RU99111948A - SEQUENTIAL SEARCH METHOD IN MOBILE COMMUNICATION SYSTEM HAVING VARIABLE DATA TRANSMISSION SPEED - Google Patents

Claims (24)

1. The method of sequential search in a mobile communication system having a variable data rate and containing a serial searcher that finds the optimal path using certain upper and lower threshold values, characterized in that they transmit signals in Walsh symbols received over multiple paths, and dividing said signals into a plurality of power control groups (GUM), each of which consists of a plurality of Walsh symbols, selecting a GUM from a plurality of GUMs and reading the first Walsh symbol from the set of Walsh symbols belonging to the selected GUM selected, selecting the first position of the searcher, which is located on the time axis, and calculating the correlation power of the first Walsh symbol in the first position of the searcher, evaluating whether the path is determined or not, at the first position of the searcher, by comparing the calculated values of the correlation power of the first Walsh symbol with a certain upper threshold and to a certain lower threshold value, reading the second Walsh symbol following the first position of the finder on si time, and calculating the value of the correlation power of the second Walsh symbol in the second position of the finder following the first position of the finder on the time axis, if it is possible to evaluate whether the path is determined at the first position of the finder, check whether the first Walsh symbol is located in the last GUM position on the axis time, if it is impossible to assess whether the path is determined at the first position of the finder, reading the second Walsh symbol and calculating the power value correlation of the second Walsh symbol at the first position of the finder, if the first character olsha not located in the last position gum, and reading the second Walsh symbol and calculating a second correlation power values Walsh symbol in the second position searcher if the first Walsh symbol is located in the last position gum.  2. The method according to claim 1, characterized in that said step of calculating the Walsh symbol correlation power value calculates a correlation value of the Walsh symbol power value and the reference signal power value.  3. The method according to claim 2, characterized in that the method further comprises the step of recording the search position, if it is possible to evaluate whether the path is defined or not.  4. The method according to claim 3, characterized in that the method further comprises the step of reporting the search position if it is not possible to evaluate whether the path is defined or not.  5. The method according to claim 2, characterized in that said step of evaluating whether the path in the position of the finder is determined comprises the steps of comparing the power value of the Walsh symbol with an upper threshold value at which the value of the power of the Walsh symbol is found at the position of the finder, and the threshold value is determined in advance to determine the path; assessing that the path is determined in the position of the finder if the value of the Walsh symbol power is greater than the upper threshold value for determining the path; comparing the power value of the Walsh symbol with a lower threshold value at which the power value of the Walsh symbol is found at the position of the searcher, and the threshold value is determined in advance to determine the path; assessing that the path is not defined in the position of the searcher, if the value of the power of the Walsh symbol is less than the lower threshold value for determining the path; and determining that it is impossible to evaluate whether the path is determined or not, if the power value of the Walsh symbol is equal to or less than the upper threshold value for determining the path, and equal to or greater than the lower threshold value for determining the path.  6. The method according to claim 5, characterized in that when determining that the path is determined at the position of the finder, the method further comprises the step of recording the position of the finder in which the path was determined.  7. The method according to claim 6, characterized in that when determining that the path is not determined when the position of the finder, the method further comprises the step of recording the specified position of the finder, in which the path was not determined.  8. The method according to claim 7, characterized in that when determining that it is impossible to judge whether a signal is detected or not, the method further comprises the step of recording the position of the finder.  9. The method according to one of claims 1 to 8, characterized in that the time interval for following the Walsh symbol corresponds to 4.8 kHz.  10. The method according to p. 9, characterized in that the power control group (GUM) includes 6 Walsh symbols.  11. The method according to claim 10, characterized in that the power control group transmits reliable data or not in accordance with the data rate between the mobile station and the base transceiver station (BPS).  12. The method according to p. 11, characterized in that the sequential searcher is used in a base transceiver station that receives a signal from a mobile station according to a code division multiple access method.  13. A sequential search method in a mobile communication system having a variable data rate and comprising a plurality of sequential searchers that work in parallel to search for an optimal path from a plurality of paths using certain upper threshold and lower threshold values, the multiple paths having different delay times, characterized in that they transmit signals in Walsh symbols received in a variety of ways, and divide the transmitted signals into many power control groups (GUM) for each of the successive searchers, each GUM consisting of a plurality of Walsh symbols, selecting a GUM from a plurality of GUMs and reading the first Walsh symbol from the plurality of Walsh symbols belonging to the selected selected GUM, selecting the first position of the searcher, which is located on the time axis, and calculating the correlation power of the first Walsh symbol in the first position of the searcher, an assessment of whether the path is determined or not, at the first position of the searcher by comparing the calculated value of the correlation power of the first character an Alsha with a certain upper threshold and a certain low threshold, reading the second Walsh symbol following the first position of the searcher on the time axis, and confirming whether the second position of the searcher is used by other successive searchers, if possible, an assessment whether the path is determined at the first position of the searcher, in which the second position of the finder is located after the first position of the finder on the time axis, checking whether the first Walsh symbol is located in the last GUM position on the time axis, if not it is possible to evaluate whether the path is determined at the first position of the searcher, reading the second Walsh symbol and calculating the correlation power of the second Walsh symbol at the first position of the searcher, if the first Walsh symbol is not located in the last GUM position, reading the second Walsh symbol and confirming whether the second position is used the seeker by other successive seekers, if the first Walsh symbol is located in the last GUM position, calculating the correlation power of the second Walsh symbol in the third position, and Catel if the second position is used by other successive crawler crawlers, wherein the third position of the crawler is disposed behind a second position finder on the time axis, and calculating a second correlation power values Walsh symbol in the second position the crawler when the crawler second position not used by other successive seekers.  14. The method of claim 13, wherein said step of calculating a Walsh symbol correlation power value calculates a correlation value of a Walsh symbol power value and a reference signal power value.  15. The method according to 14, characterized in that the method further comprises the step of recording the search position, if it is possible to judge whether the path is defined or not.  16. The method according to clause 15, wherein the method further comprises the step of reporting the search position if it is impossible to judge whether the path is defined or not.  17. The method according to 14, characterized in that said step of evaluating whether the path is determined at the position of the finder, comprises the steps of comparing the power value of the Walsh symbol with an upper threshold value, in which the value of the power of the Walsh symbol is found at the position of the finder, and the threshold value for the definition of the path is predetermined; assessing that the path is determined at the position of the searcher, if the value of the Walsh symbol power is greater than the upper threshold value for determining the path; comparing the power value of the Walsh symbol with a lower threshold value, in which the power value of the Walsh symbol is found at the position of the finder, and the threshold value for determining the path is predetermined; assessing that the path is not determined when the position of the seeker, if the value of the power of the Walsh symbol is less than the lower threshold value for determining the path; and determining that it is impossible to judge whether the path is determined or not, if the power value of the Walsh symbol is equal to or less than the upper threshold value for determining the path, and equal to or greater than the lower threshold value for determining the path.  18. The method according to p. 17, characterized in that when determining that the path is determined at the position of the finder, the method further comprises the step of recording the position of the finder at which the path was determined.  19. The method according to p. 18, characterized in that when determining that the path is not defined at the position of the finder, the method further comprises the step of recording the position of the finder, in which the path was not determined.  20. The method according to claim 19, characterized in that when determining that it is impossible to judge whether the signal is detected or not, the method further comprises the step of recording the position of the searcher.  21. The method according to one of paragraphs. 13 to 20, characterized in that the time interval of the Walsh symbol corresponds to 4.8 kHz.  22. The method according to item 21, wherein the power control group (GUM) includes 6 Walsh symbols.  23. The method according to item 22, wherein the power control group transmits reliable data or not in accordance with the data rate between the mobile station and the base transceiver station (BPS).  24. The method according to p. 23, wherein the serial searcher is used in a base transceiver station that receives a signal from a mobile station according to a code division multiple access method.