RU2002122085A - WIRELESS COMMUNICATION SYSTEM RECEIVER USING QUICK SEARCH CHANNEL SYMBOLS - Google Patents

Claims (32)

1. A system for efficiently utilizing a quick paging channel signal to determine the availability of an upcoming main paging channel signal in a wireless communication system that uses a quick paging channel and a primary paging channel, comprising a first mechanism for selectively processing a first symbol of a fast paging channel search call and / or second symbol of the channel quick search call from the received signal based on the first decision parameter and / or second decision parameter, and outputting first display according to the results of said processing; a second mechanism for processing the aforementioned first symbol of the channel quick search call in response to the specified first indication and issuing the results of this processing of the second indication indicating whether to receive and process the upcoming channel signal of the main search call; a third mechanism for processing the aforementioned second symbol of the quick paging channel in response to said first and second indications and issuing a third indication based on the results of this processing, indicating whether to receive and process said main paging channel. 2. The system of claim 1, further comprising a fourth mechanism for selectively using the third mechanism when the second indication indicates that the upcoming main paging channel should not be received and processed. 3. The system according to claim 2, which is located on a mobile station to ensure the successful establishment of a traffic channel between this mobile station and the wireless communication system when a paging call is sent to the mobile station via the wireless communication system indicating the presence of an upcoming call. 4. The system according to claim 2, in which the first decision parameter characterizes the quality of the signal propagation medium through which the received signal propagates. 5. The system according to claim 4, in which the first decision-making parameter (CSI ₁ ) is defined by the following expression:

where E _pilot1 represents the total energy of the part of the pilot signal associated with the first symbol of the channel quick search call, and

represents the total energy of the portion of the received signal associated with this first symbol of the quick paging channel. 6. The system according to claim 5, in which the first decision parameter (D ₁ ) is given by the following expression:

where QP ₁ is a scalar product, a vector product, or a combination of scalar and vector products of the first symbol and the estimate of the pilot signal associated with this first symbol. 7. The system according to claim 6, in which the first mechanism further includes a mechanism for comparing the first decision parameter with a threshold value for erasure and, based on the result of this comparison, notifying by a first indication that when the value of the first decision parameter exceeds a predetermined threshold value for erasure, the first character of the channel quick search call should be processed. 8. The system according to claim 7, in which the first mechanism further includes a mechanism for notifying by a first indication that when the first decision parameter is less than the erasure threshold, then instead of the first symbol of the quick search channel the call should immediately process the second character of the channel quick search call. 9. The system of claim 8, in which the second mechanism includes a mechanism for comparing the second decision parameter (D ₁ ) with the first “on / off” threshold value and notifying by a second indication that the upcoming search channel The call should not be accepted and processed to receive the upcoming paging call. 10. The system according to claim 9, in which the second mechanism further includes a mechanism for selectively transferring the system to standby mode in response to the second indication. 11. The system of claim 10, in which the second mechanism includes a mechanism for notification by the second indication that in the case where the first indication does not indicate that the first character of the channel quick search call should be received and processed, and the value of the second decision parameter exceeds the threshold value by "on / off", the second character of the channel quick search call should be processed. 12. The system according to claim 11, in which the third mechanism includes a mechanism for calculating a decision parameter (D) in response to the notification mechanism mentioned above:

where σ $\genfrac{}{}{0ex}{}{\text{2}}{\text{1}}$ represents the noise power associated with a portion of the received signal containing the first symbol of the quick paging channel; σ $\genfrac{}{}{0ex}{}{\text{2}}{\text{2}}$ represents the noise power associated with a portion of the received signal containing the second symbol of the quick paging channel; QP ₂ is a scalar product, a vector product, or a combination of scalar and vector products between the signal components of the second symbol of the quick paging channel and the pilot signal associated with this second symbol of the quick paging channel; E _pilot2 represents the total energy of the portion of the pilot signal associated with the second symbol of the channel quick search call. 13. The system of claim 12, wherein the third mechanism further includes a mechanism for comparing D with the second threshold value on / off and notifying via a third indication that when the value of D exceeds the second threshold if the value is on / off, then the upcoming main paging channel should be processed, and if D is approximately less than the specified threshold value on / off, then the upcoming main paging channel should not be processed follows. 14. A system designed to notify whether to accept and process the channel of the main search call, based on the signal quick search call associated with the channel quick search call, containing the first mechanism for calculating the first decision parameter characterizing the quality of the distribution medium signals in which the system operates based on a received signal comprising a quick page signal and a pilot signal; a second mechanism for selectively processing the first character of the quick paging signal in response to the first parameter and for outputting a second parameter as a result of such processing, this second parameter characterizing the strength of the quick paging signal; a third mechanism for determining, based on the first and second decision parameters, whether to process the second symbol of the signal of the quick search call channel or to give the first indication indicating that the main search call channel should not be processed for the upcoming search call; a fourth mechanism for selectively processing the second symbol of the fast paging channel signal in response to the third mechanism, this fourth mechanism including a mechanism for using estimates of noise power associated with the first and second symbols of the quick paging, pilot energies and a quick paging channel associated with the second quick paging character to provide a second indication indicating whether to process the paging channel for an upcoming paging call. 15. The system of claim 14, wherein the first parameter includes a ratio of the pilot signal to mutual interference, which is the ratio of the energy of the pilot signal to the total energy of the received signal. 16. The system of clause 15, in which the signal of the channel quick search call includes a slot containing the first and second characters of the channel quick search call. 17. The system of claim 15, wherein the received signal power used in the second mechanism to determine the second parameter is the relative signal strength of the paging signal with respect to the pilot signal power. 18. The system according to 17, in which the second parameter is specified by the following expression:

where QP ₁ is a demodulated symbol containing the components of the quick search call signal and the pilot signal, and E _pilot1 is the energy of the pilot signal associated with the first symbol of the quick search channel added over all available multipath components. 19. The system of claim 18, wherein the noise power estimate includes a first noise power estimate associated with a first quick paging character of a quick paging signal and a second noise power estimate associated with a second quick paging character of a quick paging signal. 20. The system of claim 14, wherein the fifth mechanism includes a mechanism for comparing decision statistics with a predetermined total threshold value and for notifying, based on the results of this comparison, whether the upcoming main search call channel should be processed for search call. 21. The system of claim 20, wherein said decision-making statistics is determined by the following expression:

where σ $\genfrac{}{}{0ex}{}{\text{2}}{\text{1}}$ represents the power of the noise associated with a portion of the received signal containing the first character of the KnBPV; σ $\genfrac{}{}{0ex}{}{\text{2}}{\text{2}}$ represents the power of the noise associated with a portion of the received signal containing the second KnBVV symbol; QP ₁ - scalar product, vector product, or a combination of scalar and vector products between the first character of the KnBPV and the evaluation of the associated part of the pilot signal; QP ₂ - a scalar product, a vector product or a combination of scalar and vector products between the second character of the KnBPV and the evaluation of the associated part of the pilot signal; E _pilot1 is the energy of the first part of the pilot signal; E _pilot2 is the energy of the second part of the pilot signal. 22. A system for determining whether to receive and process an upcoming search call on the main search call channel by means of a quick search call signal associated with the quick search call channel, comprising a first mechanism for receiving an electromagnetic signal and, in response to receiving this electromagnetic signal, issuing one or more decision parameters based on the quality of the signal propagation medium through which the received signal propagates, and / and and the value of the first character and / or symbol of the second channel signal components of the received quick paging signal; a second mechanism for selectively comparing one or more decision parameters associated with a first symbol of a quick paging channel and / or a second symbol of a quick paging channel with one or more predetermined threshold values in response to a control signal, and outputting results comparing the first indication, and this indication determines whether to receive and process the upcoming paging channel. 23. A method for efficiently utilizing a quick paging signal to determine the presence of an upcoming main paging channel signal in a wireless communication system that uses a quick paging channel and a primary paging channel, according to which, based on a first decision parameter and / or a second decision parameter solutions selectively process the first symbol of the channel quick search call and / or the second symbol of the channel quick search call of the received signal and according to The processing units are given the first indication; in response to the first indication, the aforementioned first symbol of the quick paging channel is analyzed and the second indication is issued based on the results of this analysis, indicating whether to receive and process the upcoming channel signal of the main paging; processing the aforementioned second symbol of the quick paging channel in response to the first and second indications, and the results of this processing give a third indication indicating whether to receive and process the upcoming main paging channel. 24. A system for interpreting a fast paging channel signal in a wireless communication system, comprising a first mechanism for analyzing a received signal and a signal propagation medium associated with a quick paging channel in order to check if one or more characters are the received signal is correct, and based on the check, give the first indication; a second mechanism for issuing, based on the first indication and one or more of the indicated symbols, a value indicating a message contained in the quick search channel. 25. The system according to paragraph 24, in which one or more characters include the first and second characters. 26. The system of claim 25, wherein the first mechanism includes a mechanism for analyzing a signal propagation medium by means of a pilot signal contained in a received signal and obtaining a parameter characterizing this medium. 27. The system according to paragraph 24, which further comprises a third mechanism based on the aforementioned parameter, designed to notify the unreliability of these first and second characters and to selectively disable the second mechanism in this case. 28. The system according to paragraph 24, in which the second mechanism includes a mechanism designed to calculate one or more of the following metrics (D or D ₁ ):

where σ $\genfrac{}{}{0ex}{}{\text{2}}{\text{1}}$ represents the power of the noise associated with the first part of the received signal containing the first symbol; σ $\genfrac{}{}{0ex}{}{\text{2}}{\text{2}}$ - represents the power of the noise associated with the second part of the received signal containing the second symbol; QP ₁ - scalar product, vector product or a combination of scalar and vector products between the first symbol and the evaluation of the associated part of the pilot signal; QP ₂ - scalar product, vector product or a combination of scalar and vector products between the second symbol and the evaluation of the associated part of the pilot signal; E _pilot1 is the energy of the first part of the pilot signal; E _pilot2 is the energy of the second part of the pilot signal. 29. The system of claim 28, wherein the second mechanism further comprises a mechanism for comparing one or more of these metrics with one or more of a predetermined threshold value and for obtaining a value based on this comparison. 30. A system for interpreting a channel signal quick search call in a wireless communication system, comprising a receiver circuit having an antenna and a receiving path; a pilot estimation circuit communicating with the receiver; a circuit for calculating the total received energy in communication with the receiver; a quick paging symbol combining unit communicating with a pilot signal estimation circuit, a total received energy calculation circuit, and a receiver; search call detector, communicating with the block combining characters quick search call. 31. The system according to clause 30, in which the receiver further comprises a random access memory (RAM), designed to store samples connected to the output of the receiving path; an interpolator connected to the output of a random access sample storage device, and a spectrum narrowing circuit. 32. The system of claim 31, wherein the spectrum narrowing circuit comprises a demodulator; said sample storage DLCD and interpolator are part of the baseband processor, and the pilot estimator comprises a pilot estimator associated with the pilot energy calculator.