METHODS AND APPARATUS FOR PERFORMING TIMING SYNCHRONIZATION WITH BASE STATIONS
First Claim
1. A method of operating a communications device for use in a communications system where beacon time slots occur on a periodic basis, a beacon signal being transmitted by a satellite base station during each beacon time slot according to a periodic downlink timing structure, said downlink timing structure including a plurality of superslots within each beacon slot, the individual superslots within a beacon slot being identifiable through the use of a superslot index, each superslot including a plurality of symbol transmission time periods, the method comprising:
- transmitting an access probe signal to said base station;
receiving a response to the access probe signal from the base station, the response including information indicating at least one of;
i) an amount of an indicated main superslot timing offset correction, the amount of the main superslot timing offset correction being an integer multiple of a superslot time period;
ii) a superslot identifier indicating the position of a superslot within a beacon slot during which the base station received the access probe signal to which the received response corresponds;
iii) an identifier that identifiers the communications device which transmitted the access probe signal to which the received response corresponds and iv) an identifier that identifies the access probe to which the response being responding to; and
performing a transmission timing adjustment as a function of the information included in the received response.
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Accused Products
Abstract
A wireless terminal using OFDM signaling supporting both terrestrial and satellite base station connectivity operates using conventional access probe signaling in a first mode of operation to establish a timing synchronized wireless link with a terrestrial base station. In a second mode of operation, used to establish a timing synchronized wireless link with a satellite base station, a slightly modified access protocol is employed. The round trip signaling time and timing ambiguity between a wireless terminal and a satellite base station is substantially greater than with a terrestrial base station. The modified access protocol uses coding of access probe signals to uniquely identify a superslot index within a beaconslot. The modified protocol uses multiple access probes with different timing offsets to further resolve timing ambiguity and allows the satellite base station access monitoring interval to remain small in duration. Terrestrial base station location/connection information is used to estimate initial timing.
79 Citations
31 Claims
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1. A method of operating a communications device for use in a communications system where beacon time slots occur on a periodic basis, a beacon signal being transmitted by a satellite base station during each beacon time slot according to a periodic downlink timing structure, said downlink timing structure including a plurality of superslots within each beacon slot, the individual superslots within a beacon slot being identifiable through the use of a superslot index, each superslot including a plurality of symbol transmission time periods, the method comprising:
- transmitting an access probe signal to said base station;
receiving a response to the access probe signal from the base station, the response including information indicating at least one of;
i) an amount of an indicated main superslot timing offset correction, the amount of the main superslot timing offset correction being an integer multiple of a superslot time period;
ii) a superslot identifier indicating the position of a superslot within a beacon slot during which the base station received the access probe signal to which the received response corresponds;
iii) an identifier that identifiers the communications device which transmitted the access probe signal to which the received response corresponds and iv) an identifier that identifies the access probe to which the response being responding to; and
performing a transmission timing adjustment as a function of the information included in the received response. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 24, 26, 27, 28, 29, 30, 31)
- transmitting an access probe signal to said base station;
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2. The method of 1, wherein said identifier of the received access probe includes information that identifies the downlink superslot in which the communication device determined the probe was transmitted.
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19. A communications device for use in a communications system where beacon time slots occur on a periodic basis, a beacon signal being transmitted by a satellite base station during each beacon time slot according to a periodic downlink timing structure, said downlink timing structure including a plurality of superslots within each beacon slot, the individual superslots within a beacon slot being identifiable through the use of a superslot index, each superslot including a plurality of symbol transmission time periods, the method comprising:
- a transmitter module for transmitting an access probe signal to said base station;
a receiver module for receiving a response to the access probe signal from the base station, the response including information indicating at least one of;
i) an amount of an indicated main superslot timing offset correction, the amount of the main superslot timing offset correction being an integer multiple of a superslot time period;
ii) a superslot identifier indicating the position of a superslot within a beacon slot during which the base station received the access probe signal to which the received response corresponds, iii) an identifier that identifiers the communications device which transmitted the access probe signal to which the received response corresponds and iv) an identifier that identifies the access probe to which the response being responding to; and
a transmission timing adjustment module for performing a transmission timing adjustment as a function of the information included in the received response.
- a transmitter module for transmitting an access probe signal to said base station;
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20. A method of operating a communications terminal in an OFDM system including terrestrial and satellite base stations which use OFDM signals for both uplink and downlink signaling, the method comprising:
- determining if a base station to which said wireless terminal is seeking to send OFDM uplink signals is a satellite base station or a terrestrial base station;
performing a first uplink timing synchronization process if it is determined that said base station is a satellite base station, said first timing synchronization processes; and
performing a second uplink timing synchronization process if it is determined that said base station is a terrestrial base station, said second timing synchronization process being different from said first timing synchronization process. - View Dependent Claims (21, 22, 23)
- determining if a base station to which said wireless terminal is seeking to send OFDM uplink signals is a satellite base station or a terrestrial base station;
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25. A wireless terminal for use in communicating with base stations in a in a communications system including a plurality of base stations, the method comprising:
- storing base station location information in memory;
receiving a signal from a first base station;
determining a time at which to transmit an access signal to a second base station as a function of stored location information indicating the location of said first base station from which said wireless terminal received said signal; and
transmitting said access signal at the determined time.
- storing base station location information in memory;
Specification