Frequency hopping system for intermittent transmission
First Claim
1. A system comprising:
- a receiver for simultaneously holding time data indicative of an expected time of at least one future transmission from each of a plurality of transmitters; and
said plurality of transmitters, each of which, when operative, transmits intermittently transmissions independently of any other of said plurality of transmitters and independently of said receiver.
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Accused Products
Abstract
A radio transmission system including many radio transmitters using frequency hopping carriers to intermittently transmit very short messages indicative of status of sensors associated with the transmitters. In operation, a time interval generator included in a transmitter generates pulses activating the transmitter at time intervals according to a predetermined algorithm. When activated, the transmitter transmits a message at one or several different frequencies. The frequencies are changed according to a predetermined algorithm and preferably differ for each subsequent transmission. Alternatively, when an abnormal sensor status is detected, the transmitter transmits repeated messages at a plurality of predetermined alarm frequencies for a predetermined time regardless of the time interval generator. The system also includes one or more receivers containing a plurality of memory registers to hold digital data indicative of (a) the time and (b) the frequency of the next transmission occurrence independently for each transmitter. The registers are programmed separately for each transmitter based on the time, frequency, and the content of the received messages.
101 Citations
100 Claims
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1. A system comprising:
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a receiver for simultaneously holding time data indicative of an expected time of at least one future transmission from each of a plurality of transmitters; and
said plurality of transmitters, each of which, when operative, transmits intermittently transmissions independently of any other of said plurality of transmitters and independently of said receiver. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
each of said plurality of transmitters transmits at varied transmission frequency, and said receiver is, further, for holding, simultaneously for each of said plurality of transmitters, frequency data indicative of an expected transmission frequency of said at least one future transmission at said expected time. -
3. The system of claim 2 wherein each of said plurality of transmitters comprises at least one of:
- (a) logic for varying said transmission frequency according to a frequency pattern that is different for each of said plurality of transmitters, and (b) logic for varying time interval between transmissions according to a time pattern that is different for each of said plurality of transmitters.
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4. The system of claim 2 or 3 wherein
said receiver comprises a frequency selective circuit, and wherein in operation, for each of said plurality of transmitters, said receiver changes frequency of said frequency selective circuit to said expected transmission frequency at such time relative to said expected time to receive and demodulate said at least one future transmission. -
5. The system of claim 4 wherein, in operation,
said receiver, during the time between transmissions, changes frequency of said frequency selective circuit to scan at least a portion of frequencies available for transmissions in an attempt to receive a transmission from a transmitter with which synchronization has been lost, and when such transmission is received at least in part, said receiver updates, for said transmitter with which synchronization has been lost, said time data and said frequency data. -
6. The system of claim 3 wherein, in operation, each of said plurality of transmitters includes in each of a plurality of said transmissions at least a portion of data for identifying at least one of (a) said frequency pattern and (b) said time pattern.
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7. The system of claim 3 wherein each of said plurality of transmitters has at least one identification, and at least one of (a) said time pattern, and (b) said frequency pattern, is based on said identification.
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8. The system of claim 2 wherein, in operation, at least one of said plurality of transmitters varies transmission frequency according to a first frequency pattern to transmit status transmissions and varies transmission frequency according to a second frequency pattern to transmit alarm transmissions.
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9. The system of claim 1 or 2 wherein, in operation, each of said plurality of transmitters includes in each of a plurality of said transmissions at least a portion of data indicative of at least one of:
- (a) a frequency of at least one future transmission, and (b) time of at least one future transmission.
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10. The system of claim 1 wherein each of said plurality of transmitters transmits a plurality of transmissions at various frequency channels, wherein, upon each of said plurality of transmissions, a frequency channel of at least one future transmission is predictable based on a frequency channel of at least one past transmission.
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11. A method comprising:
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holding simultaneously time data indicative of an expected time of at least one future transmission from each of a plurality of transmitters; and
transmitting intermittently a plurality of transmissions from each of said plurality of transmitters, wherein each of said plurality of transmitters transmits independently of any other of said plurality of transmitters and independently of any apparatus capable of receiving any of said plurality of transmissions from any of said plurality of transmitters. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
transmitting, by each of said plurality of transmitters, at varied transmission frequency, and holding, by said receiver, simultaneously for each of said plurality of transmitters, frequency data indicative of an expected transmission frequency of said at least one future transmission at said expected time. -
13. The method of claim 12 further comprising at least one of (a) varying said transmission frequency according to a frequency pattern that is different for each of said plurality of transmitters, and (b) varying time interval between transmissions according to a time pattern that is different for each of said plurality of transmitters.
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14. The method of claim 12 or 13 further comprising
changing, in said receiver, for each of said plurality of transmitters, frequency of a frequency selective circuit to said expected transmission frequency at such time relative to said expected time to receive and demodulate said at least one future transmission. -
15. The method of claim 14 further comprising
changing, in said receiver, during the time between transmissions, frequency of said frequency selective circuit to scan at least a portion of frequencies available for transmissions in an attempt to receive a transmission from a transmitter with which synchronization has been lost, and updating, by said receiver, said time data and said frequency data for said transmitter with which synchronization has been lost, when such transmission is received at least in part. -
16. The method of claim 13 further comprising including, by each of said plurality of transmitters, in each of a plurality of said transmissions, at least a portion of data for identifying at least one of:
- (a) said frequency pattern and (b) said time pattern.
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17. The method of claim 13 wherein each of said plurality of transmitters has at least one identification, and at least one of (a) said time pattern, and (b) said frequency pattern, is based on said identification.
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18. The method of claim 12 further comprising varying, by at least one of said plurality of transmitters, transmission frequency according to a first frequency pattern to transmit status transmissions and varying transmission frequency according to a second frequency pattern to transmit alarm transmissions.
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19. The method of claim 11 or 12 further comprising including, by each of said plurality of transmitters, in each of said plurality of transmissions, at least a portion of data indicative of at least one of:
- (a) a frequency of at least one future transmission, and (b) time of at least one future transmission.
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20. The method of claim 11 wherein each of said plurality of transmitters transmits said plurality of transmissions at various frequency channels, wherein, upon each of said plurality of transmissions, a frequency channel of at least one future transmission is predictable based on a frequency channel of at least one past transmission.
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21. A receiver comprising:
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logic for holding simultaneously time data indicative of an expected time of at least one future transmission from each of a plurality of transmitters, wherein each of said plurality of transmitters is for transmitting intermittently transmissions independently of any other of said plurality of transmitters and independently of said receiver. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30)
said receiver comprises a frequency selective circuit, and wherein in operation, for each of said plurality of transmitters, said receiver changes frequency of said frequency selective circuit to said expected transmission frequency at such time relative to said expected time to receive and demodulate said at least one future transmission. -
25. The receiver of claim 24 wherein, in operation,
said receiver, during the time between transmissions, changes frequency of said frequency selective circuit to scan at least a portion of frequencies available for transmissions in an attempt to receive a transmission from a transmitter with which synchronization has been lost, and when such transmission is received at least in part, said receiver updates, for said transmitter with which synchronization has been lost, said time data and said frequency data. -
26. The receiver of claim 23 wherein, in operation, said receiver identifies at least one of:
- (a) said time pattern, and (b) said frequency pattern, based on at least a portion of data included in at least one of said transmissions.
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27. The receiver of claim 23 wherein, for each of said plurality of transmitters, said receiver holds an identification for identifying at least one of:
- (a) said time pattern, and (b) said frequency pattern.
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28. The receiver of claim 22 wherein said receiver is for receiving status transmissions according to a first frequency pattern and for receiving alarm transmissions according to a second frequency pattern.
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29. The receiver of claim 22 wherein, in operation, said receiver determines at least one of:
- (a) said expected time, and (b) said expected transmission frequency, based on at least a portion of data included in at least one of said transmissions.
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30. The receiver of claim 21 further comprising logic for predicting for each of a plurality of transmissions from each of said plurality of transmitters, a frequency channel of said at least one future transmission based on a frequency channel of at least one past transmission, wherein each of said plurality of transmitters transmits said plurality of transmissions at various frequency channels.
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31. A method comprising:
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holding simultaneously, in a receiver, time data indicative of an expected time of at least one future transmission from each of a plurality of transmitters, wherein each of said plurality of transmitters transmits intermittently transmissions independently of any other of said plurality of transmitters and independently of said receiver. - View Dependent Claims (32, 33, 34, 35, 36, 37, 38, 39, 40)
changing frequency of a frequency selective circuit to said expected transmission frequency at such time relative to said expected time to receive and demodulate said at least one future transmission. -
35. The method of claim 34 further comprising
changing frequency of said frequency selective circuit to scan at least a portion of frequencies available for transmissions in an attempt to receive a transmission from a transmitter with which synchronization has been lost, and when such transmission is received at least in part, updating, for said transmitter with which synchronization has been lost, at least one of (a) said time data and (b) said frequency data. -
36. The method of claim 33 further comprising identifying at least one of:
- (a) said time pattern, and (b) said frequency pattern, based on at least a portion of data included in at least one of said transmissions.
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37. The method of claim 33 further comprising:
- holding an identification for identifying at least one of;
(a) said time pattern, and (b) said frequency pattern.
- holding an identification for identifying at least one of;
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38. The method of claim 32 further comprising receiving status transmissions according to a first frequency pattern and for receiving alarm transmissions according to a second frequency pattern.
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39. The method of claim 32 further comprising determining at least one of:
- (a) said expected time, and (b) said expected transmission frequency, based on at least a portion of data included in at least one of said transmissions.
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40. The method of claim 31 further comprising predicting, for each of a plurality of transmissions from each of said plurality of transmitters, a frequency channel of said at least one future transmission based on a frequency channel of at least one past transmission, wherein each of said plurality of transmitters transmits said plurality of transmissions at various frequency channels.
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41. A plurality of transmitters, each of which comprises:
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a synthesizer circuit for producing transmission frequency based on a reference frequency and for varying said transmission frequency in response to programming by digital data, and an oscillator for producing said reference frequency, and control logic for programming said synthesizer circuit according to a frequency pattern that is different for each of said plurality of transmitters, wherein, in operation, each of said plurality of transmitters varies transmission frequency according to said frequency pattern and transmits intermittently transmissions independently of any other of said plurality of transmitters and independently of any apparatus for receiving any of said transmissions. - View Dependent Claims (42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 64, 65, 66)
at least one of said plurality of transmitters varies transmission frequency according to a first frequency pattern to transmit status transmissions and varies transmission frequency according to a second frequency pattern to transmit alarm transmissions. -
50. The plurality of transmitters of claim 41 or 42 or 43, wherein, for each of said plurality of transmitters, said transmissions arc performed at time intervals varied according to a time pattern.
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51. The plurality of transmitters of claim 50 wherein each of a plurality of said transmissions comprises at least a portion of an indicium of at least a portion of said time pattern.
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52. The plurality of transmitters of claim 50 wherein for each of said plurality of transmitters, after each of said transmissions, at least one future transmission time is predictable.
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53. The plurality of transmitters of claim 50 wherein said time pattern is different for each of said plurality of transmitters.
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54. The plurality of transmitters of claim 53 wherein said time pattern is determined based on a second selecting number.
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55. The plurality of transmitters of claim 54 wherein
said frequency pattern is determined based on a first selecting number, and each of said plurality of transmitters has at least one identification and at least one of (a) said first selecting number and (b) said second selecting number, is determined based on said identification. -
56. The plurality of transmitters of claim 50 wherein each of a plurality of said transmissions comprises at least part of data indicative of time of at least one future transmission.
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57. The plurality of transmitters of claim 50 wherein said time pattern is determined based on comprising a pseudo-noise sequence as generated by a pseudo-noise generator.
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58. The plurality of transmitters of claim 50 wherein each of said plurality of transmitters, when operative, transmits transmissions at time intervals varied according to said time pattern and varies transmission frequency according to said frequency pattern in such a way that after each of said transmissions at least one future transmission time and frequency are predictable.
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59. The plurality of transmitters of claim 50 wherein
at least one of said plurality of transmitters varies transmission frequency according to a first frequency pattern to transmit status transmissions and varies transmission frequency according to a second frequency pattern to transmit alarm transmissions. -
60. The plurality of transmitters of claim 50 wherein, for each of said plurality of transmitters, said frequency pattern and said time pattern are determined based on an identical basic pattern.
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61. The plurality of transmitters of claim 60 wherein, for each of said plurality of transmitters, at least one of (a) said frequency pattern and (b) said time pattern is determined based on said identical basic pattern modified by at least one selecting number.
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62. The plurality of transmitters of claim 61 wherein each of said plurality of transmitters has at least one identification and said at least one selecting number is determined based on said identification.
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63. The plurality of transmitters of claim 60 wherein said identical basic pattern is determined based on a pseudo-noise sequence as generated by a pseudo-noise generator.
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64. The plurality of transmitters of claim 41 or 42 or 43, wherein said synthesizer circuit and said logic are packaged separately.
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65. The plurality of transmitters of claim 41 or 42 or 43, wherein each of said plurality of transmitters is for transmitting data indicative of a monitoring sensor status.
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66. The plurality of transmitters of claim 41 or 42 or 43, wherein, for each of said plurality of transmitters, carrier frequency and time intervals between transmissions are derived from a same frequency source.
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67. A plurality of transmitters each of which comprises:
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a synthesizer circuit for producing transmission frequency based on a reference frequency and for varying said transmission frequency in response to programming by digital data, and an oscillator for producing said reference frequency, and control logic for programming said synthesizer circuit according to a frequency pattern that is identical for each of said plurality of transmitters, wherein in operation, each of said plurality of transmitters varies transmission frequency according to said frequency pattern and transmits intermittently transmissions independently of any other of said plurality of transmitters and independently of any apparatus for receiving any of said transmissions. - View Dependent Claims (68, 69, 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, 90)
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91. A plurality of frequency hopping transmitters, each of which comprises
a circuit for transmitting intermittently transmissions, at varied transmission frequency, independently of any apparatus for receiving any of said transmissions and independently of any other of said plurality of transmitters, and logic for varying said transmission frequency according to a frequency pattern in such a way that, upon each transmission, at least one future transmission frequency is predictable based on a frequency of at least one past transmission.
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96. A transmitter comprising
a circuit that, in operation, transmits intermittently a plurality of transmissions, at various frequency channels, independently of any apparatus for receiving any of said transmissions, and logic for holding, upon each of said plurality of transmissions, data indicative of a frequency channel of at least one future transmission, wherein said frequency channel of said at least one future transmission is predictable based on a frequency channel of at least one past transmission.
Specification