Synchronization control capable of establishing synchronization without transmission of distance information between control and local earth stations
First Claim
1. In a control earth station for use in a time division multiple access network to communicate with a local earth station through a geostationary satellite which fluctuates from a standard position into a deviated position with time with a spatial deviation left between said standard and said deviated positions, said control earth station comprising transmission timing means for transmitting a transmission reference timing signal towards said geostationary satellite, first detecting means for receiving a reception timing signal which results from the transmission reference timing signal sent back from said satellite, and reception timing control means coupled to said transmission timing means and said first detecting means for controlling a reception time instant determined for said local earth station, the improvement wherein said reception timing control means comprises:
- measuring means responsive to said reception timing signal for measuring a time difference between said transmission reference timing signal and said reception time instant to determine an actual distance between said control earth station and said satellite;
standard delay providing means for providing a standard delay time determined by a standard distance between said control earth station and said standard position of the satellite;
second detecting means coupled to said measuring means and said standard delay providing means for detecting a time deviation resulting from said spatial deviation of the satellite, with reference to said time difference and said standard delay time; and
varying means coupled to said second detecting means and said standard delay providing means for varying said reception time instant for the local earth station with reference to said standard delay time and said time deviation.
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Accused Products
Abstract
In a TDMA satellite communication network comprising control and local earth stations communicable with one another through a satellite, a time difference between transmission and reception of a reference burst is measured at the control earth station to detect a time deviation (Tb) from a standard offset time (SO) predetermined for the control earth station. In the control earth station, the time deviation is doubled and added to the standard offset time to provide a reception time instant (t4) for the local earth station. Thus, the reception time instant is varied and predicted in the control earth station with reference to the time deviation detected in the control earth station. The local earth station determines a transmission time instant (t2 or t2 '"'"') by delaying a reception timing signal by a predetermined time interval (Ta).
43 Citations
6 Claims
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1. In a control earth station for use in a time division multiple access network to communicate with a local earth station through a geostationary satellite which fluctuates from a standard position into a deviated position with time with a spatial deviation left between said standard and said deviated positions, said control earth station comprising transmission timing means for transmitting a transmission reference timing signal towards said geostationary satellite, first detecting means for receiving a reception timing signal which results from the transmission reference timing signal sent back from said satellite, and reception timing control means coupled to said transmission timing means and said first detecting means for controlling a reception time instant determined for said local earth station, the improvement wherein said reception timing control means comprises:
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measuring means responsive to said reception timing signal for measuring a time difference between said transmission reference timing signal and said reception time instant to determine an actual distance between said control earth station and said satellite; standard delay providing means for providing a standard delay time determined by a standard distance between said control earth station and said standard position of the satellite; second detecting means coupled to said measuring means and said standard delay providing means for detecting a time deviation resulting from said spatial deviation of the satellite, with reference to said time difference and said standard delay time; and varying means coupled to said second detecting means and said standard delay providing means for varying said reception time instant for the local earth station with reference to said standard delay time and said time deviation. - View Dependent Claims (2, 3)
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4. In a local earth station for use in a time division multiple access network to communicate with a control earth station through a geostationary satellite, said local earth station being supplied with a reception timing signal from said control earth station through said geostationary satellite, and carrying out transmission in synchronism with a local transmission timing signal, the improvement wherein said local earth station comprises:
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delay means responsive to said reception timing signal for delaying said reception timing signal by a predetermined duration to produce a delayed timing signal, said predetermined duration being determined in said local earth station; and means for providing said delayed timing signal as said local transmission timing signal.
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5. A satellite communication network for use in carrying out communication between a control earth station and a local earth station via a geostationary satellite which fluctuates from a standard position into a deviated position with time with a spatial deviation left between said standard and said deviated positions;
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said control earth station comprising; transmission timing means for transmitting a transmission reference timing signal toward said geostationary satellite; first detecting means for receiving a reception timing signal which results from the transmission reference timing signal sent back from said satellite; measuring means responsive to said reception timing signal for measuring a time difference between said transmission reference timing signal and said reception time instant to determine an actual distance between said control earth station and said satellite; standard delay providing means for providing a standard delay time determined by a standard distance between said control earth station and said standard position of the satellite; second detecting means coupled to said measuring means and a said standard delay providing means for detecting a time deviation resulting from said spatial deviation of the satellite, with reference to said time difference and said standard delay time; varying means coupled to said second detecting means and said standard delay providing means for varying said reception time instant for the local earth station with reference to said standard delay time and said time deviation; said local earth station being supplied with the transmission reference timing signal a local reception timing signal and comprising; delay means responsive to said local reception timing signal for delaying said local reception timing signal by a predetermined duration to produce a delayed timing signal, said predetermined duration being determined in said local earth station; and means coupled to said delay means for carrying out transmission in accordance with said delayed timing signal. - View Dependent Claims (6)
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Specification
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- Resources
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Current AssigneeNEC Corporation
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Original AssigneeNEC Corporation
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InventorsAoki, Takahiro, Tejima, Shunichiro
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Primary Examiner(s)Olms, Douglas W.
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Assistant Examiner(s)Jung, Min
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Application NumberUS07/025,342Time in Patent Office683 DaysField of Search370/104, 370/95, 370/108, 370/100, 455/12US Class Current370/324CPC Class CodesH04B 7/2125 Synchronisation
