KR20020036102A - Pilot search method of mobile station in the mobile communication system - Google Patents

Abstract

PURPOSE: A method for searching a pilot of a mobile station in a mobile communication system is provided to use a search time of a search window effectively and enhance an obtaining rate of a base station, and enhance a success rate of a hand-off by embodying a search priority grade in a base station pilot included in an adjacent base station list in accordance with a distance from the base station to a base station of a basic pilot, performing a search from a pilot having high probability for generating a hand-off in accordance with a search priority grade, setting a size of the search window in accordance with a search priority grade, and searching a pilot of the base station. CONSTITUTION: A base station which is servicing for making the current mobile station receive an assigned calling channel and be operated embodies a search priority grade with respect to a pilot of an adjacent base station in adjacent order to one's base station(S1). The embodied search priority grade is appended in an adjacent base station list message as one field(S2). A size of a search window is set according to each pilot in accordance with the search priority grade(S3). The sizes of the search windows according to each group are appended in a system parameter message(S4). The base station transmits the appended adjacent base station list message and the system parameter message to the mobile station(S5). The mobile station searches a pilot of the adjacent base station in accordance with the search priority grade with respect to the adjacent base station appended as a field of the adjacent base station list message and the size of the search window appended in the system parameter message(S6).

Description

Pilot search of mobile station in mobile communication system {PILOT SEARCH METHOD OF MOBILE STATION IN THE MOBILE COMMUNICATION SYSTEM}

The present invention relates to a pilot search method of a mobile station in a mobile communication system, and in particular, a search priority is assigned to a neighbor base station included in a neighbor base station list according to a distance from a base station of a reference pilot, The size of the search window is set in proportion to the search priority level, and then the pilot of the base station is searched to efficiently use the search time of the searcher and increase the acquisition rate of the base station to increase the handoff success rate. It relates to a pilot search method.

In general, a mobile station in a mobile communication system employing a code division multiple access (CDMA) scheme uses an active set, a candidate set, a neighbor set, and a residual set according to its strength. Remaining Set)

The active set is a pilot set in which the strength of the pilot is T_ADD or more and the current mobile station is assigned and demodulated, and the candidate set is not demodulated because the strength of the pilot is T_ADD or more. It is a pilot set.

The neighbor set is a pilot set that is not included in the current active set or candidate set, but is likely to be a candidate set, and the residual set is a pilot PN offset value corresponding to an integer multiple of a pilot increment value. Is a set of pilots with

A conventional mobile station sets up a search window of a predetermined size to search pilots included in each set.

That is, the arrival time of the first component among the multipath components of the active pilot reference pilot is set as the reference time, and the search window is set around the PN offset value for the set reference time.

In the case of the active set, the search window for the reference pilot is set based on the pilot PN offset value of the reference pilot as shown in FIG. 1, and the search window for the other pilots is the pilot PN as shown in FIG. 2. The offset value is set to the difference between the reference pilot and the arrival time of each pilot.

In the case of the remaining candidate sets, neighbor sets, and residual sets, the center of the search window and the search window is set in the same manner as the pilot search of the active set except the reference pilot.

In this case, the searcher of the mobile station searches for pilots for neighboring sets and residual sets in addition to the active sets and candidate sets having a sufficient strength for demodulation, and moves them to the active sets or candidate sets if the strength is T_ADD or more.

That is, the searcher measures the Ec / Io value by searching the pilot to move a pilot having an Ec / Io value of T_ADD or more to an active set or a candidate set.

The pilot search method of the conventional mobile station will be described in more detail. The mobile station searches all pilots to measure pilot strength, that is, at least 20 pilots included in the neighbor base station list are searched first, and then other pilots are searched.

At this time, since there is no priority for the pilots included in the neighbor base station list, the pilots are searched in the order included in the neighbor base station list and the remaining pilots are searched.

Here, as shown in FIG. 3, the neighboring base stations surrounding the base station R of the reference pilot do not exceed 10 base stations based on the three sector base station, and thus may be active sets or candidate sets among at least 20 pilots. There are 10 or fewer pilots of the base station.

However, the pilot search method of the conventional mobile station is a pilot at a corner of an intersection or a building where handoff is required in a short time as the pilot search is performed without priority of at least 20 pilots included in the neighbor base station list. There was a problem that the call was disconnected due to a failure to search.

In addition, in the size of the search window, a search window having a predetermined size is set for each pilot set in the related art. At this time, there are at least 20 base stations included in the actual neighbor base station list.

Therefore, the distribution of the multipath components varies from base station to base station in proportion to the distance between the base station and the mobile station.

That is, as shown in FIG. 4, when the distance between the mobile station 1 and the base station 2 is far, the time difference T1-T2 of the multipath component is the time difference of the multipath component when the distance is short (T3-T4). Since the multipath components are widely distributed, and the distance between the mobile station 1 and the base station 2 is far, the size of the search window is increased to detect the multipath components that are widely distributed, and the distance is increased. In the near case, the size of the search window should be small to detect narrowly distributed multipath components.

However, in the conventional mobile search method of the pilot, the search window is unnecessarily large for a specific base station because the search is performed by setting a fixed search window having a fixed size not only for the base stations included in the neighbor base station list but also for the base station of the residual set. A small case occurs, and thus there is a problem that the handoff fails because the pilot search time for the handoff cannot be efficiently used.

In other words, by setting the size of the search window to a fixed value large enough to detect all multipath components for each pilot set, if the search window is too large, the search time is unnecessarily long, which degrades the performance of the system during handoff. On the contrary, when the search window is small, the search time of the searcher is not used efficiently, such as the search probability of the pilot decreases at the intersection of the intersection or the corner of the building where an extremely short time is allowed for the handoff.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a search priority level to a base station pilot included in a neighbor base station list according to a distance from a base station to a base station, and the searcher of the mobile station gives the search priority. By searching from the pilot of the base station having a high probability of handoff according to the class, and setting the size of the search window to be proportional to the search priority class, the search of the pilot of the base station is used to efficiently use the search time of the searcher and the acquisition rate of the base station. The present invention provides a pilot search method of a mobile station in a mobile communication system to increase the handoff success rate.

1 is a view showing a center and a size of a corresponding search window when setting a search window of a conventional reference pilot;

2 is a view showing a center and a size of a corresponding search window when setting a search window of a pilot except for a conventional reference pilot;

3 is a diagram illustrating a distribution of neighboring base stations adjacent to a base station of a conventional reference pilot;

4 is a diagram illustrating a distribution of multipath components according to a distance between a conventional mobile station and a base station.

5 is a diagram illustrating a state in which a search priority level is assigned to a neighboring base station adjacent to a base station of a reference pilot according to the present invention;

6 is a block diagram of a mobile communication system for performing a pilot search method of a mobile station according to the present invention;

7 is an operational flowchart showing a pilot search method of a mobile station according to the present invention;

<Description of the symbols for the main parts of the drawings>

10: mobile station 20: serving base station

30 control station 40 target base station

21,41: Channel card 22,42: BCP

31: CCP

In a pilot search method of a mobile station in a mobile communication system of the present invention for achieving the above object, a neighbor base station list message is given by assigning a search priority level to a pilot of a neighboring base station in a sequence close to the base station of the base pilot. Assigning a search priority level and a neighbor base station list message added as one field to the field, and setting the size of the search window according to the search priority level given in the search priority level and the neighbor base station list message adding step. After the step of adding the search window size and adding the system parameter message, and the step of setting the search window size and adding the system parameter message, the base station of the reference pilot assigns the search priority level and adds the neighbor base station list message and the search window size. Set And transmitting and receiving a message from the neighbor base station list message and a system parameter message added in the step of adding a system parameter message to the mobile station, and receiving the message from the mobile station, and the list of neighbor base stations received from the message transmitting and receiving step. And a pilot search step of the base station searching for a pilot of the neighboring base station according to the search priority level of the neighboring base station added as a field of the message and the size of the search window added to the system parameter message.

Hereinafter, a pilot searching method of a mobile station in a mobile communication system according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 5 is a diagram illustrating a search priority class assigned to a neighboring base station adjacent to a base station of a reference pilot according to the present invention. In FIG. 5, a base station and a residual set of pilots included in a neighbor base station list are currently referenced by a base station serving a mobile station. The search priority level is assigned according to the distance of the pilot base station and then transmitted to the mobile station so that the searcher in the mobile station can search from the pilot of the base station having a high probability of handoff.

That is, since there are not more than 10 neighboring base stations surrounding the base station R of the reference pilot, the pilots of the 10 base stations are searched first, and at this time, the base stations R of the reference pilots have the most distance. As shown in FIG. 5, priority is given to the search class in close order, so that the pilot of the corresponding base station is searched according to the assigned search priority class.

As described above, according to the present invention, the mobile station searches the pilot of the base station according to the search priority level, thereby sequentially reducing the failure rate of the handoff by searching the pilot sequentially even in a short time area allocated to the handoff such as an intersection or a building corner. .

On the other hand, in an analog system such as AMPS, when the wave propagates between the mobile station and the base station and passes through multiple paths, the multipath components generated in the half phase rapidly become weak and cannot communicate. Occurs.

In contrast, in a digital system such as CDMA, the error is recovered by detecting and comparing the multipath components independently. In order to detect the multipath components, an appropriate search window is detected to detect a pilot of the base station.

In the present invention, as the base station is farther away from the mobile station, a multipath component having a larger difference in arrival time intervals is generated, and the time of arrival at the mobile station also has a large difference, so that a search window for a pilot of a far base station is closer to the base station. It is set larger than the search window of the base station.

That is, the size of the search window is set for each pilot set according to the propagation environment to adjust the size of the search window according to the distance between the base station and the mobile station.

In this case, the search priority level is used when the search window is set. This is because the search priority level is assigned according to the distance from the base station to which the mobile station is currently assigned and demodulated to the neighboring base station. The size is set in proportion to the search priority level.

As described above, the present invention sets the search window in proportion to the search priority level, and then, as the pilot of the base station is searched, the size of the search window based on the base station located at the farthest distance is reduced, thereby increasing the search efficiency of the searcher and thus handoff. It can increase the success rate.

FIG. 6 is a block diagram of a mobile communication system for performing a pilot search method of a mobile station according to the present invention. Serving a mobile station 10 and a service in which the mobile station 10 is assigned to operate a current call channel. ) A base station 20, a target base station 30 to which the mobile station 20 is to move out of the jurisdiction of the serving base station 20, and a target base station at the serving base station 20 of the mobile station 20. And a control station 30 that controls handoff to 30.

At this time, each of the serving base station 20 and the target base station 30 is a channel card 21 (41) including a channel element for performing the call channel allocation and the BTS (BTS Control Processor) 22 for controlling the handoff 42, the control station 30 includes a Call Control Processor (CCP) 31 which determines whether or not to handoff and instructs handoff.

When the mobile station 10 first initiates a call, it is allocated a call channel from the serving base station 20 and receives a neighbor base station list through a neighbor base station list message.

In this case, the neighbor base station list message includes at least 20 base stations, and includes frequency, call channel information, and PN offset value of each base station.

Subsequently, if the mobile station 10 detects a pilot of the target base station 40 and the T_ADD is greater than or equal to T_ADD, the mobile station 10 reports the result to the control station 30, and then the control station 30 determines whether the handoff is performed by the serving base station 20. Notify my BCP 22 of the handoff instruction.

After the mobile station 10 performs the handoff according to the handoff instruction, the channel card 41 and the BCP 42 in the target base station 40 transmit a neighbor base station list update message and a system parameter message transmitted from the control station 30. To receive).

That is, as described above, the mobile station 10 receives the neighbor base station list through the neighbor base station list update message received after performing the handoff with the neighbor base station list message and sets the size of the search window for each pilot set through the system parameter message. Receive.

At this time, in the present invention, the serving base station 20 and the target base station 40 adds a field indicating a search priority level to the neighbor base station list message and the neighbor base station list update message, and transmits it to the mobile station 10. By transmitting a system parameter message, which adds the size of the search window defined according to the search priority level, to the mobile station 10, the searcher in the mobile station 10 more efficiently searches the pilot of the base station according to the search priority level indicated in the field and the size of the search window. Make it searchable.

In this case, the search priority class is given to the base stations included in the neighbor base station list and the pilots of the residual set in the order of close proximity to the base stations of the reference pilot, that is, the searcher of the mobile station 10 has a high probability of handoff. Allow searching from the pilot of the base station.

The pilot search method of the mobile station according to the present invention as described above will be described with reference to the operation flowchart of FIG.

In the search prioritization step (S1), the base station in which the mobile station is currently assigned to operate the call channel to operate the search priority class is assigned to the pilots of neighboring base stations in the order of close proximity to the base station.

After the search priority level assigning step S1, the neighboring base station list message adding step S2 is performed to add the search priority level given in the step S1 as a field to the neighbor base station list message.

After adding the neighboring base station list message step S2, the search window size setting step S3 is performed to set the size of the search window for each pilot according to the search priority level given in the step S1.

After the search window size setting step S3, the system parameter message adding step S4 is performed to add the size of each set search window to the system parameter message.

After the system parameter message adding step S4, the message transmission and reception step S5 is performed so that the base station transmits the neighbor base station list message and the system parameter message added in the step S2 S4 so that the mobile station receives the message. do.

After the step of transmitting and receiving the message (S5), the process proceeds to the pilot searching step (S6) of the base station, and the mobile station searches for the neighboring base station and system parameters added to the field of the neighbor base station list message received in the step (S5). The pilot of the neighbor base station is searched according to the size of the search window added to the message.

As described above, the present invention can be used to improve the performance of the system during efficient use of resources and handoff in mobile communication systems such as DCS (Digital Cellular System), PCS (Personal Communication Service), and satellite communication using CDMA. .

As described above, the present invention assigns a search priority class to a base station and a pilot of the residual set included in the neighbor base station list according to the distance from the base station of the reference pilot, and the searcher of the mobile station handoffs according to the search priority class. By searching from the pilot of the base station having a high probability of occurrence, the size of the search window is set to be proportional to the search priority level to search the pilot of the base station to efficiently use the search time of the searcher and increase the acquisition rate of the base station to increase the handoff success rate. There is an effect that can be increased.

Claims (1)

A search priority class and a neighbor base station list message adding step of assigning a search priority class to a pilot of a neighbor base station in an order close to the base station of the reference pilot and adding the search priority class as a field to the neighbor base station list message; A search window size setting and a system parameter message adding step of setting a size of a search window for each pilot according to the search priority level assigned in the search priority class and adding a neighbor base station list message, and adding the search window size to a system parameter message; After performing the search window size setting and system parameter message adding step, the base station list added by the base station of the reference pilot in the step of adding the search priority level and the neighbor base station list message and setting the search window size and adding the system parameter message, respectively. Sending and receiving a message and a system parameter message to the mobile station for the mobile station to receive it; A pilot of a base station for searching for a pilot of a neighbor base station according to the search priority level for the neighbor base station added as a field of the neighbor base station list message received in the message transmitting and receiving step and the size of the search window added to the system parameter message. A search method for a pilot of a mobile station in a mobile communication system, characterized by comprising a search step.