KR20090079013A - Method for operating sleep mode for efficient energy management of mobile subscribe station - Google Patents

Abstract

A method for operating a sleep mode for efficient energy management of a mobile terminal is provided to reduce repetition of a sleep interval and a listening interval from a time after the mobile terminal is converted into a sleep mode in a sleep mode algorithm of IEEE 802.16e to a time when data to be received is generated. A method for operating a sleep mode for efficient energy management of a mobile terminal comprises the following steps. A sleep interval value is checked when terminating a sleep mode of the mobile terminal. The amount of data packet stored in a buffer of a base station is checked. The base station sets the minimum sleep interval to be used in the next sleep mode of the mobile terminal based on sleep interval information when a previous sleep mode is terminated.

Description

Sleep mode operation method for efficient energy management of mobile terminal {Method for operating Sleep Mode for efficient energy management of Mobile Subscribe Station}

The present invention relates to a sleep mode operation method for efficient energy management of a mobile station. More specifically, after the mobile station (MSS) switches to the sleep mode in the sleep mode algorithm of IEEE 802.16e, The present invention relates to a sleep mode operation method for efficient energy management of a mobile terminal which minimizes energy waste due to switch on / off by reducing repetition of sleep sections and listening sections until data to be received.

The IEEE 802 working group adds mobile terminal mobility and power control algorithms to IEEE 802.16a, and standardization of 802.16e is underway to provide real-time multimedia and data services such as voice or video even in a high-speed mobile user environment. . However, since 40W power is generally consumed to provide a real-time multimedia service, a mobile subscriber station (MSS) having a rechargeable battery capacity of about 77Wh needs a power control algorithm to provide a smooth service.

IEEE 802.16e manages energy of mobile station (MSS) efficiently by adopting sleep mode operation method as power control algorithm.

1 illustrates an embodiment of a basic sleep mode operation of a conventional IEEE 802.16e.

Referring to FIG. 1, the sleep mode operation algorithm defines a sleep mode and an awake mode, and sleep mode or awake mode according to whether a packet to be transmitted between a mobile station (MSS) and a base station (BS) is present. Keep it.

The sleep mode is composed of a sleep section and a listening section. The sleep section is a time period in which a mobile station (MSS) that does not have a packet to receive (or transmit) from a base station (BS) maintains a minimum power. , The listening interval represents a time interval for confirming the presence or absence of a packet to be received from the base station (BS) between each sleep interval.

The awake mode section is a section in which the base station (BS) and the mobile station (MSS) transmit / receive data. When the mobile station (MSS) receives a message that there is a packet to receive from the base station (BS) during the listening section, Exit mode and switch to awake mode.

When the MSS switches to the sleep mode, the MS determines the sleep interval based on the minimum sleep mode period received from the BS. Thereafter, the MSS switches to the awake mode and receives the MOB_TRF_IND message from the base station BS to determine whether there is data to be received from the base station BS. If the MOB_TRF_IND message includes a negative indication message, it is determined that there is no data packet transmitted from the base station (BS) to the mobile station (MSS), and the sleep interval is set to twice the previous sleep interval. , Is in sleep mode during this frame period.

The sleep interval increases from the minimum interval value to the maximum interval value and maintains the value when the maximum interval value is reached. If a positive indication message is included in the MOB_TRF_IND message, it is determined that there is a data packet transmitted from the base station (BS) to the mobile station (MSS), and the data is switched to the awake mode to receive the data.

IEEE 802.16e can reduce the energy consumption of MSS by the sleep mode. However, IEEE 802.16e uses energy inefficiently by repeating switch on / off operation until data to be received from BS is generated. have.

An object of the present invention is to switch on / off by reducing the repetition of the sleep section and the listening section until the data to be received from the base station (BS) after the mobile station (MSS) is switched to the sleep mode in the IEEE 802.16e sleep mode algorithm It is to provide a sleep mode operation method for the efficient energy management of the mobile terminal to minimize the waste of energy by the.

In order to achieve the above object, the sleep mode operation method for efficient energy management of the mobile terminal according to the present invention, in the sleep mode operation method of the mobile terminal, moves with the base station (BS) for the minimum sleep period of each sleep mode A method of adjusting the minimum sleep interval of the next sleep mode according to the amount of data packets communicated by the terminal (MSS) and the sleep interval value terminated in the current sleep mode.

Checking a sleep interval value at the end of the sleep mode of the mobile terminal;

Identifying an amount of data packets stored in a buffer of the base station (BS); And

And setting, by the base station (BS), the minimum sleep section to be used in the next sleep mode of the MSS based on the sleep section information at the end of the previous sleep mode.

When the data packet is transmitted from the base station (BS) to the mobile terminal (MSS) is generated, the method further comprising the step of checking the value of the sleep interval of the previous sleep mode,

Checking the amount of data packets to be transmitted to the mobile station MSS by the base station BS at the end of the previous sleep mode and at the end of the sleep mode of the mobile station MSS;

When the number of data packets to be received from the base station (BS) at the time when the previous sleep mode of the mobile station (MSS) is one, transfer the minimum sleep interval to be used in the next sleep mode of the mobile station (MSS) Determine the sleep section at the end of the sleep mode,

When the amount of data packets to be received from the base station (BS) at the time when the previous sleep mode of the mobile station (MSS) is more than two, sleep at the time when the mobile terminal (MSS) terminated in the previous sleep mode The previous sleep section of the section is determined as the minimum sleep section to be used in the next sleep mode of the mobile terminal (MSS),

Identifying, by the base station (BS), a mobile terminal (MSS) waking up in a sleep interval; And notifying whether the identified mobile terminal (MSS) has data to be transmitted through a message.

If the message is a positive message, the MS terminates sleep mode and switches to awake mode,

If the message is a negative message, the MSS switches to the next sleep mode,

The sleep section of the next sleep mode is characterized by increasing by twice as much as the previous sleep section.

Advantages, features and preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

2 illustrates an embodiment for sleep mode operation in accordance with the present invention.

Referring to FIG. 2, the present invention redefines the minimum sleep section of the MSS. That is, if the number of data packets to be received from the base station (BS) at the time when the sleep mode of the mobile station (MSS) is terminated, the next sleep period (the last sleep section in the first sleep mode) is the next sleep Determine the minimum sleep interval at the start of the mode, and if there are two or more data packets to be received from the base station (BS), the previous sleep period of the sleep period when the first sleep mode ends, the next sleep mode (second sleep mode) Determine the minimum sleep interval of.

The sleep interval value increases according to the binary exponential growth method (ie, doubled increments) from the current sleep interval to the maximum sleep interval, and maintains the maximum sleep interval value after reaching the maximum sleep interval.

3 shows a flowchart illustrating an operation scheme according to the present invention.

Referring to FIG. 3, a mobile station (MSS) to switch to sleep mode sends a MOB_SLP-REQ message to the base station (BS) to request to switch to sleep mode, and the base station (BS) generates a sleep interval scheduling table. The MOB_SLP-RSP message including information on the minimum sleep section, the maximum sleep section, and the listening section is transmitted to the MSS. The MSS receiving the MOB_SLP-RSP message allocates variables including information on the minimum sleep section, the maximum sleep section, and the listening section to the system, and starts the sleep mode (S110).

The sleep mode is set as much as the currently set sleep interval value (S120), and the listening interval is received to receive the MOB_TRF-IND message with the generation information of the data to be transmitted from the base station (BS) (S130).

It is checked whether the received MOB_TRF-IND message is a positive message (S140). If a negative message is included in the MOB_TRF-IND message, it indicates that there is no data to be transmitted from the base station (BS), and the current sleep interval value is compared with the maximum sleep interval value to determine the next sleep interval (S150). ).

If the current sleep section is smaller than the maximum sleep section, the sleep section size is doubled (S160). If the current sleep section is equal to the maximum sleep section size, the sleep section size is fixed to the maximum sleep section size.

Once the sleep interval value is determined, the mobile station MSS repeatedly performs operations S120 to S160 until data to be received from the base station BS is generated.

If a positive message is included in the MOB_TRF-IND message received at S140, it indicates that data to be transmitted from the base station (BS) exists, and the mobile station (MSS) terminates the sleep mode.

At this time, the base station (BS) checks the number of data packets currently stored in the buffer (S170). If the number of packets is one or less, the current sleep interval value is determined as the minimum sleep interval value to be used in the next sleep mode (S190). If the number of data packets is two or more, the previous section of the sleep interval that is currently terminated. (Minimum sleep interval value = current finished sleep interval value / 2) is determined as the minimum sleep interval to be used in the next sleep mode. (S180).

The minimum sleep interval value determined in S180 and S190 is included in the MOB_SLP-RSP message before the next sleep mode starts and is allocated to the MS.

The mobile station MSS terminates the sleep mode in order to receive data from the base station BS, and switches to the awake mode (S200).

4 illustrates a difference between an operation of the sleep mode having a minimum sleep interval and an operation of the prior art sleep mode according to the present invention.

Referring to FIG. 4, according to the prior art operating method of FIG. 4A, the minimum sleep section of the MSS (mobile terminal) is a sleep section with the minimum sleep mode period received from the BS. Decide

In contrast, according to the operation method according to the present invention of FIG. 4B, the minimum sleep section of the MSS (mobile terminal) of the present invention is the last sleep section value of the previous sleep mode or the last sleep section of the previous sleep mode. The previous sleep interval value of the value is determined as the minimum sleep interval value.

Therefore, in the present invention, when the new sleep mode is started, unlike the conventional operation method, since the minimum sleep period is larger than the minimum sleep interval value of the conventional method, the energy of the mobile terminal (MSS) is reduced by reducing the number of switch on / off operations. The consumption can be minimized.

The sleep mode operation method for efficient energy management of a mobile terminal according to the present invention has the following effects.

First, power consumption can be reduced. In the conventional sleep mode method, after the MSS switches to the sleep mode, a plurality of sleep sections and a listening section are repeated until the data to be received from the BS is generated, thereby wasting energy by switching on / off. Occurs. However, in the present invention, the base station (BS) is from the base station (BS) at the time when the sleep interval value and the mobile station (MSS) terminates the sleep mode and transitions to the awake mode, the end of the current sleep mode of the mobile station (MSS) By determining the minimum sleep interval value to be used in the next sleep mode of the mobile station (MSS) by checking the amount of data to be transmitted to the mobile station (MSS), it minimizes energy waste by reducing the number of switch on / off operation.

Second, the compatibility is excellent. Since the operation method of the present invention is not hardware dependent, it is easy to apply to conventional mobile terminals.

Due to the remarkable effects, more efficient and stable communication can be provided in an IEEE 802.16e network that provides a real-time multimedia service including voice and video during high-speed movement.

While the preferred embodiments of the present invention have been described using specific terms, such descriptions are for illustrative purposes only, and it is understood that various changes and modifications may be made without departing from the spirit and scope of the following claims. Should be done.

1 shows an example of the basic sleep mode operation of the conventional IEEE 802.16e.

2 illustrates an embodiment for sleep mode operation in accordance with the present invention.

3 shows a flowchart illustrating an operation scheme according to the present invention.

4 illustrates a difference between an operation of the sleep mode having a minimum sleep interval and an operation of the prior art sleep mode according to the present invention.

Claims (11)

In the sleep mode operation method of the mobile station, the next sleep mode according to the amount of data packets that the base station (BS) and the mobile station (MSS) communicates for the minimum sleep period of each sleep mode and the value of the sleep period terminated in the current sleep mode. To adjust the minimum sleep interval, Checking a sleep interval value at the end of the sleep mode of the mobile terminal; Identifying an amount of data packets stored in a buffer of the base station (BS); And The base station (BS) comprises the step of setting the minimum sleep period to use in the next sleep mode of the mobile station (MSS) based on the sleep section information at the end of the previous sleep mode, the efficient energy management of the mobile terminal How sleep mode works for. The method of claim 1, When the data packet to be transmitted from the base station (BS) to the mobile station (MSS) is generated, the step of confirming the value of the sleep interval of the previous sleep mode further comprising the step of for efficient energy management of the mobile terminal How sleep mode works. The method of claim 1, Confirming the amount of data packets to be transmitted to the mobile station MSS by the base station BS at the end of the previous sleep mode and at the end of the sleep mode of the MSS. Sleep mode operation method for efficient energy management of the mobile terminal. The method of claim 1, When the number of data packets to be received from the base station (BS) at the time when the previous sleep mode of the mobile station (MSS) is one, transfer the minimum sleep interval to be used in the next sleep mode of the mobile station (MSS) Sleep mode operation method for efficient energy management of the mobile terminal, characterized in that for determining the sleep section at the end of the sleep mode. The method of claim 1, When the amount of data packets to be received from the base station (BS) at the time when the previous sleep mode of the mobile station (MSS) is more than two, sleep at the time when the mobile terminal (MSS) terminated in the previous sleep mode A sleep mode operation method for efficient energy management of a mobile terminal, characterized in that the previous sleep section of the section is determined to be the minimum sleep section to be used in the next sleep mode of the mobile terminal (MSS). The method of claim 3, wherein When the amount of data packets confirmed by the base station (BS) is one, characterized in that for determining the minimum sleep interval to be used in the next sleep mode of the mobile station (MSS) as the sleep interval of the time when the end of the previous sleep mode Sleep mode operation method for efficient energy management of mobile terminal. The method of claim 3, wherein When the amount of data packets confirmed by the base station (BS) is two or more, the previous sleep section of the sleep section at the end of the previous sleep mode of the mobile station (MSS) in the next sleep mode of the MSS Sleep mode operation method for efficient energy management of the mobile terminal, characterized in that for determining the minimum sleep interval to use. The method of claim 1, Identifying, by the base station (BS), a mobile terminal (MSS) waking up in a sleep interval; And Sleep mode operation method for efficient energy management of the mobile terminal, characterized in that it further comprises the step of informing the presence of data to be transmitted through the message to the identified mobile terminal (MSS). The method of claim 8, And when the message is a positive message, the MS terminates the sleep mode and switches to the awake mode. The method of claim 8, If the message is a negative message, the mobile terminal (MSS) is a sleep mode operation method for efficient energy management of the mobile terminal, characterized in that for switching to the next sleep mode. The method of claim 10, The sleep mode of the next sleep mode is a sleep mode operation method for efficient energy management of the mobile terminal, characterized in that twice as much as the previous sleep interval.

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