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Method and a system for time synchronisation between a control centre and several transmitters

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • H04W-004/00
출원번호 US-0002210 (2009-06-23)
등록번호 US-8553619 (2013-10-08)
우선권정보 DE-10 2008 031 796 (2008-07-04); DE-10 2008 056 703 (2008-11-11)
국제출원번호 PCT/EP2009/004508 (2009-06-23)
§371/§102 date 20110225 (20110225)
국제공개번호 WO2010/000407 (2010-01-07)
발명자 / 주소
  • Herzog, Norman
  • Zurek-Terhardt, Guenther
출원인 / 주소
  • Rohde & Schwarz GmbH & Co. KG
대리인 / 주소
    Fitzpatrick, Cella, Harper & Scinto
인용정보 피인용 횟수 : 0  인용 특허 : 75

초록

Time synchronization between a control center and transmitters in a single frequency network is provided by generating and receiving a first reference time signal with a high time and frequency accuracy in a short and long time horizon and a second reference time signal supplied to the control cente

대표청구항

1. A method of time synchronisation between a control centre and a plurality of transmitters in a single frequency network, comprising the steps of: at least one of generating, by one or more signal generators, and receiving, by the control centre, a first reference time signal with a high time and

이 특허에 인용된 특허 (75)

  1. Gidwani, Sanjay M., Apparatus and method for intelligent scalable switching network.
  2. Hwang, Hyo Sun; Choi, Sung Hyun; Jang, Kyung Hun; Kim, Young Soo, Apparatus and method for minimizing transmission delay in a data communication system.
  3. Simon, Michael, Apparatus, systems and methods for producing coherent symbols in a single frequency network.
  4. Simon, Michael, Apparatus, systems and methods for producing coherent symbols in a single frequency network.
  5. Simon, Michael, Apparatus, systems and methods for providing enhancements to ATSC networks using synchronous vestigial sideband (VSB) frame slicing.
  6. Simon, Michael, Apparatus, systems and methods for providing time diversity for mobile broadcast services.
  7. Simon, Michael, Apparatus, systems, methods and computer products for providing a virtual enhanced training sequence.
  8. Kim, Byoung Gill; Choi, In Hwan; Kwak, Kook Yeon, Channel equalizer and method of processing broadcast signal in receiving system.
  9. Oshima, Mitsuaki, Communication system.
  10. Wee, Susie J.; Apostolopoulos, John G., Compressed video signal including independently coded regions.
  11. Patel Chandrakant B. ; Limberg Allen LeRoy, DTV receiver with baseband equalization filters for QAM signal and for VSB signal which employ common elements.
  12. Godwin, John P., Device and method for the integrated presentation of a secondary service as a part of a primary service.
  13. Kang, Kyung Won; Choi, In Hwan, Digital E8-VSB reception system and E8-VSB data demultiplexing method.
  14. Jeong, Hae joo; Chang, Yong deok, Digital broadcast transmitting/receiving system having an improved receiving performance and signal processing method thereof.
  15. Song, Jae Hyung; Choi, In Hwan; Hong, Ho Taek; Kwak, Kook Yeon; Kim, Byoung Gill; Suh, Jong Yeul; Kim, Jin Pil; Song, Won Gyu; Lee, Chul Soo; Kim, Jin Woo; Lee, Hyoung Gon; Lee, Joon Hui, Digital broadcasting system and data processing method.
  16. Kim, Byoung Gill; Choi, In Hwan; Kim, Jin Woo; Kim, Jong Moon; Song, Won Gyu; Lee, Hyoung Gon; Kwak, Kook Yeon, Digital broadcasting system and method of processing data.
  17. Lee, Hyoung Gon; Choi, In Hwan; Kwak, Kook Yeon; Kim, Jong Moon; Song, Won Gyu; Kim, Byoung Gill; Kim, Jin Woo, Digital broadcasting system and method of processing data.
  18. Lee, Chul Soo; Choi, In Hwan; Park, Sang Kil, Digital broadcasting system and method of processing data in digital broadcasting system.
  19. Ryota Tsukidate JP; Kenichi Fujita JP; Shigeki Kaneko JP; Yoshiyasu Takeuchi JP, Digital broadcasting system using virtual channels.
  20. Jeong, Hae-jo; Chang, Yong-deok; Park, Eui-jun, Digital broadcasting transmission and/or reception system to improve receiving performance and signal processing method thereof.
  21. Chang, Yong-deok; Jeong, Hae-joo; Park, Eui-jung, Digital broadcasting transmission/reception devices capable of improving a receiving performance and signal processing method thereof.
  22. Bretl,Wayne E.; Citta,Richard W.; Fimoff,Mark, Digital communication system for transmitting and receiving robustly encoded data.
  23. Weiss, S. Merrill, Digital signal transmitter synchronization system.
  24. Weiss,S. Merrill, Digital signal transmitter synchronization system.
  25. Choi, In Hwan; Kang, Kyung Won; Kwak, Kook Yeon; Hong, Young Jin; Hong, Sung Ryong, Digital television transmitter and method of coding data in digital television transmitter.
  26. Kim, Sung-Hoon; Ji, Kum-Ran; Lee, Jae-Young; Kim, Seung-Won; Lee, Soo-In; Ahn, Chieteuk, Digital television transmitter and receiver for using 16 state trellis coding.
  27. Choi, In Hwan; Kang, Kyung Won; Lee, Hyoung Gon; Hong, Sung Ryong, Digital television transmitter/receiver and method of processing data in digital television transmitter/receiver.
  28. Birru,Dagnachew; Gaddam,Vasanth R., Digital transmission system for an enhanced ATSC 8-VSB system.
  29. Anandakumar, Krishnasamy; Viswanathan, Vishu R.; McCree, Alan V., Diversity schemes for packet communications.
  30. Lee, Jae-Young; Ji, Kum-Ran; Kim, Sung-Hoon; Kim, Seung-Won; Lee, Soo-In; Ahn, Chieteuk, Dual stream structure digital television transmission and receiving method using hybrid of E-8VSB, E-4VSB and P2VSB.
  31. Allen LeRoy Limberg, Envelope detection of PN sequences accompanying VSB signal to control operation of QAM/VSB DTV receiver.
  32. Peting,Mark, Frequency drift compensation across multiple broadband signals in a digital receiver system.
  33. Limberg, Allen Le Roy, Ghost cancellation reference signals for broadcast digital television signal receivers and receivers for utilizing them.
  34. Perkins, Stephen J.; Gatherer, Alan; Anandakumar, Krishanasamy; McCree, Alan V.; Viswanathan, Vishu, Integrated circuits, systems, apparatus, packets and processes utilizing path diversity for media over packet applications.
  35. Shibutani, Akira; Suda, Hirohito, Interleaving method, interleaving apparatus, and recording medium in which interleave pattern generating program is recorded.
  36. Karr,Lawrence J.; Mitchell,William H., Low latency data stream encoding and transmission.
  37. Magee Mark ; Johnson Brian ; Lookabaugh Tom ; Daines Nolan, MPEG transport stream remultiplexer.
  38. Eastmond Bruce Charles ; Cudak Mark Conrad ; Kepler James Frank, Method access point device and peripheral for providing space diversity in a time division duplex wireless system.
  39. Arazi Efraim ; Tom Adam S. ; Shen Paul ; Krause Edward A., Method and apparatus for combining and distributing data with pre-formatted real-time video.
  40. Kroeger, Brian William, Method and apparatus for synchronized transmission and reception of data in a digital audio broadcasting system.
  41. Kroeger, Brian William; Mattson, Stephen Douglas, Method and apparatus for transmission and reception of compressed audio frames with prioritized messages for digital audio broadcasting.
  42. Gopinath,Krishnamurthy N.; Bhagwat,Pravin, Method and system for allowing and preventing wireless devices to transmit wireless signals.
  43. Kidd, Deanna R.; Kahn, Raynold M., Method and system for file sharing between a group of user devices using obtained permissions.
  44. Vare, Jani; Virtanen, Kari S., Method and system for providing quick service access.
  45. Rao R. Padmanabha (Sunnyvale CA), Method for configuring a statistical multiplexer to dynamically allocate communication channel bandwidth.
  46. Chuah,Mooi Choo; Medapalli,Kameswara Rao, Methods and apparatus for reliable point to multipoint communications.
  47. Sarachik, Karen; Dakss, Jon; Bove, Jr., V. Michael; Wachman, Josh, Methods for outlining and filling regions in multi-dimensional arrays.
  48. Charu C. Aggarwal ; Jayachandran Sethuraman ; Mark S. Squillante ; Joel L. Wolf ; Philip S. Yu, Optimizing method for digital content delivery in a multicast network.
  49. Mahn Hendrick,DEX, Process for designing a transport data stream.
  50. Stephen J. Perkins ; Alan Gatherer ; Krishanasamy Anandakumar ; Alan V. McCree ; Vishu Viswanathan, Processes, articles, and packets for network path diversity in media over packet applications.
  51. Mitchell, James P., Public safety communications network using asymmetric receive/transmit channels.
  52. Rodriguez Sanchez, Jose; Hilborn, Derek; Gormley, Eamonn, Real-time rate control mechanism for multi-rate data transmissions in wireless networks.
  53. Hoffmann, John E.; Nelson, Jr., George Rodney; Proctor, Jr., James A.; Rouphael, Antoine J., Reverse link pilot integrated with block codes.
  54. Limberg,Allen LeRoy, Robust signal transmission in digital television broadcasting.
  55. Breti, Wayne E.; Fimoff, Mark, Robust system for transmitting and receiving map data.
  56. Kostreski Bruce ; Schneider Allan, Simulcasting digital video programs for broadcast and interactive services.
  57. Zeng, Huaiyu (Hanks), Space time transmit diversity (STTD) decoder within a HSDPA rake receiver.
  58. Schilling Donald L., Spread-spectrum channel sounding.
  59. Paik Woo H. (Encinitas CA) Krause Edward A. (San Diego CA) Liu Vincent (San Gabriel CA) Shen Paul (San Diego CA) Derovanessian Henry (La Jolla CA), Statistical multiplexer for a multichannel image compression system.
  60. Lyons Paul Wallace, Studio transmitter link method and apparatus.
  61. Fimoff,Mark; Hauge,Raymond C.; Laud,Timothy G., Synchronous data link signal generator.
  62. Takeuchi, Tetsuya; Tan, Michael; Chang, Ying-Ian, System and method for fabricating efficient semiconductor lasers via use of precursors having a direct bond between a group III atom and a nitrogen atom.
  63. Park, Sung Ik; Lee, Yong Tae; Kim, Seung Won; Ahn, Chieteuk, System and method for providing terrestrial digital broadcasting service using single frequency network.
  64. M��ller,Dominique, System and method for synchronizing a transport stream in a single frequency network.
  65. Michener, James A., System and method for translating MPEG packets which include PCR data into DIRECTV packets which include RTS data.
  66. Ed Twitchell ; Bob Davis ; David Danielsons ; Bob Plonka ; Dave Nickell, System and method for transmitting advanced television signals.
  67. Yu, Jung-pil; Jeong, Hae-joo; Park, Eui-jun; Kim, Joon-soo; Kwon, Yong-sik; Jeong, Jin-Hee; Chang, Yong-deok; Ji, Kum-ran; Kim, Jong-hun, System for processing and transmitting digital broadcasting signal and method thereof.
  68. Kostreski Bruce ; Schneider Allan, Television distribution system and method.
  69. Limberg, Allen LeRoy, Time-dependent trellis coding for more robust digital television signals.
  70. Shin, Sung-Hyuk, Turbo code encoder having an improved interleaver.
  71. Poon Tommy C. ; Bao Jay ; Mizutani Yoshiki,JPX ; Nakayama Hiroyuki,JPX, Universal modem for digital video, audio and data communications.
  72. O'Shea Thomas E., Use of sub-rate out-of-band channel to transport signaling bits over time division multiplexed digital communication link.
  73. Rabinowitz, Matthew; Spilker, Jr., James J.; Omura, Jimmy K.; Pierce, Matthew D., Using digital television broadcast signals to provide GPS aiding information.
  74. Choi, In Hwan; Gu, Young Mo; Kang, Kyung Won; Kwak, Kook Yeon, VSB transmission system for processing supplemental transmission data.
  75. Bolgiano D. Ridgely (Gladwyne PA) LaVean Gilbert E. (Reston VA), Wireless telephone distribution system with time and space diversity transmission for determining receiver location.
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