KR19990038691A - Parallel Search Method for Fast Code Synchronization Acquisition - Google Patents

Abstract

The present invention relates to a parallel search method for fast code synchronization acquisition.

In the CDMA scheme, a synchronization method for removing a phase difference between a spreading code of a transmitter and a receiver is an initial code acquisition method and a code tracking method. The code acquisition method has a simple structure but a long search time, but a serial search method with a fast acquisition time but a complicated structure, and a hybrid method. In the dual serial search method, a long integration period or a wide search period increases the overall synchronization acquisition time, which adversely affects the performance of the entire system.

In the present invention, the parallel search module composed of a plurality of correlators operates in an initial synchronization acquisition mode which simultaneously acquires synchronization from a preamble of an access channel, and operates in a multipath search mode to find multipaths from the RTD found in the initial synchronization acquisition mode. In order to finally verify the result found in the multipath search mode, the device operates in the verify mode. As described above, since a plurality of correlators calculate a correlation value at the same time, the synchronization acquisition time is fast, and since the synchronization acquisition process proceeds in three steps, the probability of error in the synchronization acquisition process can be reduced.

Description

Parallel Search Method for Fast Code Synchronization Acquisition

The present invention relates to a parallel search method for reducing a slow synchronization acquisition time, which is a disadvantage of the serial search method in a code synchronization acquisition process.

In code division multiple access (CDMA), each user spreads information with different spreading codes, and then multiple users communicate with the same frequency band. Therefore, when multiplying the received signal by the spreading code in order to correctly recover the information on the receiving side, accurate synchronization should be made between the spreading code in the received signal and the reference spreading code generated on the receiving side. For accurate synchronization, the spreading code used for transmission should be known, and the phase difference between the received signal and the spreading code generated at the receiving side should be zero.

Synchronization methods for removing the phase difference between the transmitting side and the receiving side spreading codes include an initial code acquisition method and a code tracking method. The code acquisition method has a simple structure but a long search time, but a serial search method with a fast acquisition time but a complicated structure, and a hybrid method.

In the dual serial search method, a long integration period or a wide search period increases the overall synchronization acquisition time, which adversely affects the performance of the entire system.

Accordingly, the present invention provides a parallel search method in which a plurality of correlators are operated simultaneously and operated in three modes for the accuracy of the synchronization acquisition to speed up the slow synchronization acquisition time which is a disadvantage of the serial search method. There is a purpose.

In order to achieve the above object, the present invention provides a method for resetting an internal register of a parallel search device and allocating an initial value in a microprocessor, and a multipath search for whether the command of the assigned operation mode of the parallel search device is an initial synchronization acquisition mode. Checking whether the operation mode is the verify mode or the verify mode, and continuously calculating the correlation value until the value of the correlation counter matches the integral section value when the command of the assigned operation mode of the parallel search device is the initial synchronization acquisition mode. And comparing the calculated correlation values when the values of the correlation counters match the integral interval values to find an index when the correlation counter has the maximum correlation value. Comparing the maximum value by adding a correlation value, and checking whether the search counter and the search interval value are the same. Shift the phase by one chip, increment the search counter, and then transition to calculating the correlation value, and if the search counter value is equal to the search interval, the selected maximum correlation value is earlier than the initial threshold assigned by the microprocessor. Checking whether the maximum correlation value is less than the initial threshold, and if the maximum correlation value is less than the initial threshold, transitioning to assigning an initial register value. And terminating; continuing to calculate a correlation value until the correlation counter is equal to an integral interval value when the command of the parallel operation apparatus is assigned to the multi-path search mode or the verify mode; If the value of the counter matches the integral range, the calculated correlation is sent to the microprocessor and the search count The processor checks whether the search equals the search interval value, and if the search counter is not equal to the search interval value, shifts the code phase, increments the search counter, and calculates the correlation value. If it is equal to the search interval value, characterized in that it comprises the step of ending the process of the multi-path search mode or verification mode.

1 is an operation timing diagram of an initial synchronization acquisition mode.

2 is an operation timing diagram of a multipath search mode.

3 is an operation timing diagram of a verify mode.

4 is a flowchart illustrating a parallel search method for fast code synchronization acquisition according to the present invention.

In the parallel search method proposed in the present invention, a plurality of correlators are operated simultaneously for fast synchronization acquisition, and operate in three modes for accuracy of synchronization acquisition. The first mode is an initial synchronization acquisition mode, which acquires synchronization from a preamble of an access channel, and the second multi-path search mode is a round trip delay found in the initial synchronization acquisition mode. The following is a mode for finding a multipath from an RTD, and a third verification mode is a mode for finally verifying a result found in the multipath search mode. The operation of each mode will be described with reference to the accompanying drawings.

1. Initial Sync Acquisition Mode (mode I)

1 is an operation timing diagram of an initial synchronization acquisition mode (mode I). Assuming that the cell diameter is 10 km, the RTD can be calculated up to 546 pn chips, so if one correlator performs a serial search over 546 chips (the integral interval is assumed to be 2,048 chips) (13 Since the time (14) of 136.5 소요 is required, the parallel search method is applied in which four correlators search the 546 chip sections at the same time. In this case, the synchronization acquisition time is at most 34.1 ms.

Since the access channel is aligned with an access channel slot (ACS) 0 at an even time and ACS is aligned at 20 ms, the initial synchronization acquisition operation is performed by a digital signal processor ( Digital signal processor (hereinafter referred to as DSP) in order to start by generating a start signal 11 at a falling edge of an even time or a 20 ms clock. When a start signal is generated, a pn code is generated, and a delayed pn code is used to generate a delayed pn code for use by each correlator during parallel search (12). In this case, the Pn code can be delayed up to 64 chips inside the PN generator so that multiple correlators can share one PN generator, and the Pn code delayed by external selection can be output to simplify the hardware structure. It was.

When the correlation calculation in the window size is completed and the maximum value and the index thereof are found, the microprocessor generates an interrupt signal 15 to read the value.

2. Multi-path search mode

2 is an operation timing diagram of a multi-path search mode. The search mode is a mode for searching for multipaths after initial synchronization acquisition in mode I. A search window size of up to 64 chips 22 is searched based on the RTD 21 acquired in mode I. Shall be. When a start command is generated on a rising edge of 20 ms, the start command 23 is generated after the RTD-32 chip acquired in mode I has elapsed, and the RTD-32 chip is correlated with the delayed data. (correlation) value is calculated. In the RTD-32, four correlators explore the range of the RTD + 32 chip, and since the maximum integration depth is 3,072 pn chips (6 symbols) 24, the maximum search time is 6 ㎳ (25). The correlation value calculated for each section is read by the DSP after the interrupt signal generation 26 of the synchronization acquisition block. When the search is completed within the search window size, the microcomputer searches for the multipath. The processor finally selects eight large values among the calculated correlation values without discriminating the correlator, and finally verifies this information in the verification mode. The synchronization acquisition process of the traffic channel is the same as the access channel, but the synchronization acquisition of the traffic channel is performed using only the reverse pilot channel symbol information (hereinafter, referred to as PI). During the PI + 2 reserve, the correlation is calculated and the correlation stops and waits until the PI information in the next mux group is entered. Therefore, the maximum search time is 64 chips (search window size) / 4 = 16 ms (27) because four correlators calculate the correlation value for one chip using PI information every 1 ms.

3. Verification mode

3 is an operation timing diagram of the verify mode. The verification mode is a mode for finally verifying RTD information by assigning eight values found in the discovery mode to eight correlators (on time: 4, late time: 4). In the integral section, 6 symbols and 3,072 pn chips 31 are maximum, and each correlator calculates a correlation value only for the allocated RTD information so that the search window size is 1 (32). Therefore, the maximum correlation time is 1 / 8.192 MHz x 3,072 (integral interval) x 1 (search window size) = 0.375 ms (33).

When the RTD value and the start command are issued from the microprocessor, the synchronization acquisition block generates a start signal at a rising edge of 20 ms (34) and pn is operated after generating the start signal to generate a pn code delayed by a given RTD value. Delay the pn code from the code generator. When the pn code delay is completed, an op start signal is generated (35), and a correlation calculation for each RTD is started, and when the calculation is completed, an interrupt signal is generated (36) by the microprocessor to read the calculation result. The microprocessor compares each calculation result, selects four values, and assigns the index at that time to the code tracking module.

4 is a flowchart illustrating a parallel search method for fast initial synchronization acquisition according to the present invention. The microprocessor resets an internal register of the parallel search device and assigns an initial value (401). This resets the PN generator and assigns PN seed values, initial thresholds, Walsh codes, search intervals, integration intervals, and operating modes. The parallel search apparatus operates in an initial synchronous acquisition mode or a multi-path search mode (verification mode) according to the command of the assigned operation mode (402).

If the command of the assigned operation mode is the initial synchronization acquisition mode, the correlation value is continuously calculated (403) until the correlation counter matches the integral interval value (404). If the value of the correlation counter coincides with the integral interval value, an algorithm for searching the index when the maximum correlation value is obtained by comparing the calculated correlation value is performed (405). In this case, the maximum value is found by adding correlation values calculated at antenna A and antenna B in order to consider the effect of multi-path. This process is repeated until the search counter is equal to the search interval value (406). When the search counter value is smaller than the search interval, the code phase is shifted by one chip and the search counter is incremented to calculate the correlation value (407). . When the search counter value is equal to the search interval value, the selected maximum correlation value is initially determined to be greater than the initial threshold allocated by the microprocessor (408). When the maximum correlation value is less than the initial threshold value, the search interval or Transition to step 401 assigns an initial register value to calculate a correlation value for the integral period. When the result of the check in step 408 is greater than the initial threshold, the maximum value and the index thereof are transmitted to the microprocessor (409), and the initial synchronization acquisition process is terminated.

If the result of the check in step 402 is a multipath search mode or a verify mode, the correlation value is continuously calculated (410) until the correlation counter equals the integral interval value (411). If the value of the correlation counter matches the integral section value, the calculated correlation value is transmitted to the microprocessor (412). This process is repeated until the search counter is equal to the search interval value (413). When the search counter value is smaller than the search interval, the correlation value is shifted by one chip (414). When the search counter value is equal to the search interval value, the process of the multipath search mode or the verify mode is terminated.

As described above, according to the present invention, since a plurality of correlators calculate a correlation value at the same time, the synchronization acquisition time is fast, and since the synchronization acquisition process is performed in three steps, an error probability in the synchronization acquisition process can be reduced.

Claims (1)

Resetting an internal register of the parallel search device and assigning an initial value in the microprocessor; Checking whether an instruction of an assigned operation mode of the parallel search device is an initial synchronization acquisition mode, a multipath search mode, or a verification mode; Continuously calculating a correlation value until a value of a correlation counter matches an integral section value when a command of an allocated operation mode of the parallel search device is an initial synchronization acquisition mode; If the value of the correlation counter matches an integral section value, comparing the calculated correlation value to find an index when the maximum correlation value is obtained; Comparing the maximum value by adding correlation values calculated at antenna A and antenna B to consider the effects of multipath, If the search counter and the search interval value are not equal to each other, the code phase is shifted by one chip if it is not the same, the search counter is increased, and then the step of calculating the correlation value is calculated. Checking if the correlation is greater than an initial threshold initially assigned by the microprocessor, Transitioning to allocating an initial register value when the maximum correlation value is less than an initial threshold value, and ending after transmitting a maximum value and an index to the microprocessor if the maximum correlation value is larger than an initial threshold value; Continuously calculating a correlation value until the correlation counter is equal to an integral section value when the command of the assigned operation mode of the parallel search device is the multipath search mode or the verify mode; Transmitting the calculated correlation value to the microprocessor when the value of the correlation counter matches the integral section value, and checking whether the search counter is equal to the search section value; If the search counter is not equal to the search interval value, the code phase is shifted, the search counter is incremented, and the step of calculating the correlation value is shifted. If the search counter is equal to the search interval value, the multipath search mode or the verification mode is performed. And terminating the process of parallel search method for fast initial synchronization acquisition.