Spot beam location method and apparatus
First Claim
1. A method of determining in which of a plurality of spot beams projected by a satellite a radio frequency transceiver is located, said method comprising:
- detecting whether a signal transmitted by said transceiver is received in a signalling channel assigned to all of said plurality of spot beams, and, if so, detecting in which of said plurality of spot beams the signal was received and selecting one of said spot beams on the basis of said detecting step.
5 Assignments
0 Petitions
Accused Products
Abstract
A mobile terminal (6) communicates via a satellite (8), which projects a number of overlapping spot beams (10), with a fixed earth station (2). To determine which spot beam (10) is to be used for communication, the mobile terminal signals in a common signalling channel which is simultaneously received by all, or a subgroup of, the spot beams (10). The satellite (8) retransmits to the fixed earth station (2) in separate channels the signal as received by each of the spot beams (10) which are able to receive the common signalling channel. The relative strengths of the signal as received in the different spot beams (10) are compared at the fixed earth station and a communications channel is assigned to the mobile terminal in one of the spot beams (10), selected according to the comparison of signal strengths.
38 Citations
77 Claims
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1. A method of determining in which of a plurality of spot beams projected by a satellite a radio frequency transceiver is located, said method comprising:
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detecting whether a signal transmitted by said transceiver is received in a signalling channel assigned to all of said plurality of spot beams, and, if so, detecting in which of said plurality of spot beams the signal was received and selecting one of said spot beams on the basis of said detecting step. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
the relative quality with which said signal was received in each of the spot beams of at least some of said set;
the relative number of communications channels available in each of the spot beams of at least some of said set;
and a random or pseudo random selection from at least some of said set.
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3. A method of assigning a communications channel comprising performing a method as claimed in claim 1 or claim 2, selecting a communications channel assigned to said selected spot beam, and transmitting a communications channel assignment command to said transceiver so as to set the transceiver to communicate in said communications channel.
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4. A method as claimed in claim 1, including, after said selecting step, transmitting spot beam identification information identifying the selected spot beam to the transceiver.
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5. A method as claimed in claim 1, comprising, before the step of receiving said signal, transmitting a signaling channel assignment command to said transceiver so as to set the signalling channel in which the transceiver transmits said signal.
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6. A method as claimed in claim 5, wherein the satellite projects a global beam which substantially encompasses said plurality of spot beams and said signaling channel assignment command is transmitted in said global beam.
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7. A method as claimed in claim 6, wherein said communications channel assignment command is transmitted in said global beam.
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8. A method as claimed in claim 1, wherein the satellite projects at least one further spot beam able to receive a further signalling channel, said method further comprising detecting whether a further signal transmitted by said transceiver is received in said further signalling channel.
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9. A method as claimed in claim 8, wherein the satellite projects more than one said further spot beams, further comprising, if said further signal is received, determining the location of said transceiver by detecting in which of said further spot beams said further signal is detected, and selecting one of said plurality of spot beams or further spot beams on the basis of said detection.
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10. A method of determining in which of a plurality of spot beams projected by a satellite a radio frequency transceiver is located, said plurality of spot beams comprising at least first, second and third spot beam groups able to receive respective first, second and third different signalling channels, and at least one of said spot beam groups comprising more than one of said spot beams which are mutually non-overlapping, said method comprising:
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receiving at least one of a first, second or third signal transmitted respectively on said first, second and third signalling channels by said radio frequency transceiver, and detecting in which of said plurality of spot beams said at least one of said first, second or third signal was received, and selecting one of said plurality of spot beams on the basis of said detecting step. - View Dependent Claims (11, 12, 13, 14, 15)
the relative quality with which said at least one of said first, second or third signal was received in at least some of the spot beams of said set;
the availability of communications channels in at least some of the spot beams of said set; and
a random selection from at least some of said set.
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13. A method of assigning a communications channel comprising:
performing a method as claimed in any one of claims 10 to 12, selecting a communications channel allocated to said selected spot beam, and transmitting a communications channel assignment command to said transceiver so as to set the transceiver to communicate in said communications channel.
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14. A method as claimed in claim 10, comprising, before said receiving step, transmitting a signalling channel assignment command to said transceiver to as to set said first, second and third signalling channels in which the transceiver transmits respectively said first, second or third signals.
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15. A method as claimed in claim 14, wherein the satellite projects a global beam which substantially encompasses said plurality of spot beams and said signaling channel assignment command is transmitted in said global beam.
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16. A method of operating a radio frequency transceiver for communication via a satellite which projects a plurality of spot beams, said method comprising:
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transmitting a signal in a signalling frequency channel to the satellite, the satellite being arranged to simultaneously receive the signalling frequency channel in more than one of said spot beams;
receiving in a common channel a communications channel assignment command; and
setting said transceiver to communicate in a communications channel selected according to said communications channel assignment command. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
selecting said signalling frequency channel according to said signalling frequency channel assignment command.
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18. A method as claimed in claim 17, wherein said selecting step comprises selecting more than one signalling frequency channel according to said signalling frequency channel assignment command, and said transmitting step comprises transmitting at least one signal, including said signal, respectively in at least one of said signalling frequency channels.
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19. A method as claimed in claim 16, wherein said transmitting step comprises transmitting at least one signal, including said signal, in at least one signalling frequency channel, including said signalling frequency channel.
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20. A method as claimed in claim 18 or 19, wherein said transmitting step comprises transmitting a respective one of said at least one signal in each of said signalling frequency channels.
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21. A method as claimed in claim 20, wherein said respective signals are transmitted in respective different time slots within a single time-division multiplexed frame.
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22. A method as claimed in claim 18 or 19, wherein said transmitting step comprises sequentially transmitting a respective said signal in different ones of said signalling frequency channels until said communications channel assignment command is received.
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23. A method as claimed in claim 16, wherein the step of transmitting said signal is repeated a predetermined number of times if no communications channel assignment command is received in response thereto.
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24. A method as claimed in claim 23, wherein the predetermined number of times is variable and dependent on the result of one or more previous communications by the radio frequency transceiver.
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25. A method as claimed in claim 24, wherein the predetermined maximum number of times is dependent on the number of previous successful communications by the radio frequency transceiver in one or more of said plurality of spot beams which are able to receive the signalling frequency channels in which said signal is transmitted.
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26. A method as claimed in claim 16, further comprising, before said transmitting step, selecting said signalling frequency channel according to information derived from one or more previous communications by the radio frequency transceiver.
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27. A method as claimed in claim 26, wherein said signalling frequency channel is selected so as to correspond to one or more of said spot beams used in said one or more previous communications.
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28. A method as claimed in claim 26 or 27 wherein said signalling frequency channel is selected according to control information received during said one or more previous communications.
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29. A method of controlling a satellite, comprising:
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projecting a plurality of spot beams on earth'"'"'s surface; and
receiving a same common incoming signaling frequency channel in all of the spot beams generated by the satellite.
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30. A method of operating an earth station in a satellite communications system, comprising receiving from a satellite a plurality of feeder link channels corresponding to a common signalling channel received respectively by a plurality of spot beams generated by said satellite.
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31. Apparatus for determining in which of a plurality of spot beams, projected by a satellite, a radio frequency transceiver is located, the apparatus comprising:
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detecting means for detecting whether a signal transmitted by said transceiver is received in a signalling channel assigned to all of said plurality of spot beams and for detecting in which of said plurality of spot beams a signal transmitted by said transceiver is received; and
selecting means for selecting one of said spot beams in response to said determining means. - View Dependent Claims (32, 33, 34, 35, 36, 37, 38, 39, 47, 48, 51, 70, 71)
the relative quality with which said signal was received in at least some of the spot beams of said set;
the availability of communications channels in at least some of the spot beams of said set; and
a random or pseudo random selection from at least some of said set.
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33. Apparatus as claimed in claim 31 or 32, including means for transmitting spot beam identification information identifying the selected spot beam to the transceiver.
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34. The apparatus as claimed in claim 33, wherein the apparatus is included in an earth station.
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35. Apparatus for assigning a communications channel in a satellite communications system, comprising:
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apparatus as claimed in claim 31;
assigning means for assigning a communications channel available in said selected spot beam to said transceiver; and
means for generating a communications channel assignment command for transmission to said transceiver so as to set the transceiver to communicate in said communications channel.
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36. The apparatus of claim 35, further comprising:
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means for generating a signalling channel assignment command for transmission to said transceiver so as to set the signalling channel in which the transceiver will transmit said signal;
means for allocating said signalling channel assignment command to a global beam, projected by the satellite, which substantially encompasses said plurality of spot beams; and
means for allocating said communications channel assignment command to said global beam.
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37. Apparatus as claimed in claim 31, comprising means for generating a signalling channel assignment command for transmission to said transceiver so as to set the signalling channel in which the transceiver will transmit said signal.
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38. Apparatus as claimed in claim 31, wherein said detecting means is further arranged to detect whether a further signal transmitted by said transceiver is received in a further signalling channel which is receivable in at least one further spot beam projected by said satellite and said selecting means is arranged to select one of said plurality of spot beams or said at least one spot beam in response to said detecting means.
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39. Apparatus as claimed in claim 38, further comprising means for detecting in which of more than one said further spot beams said further signal is received.
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47. Apparatus as claimed in claim 37 or claim 46, including means for allocating said signalling channel assignment command to a global beam, projected by the satellite, which substantially encompasses said plurality of spot beams.
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48. Apparatus as claimed in claim 47, further including means for allocating said communications channel assignment command to said global beam.
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51. The apparatus as claimed in claim 48, wherein the apparatus is included in an earth station.
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70. The apparatus as claimed in any one of claims 31 to 32, 35 to 42, 47, 57, to 55, 61 to 65 or 67 to 68, wherein the apparatus is included in an earth station.
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71. The apparatus as claimed in any one of claims 31 to 42, 68 or 69, wherein the apparatus is included in a satellite.
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40. Apparatus for determining in which of a plurality of spot beams, projected by a satellite, a radio frequency transceiver is located, comprising:
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means for determining whether at least one of a first, second and third signal are received from said transceiver respectively on a first, second and third signalling channel, said first, second and third signalling channels being allocated respectively to first, second and third groups of said plurality of spot beams, at least one of said spot beam groups comprising more than one of said spot beams which are mutually non-overlapping;
detecting means for detecting in which of said plurality of spot beams said at least one of said first, second and third signals was received; and
selecting means for selecting one of said plurality of spot beams in response to said detecting means. - View Dependent Claims (41, 42, 43, 44, 45, 46, 50)
a relative quality with which the corresponding one of said first, second and third signals was received in at least some of the spot beams of said set;
the availability of communications channels in at least some of the spot beams of said set; and
a random or pseudo random selection from at least some of said set.
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43. Apparatus for assigning a communications channel in a satellite communications system, comprising:
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apparatus as claimed in any one of claims 40 to 42;
means for selecting a communications channel allocated to said selected spot beam; and
means for generating a communications channel assignment command for transmission to said transceiver so as to set the transceiver to communicate in said communications channel.
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44. The apparatus of claim 43, further comprising:
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means for generating a signalling channel assignment command for transmission to said transceiver so as to set said first, said second and said third signalling channels in which the transceiver will transmit respectively said first, said second and said third signals;
means for allocating said signalling channel assignment command to a global beam, projected by the satellite, which substantially encompasses said plurality of spot beams; and
means for allocating said communications channel assignment command to said global beam.
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45. The apparatus as claimed in claim 43, wherein the apparatus is included in an earth station.
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46. Apparatus as claimed in claim 40, comprising means for generating a signalling channel assignment command for transmission to said transceiver so as to set said first, second, and third signalling channels in which the transceiver will transmit respectively said first, second and third signals.
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50. The apparatus as claimed in claim 43, wherein the apparatus is included in a satellite.
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49. The apparatus as claimed in claim 49, wherein the apparatus is included in an earth station.
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52. Apparatus for controlling a radio frequency transceiver for communication via a satellite which projects a plurality of spot beams, more than one of which is simultaneously able to receive a same signaling channel, comprising:
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generating means for generating a signal for transmission in said signaling channel;
means for receiving in a common channel a communications channel assignment command; and
means for setting said transceiver to communicate in a communications channel selected according to said communications channel assignment command. - View Dependent Claims (53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66, 67)
means for receiving a signalling channel assignment command; and
selecting means for selecting said signalling channel according to said signalling channel assignment command.
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54. Apparatus as claimed in claim 53, wherein said selecting means is arranged to select more than one signalling channel, including said signalling channel, according to said signalling channel assignment command, and said generating means is arranged to generate at least one signal, including said signal, respectively in at least one of said signalling channels.
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55. Apparatus as claimed in claim 52, wherein said generating means is arranged to generate at least one signal, including said signal, in at least one signalling channel, including said signalling channel.
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56. Apparatus as claimed in claim 54 or 55, wherein said generating means is arranged to generate a respective one of said at least one signal for transmission in each of said signalling channels.
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57. Apparatus as claimed in claim 56, wherein said generating means is arranged to output the respective signals in respective different time slots within a single time-division multiplexed frame.
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58. The apparatus as claimed in claim 57, wherein the apparatus is included in an earth station.
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59. The apparatus as claimed in claim 56, wherein the apparatus is included in an earth station.
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60. Apparatus as claimed in claim 54 or 55, wherein said generating means is arranged sequentially to output respective ones of said at least one signal for transmission in different ones of said signalling channels until said communications channel assignment command is received.
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61. Apparatus as claimed claim 52, wherein said generating means is arranged to repeat the signal a predetermined number of times for transmission in said signalling channel if the communications channel assignment command is not received in response to the signal.
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62. Apparatus as claimed in claim 61, including means for storing information derived from one or more previous communications by the radio frequency transceiver, wherein said predetermined number of times is dependent on said information.
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63. Apparatus as claimed in claim 62, wherein said predetermined number of times is dependent on the number of previous successful communications by the radio frequency transceiver in one or more of said plurality of spot beams which are able to receive the signalling channel in which said signal is transmitted.
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64. Apparatus as claimed in claim 52, including means for selecting said signalling channel according to information derived from one or more previous communications by the radio frequency transceiver.
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65. Apparatus as claimed in claim 64, wherein said selecting means is arranged to select said signalling channel so as to correspond to one or more of said spot beams used in said one or more previous communications.
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66. Apparatus as claimed in claim 64 or 65, wherein said selecting means is arranged to select said signalling channel according to control information received during said one or more previous communications.
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67. The apparatus as claimed in claim 66, wherein the apparatus is included in an earth station.
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68. A channel assignment apparatus for controlling a satellite which is arranged to project a plurality of spot beams on a surface of the earth, said apparatus being arranged to assign a same common signaling channel to all of the spot beams projected by the satellite.
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69. Apparatus for receiving from a satellite a different one of a plurality of feeder link channels corresponding to a same common signaling channel received respectively by each of a plurality of spot beams projected by said satellite.
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72. A method of selecting one of a plurality of cells for communication with a radio frequency transceiver in a cellular communications system, each of said cells including a base station for communication with radio frequency transceivers within said cell, said method comprising transmitting signalling channel information in a broadcast channel via satellite over said plurality of cells, said signalling channel information designating a signalling channel;
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receiving said signalling channel in each of said plurality of cells, including receiving a signal from a radio frequency transceiver in said signalling channel; and
selecting one of said plurality of cells in which said signal was received, for communication with said radio frequency transceiver. - View Dependent Claims (73, 74)
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75. Apparatus for selecting one of a plurality of cells for communication with a radio frequency transceiver in a cellular communications system, each of said cells including a base station for communication with radio frequency transceivers within said cell, said apparatus comprising:
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means for outputting signalling channel information for broadcasting via satellite over said plurality of cells, said signalling channel information designating a signalling channel;
means for receiving a signal in a signalling channel assigned to each of said plurality of cells; and
selecting means for selecting one of said plurality of cells in which said signal was received for communication with said radio frequency transceiver. - View Dependent Claims (76, 77)
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Specification