KR20060074098A - Method for activity-based power saving scheduling in ad-hoc network - Google Patents

Abstract

The present invention relates to an activity-based scheduling method between mobile terminals in an ad hoc wireless network. (A) The coordinator periodically transmits a beacon signal to synchronize the time of all mobile terminals in the ad hoc wireless network. During the ATIM window period set for a certain time period, all mobile terminals are activated and a mobile terminal wishing to send a task transmits an ATIM message recording a length of a task to be transmitted and receives all ATIM messages in an ad hoc wireless network. step; (b) the coordinator calculating terminal activity for each mobile terminal, task activity and minimum activity for each task; (c) The coordinator preferentially selects a task having the smallest value of the minimum activity, and if there are two or more tasks having the smallest value of the minimum activity, the coordinator selects a task having the smallest value of the task activity. step; (d) The coordinator determines the task transmission order in the order of the selected tasks, and for the remaining tasks except for the task selected in the step (c) until the transmission order of all tasks is determined, the (b) and ( c) repeating the step; And (e) the coordinator broadcasting the scheduling control packet in which the task transmission order is recorded to all mobile terminals. Therefore, according to the present invention, yield and energy efficiency can be increased.

Description

Activity-based scheduling method between mobile terminals in ad hoc wireless network {Method for Activity-based Power Saving Scheduling in Ad-hoc Network}

1 is a diagram illustrating a mobile terminal and a coordinator in an ad hoc wireless network according to an embodiment of the present invention;

2 is a flowchart illustrating an activity-based scheduling method between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention;

3 is an exemplary operation diagram of an activity-based scheduling method between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention;

4 to 7 are diagrams illustrating energy efficiency of an activity-based scheduling method between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention.

The present invention relates to an activity-based scheduling method between mobile terminals in an ad hoc wireless network. More specifically, the present invention relates to an increase in yield and energy efficiency, and to a mobile ad hoc wireless network that is well suited to an ad hoc wireless network with a coordinator. It relates to an activity-based scheduling method between terminals.

As the use of wireless networks has increased, users' networking desires to share data anytime, anywhere have increased. The wireless network, which has been mainly used up to now, has been able to communicate only when there is an infrastructure of a service provider such as a base station or a wireless access point.

However, if you use a wireless network that can be used without an infrastructure, such as an ad-hoc wireless network, even if you don't always have a user or a service provider doesn't install the infrastructure because of profitability, it's autonomous in them. Data service can be done.

Therefore, such an ad hoc wireless network is focused on the fact that it is an alternative network type and a mobile terminal-oriented network.

However, in the case of the ad hoc wireless network, there is a limit that the efficiency of resource usage is reduced because there is no subject that can manage and schedule resources in the center, such as a base station or an access point.

In addition, in the existing centralized wireless network, even if the power of the mobile terminal is exhausted, it does not affect the overall wireless network. However, in the ad hoc wireless network, the mobile terminal plays the role of a router at the same time. It will cause performance degradation. In other words, the need to increase the power efficiency of the mobile terminal is even greater.

According to the current power saving scheme of the 802.11 standard, mobile terminals in an ad hoc network have to compete once in the Ad-hoc Indication Traffic Message (ATIM) window, and then only survive the remaining mobile terminals to transmit actual data. Will be

Therefore, in this case, a successful ATIM message is sent, but the actual data cannot be transmitted. As a result, the mobile terminals to send and receive the message are unnecessarily waiting for power loss.

Similarly, a scheme for scheduling data transmission based on contention-based ATIM message transmission results has been proposed in "A Power-saving Scheduling for IEEE 802.11 Mobile Ad Hoc Network", in Proceedings of the 2003 ICCNMC.

However, the above technique has a problem in that power efficiency is reduced when the data loads of mobile terminals in the wireless network are different. In the actual wireless network, data packet exchange between mobile terminals is mutually dependent and their distribution is uneven. In reality, energy efficiency is not very good.

In addition, any of the scheduling schemes provided by the 802.11 standard strategy saving scheme or the above-mentioned paper scheme may operate in a fully distributed network without a coordinator. Therefore, it is not suitable for a communication mode between a mobile terminal with a coordinator or a cluster-based ad hoc network that is recently applied to various standards.

The present invention has been made to solve the above problems, and by reducing the energy consumption of the mobile terminals in terms of the overall wireless network, it is possible to extend the maintenance operation time of the ad hoc wireless network where the mobile terminals become end users and service providers. At the same time, the purpose of the present invention is to provide an activity-based scheduling method between mobile terminals in an ad hoc wireless network in which users can receive a larger capacity by increasing the yield of data communication.

Another object of the present invention is to provide an activity-based scheduling method between mobile terminals in an ad hoc wireless network that is well suited to an ad hoc wireless network with a coordinator.

In order to achieve the above object, an activity-based scheduling method between mobile terminals in an ad hoc wireless network includes: (a) a coordinator periodically sends a beacon signal to synchronize time of all mobile terminals in the ad hoc wireless network; During the ATIM window period set to a certain time after the beacon signal, all mobile terminals are activated, and the mobile terminal to transmit a task transmits an ATIM message that records the length of the task to be transmitted. Receiving an ATIM message; (b) the coordinator calculating terminal activity for each mobile terminal, task activity and minimum activity for each task; (c) The coordinator preferentially selects a task having the smallest minimum activity, and if there are two or more tasks having the smallest minimum activity, the coordinator selects the task having the smallest activity. Doing; (d) The coordinator determines the task transmission order in the order of the selected tasks, and for the remaining tasks except for the task selected in the step (c) until the transmission order of all tasks is determined, the (b) and ( c) repeating the step; And (e) the coordinator broadcasting the scheduling control packet in which the task transmission order is recorded to all mobile terminals.

In addition, in the step (a), if there is no coordinator, it is preferable to designate one mobile terminal of the mobile terminals as a coordinator at every beacon signal interval.

In addition, in step (b), the terminal activity is the sum of the lengths of tasks having the mobile terminal as the transmitting or receiving terminal for each mobile terminal, and the task activity is the terminal of the transmitting and receiving terminals of the task for each task. The sum of the activity values, and the minimum activity is characterized in that the smaller of the terminal activity value of the transmitting and receiving terminals of the task for each task.

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

1 is a diagram illustrating a mobile terminal and a coordinator in an ad hoc wireless network according to an embodiment of the present invention, and FIG. 2 is an activity based scheduling between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention. A flow chart showing the method.

1 and 2, first, the coordinator 140 periodically transmits a beacon signal to synchronize time of all mobile terminals 160 in the ad hoc wireless network 120, and sets ATIM to a predetermined time after the beacon signal. During the window period, all mobile terminals 160 are activated and the mobile terminal 160 wishing to send the task transmits an ATIM message that records the length of the task to transmit.

On the other hand, if there is no coordinator 140 in the ad hoc wireless network 120, one mobile terminal of the mobile terminal 160 is temporarily designated as the coordinator 140 at every beacon signal interval (step S110).

Then, the coordinator 140 receives all ATIM messages in the ad hoc wireless network 120, and the mobile terminal 160 that receives the ATIM message does not send an ACK to the mobile terminal 160 that transmitted the ATIM message. In this case, the coordinator 140 removes the ATIM message, and the mobile terminal 160 transmitting the ATIM message retransmits the ATIM message (step S120).

When the ATIM message and the ACK exchange are completed in step S120, the coordinator 140 calculates terminal activity for each mobile terminal 160, task activity and minimum activity for each task (step S130).

The terminal activity is the sum of the lengths of tasks for each mobile terminal that have that mobile terminal as the sending or receiving terminal.

는 아래 수학식 1과 같이 표현될 수 있다.That is, terminal activity of mobile terminal k

May be expressed as Equation 1 below.

는 i번째 태스크의 길이,

는 i 번째 태스크의 송신 단말기,

는 i 번째 태스크의 수신 단말기이다.)(Where u (x) is a function of 1 when x is true, M is the number of all tasks,

Is the length of the i th task,

Is the sending terminal of the i th task,

Is the receiving terminal of the i th task.)

In addition, the task activity is the sum of the terminal activity values of the transmitting terminal and the receiving terminal of the task for each task.

는 아래 수학식 2와 같이 표현될 수 있다.That is, the task activity of the i th task

May be expressed as Equation 2 below.

는 i 번째 태스크의 송신 단말기의 단말기 활성도,

는 i 번째 태스크의 수신 단말기의 단말기 활성도이다.)(here,

Is the terminal activity of the transmitting terminal of the i th task,

Is the terminal activity of the receiving terminal of the i th task.)

In addition, the minimum activity is the smaller of the terminal activity values of the transmitting terminal and the receiving terminal of the task for each task.

는 아래 수학식 3과 같이 표현될 수 있다.That is, the minimum activity of the i th task

May be expressed as Equation 3 below.

는 i 번째 태스크의 송신 단말기의 단말기 활성도,

는 i 번째 태스크의 수신 단말기의 단말기 활성도이다.)(Where min (x, y) is a function that finds the minimum of x and y,

Is the terminal activity of the transmitting terminal of the i th task,

Is the terminal activity of the receiving terminal of the i th task.)

Then, the coordinator 140 preferentially selects a task having the smallest value of the minimum activity (step S140).

If there are two or more tasks selected in step S140, the task having the lowest task activity value is selected among the tasks selected in step S140 (steps S142 and S144).

If there are two or more tasks selected in step S144, one task is arbitrarily selected from the tasks selected in step S144 (steps S146 and S148).

Then, the coordinator 140 excludes the task finally selected through the steps S140 to S148 (step S150), and performs steps for the remaining tasks except the selected task until the transmission order of all the tasks is determined. Steps S130 to S150 are repeated (step S160).

The steps S130 to S160 are coded in a specific programming language as follows.

Then, the coordinator 140 determines the task transmission order in the order of tasks excluded in step S150, and broadcasts the scheduling control packet in which the task transmission order is recorded to all mobile terminals 160 immediately after the ATIM window period ends. Casting (step S170).

After step S170, when all mobile terminals 160 in the ad hoc wireless network 120 receives the scheduling control packet from the coordinator 140, the mobile terminals 160 in the task transmission order recorded in the scheduling control packet. Send a task.

3 is an exemplary operation diagram of an activity-based scheduling method between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention.

Hereinafter, an operation process of determining a task transmission order according to the steps S130 to S160 will be described with reference to FIG. 3.

Task a is a task transmitted from mobile terminal A to mobile terminal B when its length is 3, task b is a task transmitted from mobile terminal B to mobile terminal C when its task length is 4 c is a task transmitted from the mobile terminal B to the mobile terminal C, the length of the task is 2.

First, when the terminal activity, task activity and minimum activity are obtained according to step S130, the terminal activity of mobile terminal A becomes 3 + 4 = 7, and the terminal activity of mobile terminal B becomes 3 + 4 + 2 = 9. The terminal activity of C is two.

The task activity of task a is 7 + 9 = 16 and the minimum activity is 7. The task activity of task b is 9 + 7 = 16 and the minimum activity is 7. The task activity of task c is 9 + 2 = 11 and the minimum activity is 2.

Next, according to step S140, task c, which is the task having the smallest minimum activity, is selected.

Then, excluding the task c, and repeating step S130 again, the terminal activity of the mobile terminal A is 3 + 4 = 7, the terminal activity of the mobile terminal B is 3 + 4 = 7, and the mobile terminal C The terminal activity is zero.

The task activity of task a is 7 + 7 = 14 and the minimum activity is 7. The task activity of task b is 7 + 7 = 14 and the minimum activity is 7.

Next, a task having the smallest minimum activity is selected according to step S140. Since the minimum activities of tasks a and b are equal to 7, the task having the smallest task activity is selected according to step S144.

However, since the task activities of tasks a and b are also the same as 14, an arbitrary task is selected from among tasks a and b according to step S148.

If task a is arbitrarily selected, the order of transmission of all tasks is determined in order of task c, task a, and task b.

Then, in step S170, the coordinator CN broadcasts the scheduling control packet in which the task transmission order is recorded to all mobile terminals A, B, and C.

4 to 7 are diagrams illustrating energy efficiency of an activity-based scheduling method between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention.

In the graphs of FIGS. 4 to 7, the horizontal axis represents the number of interconnectable terminals, and the vertical axis represents energy consumption per byte.

When measuring energy consumption, all mobile terminals were considered to be interconnected, and the length of a task to be transmitted by the mobile terminals was randomly assigned, and the receiving terminal was also randomly designated.

Referring to FIG. 4, an activity based scheduling method (Q ^wa ) between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention and a strategy saving standard of the existing 802.11 standard are used. You can compare the energy consumption per byte.

Referring to FIG. 4, an activity-based scheduling method (Q ^wa ) between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention has 50 tasks compared to the strategy saving standard of the existing 802.11 standard. It can be seen that it consumes 28.3% on average and 23.8% on 150 tasks.

Referring to FIG. 5, energy consumption per byte when an activity-based scheduling method (Q ^wa ) and an FIFO scheduling (FIFO) between mobile terminals are used in an ad hoc wireless network according to an embodiment of the present invention. It can be compared.

Referring to FIG. 5, an activity-based scheduling method (Q ^wa ) between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention is 68.8% and 150 cases when there are 50 tasks compared to the conventional FIFO scheme. It can be seen that it consumes 66% energy.

FIG. 6 illustrates an activity-based scheduling method (Q ^wa ) between mobile terminals and an existing task length (Q ^t ) in an ad hoc wireless network according to an embodiment of the present invention when there are 150 tasks. FIG. 7 is a graph comparing energy consumption, and FIG. 7 is based on an activity based scheduling method (Q ^wa ) and an existing task size between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention when there are 50 tasks. It is a graph comparing each energy consumption of the scheduling method (Q ^t ).

6 and 7, a method Q ^t of scheduling based on an existing task length is applied to an activity-based scheduling method Q ^wa between mobile terminals in an ad hoc wireless network according to an embodiment of the present invention. Compared to 150 tasks, 42.7% and 50 tasks consume 31% more energy.

As described above, according to the present invention, by reducing the energy consumption of the mobile terminals from the viewpoint of the entire wireless network, data communication can be extended while maintaining the operating time of the ad hoc wireless network in which the mobile terminals are end users and service providers. By increasing the yield of the present invention, it is possible to provide an activity-based scheduling method between mobile terminals in an ad hoc wireless network in which users can receive a larger amount of services.

In addition, the activity-based scheduling method between mobile terminals in the ad hoc wireless network according to the present invention has an effect well suited to the ad hoc wireless network with a coordinator.

Claims (5)

(a) The coordinator periodically sends a beacon signal to synchronize the time of all mobile terminals in the ad hoc network, activates all mobile terminals and transmits tasks during the ATIM window period set to a certain time after the beacon signal. Causing the mobile terminal to transmit an ATIM message recording the length of the task to be transmitted and receiving all ATIM messages in the ad hoc wireless network; (b) the coordinator calculating terminal activity for each mobile terminal, task activity and minimum activity for each task; (c) The coordinator preferentially selects a task having the smallest value of the minimum activity, and if there are two or more tasks having the smallest value of the minimum activity, the coordinator selects a task having the smallest value of the task activity. step; (d) The coordinator determines the task transmission order in the order of the selected tasks, and for the remaining tasks except for the task selected in the step (c) until the transmission order of all tasks is determined, the (b) and ( c) repeating the step; And (e) a coordinator broadcasting the scheduling control packet in which the task transmission order is recorded to all mobile terminals. According to claim 1, wherein the step (a), In the absence of a coordinator, the activity-based scheduling method between mobile terminals in an ad hoc wireless network, characterized in that for each beacon signal interval, one of the mobile terminal is designated as the coordinator. According to claim 1, wherein the step (a), (a1) The coordinator periodically sends a beacon signal to synchronize the times of all mobile terminals in the ad hoc network, activates all mobile terminals and transmits tasks during the ATIM window period set to a certain time after the beacon signal. Causing the mobile terminal to transmit an ATIM message recording the length of the task to transmit; And (a2) If the coordinator receives all ATIM messages in the ad hoc wireless network and the mobile terminal that receives the ATIM message does not send an ACK to the mobile terminal that sent the ATIM message, the coordinator removes the ATIM message, and The mobile terminal transmitting the ATIM message retransmits the ATIM message. According to claim 1, wherein step (b), The terminal activity is the sum of the lengths of tasks having the mobile terminal as the sending or receiving terminal for each mobile terminal, the task activity is the sum of the terminal activity values of the transmitting and receiving terminals of the task for each task, and the minimum activity is The activity-based scheduling method between mobile terminals in an ad hoc wireless network, characterized in that the smaller of the terminal activity value of the transmitting and receiving terminals of the task for each task. The method of claim 1, wherein step (c) comprises: And 2 or more tasks having the smallest value of the task activity, and randomly selecting one task from among them.

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