KR100672540B1 - Outer loop power control method - Google Patents

Abstract

The present invention relates to a method of controlling an outer loop power that is implemented in a state transition of a packet switched call in a mobile communication, and more particularly, a forward access channel (UM) in a mobile communication such as a UMTS. Outer loop power control that satisfies the initial Quality of Service (Target BLER) when the state of the packet switched call transitions from communicating with FACH to communicating with a dedicated channel (DCH) The invention relates to a method.

Outer loop power control (OLPC), packet switched (PS), forward access channel (FACH), dedicated channel (DCH), target signal-to-interference ratio (Target SIR)

Description

Outer loop power control method

1 is a diagram illustrating an outer loop power control procedure during state transition of a packet switched call according to the prior art.

2 is a diagram illustrating an outer loop power control procedure during state transition of a packet switched call according to the present invention.

The present invention relates to communication, and more particularly, to an outer loop power control method implemented at the state transition of a packet switched call in a mobile communication.

The Universal Mobile Telecommunication System (hereinafter, referred to as UMTS) terminal supports packet switched (hereinafter, referred to as PS) call.

However, due to the characteristics of the PS call, the traffic is repeatedly transmitted in a burst state and, in some cases, there is no traffic state. That is, the PS call has an available traffic state and an unavailable traffic state with the call connected. The valid traffic state is a state of communicating through a dedicated channel (hereinafter, abbreviated as DCH).

Meanwhile, in UMTS, traffic volume measurement is performed to actively allocate radio resources. Traffic volume measurement is performed in a media access control layer (MAC).

1 is a diagram illustrating an outer loop power control procedure during state transition of a packet switched call according to the prior art.

 Referring to FIG. 1, the UMTS detects the current state of the traffic through the traffic volume measurement described above. If the invalid traffic state without the traffic transmission is maintained for a predetermined period, the UMTS communicates through the DCH (CELL_DCH). A state transition is performed to a state (CELL_FACH) which communicates through a forward access channel (hereinafter referred to as FACH) (S1 and S2).

 However, if valid traffic is generated again later, the state transitions from the state of communicating with FACH (CELL_FACH) to the state of communicating with DCH (CELL_DCH) (S3).

However, in the related art, when the state transitions from the CELL_FACH to the CELL_DCH again, that is, when the state returns, the outer loop power control (hereinafter referred to as OLPC) sets a reference value to increase or decrease the transmission power. There was a problem in setting the desired Signal to Interference (hereinafter, abbreviated as SIR) value of the OLPC.

That is, conventionally, when the above-described state transition occurs as "CELL_DCH → CELL_FACH → CELL_DCH", the initial default value was used as the target SIR (Target SIR) value used for the OLPC in the final CELL_DCH (S4). ). That is, since the OLPC stops when the transition is made to "CELL_FACH", the target SIR value is reset in that state. Afterwards, when returning to CELL_DCH again, the initial default destination SIR value is used as the first time OLPC is started. Therefore, in response to the state transition, the response to the channel change is not supported at all.

On the other hand, since the destination SIR must satisfy the Block Error Rate (hereinafter, abbreviated as BLER) for the data block, the initial default value (initial destination SIR value) is appropriately stepwise to satisfy the destination BLER. The target SIR value is changed (S5).

However, it takes some time to change to the appropriate target SIR value, which is the reason that the prior art does not immediately satisfy the target BLER due to the state transition. In other words, when the state transition such as "CELL_DCH → CELL_FACH → CELL_DCH" occurs, the prior art does not consider any of the above state transitions in setting the target SIR value of the OLPC in the final CELL_DCH. There is a problem that does not satisfy the quality of service.

An object of the present invention has been made in view of the above points, the state of a packet switched call from the state (CELL_FACH) to communicate with the DCH (CELL_DCH) to communicate with the FACH in a mobile communication such as UMTS When the state transition, it is to provide an outer loop power control method suitable for satisfying the quality of service (QoS, Target BLER) in the initial state transition.

Another object of the present invention is that, when the state of a packet switched call is returned from the state of communicating with FACH (CELL_FACH) to the state of communicating with DCH (CELL_DCH) in mobile communication, the previous state transition after state return It is to provide an outer loop power control method suitable for setting the target SIR value of OLPC.

A first feature of the outer loop power control method according to the present invention for achieving the above object is, as the PS call state transitions from the first state to the DCH to the second state to communicate with the FACH, Backing up and storing the target SIR value of the power control; and as the PS call state transitions from the second state to the first state, the stored target SIR value is used for the power control. Setting the initial value to perform OLPC.

A second aspect of the present invention provides a method for storing a target SIR value of an OLPC performed in a state of communicating with a DCH, and returning the stored target SIR value of the OLPC to a state of returning to a state of communicating with the DCH in a predetermined state. It comprises the step of using the target SIR value.

More preferably, the stored target SIR value is a value before transitioning from communicating in the DCH to communicating in some other channel.

According to a third aspect of the invention, there is provided a method comprising: storing a target SIR value of an OLPC for the valid traffic when transitioning from an active traffic state to an invalid traffic state, and when returning from the invalid traffic state to the valid traffic state, And setting the stored target SIR value to the initial target SIR value of the OLPC after the return.

Other objects, features and advantages of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

Hereinafter, with reference to the accompanying drawings illustrating the configuration and operation of the embodiment of the present invention, the configuration and operation of the present invention shown in the drawings and described by it will be described by at least one embodiment, By the technical spirit of the present invention described above and its core configuration and operation is not limited.

The present invention is an OLPC for satisfying the destination BLER when returning to the final CELL_DCH when the state transition of the PS call occurs as "CELL_DCH → CELL_FACH → CELL_DCH".

In UMTS, a PS call is a necessary service for data service, and must always satisfy a quality of service (QoS, destination BLER) even when a state transition occurs.

2 is a diagram illustrating an OLPC procedure at the time of state transition of a packet switched call according to the present invention.

Referring to FIG. 2, the UMTS detects a current state of traffic through traffic volume measurement.

If the invalid traffic state without traffic transmission is maintained for a certain period of time, the state of valid traffic is changed from the valid traffic state. That is, the state transition is performed from the state (CELL_DCH) communicating through the DCH to the state (CELL_FACH) communicating through the FACH (S10).

Since the OLPC is not performed in the state of communicating through the FACH (CELL_FACH), the present invention backs up and stores the target SIR value of the OLPC performed in the state of communicating through the DCH (S11).

The target SIR value to be backed up / stored is a value immediately before the transition from the state of communicating with the DCH to the state of communicating with the FACH.

However, if valid traffic is generated again later, the state transitions from the state of communicating with FACH (CELL_FACH) to the state of communicating with DCH (CELL_DCH) again (S12 and S13).

On the other hand, in the present invention, when the state transitions from CELL_FACH to CELL_DCH again, that is, when the state is returned, in performing OLPC which sets a reference value to increase or decrease the transmission power, the desired SIR value of the OLPC at the time of returning By setting the previous target SIR value previously backed up and stored (S14).

That is, in the present invention, when the state transition occurs as "CELL_DCH → CELL_FACH → CELL_DCH", the target SIR of the OLPC that was previously stored as the target SIR (Target SIR) value used for the OLPC in the final CELL_DCH, that is, used in the previous CELL_DCH Set the value.

After that, the OLPC operation of the PS call is continued in the CELL_DCH, and the target SIR value is adjusted to satisfy the target BLER for the data block.

In summary, when the transition from the effective traffic state to the invalid traffic state, the present invention primarily stores the target SIR value used for the OLPC of the effective traffic state.

Then, when returning from the invalid traffic state to the valid traffic state, the target SIR value stored above is set to the initial target SIR value to be used for the OLPC after the return.

OLPC is continuously performed in the effective traffic state, and the target SIR value is appropriately adjusted according to the quality of service.

As described above, the present invention sets the initial target SIR value upon returning to the channel environment by referring to the target SIR value of the OLPC operating at the previous "CELL_DCH" in consideration of the state transition of the PS call. It can respond appropriately.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (4)

As the packet switched call transitions from a first state communicating on a dedicated channel (DCH) to a second state communicating on a forward access channel (FACH), a target signal-to-interference ratio (Target SIR) of power control in the first state Backing up and storing the value; Performing outer loop power control by setting the stored target signal-to-interference ratio as an initial value of the target signal-to-interference ratio to be used for the power control as the packet switched call transitions from the second state to the first state. Outer loop power control method characterized in that comprises a. Storing a target signal-to-interference ratio (SIR) value of outer loop power control performed in a state of communicating on a dedicated channel (DCH); Using the stored target signal-to-interference ratio (SIR) value as an initial target signal-to-interference ratio (SIR) value of outer loop power control when returning to a state of communicating through the dedicated channel (DCH) in a predetermined state. An outer loop power control method, characterized in that made. 3. The outer loop power of claim 2, wherein the stored target signal-to-interference ratio (SIR) value is a value before the transition to a state of communicating with a predetermined channel from communicating with the dedicated channel (DCH). Control method. Storing a target signal-to-interference ratio value of outer loop power control for the valid traffic when transitioning from an active traffic condition to an invalid traffic condition; And when the return to the valid traffic state from the invalid traffic state, setting the stored target signal-to-interference ratio value to the initial target signal-to-interference ratio value of the outer loop power control after the return. Power control method.

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