KR100250471B1 - Hand over channel asignment method using prioritized queue in cdma cellular system - Google Patents

Abstract

PURPOSE: The method for allocating a handover is provided to decode a priority according to an attenuation degree of receiving power in a position where a mobile station is presently located. CONSTITUTION: In an originating/incoming call(21), a channel is abandoned(103) if a handover request exists in a queue, even when the channel is available(102). If an available channel exists, a handover request is confirmed in a prioritized queue(104). If a handover request does not exist, the channel is abandoned(105). If a handover request exists, call setup(106), channel allocation(107) and speech(108) are performed. Whether to end a call or handover is confirmed(109). If a call or handover is ended, the channel is returned(110), and the call is disconnected(112) only in call-end(111). In handover processing of T-ADD(22), handover processing of T-ADD is requested(201). If an available channel(202) does not exist, standby(203) is performed in a prioritized queue. Handover requests are aligned in the prioritized queue(204). If a maximum standby time is exceeded(205), compulsory end is performed(208). If not exceeded, the existence of an available channel is confirmed(206). If an available channel does not exist, the step(204) of aligning handover requests is repeated. If an available channel exists, handover of T-ADD is set(207), and the channel allocation step(107) of the originating/incoming call(21) is repeated. In handover processing of T-DROP(23), handover processing of T-DROP is requested(301) and set(302), then a channel is returned(303).

Description

Handover Channel Allocation Method using Priority Queue in Code Division Multiple Access Cellular System

The present invention relates to a channel allocation method for improving handover processing performance in a code division multiple access cellular system.

In general, in a mobile communication system up to now, if a handover occurs while a call is in progress, an available call channel can be allocated to the call, but if there is no available call channel, the call is forcibly terminated. However, in the present invention, when there is no available channel at the time of allocating a call channel, performance is improved by improving the forced termination rate by using a priority queue. From the point of view of communication quality, from the service user's point of view of the mobile subscriber, the continuous connection of the call is more important than the connection of the new call.

The field of the present invention belongs to the field of handover channel allocation in a code division multiple access cellular system. The available channel is allocated to the handover request waiting in the queue according to the priority according to the power strength attenuation in consideration of the handover processing property in the code division multiple access cellular system.

Conventional techniques include methods for improving handover processing performance in a general mobile communication system, rather than considering handover processing characteristics of a code division multiple access cellular system. There is a handover priority method, a guard channel allocation method for presetting a channel for handover, and a handover channel allocation method using a first-in first-out (FIFO) queue.

In the conventional handover, a method using a priority or first-in, first-out queue has been proposed to improve the performance of handover in a general mobile communication system. However, the present invention is a handover processing method using priority of power strength for use pilot in a code division multiple access cellular system. In the process of handover of a code division multiple access cellular system, if the power of the pilot currently being used becomes worse than the available standard, the mobile station sends a handover request signal to the base station, where the power strength of the pilot is determined to By reducing the handover request from the mobile station to the priority queue for a period of time that can be maintained continuously, dynamically prioritizing and assigning channels in this order, reducing the forced termination rate of handover for ongoing calls. The ultimate goal is to provide high call quality in code division multiple access cellular systems.

In order to achieve the above object, the present invention, when performing a handover channel allocation using a priority queue in a code division multiple access cellular system, in processing outgoing calls, incoming calls, handover requests (T_ADD, T_DROP), In the case of the outgoing call or incoming call, if the channel is not available or a handover request remains in the priority queue, the call is discarded. Otherwise, call setup is performed. When the power value of the pilot currently in use is lowered to T_ADD or less and a handover request is input to the base station by the mobile station, the channel is allocated if there is an available channel, and if not, it is stored in a priority queue. In this case, the power attenuation of the pilot in use is continuously checked based on the normal distribution, and the priority is calculated. Arrange the requests of handovers queued to the priority queue, and if there is an available channel within the maximum priority queue wait time, perform a handover procedure and allocate a channel, and a new pilot already exists in the new cell. And returning the channel when the mobile station transmits a request (T_DROP) to release the use of the allocated pilot.

The prioritization method obtains the maximum queue wait time for each handover request in a normal distribution, and then determines the ratio of the wait time in the current queue as the power strength ratio. The power strength for each handover request in the queue is calculated by dividing the current timer value in the queue by the maximum queue wait time for the attenuation interval for that mobile station. That is, the magnitude of this power strength is used as a priority for adjusting the processing order of each handover request in the priority queue.

1 is a conceptual diagram illustrating a handover channel allocation method using a priority queue.

2 is a flowchart illustrating a channel allocation method of a handover request according to priority.

3 is a diagram illustrating a method of determining handover priority.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a conceptual diagram illustrating a channel allocation method using a priority queue in a handover procedure of a code division multiple access cellular system.

The incoming and outgoing call 11 refers to the traffic entering the system when the subscriber dials and is indicated by λ ₁ . The incoming and outgoing call 11 performs a protocol for call establishment 14 between the base station and the mobile station, and then a channel is assigned 18. The allocated channel 18 performs a protocol of channel return 20 and call release process 21 after a constant talk time 19. [Lambda] _{2, which} is a handover call 12, is generated when the pilot strength in the neighbor cell is greater than or equal to T_ADD, and enters the priority queue 15 when the base station receives the pilot strength measurement message, which is a handover request message of the mobile station. The maximum queue wait time in the priority queue 15 is between [t0, t1]. If an available channel occurs between [t0, t1], a new channel is allocated 18 to the mobile station immediately after the handover setting 16 of T_ADD. Λ ₃ of the handover call 13 indicates that the terminal may recover the currently used channel when the T_TDROP timer times out after the strength of the pilot of the allocated channel becomes less than or equal to the handover setting (T_DROP) 17. The arrival of a pilot strength measurement message to request. In this case, since the channel resource is returned 20, no action is required, and the T_DROP handover procedure, the handover setup and channel return process 20, is completed.

FIG. 2 is a flowchart illustrating a channel allocation method of a handover request according to priority, and illustrates a flow of an origination call 21, a T_ADD handover request call 22, and a T_DROP handover request call 23. Indicates.

In the case of the incoming / outgoing call 21, even if the channel is available 102 according to the incoming / outgoing call 101, if there is a handover request in the queue, the channel is not allocated and is discarded (103). The case where a handover request may have an available channel waiting in the priority queue to be allocated a channel occurs when an ongoing call is released. That is, if there is an available channel, the presence of the handover request in the priority queue is checked (104), if it is not present, discarded (105), and if it exists, after call setup (106), channel assignment (107), and call (108) In step 109, it is determined whether the call or the handover is terminated. According to the result of the check, if the call is not terminated, the call 108 is continued, if the call is terminated, the channel is returned 110, and the call is released 112 only when the call is terminated 111.

In the case of handover processing of T_ADD (22), when the mobile station detects an active pilot of an adjacent cell according to the handover processing request 201 of T_ADD, it starts by sending a pilot strength measurement message to the base station. In this case, if there is no available channel 202, it enters the priority queue and waits for the channel to be allocated (203). While waiting in the priority queue, the wait time for the time interval in the decay section is continuously measured and prioritized for each handover request (204). If a channel is not allocated within the time interval of the attenuation period, this handover call is a forced termination (208). That is, if the maximum priority queue waiting time is exceeded (205), it is forced to terminate (208), and if not exceeded, the available channel existence is confirmed (206). As a result of the check, if the available channel does not exist, the process of repeating the alignment 204 is repeated. If the channel exists, the handover of T_ADD is set (207), and then the channel allocation 107 of the originating call 21 is repeated. Perform.

In the case of the T_DROP, in the case of the handover process 23, the handover process of the T_DROP is performed according to the handover process request 301 of the T_DROP (302), and then the process of returning the channel (303) is performed. In the case of T_DROP, the Memoryless Property property is applied.

3 shows a method of determining handover priority. Here, the horizontal axis represents elapsed time and the vertical axis represents intensity decay of power in the elapsed time. Time [t0, t1] means the maximum time interval at which the attenuation of the received power strength of each handover call occurs, and time [t0, t2] means that the handover request is placed in the priority queue during the attenuation of the received power strength. It means time to come in and wait. The power strength at time t0 is PS _0, and the power strength at time t1 is PS ₁ . Thus, the time interval between the attenuation intervals, i.e., t [t0, t2] / t [t0, t1], the ratio of the waiting time in the current priority queue to the maximum priority queue waiting time, is the ratio P [PS ₀ of the power strength. _{In other} words, it is considered to be proportional to PS ₂ ] / P [PS _0, PS ₁ ], and the priority is determined using this ratio of power strength. That is, priority is determined by setting P [PS _0, PS ₂ ] / P [PS _0, PS ₁ ] = t [t0, t2] / t [t0, t1].

According to the present invention, by determining the order of priority according to the received power attenuation degree in the cell in which the mobile station is currently located, it is possible to further shorten the time required for handover processing of the mobile station and eventually lower the forced termination rate. In addition, as the provided traffic increases, the forced termination rate decreases as compared to the non-priority method and first-in first-out (FIFO) priority queue method. In addition, the discard of the incoming and outgoing calls is increased, but the overall call volume of the base station is improved.

Claims (1)

In case of performing handover channel allocation using priority queue in code division multiple access cellular system, in processing outgoing call, incoming call, handover request (T_ADD, T_DROP), In case of the outgoing call or incoming call, if the channel is not available or a handover request remains in the priority queue, the call is discarded. Otherwise, call setup is performed. Releasing the call, When the power value of the pilot currently in use is lower than T_ADD and a handover request is received by the mobile station, the channel is allocated if there is an available channel, and if not, the channel is allocated to the priority queue and the pilot is currently used. Continually checks for power decay based on the normal distribution, calculates priorities, sorts the handover requests waiting in the priority queue in order of magnitude, and makes available channels within the maximum priority queue wait time. Assigning a channel after performing a handover procedure; Code-division multiple access cellular, comprising the step of returning a channel when a mobile station transmits a request (T_DROP) to a base station to release a request (T_DROP) that is already assigned to a new cell in a new cell Handover channel allocation method using priority queue in system.

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