KR20080011887A - Appaturus and method for transition to sleep mode or idle mode in broadband wireless access communication system - Google Patents

Abstract

An apparatus and a method for transitioning to a sleep mode or an idle mode in a broadband wireless access communication system are provided to solve a problem that the existing IEEE 802.16 system merely discriminates a sleep mode and an idle mode without defining when a mobile terminal should enter the sleep mode or the idle mode. When a timer starts and an event is received, a CINR(Carrier to Interference Noise Ratio) measurement unit(203) measures a CINR until the event is provided, and provides a CINR average value. When uplink or downlink data is transmitted or received, a timer management unit(205) provides the event to the CINR measurement unit to allow the CINR measurement unit to start calculating of the average value. A power saving node transition determining unit(207) determines a power saving mode to which transition is to be made by using the CINR average value. A controller(201) receives the power saving mode determination results and performs transition to the power saving mode.

Description

APPARATUS AND METHOD FOR TRANSITION TO SLEEP MODE OR IDLE MODE IN BROADBAND WIRELESS ACCESS COMMUNICATION SYSTEM}

1 is a diagram schematically illustrating a structure of a broadband wireless access communication system using a general IEEE 802.16 system;

2 is a block diagram illustrating an apparatus for transitioning to a sleep mode or an idle mode according to an embodiment of the present invention;

3 is a diagram illustrating a transition process to a sleep mode or an idle mode according to an embodiment of the present invention;

4 illustrates a MOB_SLP-REQ message according to the present invention;

5 illustrates a MOB_SLP-RSP message according to the present invention;

6 illustrates a DREQ-REQ message according to the present invention;

7 illustrates a DREQ-CMD message according to the present invention, and

8 illustrates a MOB-PAG-ADV message according to the present invention;

The present invention relates to a broadband wireless access communication system, and more particularly, to an apparatus and a method for a user terminal to transition to a sleep mode or an idle mode.

In the 4th Generation (hereinafter, referred to as '4G') communication system, providing users with services having various quality of service (QoS) with a transmission rate of about 100 Mbps. Active research is in progress. In particular, in the current 4G communication system, broadband wireless access such as a wireless local area network (LAN) system and a wireless urban area network (MAN) system Access: Research is being actively conducted to support high-speed services in the form of guaranteeing mobility and quality of service (QoS) in a BWA communication system. In addition, the representative communication system is a broadband wireless access communication system, and the Institute of Electrical and Electronics Engineers (IEEE) 802.16a communication system and the IEEE 802.16e communication system are typically used.

The IEEE 802.16a communication system and the IEEE 802.16e communication system are orthogonal frequency division multiplexing (OFDM) for supporting a broadband transmission network on a physical channel of the wireless MAN system. (Orthogonal Frequency Division Multiple Access (hereinafter referred to as 'OFDMA')).

The IEEE 802.16a communication system is a system currently considering only a single cell structure and a state in which a subscriber station (hereinafter referred to as SS) is fixed, that is, no mobility of the SS is considered. In contrast, the IEEE 802.16e communication system is a system considering mobility of the SS in the IEEE 802.16a communication system, and the SS having the mobility is called a mobile station. Hereinafter, the mobile terminal and the subscriber terminal will be referred to as a user terminal. The structure of a general IEEE 802.16e communication system is as follows.

1 is a diagram schematically illustrating a structure of a broadband wireless access communication system using a general IEEE 802.16 system.

Referring to FIG. 1, the broadband wireless access communication system has a multi-cell structure, that is, a specific base station having a cell 150 different from a specific cell 100 and managing the specific cell 100. 110, another base station 140 that manages the other cell 150, and a plurality of user terminals 111, 113, 130, 151, and 153. Here, signal transmission and reception between the base stations 110 and 140 and the user terminals 111, 113, 130, 151, and 153 is performed using the OFDM / OFDMA scheme.

When the specific user terminal 130 of the user terminals 111, 113, 130, 151, and 153 exists in a boundary area between the specific cell 100 and the other cell 150, the moving direction or other reasons Therefore, handoff may be performed. That is, when the specific user terminal 130 moves to another cell 150 managed by the other base station 140 while transmitting and receiving a signal with the specific base station 110, a handover occurs. A serving BS of a specific user terminal 130 is changed from the specific base station 110 to the other base station 140.

The user terminals 111, 113, 130, 151, and 153 may be configured to save power when the environment is not in communication with a counterpart node or in a specific environment such as driving a user terminal in order to increase operating time using a battery. Save mode to reduce battery consumption.

There are two types of power saving modes, sleep mode and idle mode, which are described below.

In the sleep mode, a sleep window and a listen window approved by the base station through the MOB_SLP-REQ of FIG. 4 and the MOB_SLP-RSP message signaling of FIG. 5 between the user terminal and the base station for power saving of the user terminal. This mode operates a sleep mode pattern composed of (listen-window).

In the idle mode, the Paging Group, Paging Cycle, and Paging Offset approved by the base station through the DREG-REQ of FIG. 6 and the DREG-CMD message signaling of FIG. 7 between the user terminal and the base station for power saving of the user terminal and saving of idle radio resources. This mode is operated.

The normal mode is a mode in which a user terminal establishes resources and sessions through network entry to perform a service provided by a corresponding system. The normal mode indicates a general operation situation.

The sleep window is a section in which the user terminal operating in the sleep mode minimizes power consumption. During this period, the user terminal cannot receive downlink control information and traffic.

The listen-window receives a MOB_TRF-IND message indicating that there is information transmitted by the base station from the sleep window and transmitted by the base station to the user terminal, and the presence of downlink traffic directed to the listen-window. As a section for determining the presence or absence, the user terminal may receive downlink control information and traffic during this section.

The sleep mode is started by the user terminal transmitting the MOB_SLP-REQ message of FIG. 4 in the IEEE 802.16 system. The MOB-SLP-REQ message includes an initial sleep window (initial sleep-window = 8 bits) specifying an initial sleep window and a final sleep window base (final sleep-window base = 10 bits) specifying a last sleep window. It consists of a window base exponent (final-sleep-window exponent = 3 bits) and a listening window for setting the listen window (listening-window = 8 bits).

In the slim mode operation requested by the user terminal through the MOB_SLP-REQ message, final approval is performed through the MOB_SLP-RSP message of FIG. 5 transmitted by the base station in response, and the user terminal uses the MOB_SLP-RSP message. The SLP ID is assigned and the sleep mode is operated. The sleep and listening windows are in units of frames and the update algorithm is as follows.

The subsequent sleep window based on the initial sleep window has a 2x increase in the number of frames, which increases the length of time. That is, after entering the sleep mode, when there is no event escaping from the sleep mode, the time to stay in the sleep mode gradually increases. There is a five frame long listening window between each sleep window. The final sleep window is shown in Equation 1 below.

Last Sleep Window = Last Sleep Window Base x 2 ^{Last Sleep Window Index}

After the last sleep window reaches its maximum value, its length does not increase by 2 times and maintains the maximum value.

The idle mode is started when the user terminal transmits the DREG-REQ message of FIG. 6 and receives the DREG-CMD message of FIG. 7 in the IEEE 802.16 system. In the DREG-REQ message, a paging cycle (= 16 bits) requested by the user terminal is included. Paging Group ID (= 16 bits), Paging Offset (= 8 bits) and Paging Cycle (= 16 bits) are defined in the DREG-CMD transmitted by the base station receiving the DREG-REQ message.

The user terminal receiving the DREG-CMD receives a paging offset during the N frames in which the frame number (FN) of the channel currently synchronized with the base station satisfies Equation 2 below. Paging Interval), during this interval, a MOB_PAG-ADV message transmitted from the base station is received. That is, while the base station continuously transmits frames, the user terminal transmits a MOB_PAG-ADV transmitted from the base station if the remaining value obtained by dividing a paging cycle based on the frame number is equal to the page offset. Receive the message.

FN (Frame Number)% Paging Cycle = Paging Offset

The MOB_PAG-ADV message defined in FIG. 8 indicates a Paging Group ID to which a base station transmitting the message belongs, a user terminal requiring a location update or an initial network entry among user terminals operating in an idle mode. It consists of indicating MAC address hash information and action code describing the procedure to be performed for each user terminal.

If the Paging Group ID is different between the base station receiving the DREG-CMD message and the base station transmitting the current MOB_PAG-ADV message before the user terminal enters the idle mode, each terminal in the idle mode may be updated. A user terminal performs a series of procedures according to the action code predefined by the base station.

In the current IEEE 802.16 system, there is only an independent division between the sleep mode and the idle mode, and there is no specific specification of the situation in which the sleep mode or the idle mode should be entered.

Therefore, in order to flexibly operate the sleep mode or the idle mode in the actual implementation process, it is necessary to describe the efficient and clear transition criteria and the transition process.

An object of the present invention is to provide an apparatus and method for transitioning to a sleep mode or an idle mode in a broadband wireless access communication system.

Another object of the present invention is to present a criterion for transitioning to a slim mode or an idle mode in a broadband wireless access communication system.

It is still another object of the present invention to provide an apparatus and method for transitioning to a sleep mode or an idle mode in a broadband wireless access communication system according to a specific criterion in a broadband wireless access communication system.

According to a first aspect of the present invention for achieving the above object, an apparatus for operating a user terminal in a power saving mode in a broadband wireless access communication system, CINR until the event is provided, if the event is provided after the timer is started A CINR measurement unit for measuring a carrier to interference noise ratio and providing a CINR average value, and a timer for starting the average value calculation by providing the event to the CINR measurement unit when uplink or downlink data transmission and reception occurs. A power saving node transition determining unit configured to determine a power saving mode to transition by using a management unit, the CINR average value provided by the CINR measurement unit, and a power saving mode determined by receiving a result of determining a power saving mode to transition to which the power saving node transition determining unit provides It characterized in that it comprises a control unit for performing a transition process.

According to a second aspect of the present invention for achieving the above object, in a method for transitioning to a sleep mode of a user terminal in a broadband wireless access communication system, a process of driving a timer, and after driving the timer, measuring a CINR value Starting a procedure, checking whether transmission / reception of uplink or downlink data occurs during the process of measuring the CINR value, and if the transmission / reception of the uplink or downlink data does not occur, the timer expires. Determining whether the timer is expired, obtaining an average of the measured CINR values, and performing a transition to a sleep mode when the average CINR value is larger than a previously stored CINR threshold value. It is done.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Hereinafter, an apparatus and method for transitioning to a sleep mode or an idle mode in a broadband wireless access communication system will be described.

In general, the difference between the sleep mode and the idle mode is most distinguished by the mobility and the radio resource release of the user terminal.

In the sleep mode, if the user leaves the area of the base station that has entered the sleep mode, the user cannot exit the sleep mode. Therefore, the user terminal must exit the sleep mode. Since the agreement process with the network occurs aperiodically with respect to the movement of the user terminal through the update) operation, the user terminal can operate in the normal idle mode even if it leaves the area of the base station to which the idle mode is first entered.

First, a block configuration of a device for transitioning to the slim board or the idle mode proposed by the present invention will be described.

2 is a block diagram illustrating an apparatus for transitioning to a sleep mode or an idle mode according to an exemplary embodiment of the present invention. The device represents a user terminal.

Referring to FIG. 2, the controller 601 controls the overall operation of the device. For example, processing and control for voice call and data communication are performed, and message transmission and reception are performed. In addition to the normal function, after controlling the power saving mode transition determining unit 207 according to the present invention and receiving the power saving mode determination result determined by the power saving mode transition determining unit 207 according to the CINR average measurement value, The signal message is transmitted through the interface module 211 to start a process of entering a power saving mode such as a sleep mode or an idle mode.

In addition, the controller 201 notifies the timer manager 205 of the occurrence of the occurrence of transmission or reception of traffic or signaling messages from the interface module 211.

In addition, when the controller 210 is notified of the timer expiration from the timer management unit 205, the controller 210 notifies the CINR measurement unit 203 of the timer expiration.

The CINR measurement unit 203 measures the CINR and reports the timer expiration until the timer expiration notification is received from the timer management unit 205 through the control unit 201 after the call connection of the device. When received, the average of the accumulated CINR value is calculated and provided to the power saving mode transition determining unit 207 through the control unit 201.

When the timer management unit 205 is notified of the transmission or reception of traffic or signaling messages from the interface module 211, the timer is reset, and when the timer expires, the control unit 211 To be informed.

The power saving mode transition determining unit 207 compares the CINR average value provided through the control unit 201 with a predetermined CINR threshold value, and determines that the CINR average value is greater than the CINR threshold value, and enters the sleep mode. The result is provided to the control unit 201. If the CINR average value is smaller than the CINR threshold value, it is determined to enter the idle mode, and the determination result is provided to the controller 201.

If the CINR average value is greater than the CINR threshold value, the device is located at the center of the cell, indicating that the probability of moving relatively is low. If the CINR average value is smaller than the CINR threshold value, the device is located at the edge of the cell, indicating that the probability of moving relatively is high.

The storage unit 209 stores a program for controlling the overall operation of the apparatus and temporary data generated during program execution. That is, the storage unit 209 may generally store data and control information to be transmitted to the base station by the device. The CINR measurement unit 203 stores CINR measurement values and average values through the control unit 201. do.

The interface module 211 is a module for communicating with the base station. When detecting downlink or uplink data (ie, signal and traffic) generation, the interface module 211 receives a timer management unit 205 through the control unit 201. Notify by. The interface module 211 includes an RF processor and a baseband processor.

The RF processor converts a signal received through an antenna into a baseband signal and provides the baseband signal to the baseband processor, and transmits a baseband signal from the baseband processor on an actual air. Transmit to and transmit through the antenna.

For example, in the case of using a broadband wireless access method, the baseband processor transmits the FFT (Fast Fourier Transform) operation and channel decodes the signal from the RF processor to transmit the original information data to the controller 201. Conversely, channel encoding and IFFT (Inverse Fast Fourier Transform) calculation are performed on the data from the control unit 201 and provided to the RF processor.

3 illustrates a transition process to a sleep mode or an idle mode according to an embodiment of the present invention.

The controller 201 of the user terminal performs an initial network entry process in step 305. That is, after the power-on, it performs the initial connection process and starts the general operation process such as call waiting.

In step 315, the controller 201 causes the timer manager 205 to start timer driving.

In step 317, the control unit 201 instructs the CINR measurement unit 203 to measure and store the CINR, and the CINR measurement unit 203 starts the CINR measurement and storage.

In step 320, when the timer manager 205 is notified of the presence of uplink or downlink data from the interface module 211, the timer manager 205 restarts the timer. That is, the timer is reset. When the timer is reset, the CINR measurement unit 203 resumes the CINR measurement and storage.

If there is no uplink or downlink data in step 320, the timer manager 205 checks whether the timer of step 315 expires in step 325.

If the timer of step 315 has not expired in step 325, the process proceeds to step 320 to continuously check for the existence of uplink or downlink data.

If the timer of step 315 expires in step 325, the timer manager 205 notifies the CINR measurement unit 203 of the timer expiration fact through the controller 201.

In step 327, the CINR measurement unit 203 calculates an average of the CINR measurement values until the expiration after the timer is driven, stores the average in the storage unit 209, and determines the power saving mode transition through the control unit 201. The unit 207 provides the average value of the CINR measurement.

Thereafter, the power saving mode transition determining unit 207 checks whether the average CINR measurement value provided in step 330 is greater than a previously stored CINR threshold.

If the CINR measurement average value provided in step 330 is greater than the previously stored CINR threshold value, the control proceeds to step 335 to determine the entry into the sleep mode, and provides the sleep mode entry determination result to the controller 201. do. The controller 201 receiving the sleep mode entry determination result transmits a MOB_SLP-REQ message through the interface module 211 to start a sleep mode entry process.

If the average CINR measurement value provided in step 330 is not larger than the previously stored CINR threshold value, the process proceeds to step 340 in which the idle mode is determined and the idle mode entry decision result is sent to the controller 201. to provide. The controller 201 receiving the idle mode entry determination result transmits a DREG-REQ message through the interface module 211 to start the idle mode entry process.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

The present invention specifically provides a reference and a transition method for transitioning to a sleep mode or an idle mode from a user terminal of a broadband wireless access communication system so that the user terminal can efficiently transition to a sleep mode or an idle mode.

Claims (10)

An apparatus for operating a user terminal in a power saving mode in a broadband wireless access communication system, A CINR measurement unit configured to measure a CINR (carrier to interference noise ratio) until the event is provided after the timer is started and to provide the CINR average value; A timer manager for providing the event to the CINR measurement unit to start calculating the average value when uplink or downlink data transmission and reception occurs; A power saving node transition determining unit configured to determine a power saving mode to transition using the CINR average value provided by the CINR measuring unit; And a controller configured to receive a result of determining a power saving mode to transition provided by the power saving node transition determining unit and perform a transition process to the determined power saving mode. The method of claim 1, The device, A storage unit storing the CINR measurement value measured by the CINR measurement unit and the calculated CINR average value; The apparatus further comprises an interface module for providing whether the timer management unit receives uplink and downlink data transmission. The method of claim 1, The timer manager is characterized in that when the uplink or downlink data transmission reception occurs, reset the timer and restart. The method of claim 1, The CINR measuring unit measures a CINR until the next event is provided after providing a CINR average value, and when the next event is provided, provides a CINR average value. The method of claim 1, And the power saving node transition determining unit determines a transition to a sleep mode when the received CINR average value is larger than a previously stored CINR threshold value. The method of claim 1, And the power saving node transition determining unit determines a transition to an idle mode when the received CINR average value is not greater than a previously stored CINR threshold value. A method for transitioning to a sleep mode of a user terminal in a broadband wireless access communication system, Running a timer, Starting the CINR value after starting the timer; Checking whether transmission / reception of uplink or downlink data occurs during the CINR measurement process; If transmission and reception of the uplink or downlink data do not occur, checking whether the timer has expired; Obtaining an average of the measured CINR values when the timer expires; And if the average CINR value is greater than the previously stored CINR threshold value, performing a transition to a sleep mode. The method of claim 7, wherein And when the transmission and reception of the uplink or downlink data occurs, restarting the timer and restarting the CINR value measurement. A method for transitioning to an idle mode of a user terminal in a broadband wireless access communication system, Running a timer, Starting the CINR value after starting the timer; Checking whether transmission / reception of uplink or downlink data occurs during the CINR measurement process; If transmission and reception of the uplink or downlink data do not occur, checking whether the timer has expired; Obtaining an average of the measured CINR values when the timer expires; And if the average CINR value is not greater than the previously stored CINR threshold value, performing the transition to the idle mode. The method of claim 9, And if the transmission or reception of the uplink or downlink data occurs, restarting the timer and starting the CINR value measurement again.

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