Networked repeater.
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Freeburg Thomas A. (Arlington Heights IL), Networked satellite and terrestrial cellular radiotelephone systems.
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Freeburg Thomas A. (Arlington Heights IL), Networked satellite and terrestrial cellular radiotelephone systems.
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Nilsson Mats,SEX, Non-geostationary satellite mobile communication system integration with network principles for terrestrial cellular.
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Ray J. C. ; George Robert L. ; Hoppe Geoffrey A. ; Jones Stephen S. ; McKenna Daniel B., Nonterrestrial cellular mobile telecommunication network.
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Ray J. C. ; George Robert L. ; Jones Stephen S., Nonterrestrial cellular mobile telecommunication system.
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Doner John R. (Sebastian FL), Obtaining improved frequency reuse in wireless communication systems.
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McDonald James A. (Buffalo Grove) Comroe Richard A. (Dundee) Sobti Arun (Wheaton) Bocci Paul M. (Roselle) Furtaw Robert W. (Arlington Heights) Hiben Bradley M. (Glen Ellyn IL), On-site system frequency sharing with trunking systems using spread spectrum.
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Glynn Thomas W. (1806 Severn Grove Rd. Annapolis MD 21401), Optically crosslinked communication system (OCCS).
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Asanuma Yutaka,JPX, Overlay cell type mobile communication system.
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Schilling Donald L. (Sands Point NY), Overlaying spread-spectrum satellite system and method.
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Blachier Bruno,FRX, Personal communications via low-orbiting moving and geostationary satellites.
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Sevic John F. (Scottsdale AZ), Phase linear class E amplifier for a satellite communication terminal which communicates with a low earth orbiting satel.
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Stuart James R. (Louisville CO), Polar relay system for satellite communication.
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Auvray Gerard (Bezons FRX), Portable digital signal transceiver providing communication via a terrestrial network and via a satellite network.
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Otten David D., Position determination for reducing unauthorized use of a communication system.
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Molnar Karl ; Ramesh Rajaram ; Hassan Amer Aref ; Molnar Barbara, Position determination using multiple base station signals.
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Mallinckrodt Albert Jack, Power control of an integrated cellular communications system.
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Mallinckrodt Albert Jack, Power control of an integrated cellular communications system.
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Karabinis, Peter D., Prediction of uplink interference potential generated by an ancillary terrestrial network and/or radioterminals.
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Schukat Manfred (Bruckmuehl/Goetting DEX), Process for data transmission by means of a geo-stationary satellite and at least one sub-satellite.
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Lichtblau George J. (13 Tannery Hill Rd. Ridgefield CT 06810), Quasi-stationary noise cancellation system.
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Haartsen Jacobus Cornelis,SEX, Radio communications systems and methods for jittered beacon transmission.
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Przelomiec Thomas A., Radio frequency planning and assignment in a discontiguous spectrum environment.
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Grybos David P. ; Marshall James M., Radio frequency sharing methods for satellite systems.
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Karabinis, Peter D., Radiotelephones and operating methods that use a single radio frequency chain and a single baseband processor for space-based and terrestrial communications.
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Levin,Lon C.; Karabinis,Peter D., Radioterminals and associated operating methods that alternate transmission of wireless communications and processing of global positioning system signals.
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Levin, Lon C.; Karabinis, Peter D., Radioterminals and associated operating methods that transmit position information responsive to change/rate of change of position.
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Gagin Reuven (Tel Aviv ILX) Livshitz Joseph (Rosh Ha\ain ILX) Sharon Erez (Cohav Yair ILX), Real-time multi-user game communication system using existing cable television infrastructure.
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Jones Trevor Howar Price,CAX ; Folio Benedicte,FRX ; Yarwood Michael Philip,GBX ; Lambrecht xavier Jean-Fran.cedilla.ois,FRX, Reconfigurable zonal beam forming system for an antenna on a satellite in orbit and method of optimizing reconfiguratio.
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Evans, Richard O.; Karabinis, Peter D., Reducing interference in a wireless communications signal in the frequency domain.
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Good, Alexander H.; King, Charlene J.; Swank, Eric A.; Kundra, Monish; Karabinis, Peter D., Reusing frequencies of a fixed and/or mobile communications system.
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Gardner Steven H. ; Gilbert Sheldon L. ; Hardin Carl Thomas ; Petranovich James E., Reverse channel reuse scheme in a time shared cellular communication system.
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Dutta, Santanu; Karabinis, Peter D., SYSTEMS AND METHODS FOR HANDOVER BETWEEN SPACE BASED AND TERRESTRIAL RADIOTERMINAL COMMUNICATIONS, AND FOR MONITORING TERRESTRIALLY REUSED SATELLITE FREQUENCIES AT A RADIOTERMINAL TO REDUCE POTENTIAL.
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Wiedeman Robert A. (Los Altos CA), Satellite and terrestrial telephone.
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Karabinis,Peter D.; Bogatin,Boris; Deobald,Brian M.; Dutta,Santanu, Satellite assisted push-to-send radioterminal systems and methods.
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Schwendeman Robert J. (Pompano Beach FL) Kuznicki William J. (Coral Springs FL), Satellite based simulcast paging system.
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Briskman Robert D., Satellite broadcast system receiver.
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Bertiger Bary R. (Scottsdale AZ) Leopold Raymond J. (Chandler AZ) Peterson Kenneth M. (Tempe AZ), Satellite cellular telephone and data communication system.
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Vatt Gregory Barton (Mesa AZ), Satellite cellular telephone and data communication system at an inclined orbit.
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Monte Paul A ; Hirshfield Edward, Satellite communication service with non-congruent sub-beam coverage.
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Brown Alison K. ; Tuck Edward Fenton ; Patterson David Palmer ; Lockie Douglas Gene ; Grencions Vilnis G. ; Jha Asu Ram ; Ashford Donald A. ; Sturza Mark Alan ; Stuart James R. ; Liron Moshe Lerner ;, Satellite communication system.
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Chennakeshu Sandeep ; Rydbeck Nils ; Hassan Amer ; Reinhold Stanley L. ; Irvin David R., Satellite communication system for local-area coverage.
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Wiedeman, Robert A; Monte, Paul A, Satellite communication system providing multi-gateway diversity and improved satellite loading.
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Karabinis, Peter D., Satellite communications apparatus and methods using asymmetrical forward and return link frequency reuse.
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Rosen Harold A. (Santa Monica CA), Satellite communications system employing frequency reuse.
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Rosen Harold A. (Santa Monica CA), Satellite communications system employing frequency reuse.
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Wiedeman Robert A. ; Monte Paul A, Satellite communications system having distributed user assignment and resource assignment with terrestrial gateways.
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Rosen Harold A. (Santa Monica CA), Satellite communications system having frequency addressable high gain downlink beams.
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Acampora Anthony (Freehold NJ) Reudink Douglas O. (Sea Girt NJ) Yeh Yu S. (Freehold Township ; Monmouth County NJ), Satellite communications system with frequency channelized beams.
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Karabinis, Peter D., Satellite communications systems and methods using diverse polarizations.
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Karabinis, Peter D., Satellite communications systems and methods with distributed and/or centralized architecture including ground-based beam forming.
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Karabinis, Peter D., Satellite communications systems, components and methods for operating shared satellite gateways.
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Gallagher Vijaya K ; Monte Paul A ; Wiedeman Robert A, Satellite controlled power control for personal communication user terminals.
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Lee William C. Y. (Corona Del Mar CA), Satellite mobile communication system for rural service areas.
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Hutchinson,Benjamin H., Satellite mobile telephone cell departure prediction.
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Karabinis,Peter D., Satellite radiotelephone systems providing staggered sectorization for terrestrial reuse of satellite frequencies and related methods and radiotelephone systems.
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Karabinis, Peter D., Satellite radiotelephone systems, methods, components and devices including gated radiotelephone transmissions to ancillary terrestrial components.
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Karabinis Peter D., Satellite system utilizing a plurality of air interface standards and method employing same.
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Olds Keith A. (Mesa AZ) Kurby Christopher N. (Elmhurst IL), Satellite telecommunication system with apparatus for protecting radio astronomy and method of using same.
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Karabinis Peter D., Satellite telecommunications repeaters and retransmission methods.
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Wiedeman Robert A. (Los Altos CA) Monte Paul A. (San Jose CA), Satellite telecommunications system using network coordinating gateways operative with a terrestrial communication syste.
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Wiedeman Robert A. ; Monte Paul A ; Gallagher Vijaya K, Satellite telephone interference avoidance system.
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Wyrwas Richard,GBX ; Mullins Dennis Roy,GBX, Satellite terminal position determination.
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Sigler C. Edward ; Sweet Richard S., Satellite trunked radio service system.
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Courtney William F. ; Wiher Christian H., Satellite-based cellular telecommunications system utilizing an earth station subsystem.
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Adiwoso Adi R.,IDX ; Taylor Stuart C.,IDX ; Smyth Kevin B.,IDX, Satellite-based direct access telecommunications systems.
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Dent Paul W., Satellite/cellular phone using different channel spacings on forward and return links.
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Karabinis, Peter D., Satellite/hands-free interlock systems and/or companion devices for radioterminals and related methods.
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Itoh Yasuhiko (Tokyo JPX) Mizuno Toshio (Sayama JPX) Kobayashi Hideo (Fujimi JPX) Ishikawa Hiroyasu (Warabi JPX), Satellite/land mobile communication system integration scheme.
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Karabinis, Peter D., Satellite/terrestrial wireless communications systems and methods using disparate channel separation codes.
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Grandhi Sudheer A. ; Madhavapeddy Seshagiri R. ; Basu Kalyan ; Willhoff Steven J. ; Staley Hong D., Selecting radio frequency channels for reuse in micro-cellular radio communications systems.
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Kotzin Michael D. (Buffalo Grove IL) Spear Stephen L. (Skokie IL), Shared-carrier frequency hopping.
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Karabinis,Peter D.; Agnew,Carson E., Space-based network architectures for satellite radiotelephone systems.
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Karabinis,Peter D.; Agnew,Carson E., Space-based network architectures for satellite radiotelephone systems.
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Karabinis, Peter D., Spatial guardbands for terrestrial reuse of satellite frequencies.
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Karabinis,Peter D., Spatial guardbands for terrestrial reuse of satellite frequencies.
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Vatt Gregory B. (Mesa AZ), Spectrum recovery apparatus and method therefor.
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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.
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Ritz Mordechai (Givat-Elah ILX) Livneh Noam (D.N. Misgav ILX) Silbershatz Giora (Haifa ILX), Spread-spectrum, frequency-hopping radiotelephone system.
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Liu, Jian-Yu, Synchronous optical network in frequency domain.
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Mao Tom,CNX, System and method for frequency reuse in a four cell plan.
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Otten David D. (Redondo Beach CA), System and method for mobile communications in coexistence with established communications systems.
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Poskett Peter (Bucks GB2) Mullins Dennis (London GB2) Nomoto Shimichi (Middlesex GB2) Gosselin Stephane (Lannion FRX), System and method for reducing interference between satellites.
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Valentine Eric ; Alperovich Vladimir, System and method of reallocating satellite gateways in a radio telecommunications network.
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Magnusson Oskar S., System and/or method for call intercept capability in a global mobile satellite communications system.
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Liu, Jian-Yu; Wu, Kuang-Yi, System for dealing with faults in an optical link.
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Wiedeman Robert A ; Gallagher Vijaya K ; Serri John A, System for generating and using global radio frequency maps.
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David De Sales Otten, System for mobile communications in coexistence with communication systems having priority.
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Hogberg Shawn Wesley ; Emmons ; Jr. Thomas Peter ; Smith Robert H., Systems and method for use in a dual mode satellite communications system.
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Karabinis, Peter D., Systems and method with different utilization of satellite frequency bands by a space-based network and an ancillary terrestrial network.
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Karabinis, Peter D., Systems and methods for controlling a level of interference to a wireless receiver responsive to a power level associated with a wireless transmitter.
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Karabinis, Peter D., Systems and methods for controlling a level of interference to a wireless receiver responsive to an activity factor associated with a wireless transmitter.
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Fletcher ; James C. Administrator of the National Aeronautics and Space ; Administration ; with respect to an invention of ; Johannsen ; Klaus G. ; Sabaroff ; Samuel ; Henry ; Varice F., Systems and methods for determining radio frequency interference.
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Dutta,Santanu; Karabinis,Peter D., Systems and methods for handover between space based and terrestrial radioterminal communications.
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Karabinis,Peter D., Systems and methods for increasing capacity and/or quality of service of terrestrial cellular and satellite systems using terrestrial reception of satellite band frequencies.
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Karabinis,Peter D., Systems and methods for inter-system sharing of satellite communications frequencies within a common footprint.
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Karabinis, Peter D., Systems and methods for modifying antenna radiation patterns of peripheral base stations of a terrestrial network to allow reduced interference.
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Karabinis, Peter D., Systems and methods for monitoring selected terrestrially used satellite frequency signals to reduce potential interference.
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Karabinis,Peter D., Systems and methods for monitoring selected terrestrially used satellite frequency signals to reduce potential interference.
상세보기
Karabinis,Peter D.; Churan,Gary G., Systems and methods for monitoring terrestrially reused satellite frequencies to reduce potential interference.
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Karabinis, Peter D., Systems and methods for packing/unpacking satellite service links to/from satellite feeder links.
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Karabinis, Peter D., Systems and methods for reducing satellite feeder link bandwidth/carriers in cellular satellite systems.
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Karabinis, Peter D., Systems and methods for reducing satellite feeder link bandwidth/carriers in cellular satellite systems.
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Karabinis, Peter D., Systems and methods for terrestrial reuse of cellular satellite frequency spectrum.
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Karabinis, Peter D.; Churan, Gary G., Systems and methods for terrestrial reuse of cellular satellite frequency spectrum in a time-division duplex and/or frequency-division duplex mode.
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Karabinis, Peter D., Systems and methods for terrestrial reuse of cellular satellite frequency spectrum in a time-division duplex mode.
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Karabinis, Peter D., Systems and methods for terrestrial reuse of cellular satellite frequency spectrum using different channel separation technologies in forward and reverse links.
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Karabinis, Peter D., Systems and methods for terrestrial use of cellular satellite frequency spectrum.
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Alexander Roger K., Technique for least cost routing for mobile satellite systems employing a GSM network infrastructure.
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Nakagawa Osamu (Tokyo JPX), Telecommunication system with increased channels by use of orbiting communication satellites.
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Helm Jim E. ; Magee Steve ; Bishop ; Jr. James William, Terrestrial and satellite cellular network interoperability.
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Chanroo Keith A. (Coral Springs FL), Three dimensional cellular communication system with coordinate offset and frequency reuse.
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Dent Paul W., Time-reuse partitioning system and methods for cellular radio telephone systems.
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Lusignan Bruce B., Very small aperture terminal & antenna for use therein.
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Garner William B. ; Tisdale William R., Virtual network configuration and management system for satellite communication system.
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Hassan Amer A. ; Karabinis Peter D. ; Rydbeck Nils Rutger, Vocoder apparatus using the link margin.
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Shaheen Kamel M. ; Huang Chenhong, Wireless communication system that supports selection of operation from multiple frequency bands and multiple protocols and method of operation therefor.
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Martin James N. ; Langston J. Leland, Wireless communication using an airborne switching node.
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Wiedeman Robert A. (Los Altos CA), Wireless telephone/satellite roaming system.
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Wiedeman Robert A. (Los Altos CA) Monte Paul A. (San Jose CA), Worldwide satellite telephone system and a network coordinating gateway for allocating satellite and terrestrial gateway.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

내보내기 구분	파일저장 인쇄 메일전송
구성항목	기본정보 상세정보 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표IPC 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 공고번호, 공고일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표출원인, 출원인국적, 출원인주소, 발명자, 발명자E, 발명자코드, 발명자주소, 발명자 우편번호, 발명자국적, 대표IPC, IPC코드, 요약, 미국특허분류, 대리인주소, 대리인코드, 대리인(한글), 대리인(영문), 국제공개일자, 국제공개번호, 국제출원일자, 국제출원번호, 우선권, 우선권주장일, 우선권국가, 우선권출원번호, 원출원일자, 원출원번호, 지정국, Citing Patents, Cited Patents
저장형식	Text(ASCII format) Excel format PIAS분석(.xls)
메일정보	받는사람 (필수) @ 보내는사람 (선택) @ 제목 내용 KISTI 검색결과 이메일 서비스
안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

연합인증

Integrated or autonomous system and method of satellite-terrestrial frequency reuse using signal attenuation and/or blockage, dynamic assignment of frequencies and/or hysteresis 원문보기

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연합인증

Integrated or autonomous system and method of satellite-terrestrial frequency reuse using signal attenuation and/or blockage, dynamic assignment of frequencies and/or hysteresis 원문보기

초록 ▼

대표청구항 ▼

연구과제 타임라인

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이 특허에 인용된 특허 (334)

이 특허를 인용한 특허 (3)

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