Method and apparatus for burst synchronization in a time division multiple access communication system
First Claim
1. A synchronizer associated with one of a plurality of member stations in a time division multiple access communication system of the type including said plurality of member stations and a repeater, said repeater sequentially receiving signal bursts from each of said member stations and retransmitting said signal bursts to all of said member stations whereby each of said member stations communicates with the remaining said member stations by transmitting signal bursts to and receiving signal bursts from said repeater, one of said member stations generating a reference signal for identifying a reference time slot in a super-frame comprising a plurality of time slots, each of said member stations being assigned a different one of said time slots, said one of a plurality of member stations also including means for transmitting a frame position synchronizing signal to said repeater, said synchronizer circuit comprising:
- means responsive to reception of said reference signal from said repeater and for generating both a reference forecast gate signal and a reference forecast position pulse in response to said reference signal, said reference forecast position pulse being representative of a predicted position of the time slot to which said one of said member stations is assigned, said reference forecast position pulse occurring within the time period when said reference forecast gate signal is present;
means responsive to receipt of said frame position synchronizing signal from the repeater for generating a detection pulse representing the actual position occupied by the station'"'"'s burst signals;
measurement initiation means responsive to the generation of said detection pulse during the interval of said reference forecast gate signal for comparing said position pulse and said detection pulse and for generating polarity and magnitude signals, respectively, representative of the magnitude and polarity of the position of said detection pulse relative to the position of said forecast position pulse;
means responsive to said polarity and magnitude signals for controlling the instant at which said one of said member stations generates a signal burst containing both said frame position synchronizing signal and data information;
means responsive to predetermined counts of said frame pulses for generating correction gate signals, measurement gate signals and advance notice signals each being of respectively different duration, and all occurring once within a super-frame interval whose duration is at least equal to twice the propagation time between a member station and the common repeater.
0 Assignments
0 Petitions
Accused Products
Abstract
A burst synchronization technique employed in a multiple access TDMA communication system in which all member stations communicate through a common repeater apparatus such as a stationary satellite.
A member station may gain access by transmitting during its allocated time slot. A time frame is defined as having a time duration equal to at least the time for the burst intervals of all the member stations preferably with at least a small guard time between bursts. A super-frame is defined as containing a plurality of frames which are sufficient in number to provide for a measurement period, a correction period and advance notice period and a propagation period.
Synchronization at a station is attained by receiving a reference signal transmitted by one member station and returned from the repeater to all stations; measuring the magnitude and polarity of the difference of the super frame timing reference relative to that of the station; transmitting said difference in advance of correction and then correcting said station timing relative to the reference during a correction phase.
Other member stations receive the different information only during the advance notice phase and correct only during the correction phase of a super frame, even in the absence of receiving a timing pulse for providing synchronization.
Means are provided for facilitating synchronization between receiving and transmitting facilities at each station over a reduced time period.
-
Citations
4 Claims
-
1. A synchronizer associated with one of a plurality of member stations in a time division multiple access communication system of the type including said plurality of member stations and a repeater, said repeater sequentially receiving signal bursts from each of said member stations and retransmitting said signal bursts to all of said member stations whereby each of said member stations communicates with the remaining said member stations by transmitting signal bursts to and receiving signal bursts from said repeater, one of said member stations generating a reference signal for identifying a reference time slot in a super-frame comprising a plurality of time slots, each of said member stations being assigned a different one of said time slots, said one of a plurality of member stations also including means for transmitting a frame position synchronizing signal to said repeater, said synchronizer circuit comprising:
-
means responsive to reception of said reference signal from said repeater and for generating both a reference forecast gate signal and a reference forecast position pulse in response to said reference signal, said reference forecast position pulse being representative of a predicted position of the time slot to which said one of said member stations is assigned, said reference forecast position pulse occurring within the time period when said reference forecast gate signal is present; means responsive to receipt of said frame position synchronizing signal from the repeater for generating a detection pulse representing the actual position occupied by the station'"'"'s burst signals; measurement initiation means responsive to the generation of said detection pulse during the interval of said reference forecast gate signal for comparing said position pulse and said detection pulse and for generating polarity and magnitude signals, respectively, representative of the magnitude and polarity of the position of said detection pulse relative to the position of said forecast position pulse; means responsive to said polarity and magnitude signals for controlling the instant at which said one of said member stations generates a signal burst containing both said frame position synchronizing signal and data information; means responsive to predetermined counts of said frame pulses for generating correction gate signals, measurement gate signals and advance notice signals each being of respectively different duration, and all occurring once within a super-frame interval whose duration is at least equal to twice the propagation time between a member station and the common repeater. - View Dependent Claims (2, 3, 4)
-
Specification