Method and apparatus for synchronizing timing among radio ports in wireless communications systems

US 5,363,376 A
Filed: 07/30/1993
Issued: 11/08/1994
Est. Priority Date: 07/30/1993
Status: Expired due to Term

First Claim

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1. A method of synchronizing timing in a frequency-reusing radio communications system having a plurality of fixed base units and a plurality of mobile transceivers, each fixed based unit having a transmitter for transmitting a downlink signal at an assigned downlink frequency to at least one mobile transceiver, a receiver for receiving an uplink signal at an associated uplink frequency from at least one mobile transceiver and for receiving downlink signals at all the downlink frequencies being transmitted by the other of the plurality of fixed base units in the system, means adjusting timing of the fixed base unit, and means for determining a quality measure and for determining a timing measure of the signals received at all the possible different downlink frequencies from the other of the plurality of fixed base units in the system, comprising the steps of:

(a) turning off the transmitter at a first base unit;

(b) tuning the receiver at that first base unit to each possible downlink frequency;

(c) measuring at that first base unit the quality measure and the timing measure of the downlink signals received at each of the possible downlink frequencies from the other of the plurality of transmitting fixed base units in the system;

(d) for up to a predetermined number of downlink signals having the highest quality measures, calculating the average of the time differences between the timing measures of the downlink signals and the timing of the first base unit;

(e) adjusting the timing of the first base unit in response to the average of the time differences calculated in step (d);

(f) turning on the transmitter at that first base unit;

(g) repeating steps (a) through (f) at each of the other of the plurality of base units in the system; and

(h) after the timing of each of the plurality of base units in the system is adjusted in accordance with steps (a) through (f), repeating steps (a) through (g) a plurality of times.

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Abstract

In a TDM/TDMA digital radio communications system, time synchronization between fixed ports is achieved by adjusting the timing of a first port in response to the average timing difference between the timing of that first port and the timing measured by that first port of the downlink signals transmitted by a fixed number of the other ports in the system, which downlink signals are detected at the first port and determined to have the highest signal quality measures. Each of the other ports in the system sequentially performs the same process and the entire process is then reiterated a plurality of times at all of the ports until timing of the system converges.

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32 Claims

1. A method of synchronizing timing in a frequency-reusing radio communications system having a plurality of fixed base units and a plurality of mobile transceivers, each fixed based unit having a transmitter for transmitting a downlink signal at an assigned downlink frequency to at least one mobile transceiver, a receiver for receiving an uplink signal at an associated uplink frequency from at least one mobile transceiver and for receiving downlink signals at all the downlink frequencies being transmitted by the other of the plurality of fixed base units in the system, means adjusting timing of the fixed base unit, and means for determining a quality measure and for determining a timing measure of the signals received at all the possible different downlink frequencies from the other of the plurality of fixed base units in the system, comprising the steps of:
- (a) turning off the transmitter at a first base unit;
  
  (b) tuning the receiver at that first base unit to each possible downlink frequency;
  
  (c) measuring at that first base unit the quality measure and the timing measure of the downlink signals received at each of the possible downlink frequencies from the other of the plurality of transmitting fixed base units in the system;
  
  (d) for up to a predetermined number of downlink signals having the highest quality measures, calculating the average of the time differences between the timing measures of the downlink signals and the timing of the first base unit;
  
  (e) adjusting the timing of the first base unit in response to the average of the time differences calculated in step (d);
  
  (f) turning on the transmitter at that first base unit;
  
  (g) repeating steps (a) through (f) at each of the other of the plurality of base units in the system; and
  
  (h) after the timing of each of the plurality of base units in the system is adjusted in accordance with steps (a) through (f), repeating steps (a) through (g) a plurality of times.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. A method in accordance with claim 1 wherein in step (h) each base unit independently waits a random time before repeating steps (a) through (f).
  - 3. A method in accordance with claim 1 wherein a signal generated by a central controller initiates the start of steps (a) through (f) at each base unit.
  - 4. A method in accordance with claim 1 wherein in step (d) each of the time differences is adjusted by a propagation delay from the transmitting base unit to the first base unit.
  - 5. A method in accordance with claim 4 wherein the propagation delay is an estimated delay calculated from the average distance between fixed base units.
  - 6. A method in accordance with claim 4 wherein the propagation delay that adjusts the time differences in step (d) is calculated separately for each transmitting base unit and is based for each on the distance between each transmitting base unit and the first base unit.
  - 7. A method in accordance with claim 6 further comprising the steps of identifying the transmitting base units and retrieving the coordinates of the identified transmitting base units from a data base to calculate the distances between the transmitting base units and the first base unit.
  - 8. A method in accordance with claim 1 wherein in step (d) only if the quality measure of a downlink signal received from a fixed base unit is above a predetermined threshold is the timing of the downlink signal used to calculate the average of time differences.

9. A method of synchronizing timing in a TDM/TDMA digital telephony system having a plurality of fixed ports and a plurality of mobile portable units, each port having a transmitter for transmitting a downlink signal at an assigned downlink frequency to at least one portable unit, a receiver for receiving an uplink signal at an associated uplink frequency from at least one portable unit and for receiving downlink signals at all the downlink frequencies being transmitted by the other of the plurality of ports in the system, means for adjusting timing of the port, and means for determining a quality measure and for determining a timing measure of the signals received at all the possible different downlink frequencies from the other of the plurality of ports in the system, comprising the steps of:
- (a) turning off the transmitter at a first port;
  
  (b) tuning the receiver at that first port to each possible downlink frequency;
  
  (c) measuring at that first port the quality measure and the timing measure of the downlink signals received at each of the possible downlink frequencies from the other of the plurality of transmitting ports in the system;
  
  (d) for up to a predetermined number of downlink signals having the highest quality measures, calculating the average of the time differences between the timing measures of the downlink signals and the timing of the first port;
  
  (e) adjusting the timing measure of the first port in response to the average of the time differences calculated in step (d);
  
  (f) turning on the transmitter at that first port;
  
  (g) repeating steps (a) through (f) at each of the other of the plurality of ports in the system; and
  
  (h) after the timing of each of the plurality of ports in the system is adjusted in accordance with steps (a) through (f), repeating steps (a) through (g) a plurality of times.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
- - 10. A method in accordance with claim 9 wherein in step (h) each port independently waits a random time before repeating steps (a) through (f).
  - 11. A method in accordance with claim 9 wherein a signal generated by a central controller initiates the start of steps (a) through (f) at each port.
  - 12. A method in accordance with claim 9 wherein in step (d) each of the time differences is adjusted by a propagation delay from the transmitting port to the first port.
  - 13. A method in accordance with claim 12 wherein the propagation delay is an estimated delay calculated from the average distance between ports.
  - 14. A method in accordance with claim 12 wherein the propagation delay that adjusts the time differences in step (d) is calculated separately for each transmitting port and is based for each on the distance between each transmitting port and the first port.
  - 15. A method in accordance with claim 14 further comprising the steps of identifying the transmitting ports and retrieving the coordinates of the identified transmitting ports from a data base to calculate the distances between the transmitting ports and the first port.
  - 16. A method in accordance with claim 9 wherein in step (d) only if the quality measure of a downlink signal received from a fixed port is above a predetermined threshold is the timing measure of that downlink signal used to calculate the average of time differences.

17. In a frequency-reusing radio communications system having a plurality of fixed base units and a plurality of mobile transceivers, each fixed base unit having a transmitter for transmitting a downlink signal at an assigned downlink frequency to at least one mobile transceiver, a receiver for receiving an uplink signal at an associated uplink frequency from at least one mobile transceiver and for receiving downlink signals at all the downlink frequencies being transmitted by the other of the plurality of fixed base units in the system, and synchronizing apparatus for synchronizing timing, said synchronizing apparatus in each one of the plurality of base units comprising:
- means for turning off the transmitter at that one base unit and for tuning the receiver to each possible downlink frequency for synchronizing the timing of that one base unit;
  
  means for measuring the quality of the downlink signals received at each of the possible downlink frequencies from the other of the plurality of fixed base units in the system when said transmitter is off;
  
  means for measuring the timing of the downlink signals received at each of the possible downlink frequencies from the other of the plurality of fixed base units in the system when said transmitter is off;
  
  means for determining the timing differences between the measured timing of the downlink signals received at each of the possible downlink frequencies and the timing of the one base unit;
  
  means for forming an average time difference of those determined timing differences associated with up to a predetermined number of downlink signals having the highest quality measures; and
  
  means for adjusting the timing of said one base unit in response to the formed average time difference.
- View Dependent Claims (18, 19, 20, 21, 22, 23, 24)
- - 18. A fixed base unit in accordance with claim 17 further comprising control means for controlling when said one base unit synchronizes its timing.
  - 19. A fixed base unit in accordance with claim 18 wherein said control means repeats synchronizing the timing of said one base unit at randomly spaced times a fixed plurality of times.
  - 20. A fixed base unit in accordance with claim 17 wherein each of the plurality of fixed base units in the system is connected to a centralized control means, said centralized control means for controlling when each of the plurality of fixed base units synchronizes its timing.
  - 21. A fixed base unit in accordance with claim 17 wherein said means for averaging adjusts the differences of the timing of a predetermined number of downlink signals having the highest quality measures and the timing of said one base unit by the propagation delays to said one base unit from the other base units transmitting to the said one base unit.
  - 22. A fixed base unit in accordance with claim 21 wherein each of the propagation delays is an estimated delay calculated from the average distance between fixed base units in the system.
  - 23. A fixed base unit in accordance with claim 21 wherein each of the propagation delays is calculated separately based on the distances between each of the other base units and the one base unit.
  - 24. A fixed base unit in accordance with claim 17 wherein said means for averaging only averages the difference of timing of a downlink signal and the timing of said one base unit if the quality measure of the downlink signal is above a predetermined threshold.

25. In a TDM/TDMA digital telephony system having a plurality of fixed ports and a plurality of mobile portable units, each port having a transmitter for transmitting a downlink signal at an assigned downlink frequency to at least one portable unit, a receiver for receiving an uplink signal at an associated uplink frequency from at least one mobile portable unit and for receiving downlink signals at all the downlink frequencies being transmitted by the other of the plurality of ports in the system, and synchronizing apparatus for synchronizing timing, said synchronizing apparatus in each one of the plurality of ports comprising:
- means for turning off the transmitter at that one port and for tuning the receiver to each possible downlink frequency for synchronizing the timing of that one port;
  
  means for measuring the quality of the downlink signals received at each of the possible downlink frequencies from the other of the plurality of ports in the system when said transmitter is off;
  
  means for measuring the timing of the downlink signals received at each of the possible downlink frequencies from the other of the plurality of ports units in the system when said transmitter is off;
  
  means for determining the timing differences between the measured timing of the downlink signals received at each of the possible downlink frequencies and the timing of the one port;
  
  means for forming an average time difference of those determined timing differences associated with up to a predetermined number of downlink signals having the highest quality measures; and
  
  means for adjusting the timing of said one port in response to the formed average time difference.
- View Dependent Claims (26, 27, 28, 29, 30, 31, 32)
- - 26. A port in accordance with claim 25 further comprising control means for controlling when said one port synchronizes its timing.
  - 27. A port in accordance with claim 26 wherein said control means repeats synchronizing the timing of said one port at randomly spaced times a fixed plurality of times.
  - 28. A port in accordance with claim 25 wherein each of the plurality of ports in the system is connected to a centralized control means, said centralized control means for controlling when each of the plurality of ports synchronizes its timing.
  - 29. A port in accordance with claim 25 wherein said means for averaging adjusts the differences of the timing of a predetermined number of downlink signals having the highest quality measures and the timing of said one port by the propagation delays to said one port from the other ports transmitting to the said one base unit.
  - 30. A port in accordance with claim 29 wherein each of the propagation delays is an estimated delay calculated from the average distance between ports in the system.
  - 31. A port in accordance with claim 29 wherein each of the propagation delays is calculated separately based on the distances between each of the other ports and the one port.
  - 32. A port in accordance with claim 25 wherein said means for averaging only averages the difference of timing of a downlink signal and the timing of said one base unit if the quality measure of the downlink signal is above a predetermined threshold.

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Current Assignee
Intellectual Ventures II LLC (Intellectual Ventures LLC)
Original Assignee
Bell Communications Research, Inc. (Telefonaktiebolaget LM Ericsson)
Inventors
Sollenberger, Nelson R., Chuang, Justin C.
Primary Examiner(s)
HSU, ALPUS

Application Number

US08/100,515
Time in Patent Office

466 Days
Field of Search

370/24, 370/29, 370/95.1, 370/95.3, 370/100.1, 370/104.1, 370/108, 375/106, 375/107, 375/108, 379/58, 379/59, 379/61, 379/63, 455/33.1, 455/33.2, 455/33.4, 455/34.1, 455/34.2, 455/49.1, 455/50.1, 455/51.1, 455/53.1, 455/54.1, 455/54.2, 455/56.1, 455/62, 455/63, 455/67.1, 455/67.3 , 455/67.6, 455/70
US Class Current

370/332
CPC Class Codes

H04B 7/2696 Over the air autonomous syn...

Method and apparatus for synchronizing timing among radio ports in wireless communications systems

First Claim

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Abstract

84 Citations

32 Claims

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Method and apparatus for synchronizing timing among radio ports in wireless communications systems

First Claim

10 Assignments

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0 Petitions

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Accused Products

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Abstract

84 Citations

32 Claims

Specification

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Solutions

Use Cases

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