Multiple access, time-division multiplex, satellite communications system
First Claim
1. A time-division, multiple access satellite communications system comprising at least one orbiting satellite repeater and n ground stations, n≧
- 2, communicating with each other via said satellite, each of said ground stations including a transmitter, a receiver and an antenna connected thereto, characterized in that;
said transmitter and receiver operate in full duplex mode on the same uplink and downlink frequency, and each of said ground stations further comprises;
(a) means for processing a plurality of information channels for transmission as a compressed pulse sequence to the remaining (n-1) ground stations in said system, each of said information channels having priorly been sampled and digitized;
(b) first means for multiplexing said plurality of information channels into a sequence of digital samples for transmission in the one or more time slots allocated to that ground station in a transmission frame or epoch having a duration, on the average, n times greater than the duration of said sequence, the sequence generated by each multiplexing means in said system occupying a unique, non-overlapping segment of said transmission frame or epoch;
(c) means for modulating said transmitter with the output of said multiplexing means; and
(d) means interposed between said antenna and the output of said transmitter, for enabling said transmitter for transmission to said satellite only during the time duration of the corresponding sequence of digital samples.
1 Assignment
0 Petitions
Accused Products
Abstract
A multiple-access, time-division multiplex, satellite communications systemn which the uplink and downlink frequencies are the same.
In each ground station, the outgoing information (be it data, encoded data or digitized samples of the voice frequency signals) are assembled into a sequence of pulses to be transmitted as a burst in the time slot assigned to that particular earth station. If there are n ground stations in the system, n≧2, then the duration of each ground station sequence is, on the average, 1/2n times the duration of a complete frame or epoch, because for half of the epoch the satellite is in the receiving mode and the other half of the epoch the satellite is in the transmitting mode.
-
Citations
8 Claims
-
1. A time-division, multiple access satellite communications system comprising at least one orbiting satellite repeater and n ground stations, n≧
- 2, communicating with each other via said satellite, each of said ground stations including a transmitter, a receiver and an antenna connected thereto, characterized in that;
said transmitter and receiver operate in full duplex mode on the same uplink and downlink frequency, and each of said ground stations further comprises; (a) means for processing a plurality of information channels for transmission as a compressed pulse sequence to the remaining (n-1) ground stations in said system, each of said information channels having priorly been sampled and digitized; (b) first means for multiplexing said plurality of information channels into a sequence of digital samples for transmission in the one or more time slots allocated to that ground station in a transmission frame or epoch having a duration, on the average, n times greater than the duration of said sequence, the sequence generated by each multiplexing means in said system occupying a unique, non-overlapping segment of said transmission frame or epoch; (c) means for modulating said transmitter with the output of said multiplexing means; and (d) means interposed between said antenna and the output of said transmitter, for enabling said transmitter for transmission to said satellite only during the time duration of the corresponding sequence of digital samples. - View Dependent Claims (2, 3, 4)
- 2, communicating with each other via said satellite, each of said ground stations including a transmitter, a receiver and an antenna connected thereto, characterized in that;
-
5. A method of transmitting information between the ground stations in a time division, multiple access satellite communications system, operating in a full duplex mode, of a type that includes at least one orbiting satellite repeater and n ground stations communicating via said satellite, N≧
- 2, each ground station including a transmitter, a receiver and an antenna connected thereto, characterized by the steps of, at each ground station;
(a) multiplexing the plurality of information channels intended for transmission to the remaining (n-1) ground stations in said system into a sequence of digital samples in a transmission frame or epoch having a duration, on the average, which is n times greater than the duration of said sequence, each of said information channels having been priorly sampled and digitized; and (b) transmitting said sequence of digital samples to said repeater such that said sequence occupies a unique, nonoverlapping segment of said transmission frame; and (c) temporarily delaying in said satellite repeater the transmission frame comprising the sequence of digital samples received from all n ground stations for a first, predetermined time interval wherein;
the duration of each transmission frame or epoch is Tt, the duration of the delay imposed on each transmission frame in said satellite repeater is Tx, the time taken for each transmission frame to travel up to said satellite repeater is Tu, and the time taken for each transmission frame to travel down from said satellite repeater is Td, characterized in that to insure that the duty cycle for the receiver associated with each of said n ground stations is on the order of 50%;Tx, the delay in said satellite repeater is selected according to the relationship
space="preserve" listing-type="equation">T.sub.u +T.sub.d +T.sub.x =kT.sub.twhere k is an odd integer, and then; (d) retransmitting said transmission frame simultaneously to all n ground stations. - View Dependent Claims (6, 7, 8)
- 2, each ground station including a transmitter, a receiver and an antenna connected thereto, characterized by the steps of, at each ground station;
Specification