KR20000020622A - Method for setting controlling mobile station call in base station of mobile telecommunication system - Google Patents

Abstract

PURPOSE: A method for setting controlling a mobile station call in a base station measures a transmit delay of a mobile station in a call processor in order to prevent a call failure, sets a call setting of a mobile station, and minimizes a call failure probability. CONSTITUTION: In a method for setting a controlling a mobile station call of CDMA(code division multiple access), a base station call processor which finally processes a mobile station call setting request message identical with a mobile station originating message sets/renews(S82) a transmission delay effective value of the mobile station. Then, the method receives(S83) a mobile station call setting message from access channel under the state a transmission delay effective value of the mobile station is set and renewed. The method measures(S84) a transmission delay value of a mobile station, and determines(S85) whether a measured mobile station transmission delay is within the effective value range. If the mobile station transmission delay is within the effective value range, the method does not transmit a base station confirmation command to the mobile station. If the mobile station transmission delay is not within the effective value range, the method performs a renewing operation by using a mobile station transmission delay effective value needed by a base station. and performs a transmitting/receiving between the mobile station and the base station. Thereby, a call failure probability is minimized.

Description

Mobile station call setup control method in mobile communication system base station

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile station call setup control method in a mobile communication system base station, and in particular, to a call (outgoing / incoming response) setup request of a mobile station in a mobile communication system using a code division multiple access (CDMA) scheme. In order to prevent a call failure due to an error that may occur when measuring a mobile trip delay (RTD) in a base station access channel, the base station call processing processor measures the transmission delay of the mobile station and uses the measured value of the mobile delay The present invention relates to a method for controlling mobile station call setting in a base station of a mobile communication system.

In the conventional code division multiple access method system, a call setup control method between a mobile station and a base station is performed by a mobile station (MS) by a mobile station (MS) to transmit a call setup message (origin message). When transmitting to the BS, the BTS Call Control Processor (BCP) receives the mobile station call setup message from the access channel, measures the transmission delay value of the mobile station, and sends an acknowledgment command (Ack) to the mobile station. Order).

Subsequently, the base station call processing processor allocates a mobile station to a traffic channel, and then transmits a traffic channel assignment message to the mobile station.

Then, the base station call processing processor establishes a call while transmitting and receiving preamble and null traffic from the traffic channel mobile station.

In order to achieve the above process, synchronization between the mobile station and the base station should be performed. In addition, if the synchronization is broken, call setup is not made. In the code division multiple access type mobile communication network, a pilot signal is provided through a base station forward link in order to enable the mobile station to synchronize with the base station. The mobile station uses a pilot signal to coherently demodulate and demodulate the base station signal.

However, since the base station cannot receive the pilot signal through the reverse link, the base station modulates and demodulates all signals generated by the mobile station in a noncoherent manner. That is, the base station performs the following process to synchronize with the mobile station.

When a mobile station transmits a message through an access channel, the access channel correlates a signal received with a given access channel long code PN when the given time domain is moved by a given unit chip. As shown in FIG. 5, signal forces having an appropriate threshold signal force are detected, and each of the signal forces assigned to a finger in the order of the signal forces is decoded.

The strongest signal forces obtain a time offset, i.e., an Access Round Trip Delay, between the mobile station and the branch station, which is used to synchronize the time with the mobile station.

Therefore, the time offset is a mobile station signal offset in the base station's reference system, which is again corrected by considering the random probe PN of the mobile station as shown in FIG. 2 by the base station's call processing processor. Used to get

The correction value is a transmission delay between an actual mobile station and a base station, and is delayed by a delay τ between the mobile station and the base station RF antenna in FIG. 1 and a system internal delay λ between the access channel from the base station high frequency antenna. Is expressed as:

Round Trip Delay = 2 (τ + λ) 0≤τ, λ≤ R (cell radius of base station)

Therefore, in the call processing processor of the base station for the call setup request message of the mobile station from the access channel, as shown in FIG. 5, the transmission delay is measured from the mobile station, and after transmitting the acknowledgment command of the base station to the mobile station, the mobile station transmits to the traffic channel. In the state of transmitting a channel assignment message to the mobile station by assigning a value, the measured transmission delay measurement value is used as a center value of a traffic channel window, which is a search space for preamble search of the mobile station, as shown in FIG. Then, the preamble of the mobile station is searched. If the preamble search of the mobile station is not performed, call setup fails. On the other hand, if the preamble search succeeds, call setup between the base station and the mobile station is performed. Thereafter, the traffic channel tracks the signal of the mobile station by using the transmission delay value at the time when the mobile station preamble is detected as the new transmission delay value.

As described above, when the access channel searches for the time offset of the mobile station signal, a noise component may be incorrectly determined to be the mobile station signal. As shown in FIG. 3, the time offset and the noise component of the actual mobile station may occur. If the time offset of P exceeds the tolerance of the traffic window in Fig. 4, the traffic channel does not detect the preamble of the mobile station, causing a problem that the call setup of the mobile station fails.

This is a problem that can occur sufficiently in a code division multiple access type mobile communication system that allows multiple mobile stations to access one access channel.

In order to avoid collisions that may be caused by multiple mobile stations accessing one access channel at the same time, as shown in FIG. 2, the mobile station's access probe random time zone is assigned. Random probe pseudo-noise is selected through the hasing, and when the first access probe fails, the given transmit power level is increased by a given number of times, and the access probe can be retransmitted.

However, if the call setup access probe (outgoing message) of the mobile station is well received in the base station access channel, but the transmission delay of the mobile station is incorrectly measured, the possibility of the call setup failure of the mobile station increases, and the access channel detects If the preamble energy of the mobile station is weak or several calls occur at the same time and the interference between the preambles increases, this possibility is further increased.

An object of the present invention is to set an effective range of transmission delay valid values in a base station call processing processor that finally processes a mobile station call setup request message such as a mobile station origination message in a code division multiple access system. When the measured and measured transmission delay valid value is out of the base station mobile delay transmission valid value range, the mobile station does not transmit the base station confirmation command to the mobile station for the call setup message and updates and transmits the new transmission delay effective value of the mobile station. In order to minimize the possibility of a call failure that may occur due to an incorrect measurement of the transmission delay of the mobile station, the access channel of the mobile station has received the mobile station call establishment request message well.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

1 is a transmission delay processing block diagram between a conventional base station and a mobile station.

2 is a diagram of a mobile station access attempt.

3 is a diagram for access channel correlation detection.

4 is a mobile station preamble search diagram of a traffic channel.

5 is a flowchart of a method for controlling mobile station call setup in a conventional base station.

6 is a transmission delay processing block diagram between a base station and a mobile station according to the present invention;

7 is a call setup flow diagram between a base station and a mobile station in accordance with the present invention.

8 is a flowchart of a method for controlling mobile station call setup in a base station of the present invention.

9 is a flowchart of a mobile station transmission delay valid threshold update according to the present invention;

In order to achieve the above object, a method for controlling a mobile station call setting in a code division multiple access system according to the present invention includes a mobile station origination message and a mobile station origination message to measure an accurate transmission delay of a mobile station in a mobile communication system base station of a code division multiple access system. Setting and updating a transmission delay valid value of the mobile station in a base station call processing processor which finally processes the same mobile station call setting request message; and from the access channel in a state of setting and updating the transmission delay valid value of the mobile station Receiving the mobile station call setup message, measuring a mobile station transmission delay value, determining whether the measured mobile station transmission delay is in the valid range, and if the mobile station transmission delay is in the valid range Command to check base station to mobile station Without new, not in the mobile station the transmission delay is the effective measurement range of values comprises the step of transmitting and receiving between the mobile station and the base station and update transmission delay value is valid for the mobile station to the base station is required.

A transmission delay method for mobile station call setup control in a code division multiple access system according to the present invention for achieving the above object comprises the steps of: a mobile station sending an access probe signal to an access channel; Sending a mobile station transmission delay measurement indication signal to a processing processor, the base station call processing processor measuring a mobile station transmission delay, checking whether the measured transmission delay is within a predetermined range, and the transmission delay measured Terminating if outside of a predetermined range, sending an Acq indication to a base station via a paging channel, the base station call processing processor assigning a traffic channel to the mobile station, and the base station call processor assigning a channel to the mobile station via a paging channel It comprises a step.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 6 is a block diagram of a transmission delay processing between a base station and a mobile station according to the present invention, FIG. 7 is a call setup system diagram between a base station and a mobile station according to the present invention, and FIG. 8 is a method for controlling a mobile station call setting in a base station of the present invention. 9 is a flowchart of the mobile station transmission delay valid threshold updating according to the present invention.

A step (s91) of determining whether the base station call processing processor is in an initial mode in a base station call processing processor which finally processes a mobile station call setup request message such as a mobile station origination message of a code division multiple access method system; In step S92, if the base station call processing is in the initial mode, the transmission delay valid value of the mobile station is set to the minimum valid value = 2λ and the maximum valid value = 0xFFF. Step s93, if the soft handoff call is generated in step s93, minimum valid value = 2λ, maximum valid value = (maximum effective value + transmission delay of handoff call + traffic channel window) / 2 (S94) and receiving the mobile station call setup message from the access channel when the average value of the maximum effective value is updated. If it is not a handoff call, receiving a mobile station call setup message from an access channel with a predetermined maximum valid value (s83); receiving a mobile station call setup message at step s83 and measuring a mobile station transmission delay value; (s84), judging whether the mobile station transmission delay measured in step s84 is within the valid range of the mobile station transmission delay of the base station; and in step s85, determining the effective station range of the mobile station transmission delay. Transmitting an acknowledgment order of the base station to the mobile station according to step S54, allocating the mobile station to the traffic channel in the state of transmitting the acknowledgment command of the base station in step s54, and performing step S55. transmitting a traffic channel assignment message to the mobile station in a state in which the mobile station is allocated in step S55; and in the state of transmitting a traffic channel assignment message in step S56, Searching for a preamble of the channel mobile station (s57); failing to set up a call if the preamble of the traffic channel mobile station is not found in step (s57); and setting up a call if the preamble of the traffic channel mobile station is found. It is made to the step (s59).

6 and 7, when the mobile station transmits a call setup message (outgoing message) to the base station, the base station call processing processor goes to step s91 and the base station call processing processor The base station call processing processor determines whether the base station call processing processor is in the initial mode, and if the initial mode is determined, the base station call processing processor proceeds to step s92 with the minimum effective value = 2λ and the maximum valid value = 0xFFF. 6 and 7, the mobile station call setup message is received from the access channel, and the mobile station call delay message is sent to the mobile station call setup message received at step s84. The access random probe used to transmit the access probe (outgoing message) is used to measure the actual transmission delay value of the mobile station that corrected the pseudo noise value. Subsequently, in step S85, it is determined whether the measured mobile station transmission delay value is within the valid range of the mobile station transmission delay of the base station. In this case, if the measured mobile station transmission delay value is not within the set valid value range, The base station call processing processor goes to step s91 to wait for a new access probe (outgoing message) of the mobile station, and if it is the new access lobe, the base station call processing processor goes to step s92 to minimize the transmission delay valid value of the mobile station. Value = 2λ, maximum effective value = 0xFFF (λ: base station internal delay), go to step s83, and repeat the above process, while the mobile station does not have a new access probe (outgoing message). The base station call processing processor goes to step s93 to determine whether a soft handoff call has occurred. In this case, if the soft handoff call is not generated as a result of the determination, go to step S83 and repeat the above process. If the soft handoff call is generated as a result of the determination, go to step s94 and the minimum valid value = 2λ, After updating to maximum valid value = (maximum effective value + transmission delay of handoff call + traffic channel window) / 2 (λ: base station internal delay), go to step s83 above as shown in Figs. A mobile station call setup message for the updated transmission delay valid value of the mobile station is received from the access channel, and the flow goes to step s84 to measure the updated mobile station transmission delay value, and then in step s85, It is determined whether the transmission delay value is within the valid range of the mobile station transmission delay of the base station.

At this time, if the transmission delay value of the mobile station updated in step s85 is not within the valid range of the mobile station transmission delay value of the base station, the base station call processing processor repeats from step s91, while the transmission of the updated mobile station is performed. If the delay value is within the mobile station transmission delay valid value range of the base station, the base station call processing processor goes to step s54 and transmits an acknowledge order of the base station to the mobile station as shown in Figs. Go to step s55 to assign a mobile station to the traffic channel, then go to step s56 to send a traffic channel assignment message to the mobile station, and go to step s57 to search for the preamble of the traffic channel mobile station. If the preamble of the traffic channel mobile station is not found in step s57, the process goes to step s58 and call setup fails. When a preamble search is the group traffic channel in the mobile station goes to step (s59) the base station call processing processor to which the call set-up be done while receiving the preamble and the traffic space from the traffic channel the mobile station.

The present invention can be variously modified and can take various forms and only the specific embodiments thereof are described in the detailed description of the invention. It is to be understood, however, that the present invention is not limited to the specific forms mentioned in the detailed description of the invention, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

As described above, the present invention sets a transmission delay valid value in a base station call processing processor that finally processes a mobile station call setup request message, such as a mobile station origination message in a code division multiple access method system, and transmits a call setup message from a mobile station. For the call setup message of the mobile station whose measured transmission delay valid value is outside the transmission delay valid value range of the set mobile station, the base station confirmation command is not sent to the mobile station, and the new transmission delay valid value is updated. By doing so, it is possible to minimize the possibility of call failure due to the base station's incorrectly measured mobile station transmission delay, thereby providing an effect of improving the call traffic rate of the base station.

Claims (4)

A method of controlling a mobile station call setup in a base station to measure a round trip delay of a mobile station in a mobile communication system base station of a code division multiple access system, Setting and updating a transmission delay valid value of the mobile station in a base station call processing processor which finally processes a mobile station call setup request message such as a mobile station origination message; Receiving a mobile station call setup message from an access channel in a state of setting and updating a transmission delay valid value of the mobile station; Measuring a mobile station transmission delay value while receiving the mobile station call setup message; Determining whether the measured mobile station transmission delay is within a valid range; And If the mobile station transmission delay is within the valid range, the base station confirmation command is not transmitted to the mobile station. If the measured mobile station transmission delay is not within the valid range, the base station updates the transmission delay effective value required by the base station and transmits and receives between the mobile station and the base station. A method for controlling mobile station call setting in a code division multiple access method system, the method comprising: a. The method of claim 1, wherein the setting and updating the transmission delay valid value of the mobile station comprises: Determining, by the base station call processing processor, whether the base station call processing processor is in an initial mode; Setting the transmission delay valid value of the mobile station to minimum valid value = 2λ and maximum valid value = 0xFFF when the base station call processing is in an initial mode; Determining whether a soft handoff has occurred if the base station call processing is in an initial mode; And If the soft handoff occurs, update the minimum valid value = 2λ, the maximum valid value = (maximum effective value + transmission delay of the handoff call + traffic channel window) / 2, and if the average value of the maximum effective value is updated, set the mobile station call from the access channel. And receiving a message, wherein the mobile station call setup control method of a code division multiple access system. The mobile station sending an access probe signal to the access channel; The access channel sending a mobile station transmission delay measurement indication signal to a base station call processing processor in accordance with the signal; The base station call processing processor measuring a mobile station transmission delay; Checking whether the measured transmission delay is within a predetermined range; Terminating if the transmission delay measured as a result of the check is out of a predetermined range; Sending an Acq indication to the base station via a paging channel; The base station call processing processor assigning a traffic channel to a mobile station; And And assigning, by the base station call processing processor, a channel to the mobile station via a paging channel, mobile station call setup control for a code division multiple access system. 4. The transmission delay method according to claim 3, wherein the predetermined range is that the measured transmission delay is greater than or equal to a minimum value and less than or equal to a maximum value.