KR20000060796A - Soft Handoff Performing Method - Google Patents

Abstract

PURPOSE: A method for performing a soft handoff is provided for increasing the number of available channel elements and simplifying a soft handoff operation process by completing a soft handoff in a state that a communication quality is not satisfied. CONSTITUTION: A mobile station measures an intensity of a pilot of a currently connected channel(S30). It is judged whether a pilot intensity is larger than a minimum reference(Pmin)(S32). A minimum reference value(Pmin) represents a minimum signal power for satisfying a service quality required by a mobile station. The minimum reference value(Pmin) may be programmed in a fabrication line of a terminal manufacturer and may be changed in response to an update request instruction of a business company. In the case that the signal of the connected channel is judged to be larger than the minimum reference value(Pmin), even when there is a value larger than a supplement reference value(T_ADD) among the pilots of a neighboring group, the soft handoff is not performed.

Description

Soft Handoff Performing Method

The present invention relates to a cellular communication system, and more particularly, to a handoff method in a code division multiple access cellular communication system.

In cellular systems, a handoff is performed to allow a call to continue when the mobile station enters a new cell out of the coverage area of one base station. Handoff is divided into hard handoff and soft handoff depending on the number of base stations involved during the handoff. Hard handoff is a break-before-make method that disconnects from a previous base station and establishes a call channel with a new base station. It is a make-before-break method that maintains a state occupying multiple base station channels at the same time by setting up a new base station and a call channel. Hard handoff has the advantage that handoff does not affect the number of available channels because one mobile station occupies only one channel, but the disadvantage is that the call may be disconnected during handoff. In the case of soft handoff, on the other hand, the number of available channels is reduced due to the setting of two or more channels, but the diversity combining of multiple channels in the forward and reverse channels not only provides a good call quality but also provides a continuous ( seamless) has the advantage of providing a service. In the present code division multiple access (CDMA) cellular system, a soft handoff scheme based on the IS-95 standard is applied except for handoff between base stations having different frequency allocations or different frame offsets. Providing.

In a cellular system based on IS-95, each mobile station divides base stations into an active set, a candidate set, a neighbor set and a remaining set with respect to soft handoff. 1 is a view for explaining a pilot set management method defined in IS-95. Each mobile station is thus when the pilot signal is added to the reference value (T_ADD) or more of: receiving from the neighbor base stations belonging to the neighbor set transmits a pilot strength measurement message to the current channel is set, the base station comprises the base station to the candidate set (t ₁₎ . If the base station transmits a handoff indication message in response to the pilot strength measurement message (t ₂ ), the mobile station includes the pilot in the active set and transmits a handoff end message (t ₃ ). When the strength of the pilot signal falls below the exclusion threshold (T_DROP) (t ₄ ), the mobile station runs a handoff exclusion timer to check whether the signal strength remains below the exclusion threshold (T_DROP) for the reference time (T_TDROP). do. The mobile station transmits a pilot strength measurement message to the base station if the signal strength remains below the exclusion reference value T_DROP for the reference time T_TDROP (t ₅ ). When the base station transmits a handoff indication message (t ₆ ), the mobile station transfers the pilot to the neighbor set and sends a handoff end message to the base station (t ₇ ).

2 is a view for explaining a soft handoff process according to IS-95 between two base stations. In FIG. 2, it is assumed that a pilot signal of a base station A gradually decreases and a pilot signal of a base station B gradually increases. When the strength of the pilot signal of the base station B exceeds the additional reference value T_ADD, the mobile station simultaneously uses the channels of the base station B as well as the base station A. Thereafter, if the signal of the base station A remains below the exclusion threshold value T_DROP for the reference time T_TDROP, the call channel with the base station A is released. However, if the pilot strength is weakened below the exclusion threshold T_DROP and then recovered above the exclusion threshold T_DROP before the reference time T-TDROP, the handoff exclusion timer is reset again. Therefore, the soft handoff period becomes long and a mobile station occupies two or more channels for a long time, which may result in a reduction in the number of available channel elements in the system, thereby reducing the call resources.

In addition, according to the soft handoff algorithm defined in IS-95, the received pilot energy (Ec / Io) per chip for the pilot strength or the total received spectral density of a specific channel is good, so that a desired service can be provided even using only one base station channel. In situations where it is possible to provide more than one channel, the likelihood of using more than one channel is very high, in which case there is little effect on improving call quality or performance, and it wastes system resources. Considering that the soft handoff area reaches 30 to 40% of the total cell, this waste of channel elements is quite serious. Moreover, if the mobile station performs excessive handoff, the load on the system is increased and the system capacity is reduced, especially on the forward link.

In the IS-95B standard, the IS-95 revised standard, in addition to the existing fixed reference values (T_ADD, T_DROP), additional dynamic parameters are used to determine the base station to be added during soft handoff and the channel of the base station to be released. It is prescribed to 3 shows an example of a soft handoff process according to IS-95B. In FIG. 2, it is assumed that a mobile station is initially connected to a base station A, a pilot received from a base station B belongs to a neighbor set, a pilot signal of a base station A gradually decreases, and a pilot signal of a base station B gradually increases. When the strength of the pilot signal of the base station B reaches the additional reference value T_ADD, the mobile station transfers the pilot received from the base station B from the neighbor set to the candidate set (t ₁₁ ). When the strength of the pilot signal of the base station B further increases to satisfy the following equation 1, the mobile station transmits a pilot strength measurement message to the base station A (t ₁₂ ).

In Equation 1, PS denotes the pilot strength received from the base station B, PSi denotes the strength of the pilot received from each currently connected base station (assuming only A base station exists in FIG. 3), and SOFT_SLOPE and ADD_INTERCEPT Denotes parameters for determining the slope and intercept in Equation 1.

Upon receiving the extended handoff message from the A and B base stations, the mobile station moves the B base station to the active set and transmits a handoff end message (t ₁₃ ). If the signal of base station A later satisfies the following equation (2), the mobile station starts the handoff exclusion timer (t ₁₄ ).

In Equation 2, PSi represents the pilot strength received from the base station A, DROP_INTERCEPT represents a parameter for determining the intercept in the equation (2).

When the handoff exclusion timer expires, the mobile station sends a pilot strength measurement message to the base stations (t ₁₅ ). After receiving the extended handoff indication message from the base stations, the mobile station transfers the pilot from base station A to the candidate set and sends a handoff end message to the base stations (t ₁₆ ). When the signal received from the base station A decreases below the exclusion threshold (T_DROP) again, the mobile station starts the handoff exclusion timer (t ₁₇ ), and when the handoff exclusion message expires, the mobile station sets the pilot from the base station A to the neighbor set. (T ₁₈ ).

Soft handoff by IS-95B has the advantage of being able to adapt to various environments by adding dynamic variables. However, when a variable having an optimal value is required and a sum of the strengths of the pilots belonging to the active set is large, the method of adding a new pilot has a disadvantage. Even when the channel is released, the strengths of the pilot signals must be aligned and the aligned pilots must be compared one after the other. Therefore, there is a problem that the process of performing soft handoff becomes very complicated. In addition, since the relative values of the strengths of the pilots are compared, when there are many pilots having small signal strengths, soft handoff may occur without using diversity. Therefore, there is a demand for a soft handoff method that can alleviate the problem of reducing the available channel while satisfying the service request quality.

The present invention has been made to solve such a problem, and by using the call quality as a basic decision factor of soft handoff and not performing or ending the soft handoff when the call quality is satisfied, the number of available channel elements is reduced. It is a technical problem to provide a method for performing soft handoff that can increase and simplify the process of performing soft handoff.

1 is a view for explaining a pilot set management method for soft handoff prescribed in IS-95.

2 is a view for explaining a soft handoff process according to IS-95.

3 is a view for explaining a soft handoff process according to IS-95B.

4 is a flowchart illustrating a process of establishing a call channel with two or more base stations by including base stations belonging to a neighbor set in an active set in the method for executing soft handoff according to the present invention.

5 is a flowchart illustrating a process of releasing some channels in a soft handoff state in which a soft handoff is performed by connecting to a plurality of base stations according to the present invention.

6 is a diagram illustrating an example in which a soft handoff is performed according to the present invention.

7 is a diagram illustrating another example in which a soft handoff is performed according to the present invention.

In the method of performing the soft handoff of the present invention for achieving the above technical problem, in the state that can provide the minimum quality of service required by the base station through the channel being connected to provide a soft handoff with the channels of other base stations Soft handoff is provided only when the minimum quality of service is difficult. To this end, the mobile station measures the strength of the pilot received from the base station on which the channel is established and compares the measured pilot strength with the minimum signal power to satisfy the quality of service. If the measured pilot strength is greater than the minimum signal power, no soft handoff is attempted regardless of the pilot strength received from the other base station. Only when the measured pilot strength is not greater than the minimum signal power, a soft handoff is attempted to establish a channel with a base station other than the base station where the channel is set. In addition, in the soft handoff method of the present invention, when a mobile station has a base station that satisfies the quality of a specific service required by the mobile station while a channel is established with a plurality of base stations, channels of other base stations are determined. Release all or some of them.

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

4 illustrates a process of establishing a call channel with two or more base stations by including base stations belonging to a neighbor set in an active set in the method for executing soft handoff according to the present invention.

First, the mobile station determines whether the pilot strength is greater than the minimum reference value Pmin (step 32), while measuring the pilot strength of the currently connected channel being received (step 30). The minimum reference value Pmin means minimum signal power for satisfying the quality of service required by the mobile station. This minimum reference value Pmin may be programmed in the production line by the terminal manufacturer, or may be changed in response to an operator's update request command while receiving service. In addition, the terminal may be adaptively changed during data service according to the type of packet traffic. If it is determined in step 32 that the signal of the connected channel is larger than the minimum reference value Pmin, the soft handoff is not executed even if there are some pilots belonging to the neighbor set having a value larger than the additional reference value T_ADD. . The steps 30 and 32 are repeatedly executed to monitor whether the signal of the channel being connected is smaller than the minimum reference value Pmin. As such, as long as the signal of the channel being connected maintains the minimum signal power to meet the required quality of service, no pilot addition to the active set is made and no soft handoff is made.

If it is determined in step 32 that the signal of the channel being connected is not greater than the minimum reference value Pmin, i.e., if the signal of the channel being connected is difficult to satisfy the required quality of service, the mobile station measures the strength of received pilot signals. Then, the soft handoff is performed by determining whether the strength of each pilot belonging to the candidate set and the neighbor set is larger than the additional reference value T_ADD (step 34). If any of the pilots of the candidate set or neighbor set exceeds the additional reference value T_ADD, the mobile station includes the pilot in the candidate set and transmits a pilot strength measurement message to the base station to which the current channel is set. Step 36). In response to the pilot strength measurement message, the new base station, along with the base station with which the channel is established, initiates data transmission and reception over the traffic channel with the mobile station and transmits a handoff indication message. After receiving the handoff indication message, the mobile station includes the pilot in the active set and sends a handoff end message. In a preferred embodiment, the algorithm specified in IS-95 is applied in this way to include the pilot in the active set in step 36. However, in another embodiment of the present invention, a pilot may be added in accordance with the algorithm or other similar method defined in IS-95B in step 36.

On the other hand, if there is no signal of the candidate set or neighbor set having an intensity greater than the additional reference value T_ADD in the situation that the call channel being accessed does not satisfy the required quality (step 34), the call is processed according to the setting situation of the system. . In one embodiment, the mobile station can continue to be serviced with low call quality, in this case observing the signal strength of the channel being connected as shown in FIG. However, in another embodiment of the present invention, the call may be forcibly terminated by the base station or the mobile station.

FIG. 5 illustrates a process of excluding a poor channel in a soft handoff state in which a soft handoff is performed by connecting to two or more base stations according to the present invention.

The mobile station receives pilot signals of the connected channels and measures its strength (step 40), and determines whether the strength of any one or more pilots is greater than the handoff end reference value T_DROP2 (step 42). The handoff end reference value T_DROP2 means the strength of a received pilot that can sufficiently satisfy the quality of service required by using only one base station channel, and is obtained by Equation 3 below.

In Equation 3, Pmin means minimum pilot strength for providing the quality of service required by the mobile station as described above, and Pguard means spare power for ensuring sufficient quality of service. The specific value of the handoff end reference value T_DROP2 is determined by the operator or the like, and may be updated in response to the operator's update request command while receiving the service.

If it is determined in step 42 that there is a pilot larger than the handoff end threshold T_DROP2, the mobile station transmits a pilot strength measurement message to the base stations (step 44). In response to the pilot strength measurement message, the base stations transmit a handoff indication message. After receiving the handoff indication message, the mobile station releases all other access channels except the channel associated with the pilot that is greater than the handoff end threshold T_DROP2 and sends a handoff end message to the base station. As described above, in the present invention, when there is a reception pilot capable of sufficiently satisfying the quality of service while connecting to a plurality of base stations and performing transmission and reception, the soft handoff is released while maintaining only the connection with the base station. Therefore, the handoff execution time can be significantly shortened.

On the other hand, if it is determined in step 42 that none of the pilots belonging to the active set is larger than the handoff end threshold value T_DROP2, the access channel release process is performed by a general method. In step 46, the mobile station monitors for each pilot signal whether its strength falls below the exclusion threshold T_DROP. If the pilot strength is not less than the exclusion threshold T_DROP, the mobile station resets and deactivates the handoff exclusion timer for the access channel (step 48) and continues to monitor the pilot strength. However, for access channels whose pilot strength is less than the exclusion threshold T_DROP, the handoff exclusion timer is driven to check whether the signal strength remains below the exclusion threshold T_DROP for the reference time T_TDROP. When the handoff end timer expires (step 50) because the signal strength continues to remain below the exclusion threshold value T_DROP for the reference time T_TDROP (step 50), the mobile station transmits a pilot strength measurement message to the base station (52). step). In response to the pilot strength measurement message, when the base stations transmit a handoff indication message, the mobile station transfers the pilot from the active set to the candidate set and sends a handoff end message.

In a preferred embodiment, the algorithm of IS-95 using only the exclusion reference value T_DROP and the reference time T_TDROP in applying the pilot from the active set in step 52 is applied. However, in another embodiment of the present invention, in step 52, an access channel release process may be performed according to an algorithm defined in IS-95B or other similar methods.

As described above, according to the present invention, when the received pilot strength of the currently serving base station is greater than or equal to the minimum reference value Pmin, which is the minimum power size that can satisfy the call quality, the pilot strength of the candidate set or the neighbor set received by the mobile station is increased. Even if the additional threshold T_ADD is exceeded, the mobile station does not transmit a pilot measurement message and does not include this pilot in the active set. Therefore, the mobile station does not perform soft handoff due to T_ADD when transmitting and receiving data using an access channel that satisfies call quality. In addition, when a reception pilot of one of the base stations currently in service has a signal power equal to or greater than the handoff end threshold T_DROP2, the connection to the other base station is released. In particular, by using the minimum reference value (Pmin) other than the handoff end threshold (T_DROP2), it is possible to reduce the ping-pong phenomenon that may occur when only the handoff end threshold (T_DROP2) is used. This can be prevented from greatly reducing.

6 shows an example in which a soft handoff is performed according to the present invention. In the example of FIG. 6, the signal strength of the base station A is gradually decreasing and the signal of the base station B is increasing. However, two cases in which the increase rate is different for the signal of the base station B are illustrated. Before time t _20, only base station A is connected to the mobile station because the signal of base station A is greater than the handoff end threshold T_DROP2 so that sufficient quality of service can be provided only by the channel of base station A. Since the signal of the base station A is falling below the handoff end threshold T_DROP2 at time t ₂₀ , pilots having a strength higher than the additional threshold T_ADD may be added to the active set from this time. From time t _21, the pilot strength of the B base station reaches the additional reference value T_ADD, and the mobile station simultaneously transmits and receives using the channels of the B base station as well as the A base station.

In case 1, since the pilot strengths of the two base stations continue to be smaller than the handoff end threshold T_DROP2, the signals of the A or B base stations alone cannot guarantee a sufficient quality of service. Therefore, as in the conventional soft handoff of the IS-95, the signal of the base station A having a low reception signal electric field is released by the exclusion reference value T_DROP and the reference time T_TDROP. That is, since the signal of the base station A is lower than the exclusion reference value T_DROP at time t ₂₃ , the handoff exclusion timer is driven from this time, and the channel of the base station A is disconnected at the time t ₂₄ after the reference time T_TDROP has elapsed. . Therefore, in case 1, the handoff section extends from t ₂₁ to t ₂₄ , that is, by section T11, during which the mobile station occupies two channels simultaneously.

On the other hand, in case 2, since the signal of base station B has a signal power equal to or greater than the handoff end threshold T_DROP2 at time t ₂₂ , it is correlated with the pilot strength of the base station A, the exclusion reference value T_DROP, and the reference time T_TDROP. The connection with the base station A is released without. Therefore, if the hand-off is in the range 2 to only that is, period (T12) up to ₂₂ t at t _21, the mobile station is to occupy the two channels only during this period at the same time. As described above, as the handoff end threshold T_DROP2 is used, the number of available channel elements can be increased by reducing the interval for performing the soft handoff.

7 shows another example in which soft handoff is performed by the present invention. In comparison with the conventional soft handoff, in FIG. 7, it is assumed that the A base station signal and the B base station signal are changed in the same manner as in FIG. 2. As described with reference to FIG. 2, since the pilot strength is lowered below the exclusion threshold (T_DROP) and then recovered above the exclusion threshold (T_DROP) before the reference time (T_TDROP), the handoff exclusion timer is reinitialized. According to the soft handoff defined at -95, the handoff section reaches section T21. However, according to the present invention, if the signal of the base station B has a signal power equal to or greater than the handoff end reference value T_DROP2, since the connection of the base station A is released, the handoff period is limited to the period T22. According to the soft handoff method of the present invention, it can be seen that the handoff period is greatly reduced.

The above description is merely to illustrate preferred embodiments of the present invention, and the present invention is not limited thereto and may be variously modified. For example, in the process of setting up a new call channel illustrated in FIG. 4, it is determined whether to set a new channel only by a uniform comparison between a pilot strength and a minimum reference value Pmin. However, in another embodiment of the present invention, a pilot of a channel currently connected is determined. You can also consider the history of the intensity and other pilot strengths together. For example, even if the strength of the pilot of the channel being accessed is greater than the minimum reference value (Pmin), if there is another pilot that has gradually decreased over a period of time or is significantly greater than the additional reference value (T_ADD), then in this case another pilot May be included in the active set. In addition, in the channel exclusion process illustrated in FIG. 5, when the strength of one pilot is larger than the handoff end threshold T_DROP2, all other access channels are released. However, in another embodiment of the present invention, in this case, among other access channels, By releasing only a portion and maintaining some channels, it may be possible to prevent a disconnection as the pilot strength, which was greater than the handoff end threshold T_DROP2, sharply weakens. In addition, depending on the type of traffic and the required quality, the minimum threshold Pmin and the handoff termination threshold T_DROP2 can be easily updated to other values in this case.

As described above, according to the present invention, the time for performing the soft handoff can be reduced without degrading the quality of service, and the service can be provided to more users by reducing the number of wasted channel elements. In addition, by not performing excessive handoff, the amount of control traffic is reduced to reduce system load. In addition, in performing the soft handoff, the process of adding or excluding pilots to the active set is simple, and in particular, it is not necessary to perform the process of sorting and comparing the pilots belonging to the active set according to the intensity. This does not require any additional hardware and has the advantage of simplicity of implementation.

In general, variables such as an additional reference value (T_ADD), an exclusion reference value (T_DROP), and a reference time (T_TDROP) according to the IS-95 protocol are difficult to optimize under different wireless environments. However, the minimum reference value Pmin used in the present invention may be obtained by experimentally obtaining a reception power that satisfies the required quality and does not require optimization. In addition, the handoff end reference value T_DROP2 may be easily determined based on the minimum reference value Pmin.

The method for performing soft handoff may be applied to a wireless network employing a code division multiple access scheme such as a wireless packet data network, a cellular system, or an IMT-2000 system. In addition, the present invention can be used when transmitting voice traffic, but can be particularly useful when transmitting packet traffic. In the case of packet traffic, even if the channel situation temporarily worsens, error can be recovered or retransmitted by forward error correction (FEC) or automatic repeat request (ARQ), and thus the reliability of the channel is relatively less important.

Claims (4)

A mobile communication network comprising a mobile station and at least two base stations connected to the mobile station by a code division multiple access type air interface to transmit and receive traffic, (a) establishing a traffic channel between the mobile station and either base station; (b) the mobile station measuring an intensity of a pilot received from a base station to which the traffic channel is established, and determining whether the measured pilot intensity is greater than a predetermined minimum reference value; (c) if it is determined in step (b) that the measured pilot strength is not greater than the minimum reference value, attempting a soft handoff to establish a traffic channel with a base station other than the base station for which the traffic channel is established; And (d) if it is determined in step (b) that the measured pilot strength is greater than the minimum reference value, repeating steps (a) and (b) again without attempting a soft handoff; And wherein the minimum reference value is predetermined as the minimum signal power for satisfying the quality of service required by the mobile station. The method of claim 1, wherein step (c) Determining whether any of the pilots received from base stations other than the base station to which the traffic channel is set have a strength greater than a predetermined additional reference value; If a pilot having a strength greater than the additional reference value exists, the mobile station transmitting a pilot strength measurement message to a base station to which the traffic channel is established; A base station, for which a pilot having a strength greater than the additional reference value is detected, establishes an additional traffic channel with the mobile station, and the base station where the channel is established transmits a handoff indication message to the mobile station; And And after the handoff indication message has been received, a mobile station transmitting a handoff end message. A mobile communication network comprising a mobile station and at least two base stations connected to the mobile station by a code division multiple access type air interface to transmit and receive traffic, (a) establishing traffic channels between the mobile station and the two or more base stations to perform soft handoff; (b) the mobile station measuring the strength of pilots received from the base stations to determine whether the strength of the pilot received from one base station is greater than a predetermined handoff end threshold; And (c) if there is a pilot larger than the handoff end threshold in step (b), releasing some of the traffic channels with the base stations associated with the pilots other than the pilot greater than the handoff end threshold; ;; And the handoff end criterion is predetermined as signal power capable of sufficiently satisfying the quality of service required by the mobile station. 4. The method of claim 3, wherein in step (c), all traffic channels with the base stations associated with the pilots other than the pilot larger than the handoff end threshold are released.