KR19980043208A - Call Control Method of Mobile Communication System Using Reservation Frame Offset - Google Patents

Abstract

The present invention provides a call control method of a mobile communication system using a reserved frame offset to reduce the frequency of the frame offset hard handoff by efficient frame offset resource management during call control of a CDMA mobile communication system.

The present invention reduces the frequency of hard handoff by allocating a reserved frame offset for a handoff call from another base station instead of allocating a predetermined amount for each frame offset during basic call processing such as an incoming call and an outgoing call. It is possible to maintain stable call by soft handoff process by setting up simultaneous channel between base stations or sectors, which is the advantage of CDMA.

Description

Call Control Method of Mobile Communication System Using Reservation Frame Offset

1 is a schematic block diagram of a general CDMA mobile communication system

2 (a) is a diagram illustrating a conventional frame offset allocation method

(B) is a diagram illustrating a frame offset allocation method according to the present invention

3 is a flowchart for performing a call control method of a mobile communication system using a reservation frame offset according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: mobile station 2: base station

3: control station 4: switching station

The present invention relates to a call control method of a code division multiple access (CDMA) mobile communication system. More particularly, the present invention relates to a frequency of occurrence of a frame offset hard hand off by efficient frame offset resource management. The present invention relates to a call control method of a mobile communication system using a reserved frame offset.

In general, as shown in FIG. 1, the CDMA mobile communication system receives the voice signal from the mobile station 1 and the mobile station 1 communicating with the nearest base station, performs modulation / demodulation, and then controls the E1 line. It consists of a base station 2 for transmitting to the station and a control station 3 for converting the voice signal from the base station 2 into a PCM code and sending it to the switching station 4.

In the CDMA mobile communication system, the base station 2 and the control station 3 are trunked to transmit signal and traffic data between the base station 2 and the control station 3, which are air interface parts. This adds a lot of time and money to the installation.

In the CDMA mobile communication system, the basic call flow exchanges general resources with each other through the trunk between the base station 2 and the control station 3.

The frame offset is allocated by the controller in the base station 2 when the response message for the incoming and outgoing messages and the handoff request message are received.

The frame offset allocation sequentially checks the frame offset without distinguishing between general call (outgoing call and incoming call) and handoff call, and allocates a small load. T1 is 4 and E1 is not more than 6 in one frame.

As a result, there is no frame offset resource when allocating a resource that is handed off from another base station to the current base station. Therefore, the call cutting rate is increased by processing the frame offset hard handoff, rather than the soft handoff, which is an advantage of the CDMA system. Resulted.

The present invention has been made in view of the above-mentioned problem, so that a certain amount is reserved for handoff in one frame offset (Reserved Frame Offset), so that this reserved frame offset can be allocated later when the handoff request is made to reduce the frequency of occurrence of frame offset hard handoff. An object of the present invention is to provide a call control method of a mobile communication system using a reservation frame offset.

That is, when allocating a frame offset resource in an originating call and an incoming call, everything may be allocated to one frame offset as shown in FIG. 2 (a). However, the present invention leaves a predetermined amount for handoff as shown in FIG. 2 (b). Allocate this reserved frame offset upon handoff request.

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

First, the present invention allocates the reserved frame offset previously stored for the handoff call from another base station without assigning a predetermined amount to each frame offset in the outgoing and incoming call processing. It is possible to reduce the frequency of hard handoff, which is performed in the system of FIG. 1, which will be described with the flow chart of FIG. 3.

First, the maximum value of the frame offset: 16, the index used for one frame offset: 4, the number of reserved per frame offset: 1, the start of the frame offset index: 0, which frame offset to select, etc. Perform the initialization step (S1).

After waiting until an incoming call, an incoming call, and a handoff request message are received, the start and end (0 to 15) of the frame offset to be searched are obtained (S2 and S3).

When the received signal is an incoming call or an incoming call (Case1), the load of the incoming call and the incoming call is checked to check that the least load among the 16 frame offsets is checked, and when the received signal is a handoff request message (Case2), the handoff is performed. The request is checked to determine whether the load is smaller than the user request (S4).

In step S4, the load of the incoming call, the incoming call, the incoming call is checked by selecting the least load among the 16 frame offsets or the handoff request is checked when the handoff request message is received. If it is determined to be smaller than the frame offset value is increased (S5), otherwise it ends.

Then, it is determined whether the received signal is an outgoing signal, an incoming call, or a handoff request message (S6, S7).

If the received signal is an outgoing call or an incoming call, it checks whether the selected frame offset has more than the reserved frame offset (S8). If there is no spare, the load is checked again and if there is a spare, the call proceeds with this frame offset. (S9).

In addition, if the received signal is a hand yop request signal, the call proceeds with the requested frame offset (S10).

As described above, the present invention can maximize the utilization of the trunk, thereby reducing the frequency of occurrence of frame offset hard handoff, which is relatively higher than the soft handoff, thereby enabling efficient call state management and efficient trunk resource management. .

Claims (2)

The first step of allocating a predetermined amount for each frame offset for reservation, waiting for an incoming call, an incoming call, and a handoff request message is received, and obtaining the start and end of the frame offset to be searched, In case of an incoming call, a check is made to check whether the load of the incoming or outgoing signal is the lowest among the frame offsets, and if the received signal is a handoff request message, a handoff request is checked to determine whether the load is less than a user request. When the signal received in step 2 and the second step is an outgoing call or an incoming call, it may be determined that a handoff request is smaller than a user request when a frame offset with the least load is selected, or when the received signal is a handoff request message. A third step of determining whether the received signal is an incoming call, an incoming call, or a handoff request message; The fourth step of determining whether the selected frame offset has more than the reserved frame offset when there is a margin, and proceeding with the call with the selected frame offset, and the handoff request in the third step. And a fifth step of proceeding with a call with the requested frame offset when determining that the message has been received. The method of claim 1, In the first step, when the predetermined amount of the frame offset is allocated for the reservation, the maximum value of the frame offset, the index used for one frame offset, the start of the frame offset index, and which frame offset to use are determined. Call control method of mobile communication system using reserved frame offset.