KR20090036186A - Apparatus and method for power saving in broadband wireless access system - Google Patents

Abstract

An apparatus for reducing the power consumption and a method thereof are provided to enable a user to prevent a terminal from being waked up from the power saving mode due to desired traffic. A modem(715) receives information which informs that a host(713) enters the power saving mode, and then sets up a host power saving mode state as the power saving mode. When the host power saving mode state is the power saving mode, it is checked whether the first traffic is received from a base station(750). If the first traffic is received from the base station, the modem inspects the traffic policy for the first traffic. If the traffic policy is set as a state for receiving the first traffic in the power saving mode, the modem makes the hose enter the normal mode from the power saving mode.

Description

Apparatus and method for power saving in broadband wireless access communication system {APPARATUS AND METHOD FOR POWER SAVING IN BROADBAND WIRELESS ACCESS SYSTEM}

 The present invention relates to an apparatus and method for reducing power consumption by reducing the number of wakings from a power saving mode by preventing a terminal of a broadband wireless access communication system from receiving information that it does not want to receive in a power saving mode.

A portable terminal (hereinafter referred to as a terminal) provides mobility to a user. In addition, the terminal providing mobility enters a power saving mode when there is no input from the user for a predetermined time or to save power at the request of the user.

Even if the host unit of the terminal enters the power saving mode, the modem unit which should provide the incoming service cannot power off. Instead, the modem unit may enter a power saving mode such as an idle mode or a sleep mode. I use it.

1 is a diagram illustrating a downlink traffic reception process in a power saving mode in a broadband wireless access communication system.

Referring to FIG. 1, after the host unit 113 of the terminal 110 enters a power saving mode (step a), when downlink traffic is generated from the base station 150 (step b), the modem unit 116. In order to wake up the host unit 113 from the power saving mode, an interrupt is generated to the host unit 113 to provide information indicating that downlink traffic is received (step c).

In this case, the host unit 113 receiving the interrupt transitions to the normal mode (step d).

When the modem unit 110 also enters the idle or sleep mode, the base station 150 transitions the modem unit 110 to the normal mode through paging, which includes waking up the host.

In this case, the host unit 113 and the modem unit 110 are awakened from the traffic that is not important or undesired by the user, which causes the terminal 110 using the battery to waste efficiency in battery use. There is a problem.

In addition, due to the development of the Internet and various applications, the mobile Internet generates a traffic pattern different from that of a conventional cellular network. Such a traffic pattern uses a packet communication scheme, which can frequently occur as shown in FIG. Therefore, there is a need for a new power saving scheme that matches the Internet traffic pattern for the terminal.

An object of the present invention is to provide an apparatus and method for power saving in a broadband wireless access communication system.

Another object of the present invention is to provide power saving in a terminal of a broadband wireless access communication system by efficiently managing downlink traffic received after a host enters a power saving mode without unnecessary waking up of a terminal entering the power saving mode. An apparatus and method are provided.

According to a first aspect of the present invention for achieving the object of the present invention, when the modem receives information indicating that the host enters the power saving mode in the traffic receiving method in the terminal of the broadband wireless access system, the modem is the host power saving Setting the mode state to the power saving mode; and when the host power saving mode state is the power saving mode, checking whether the modem receives the first traffic from the base station, and when receiving the first traffic from the base station, Inspecting the traffic policy for the first traffic, and if the traffic policy is set to receive the first traffic in the power saving mode, the modem enters the host from the power saving mode into the normal mode and after entering the normal mode. The modem outputting the first traffic to the host It characterized in that it comprises.

According to a second aspect of the present invention for achieving the object of the present invention, when the base station of the broadband wireless access system receives the first traffic to the terminal in the traffic transmission method, the traffic of the first traffic to the terminal Checking the policy, and if the traffic policy is set to receive the first traffic in the power saving mode, checking whether the modem of the terminal is in the power saving mode, and if the modem of the terminal is in the power saving mode, sending a paging message to the terminal. And transmitting the modem of the terminal to the normal mode from the power saving mode, and transmitting the first traffic to the terminal in the normal mode of the terminal.

The present invention can efficiently manage the power saving mode when the user is not in use, and can prevent the terminal from waking from the power saving mode due to traffic that the user does not want, thereby reducing power consumption and reducing the service providing time. There is an advantage to increase.

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, the present invention will be described an apparatus and method for power saving in a broadband wireless access communication system.

2 is a block diagram of a terminal and a base station according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the present invention is composed of a base station 250 and a terminal 210, the terminal 210 is composed of a host unit 213 and a modem unit 220 again.

The host unit 213 performs a function of driving an application program, and the modem unit 220 performs functions of a data link layer function block and a physical layer function block.

The modem unit 220 includes a filter rule including an interface manager 222, a filter rule store 225, and a filter rule comparison unit 226, which are in charge of a connection function between the host unit 213 and the modem unit 220. The management unit 224 and the MAC management unit 228 that performs the function of the data link layer in communication with the base station 250.

The filter rule store 225 is a memory for storing the traffic filter rule received from the host unit 213, and the filter rule comparison unit 226 is a service flow received from the base station 250. Check if it matches the value in the filter rule store 225. If there is a match, the bit for the normal mode and the idle mode is checked to provide or discard the received traffic to the hose unit 213. In addition, the filter rule comparison unit 226 is received from the traffic policy management unit 214, and through the MAC management unit 228, including information on which service flows to receive traffic in the power saving mode. The traffic policy is transmitted to the base station 250.

The host unit 213 manages the traffic policy management unit 214 for entering a traffic policy to the modem unit 220 and a power saving state entry, and informs the modem unit 220 of entering a power saving mode. It is composed of

The base station 250 includes a downlink traffic management unit 256 capable of managing traffic for each service flow established through the MAC signaling with the terminal 210 and a MAC management unit 254 performing MAC signaling. Although not shown in FIG. 2, the base station 250 includes a wireless module for transmitting and receiving the MAC signaling message. The functions of the detailed building blocks of the base station 250 and the terminal 210 will be described in detail below.

According to the present invention, the terminal can be woken up from the power saving mode only by traffic that the user wants to receive or is determined by the terminal policy when the host enters the power saving state to efficiently operate the idle mode of the terminal and the power saving mode of the host. Suggest ways to help

3 is a diagram illustrating a filter rule setting process according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the filter rule may be directly selected by the user or may be included from the beginning in the policy. The filter rule policy may be set separately for each QoS (Quality Of Service), traffic, user defined traffic, etc., and is set in the traffic policy manager of the host unit 313 of the terminal 310 (step a).

The QoS-specific policy may set a delay sensitive setting, a loss sensitive setting, or both. This condition will be mapped to the IEEE 802.16 scheduling type previously defined in the modem unit 315, and the mapping table is shown in Table 1 below.

QoS IEEE 802.16 Scheduling Type Delay Sensitive UGS, ertPS, rtPS Los sensitive nrtPS Delay & Loss Sensitive UGS Delay & Loss Insensitive BE

Here, among the unsolicited grant service (UGS), the real-time polling service (rtPS), the non-real-time polling service (nrtPS), and the best effort (BE), the scheduling type of the real-time service is time sensitive, Services that are not of type service nature are usually sensitive to loss.

In addition, the traffic-specific policy is to select a predefined traffic type, such as the World Wide Web (WWW), File Transfer Protocol (FTP).

Finally, the user direct selection is to define the type of traffic that the user wants to receive in the power saving mode and use it as a filter rule. For example, if you want to allow ICMP traffic from IP address 10.10.10.10 when the terminal is in sleep mode, you can set "Src IP Addr" to 10.10.10.10 and "ProtocolNum" to ICMP and all others to 0.

The allowable traffic policy thus set is transmitted to the modem unit 315 (step b) and stored in the filter rule store (step c).

In order to efficiently operate the traffic policy of the host unit 313 in the terminal, traffic management for each service flow in each mode (normal mode, idle mode, etc.) is required in the network.

4 illustrates a TLV for operating a traffic policy according to an embodiment of the present invention.

Referring to FIG. 4, the TLV (Type-Length-Value) is defined in IEEE 802.16, and is used to determine a usage mode for a corresponding service flow in a process of generating a new service flow.

In other words, if the service flow is used only in the normal mode and is not desired to be operated in the idle mode, the normal mode bit Bit0 is set to 1 and the idle mode bit Bit1 is set to 0 and transmitted to the base station.

If the TLV is not used in the service flow generation process, the service flow is used in all modes as a default value. The TLV may be generated or changed during an initial access process or at a point in time desired by the terminal. The TLV may be included in the DSx-REQ, DSx-RSP, and DSx-ACK messages.

The DSx may be a dynamic service change (DSC) or a DSA, a DSA-REQ may be a quality request message, a DSA-RSP may be a quality request response message, and a DSA-ACK may be a quality request confirmation message. The DSC-REQ may be a quality change request message, the DSC-RSP may be a quality change request response message, and the DSC-ACK may be a quality change request confirmation message.

5 is a diagram illustrating an example of operating a TLV for operating a traffic policy according to an embodiment of the present invention.

Referring to FIG. 5, example 1 shows that a base station for generating a service flow currently being used is started, and that the service flow is operated in all modes (normal mode and idle mode).

Example 2 includes a TLV that the base station 550 transmits a DSA-REQ including a specific traffic classification rule to the terminal 510 to generate a service flow, and the terminal 510 uses the classification rule only in a normal state. The base station 550 responds.

That is, it responds to the base station 550 by setting the Normal Mode Bit of the TLV to 1 and the Idle Mode Bit to 0.

Example 3 transmits a response indicating that the specific traffic classification rule transmitted from the base station 550 operates only in the idle mode. That is, set the Normal Mode Bit of the TLV to 0 and the Idle Mode Bit to 1.

Example 4 illustrates changing a usage mode of a specific traffic classification rule that has already been generated by the user through the DSC-REQ (Dynamic Service Change) message to the base station 550 at the time when the user sets the filter rule. That is, at first, the corresponding service flow is operated in all modes (normal mode, idle mode), and after that, the specific traffic classification rule is operated only in the normal mode.

 Example 5 illustrates a process in which the terminal 510 generates a service flow to be used only in the normal mode to the base station 550 at a desired time point. That is, set the Normal Mode Bit of the TLV to 1 and the Idle Mode Bit to 0.

The present invention is to efficiently manage the battery by maintaining the power saving state for a long time when the terminal enters the power saving mode or the modem is in the idle mode. For this purpose, the modem unit must be able to recognize that the host unit has entered a power saving state.

6 is a view illustrating a power saving mode notification process of a terminal host unit according to an exemplary embodiment of the present invention.

Referring to FIG. 6, the host unit 613 of the terminal 610 transmits a power saving mode notification message to the modem unit 615 at step (a) of entering the power saving mode (step b), and receives the modem. The block 615 sets the host power saving mode flag HostSleepPFlag to 1 (step c).

FIG. 7 is a diagram illustrating an operation process for a case where a host is in an idle mode and a modem unit is in a normal mode according to an exemplary embodiment of the present invention.

Referring to FIG. 7, in an initial state (step a), the host unit 713 of the terminal 710 selects "Delay Sensitive" of QoS as a filter rule and transmits it to the modem unit 715. The modem unit 715 stores it in the filter rule repository (step b). This corresponds to the UGS, ertPS, and rtPS scheduling types of IEEE 802.16 in Table 1.

If the scheduling type of the service flow transmitted from the base station 750 through the quality request message (DSA-REQ) in the DSA process of the initial access (step c) is UGS, ertPS, or rtPS (step d), the modem unit ( 715 transmits a response message (DSA-RSP) to the base station 750 by setting both the Normal Mode bit and the Idle Mode bit of the TLV to 1 (step f), and the remaining traffic (for example, For Best Effort, the Idle Mode bit is set to 0 to transmit a response message (DSA-RSP) to the base station 750 (step e). This means that when the modem unit 715 is in the idle mode, no traffic other than the set service flow is received. The base station 750 has an Idle Mode bit of 1 when the terminal 710 is in the idle mode. Only when it is indicated that it will wake up the terminal 710 through paging.

7 illustrates the case where the modem unit 715 enters the idle mode, that is, the normal mode, and the host unit 713 enters the power saving mode (step h). will be.

When the host unit 713 transitions to the power saving mode, the host unit 713 notifies this to the modem unit 715 (step i), and the modem unit 715 sends a host power saving mode flag (HostSleepPFlag). ) Is set to 1 (step j).

When the base station 750 receives the traffic destined for the terminal 710 from an upper node (step k), the base station 750 performs a process of finding a corresponding service flow for the terminal (step l), and then the service flow ( In detail, the Idle Mode bit is checked by the set value of the modem unit 715 in the terminal 710 (step m). If the bit is 1, the corresponding traffic is transmitted to the terminal 710 (step n). If the bit is 0, the corresponding traffic is discarded (m 'step).

When the modem unit 715 is in the normal mode, the received traffic (step n) performs a process of searching for a corresponding service flow by a filter rule inside the modem unit 715 (step o). The flow (in detail, the setting for the host unit 713 in the terminal 710) is checked for the Idle Mode bit (p step).

If this bit is 1, the traffic is allowed by the host unit 713, so an interrupt is generated to the host unit 713 (step r), the host unit 713 is woken up (step s), and the corresponding traffic is discarded. Transmit (step t), if 0, discard the corresponding traffic (step q).

8 is a diagram illustrating an operation process for a case where the host unit and the modem unit of the terminal are in the idle mode according to an embodiment of the present invention.

Referring to FIG. 8, when the modem unit 815 is in the idle mode, traffic filtering is performed at the base station 850. When the traffic is received, the idle mode bit of the service flow is 1 by the filter rule at the base station. Only when the paging message is sent to the terminal 810 to wake up the modem unit 815 of the terminal 810. Upon receipt of the paging message, the terminal 810 enters a normal mode through a reentry procedure with the base station 850 and thereafter receives traffic from the base station 850.

Traffic policies and user-defined policies also follow the same operational scenario. The difference is a parameter that determines which service flows are to be allowed in the idle mode when the filter rule comparator generates a new service flow. That is, in the case of a user policy, SrcIPAddr, DstIPAddr, ProtocolNum, SrcPortNum, and DstPortNum are compared as in the user item of FIG. 3.

In the initial state (step a), the host unit 813 of the terminal 810 selects "Delay Sensitive" of QoS as a filter rule and transmits it to the modem unit 815, and the modem unit 815 filters this. Store in rule repository (step b). This corresponds to the UGS, ertPS, and rtPS scheduling types of IEEE 802.16 in Table 1.

If the scheduling type of the service flow transmitted from the base station 850 through the DSA-REQ message in step Dc of the initial access is UGS, ertPS and rtPS (step d), the modem unit 815 In the present invention, both the Normal Mode bit and the Idle Mode bit of the TLV are set to 1 to transmit a response message (DSA-RSP) to the base station 750 (step f), and the remaining traffic (for example, Best Effort). For step I, the Idle Mode bit is set to 0 to transmit a response message (DSA-RSP) to the base station 750 (step e).

This means that when the modem unit 815 is in the idle mode, no traffic other than the set service flow is received. The base station 850 has an Idle Mode bit of 1 when the terminal 810 is in the idle mode. Only when it is indicated that it will wake up the terminal 810 through paging.

Subsequently, in the normal state (step g), when the idle timer expires (step h), the modem unit performs a deregistration process (steps i and j) with the base station 250 and enters an idle mode (k). step).

Subsequently, when the base station 850 receives traffic destined for the terminal 810 from an upper node (step l), the base station 850 performs a process of searching for a corresponding service flow for the terminal 810 (step m). The Idle Mode bit of the corresponding service flow (details setting for the modem unit 815 in the terminal 810) is checked (step n). If this bit is 0, the corresponding traffic is discarded (step o). If this bit is 1, the modem unit 815 of the terminal 810 is awakened by transmitting the paging message (MOB_PAG-ADV) to the terminal 810.

Upon receiving the paging message, the modem unit 810 enters a normal mode (step r) through a reentry procedure (step g) with the base station 850, and then receives traffic from the base station 850. Receive (s step). The modem unit 815 generates an interrupt to the host unit 813 (step t), wakes up the host unit 813 (step u), and transmits the corresponding traffic (step v).

9 is a diagram illustrating a power saving mode entry process according to an embodiment of the present invention.

9, when the host unit 913 of the terminal 910 enters the power saving mode (step a), when the modem unit 915 of the normal state (step b) is notified of entering the power saving mode ( c, d), the modem unit 915 immediately enters the idle mode through the signaling procedure with the base station 950 (e, f) (g step) to bring the battery efficiency as much as the idle timer expiration time. can do.

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.

1 is a diagram illustrating a downlink traffic reception process in a power saving mode in a broadband wireless access communication system;

2 is a block diagram of a terminal and a base station according to an embodiment of the present invention;

3 is a diagram illustrating a filter rule setting process according to an embodiment of the present invention;

4 illustrates a TLV for operating a traffic policy according to an embodiment of the present invention;

5 is a diagram illustrating an example of a TLV operation for operating a traffic policy according to an embodiment of the present invention;

6 is a view illustrating a power saving mode notification process of a terminal host unit according to an embodiment of the present invention;

7 is a diagram illustrating an operation process for a case where a host is in an idle mode and a modem unit is in a normal mode according to an embodiment of the present invention;

8 is a diagram illustrating an operation process for a case where the host unit and the modem unit of the terminal are in the idle mode according to an embodiment of the present invention;

9 is a diagram illustrating a power saving mode entry process according to an embodiment of the present invention.

Claims (25)

In the method of receiving traffic at a terminal of a broadband wireless access system, When the modem receives the information indicating that the host enters the power saving mode, the modem sets the host power saving mode to the power saving mode; When the host power saving mode is in the power saving mode, checking whether the modem receives the first traffic from the base station; When receiving the first traffic from the base station, the modem checking a traffic policy for the first traffic; When the traffic policy is set to receive the first traffic in the power saving mode, the modem enters the host from the power saving mode into the normal mode; And after entering the normal mode, the modem outputting the first traffic to the host. The method of claim 1, When the host power saving mode is in the power saving mode, checking whether the modem enters a power saving mode; When the modem enters a power saving mode, entering a power saving mode; After the modem enters a power saving mode, checking that the modem receives a paging message from the base station; When receiving a paging message from the base station, the modem enters a normal mode; Receiving a second traffic from the base station after the modem enters a normal mode; And outputting the second traffic to the host. The method of claim 1, And when the traffic policy is received from the host, transmitting the traffic policy to the base station. The method of claim 1, And when receiving the traffic policy from the base station, storing the traffic policy. The method of claim 1, The traffic policy may include receiving traffic according to traffic type in a power saving mode and receiving traffic according to traffic type in a normal mode. The method of claim 1, If the traffic policy is not set to receive the first traffic in a power saving mode, the method further comprising the modem discarding the first traffic. In the traffic transmission method in the base station of the broadband wireless access system, When receiving the first traffic destined for the terminal, inspecting a traffic policy of the first traffic for the terminal; If the traffic policy is set to receive the first traffic in the power saving mode, checking whether the modem of the terminal is in the power saving mode; When the modem of the terminal is in the power saving mode, sending a paging message to the terminal to enter the modem from the power saving mode into the normal mode; In the normal mode of the terminal, transmitting the first traffic to the terminal. The method of claim 7, wherein And if the traffic policy is not set to receive the first traffic in the power saving mode, discarding the first traffic. The method of claim 7, wherein If the modem of the terminal is not in a power saving mode, further comprising transmitting the first traffic to the terminal. The method of claim 7, wherein The traffic policy may include receiving traffic according to traffic type in a power saving mode and receiving traffic according to traffic type in a normal mode. In the device of the terminal of the broadband wireless access system, A host unit for outputting a traffic policy and outputting information indicating the power saving mode when the power saving mode is entered; Receiving the traffic policy and receiving information indicating that the host enters a power saving mode, setting a host power saving mode to a power saving mode, and when the host power saving mode is a power saving mode, first traffic from a base station; Check whether a message is received, and when receiving the first traffic from the base station, examine a traffic policy for the first traffic, and if the traffic policy is set to receive the first traffic in a power saving mode, And a modem unit for entering a normal mode from a mode and outputting the first traffic to the host unit. The method of claim 11, The modem unit checks whether the modem unit enters the power saving mode when the host power saving mode is in the power saving mode, and enters the power saving mode when the modem enters the power saving mode. The modem enters a normal mode when receiving a paging message from the base station, and outputs the second traffic to the host unit when receiving the second traffic from the base station after the modem enters the normal mode. Device characterized in that. The method of claim 11, The modem unit, when receiving the traffic policy from the host unit, characterized in that for transmitting the traffic policy to the base station. The method of claim 11, And when the modem unit receives the traffic policy from the base station, stores the traffic policy. The method of claim 11, The traffic policy may include whether to receive traffic according to traffic type in a power saving mode and whether to receive traffic according to traffic type in a normal mode. The method of claim 11, And the modem unit discards the first traffic when the traffic policy is not set to receive the first traffic in a power saving mode. In the apparatus of the base station of the broadband wireless access system, When receiving the first traffic destined for the terminal, examine the traffic policy of the first traffic for the terminal, and if the traffic policy is set to receive the first traffic in the power saving mode, whether the modem of the terminal is in the power saving mode. And if the modem of the terminal is in the power saving mode, sends a paging message to the terminal to enter the terminal from the power saving mode to the normal mode, and the modem of the terminal receives the first traffic in the normal mode. Apparatus comprising a traffic management unit for transmitting to the terminal. The method of claim 17, The traffic management unit discards the first traffic when the traffic policy is not set to receive the first traffic in the power saving mode. The method of claim 17, The traffic management unit transmits the first traffic to the terminal when the modem of the terminal is not in the power saving mode. The method of claim 17, The traffic management unit is characterized in that the traffic policy includes whether the traffic received according to the traffic type in the normal mode and the traffic reception in the power saving mode. In a broadband wireless access system, When receiving the first traffic destined for the terminal, examine the first traffic policy of the first traffic for the terminal, and if the first traffic policy is set to receive the first traffic in a power saving mode, Check whether the modem is in the power saving mode, and if the modem of the terminal is in the power saving mode, send a paging message to the terminal to allow the modem of the terminal to enter the normal mode from the power saving mode; A base station including a traffic management unit for transmitting the first traffic to the terminal and transmitting the first traffic to the terminal when the modem of the terminal is not in the power saving mode; A host unit for outputting a second traffic policy and outputting information for entering a power saving mode when entering a power saving mode, receiving the second traffic policy, and receiving information for indicating that the host unit enters a power saving mode When the host power saving mode state is set to the power saving mode, and when the host power saving mode state is the power saving mode, it is checked whether the first traffic is received from the base station, and when receiving the first traffic from the base station, Examine the second traffic policy for the first traffic, and if the second traffic policy is set to receive the first traffic in the power saving mode, enter the host unit from the power saving mode to the normal mode and send the first to the host unit; And said terminal having a modem section for outputting traffic. The method of claim 21, The modem unit of the terminal checks whether the modem unit enters the power saving mode when the host power saving mode is in the power saving mode, enters the power saving mode when the modem enters the power saving mode, and receives a paging message from the base station. The modem enters a normal mode and, upon receiving the second traffic from the base station after entering the normal mode, receives the second traffic from the base station. The system, characterized in that for outputting. The method of claim 21, When the modem unit of the terminal receives the second traffic policy from the host unit, the modem unit transmits the second traffic policy to the base station and receives the first traffic policy from the base station. System for storing. The method of claim 21, And the first traffic policy and the second traffic policy include whether to receive traffic according to the traffic type in the power saving mode and whether to receive traffic according to the traffic type in the normal mode. The method of claim 21, The modem unit of the terminal and the traffic management unit of the base station discard the first traffic when the first traffic policy and the second traffic policy are not set to receive the first traffic in the power saving mode. system.

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