JPH11249975A - Method and system for adaptive access control, control center device, reception terminal equipment, and storage medium stored with adaptive access control program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide method and system for adaptive access control, a control center device, a reception terminal equipment, and a storage medium stored with an adaptive access control program which level the load applied to a center device by controlling repeated accesses of many terminal equipments. SOLUTION: When the center device side detects an access from a terminal equipment (S1), the wait time is calculated, based on the number of reservations at the current time (S2) and is reported to the terminal equipment (S3), and the number of reservation is incremented (S4), and the value of the number of reservations is decremented with 0 as the lower limit at each time when a prescribed unit processing time elapses (S5), and the terminal equipment accesses the center device again when the wait time reported from the center device side elapses.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an adaptive access control method and system, a control center device, a receiving terminal device, and a storage medium storing an adaptive access control program. The present invention relates to an adaptive access control method and system for adaptively flattening access traffic when accessing and acquiring the latest information, a control center device and a receiving terminal device, and a storage medium storing an adaptive access control program. .

[0002]

2. Description of the Related Art In a conventional system, a terminal device accesses a center device at predetermined intervals to obtain the latest information.

[0003]

In the conventional system,
Since repeated access from the terminal device to the center device is performed at a constant interval, the traffic pattern at the time when many terminal devices access the center device for the first time is periodically repeated. At some point, very crowded,
At some point, it becomes vacant, and the load on the center device and the network becomes uneven. Therefore, when a load peak hits when performing another process, the execution of the process is hindered, and there is a problem that the system cannot be stably operated.

[0004] In particular, in an event held in a medium such as a television, the start time of repetitive access of a terminal device becomes almost the same time, and this problem is serious. The present invention has been made in view of the above points, and has an adaptive access control method and system capable of controlling repetitive access of a large number of terminal devices and equalizing the load on a center device, and a control center device. And a storage medium storing the receiving terminal device and the adaptive access control program.

[0005]

FIG. 1 is a diagram for explaining a first principle of the present invention. The present invention (Claim 1)
In an adaptive access control method for adaptively flattening access traffic in a system that repeatedly accesses the center device side from the terminal device side and obtains the latest information, the center device side controls access from the terminal device. Upon detection (step 1), a standby time is calculated based on the current number of reservations (step 2), the terminal device is notified (step 3), and the reservation number is incremented (step 4). Each time the unit processing time elapses, the value of the number of reservations is decremented with 0 as the lower limit (step 5), and the terminal device accesses the center device again after the elapse of the standby time notified from the center device (step 5). 6).

According to the present invention (claim 2), when calculating the standby time, the number of reservations, the preset basic access interval and the unit processing time are used, and the standby time = basic access interval + unit processing time × reservation. Calculate by number. According to the present invention (claim 3), when the number of accesses during the basic access interval is larger than the basic access interval / unit processing time, the processing limit required for processing one call of the center device is set as a lower limit. , The value of the unit processing time is reduced, and if it is smaller, the value of the unit processing time is increased.

According to the present invention (claim 4), when the value of the number of reservations reaches a preset upper limit, if the access is the first access from a new terminal device, the terminal device will Prohibit repeated access to. FIG. 2 is a diagram for explaining the second principle of the present invention. The present invention (claim 5) provides an adaptive access control method for adaptively flattening access traffic in a system for repeatedly accessing the center device side from a terminal device side and acquiring the latest information. , When the access from the terminal device is detected (step 10), the number of reservations at present is incremented (step 11), and the value of the number of reservations is decremented with 0 as a lower limit every time a predetermined unit processing time elapses. (Step 12), the number of reservations is notified to the terminal device (Step 13), and the terminal device calculates a standby time until re-accessing the center device again according to the value of the number of reservations notified from the center device side. Then, when the standby time has come, the center device is accessed again (step 15).

According to the present invention (claim 6), when calculating the standby time in the terminal device, the standby time = the basic access interval + the unit processing time, using the number of reservations, the preset basic access interval and the unit processing time. Calculated by time x number of reservations. According to the present invention (claim 7), when the number of accesses during the basic access interval is larger than the basic access interval / unit processing time, the processing limit required for processing one call of the center device is set to a lower limit. The value of the unit processing time is reduced, and if smaller, the value of the unit processing time is increased.

FIG. 3 is a diagram showing the first principle of the present invention. The present invention (claim 8) provides a terminal device 200 that repeatedly accesses the center device 100 to obtain the latest information.
And an adaptive access control system comprising a center device for adaptively flattening access traffic from the terminal device 200, wherein the center device 100 includes a reservation number storage unit 110 for storing a value of a variable reservation number. , Terminal device 20
Access detection means 140 for detecting access from 0
Incrementing means 150 for incrementing the value of the number of reservations when the access is detected by the access detecting means 140, and waiting time calculating means for calculating the waiting time based on the value of the number of reservations in the current number of reservations storing means 110 160 and a standby time notifying unit 17 for notifying the terminal device 200 of the standby time calculated by the standby time calculating unit 160
0, and a decrementing means 1 for decrementing the value of the number of reservations with 0 as a lower limit every time a predetermined unit processing time elapses.
30. The terminal device 200 includes an access unit 210 for accessing the center device 100 side, and the center device 10
Standby time receiving means 220 for receiving the standby time from the 0 side
And a re-access activation unit 230 that waits for the standby time acquired by the standby time receiving unit 220 and activates the access unit 210 again.

According to the present invention (claim 9), the standby time calculating means 160 uses the number of reservations, a preset basic access interval, and a unit processing time to obtain: standby time = basic access interval + unit processing time × number of reservations It is calculated by: According to the present invention (claim 10), in the center device 100, when the number of accesses during the basic access interval is larger than the basic access interval / unit processing time, it is necessary to process one call of the center device. There is further provided a unit time adjusting means for reducing the value of the unit processing time with the processing limit as a lower limit, and increasing the value of the unit processing time when the value is small.

According to the present invention (claim 11), the center device 10
0, when the value of the number of reservations reaches a preset upper limit, if the access is the first access from a new terminal device, an access restriction for prohibiting repeated access to the terminal device 200 Further comprising means.
FIG. 4 is a second principle configuration diagram of the present invention.

According to the present invention (claim 12), the center device 10
An adaptive access control system including a terminal device 200 that repeatedly accesses the 0 side to obtain the latest information, and a center device 100 that adaptively flattens access traffic from the terminal device 200.
Is a reserved number storage means 110 for storing the value of the reserved number of variables.
An access detecting means 140 for detecting an access from the terminal device 200; an incrementing means 150 for incrementing the value of the number of reservations when the access detecting means 140 detects an access; In addition, the terminal device 200 includes a decrement unit 130 for decrementing the value of the reservation number with the lower limit being 0 and a reservation number notification unit 190 for notifying the terminal device 200 of the reservation number. Means 210, a reservation number receiving means 250 for receiving the reservation number from the center apparatus 100, and a reservation number receiving means 25
A standby time calculating unit 260 that calculates a standby time until accessing the center device 100 again according to the magnitude of the number of reservations obtained by 0, and a re-access activation that starts the access unit 210 when the standby time has elapsed. Means 23
0.

In the present invention (claim 13), the standby time calculating means 260 uses the number of reservations, the preset basic access interval and the unit processing time, and calculates the following: standby time = basic access interval + unit processing time × number of reservations It is calculated by: The present invention (claim 14) provides the center device 100 that, when the value of the number of reservations reaches a preset upper limit, when the access is the first access from a new terminal device 200, The terminal device further includes access restriction means for prohibiting repeated access to the terminal device.

The present invention (claim 15) provides a terminal device for repeatedly accessing the center device to obtain the latest information,
What is claimed is: 1. A control center device in an adaptive access control system comprising a center device for adaptively flattening access traffic from said terminal device, comprising: a reservation number storage means for storing a value of a variable reservation number; Access detecting means for detecting the access, incrementing means for incrementing the value of the number of reservations when the access detecting means detects the access, and calculating the standby time based on the value of the number of reservations in the current number of reservations storing means A standby time calculating unit, a standby time notifying unit for notifying the terminal device of the standby time calculated by the standby time calculating unit, and each time a predetermined unit processing time elapses, the value of the reservation number is decremented with 0 as a lower limit. And decrement means.

According to the present invention (claim 16), the standby time calculating means uses the number of reservations, a preset basic access interval and a unit processing time, and calculates standby time = basic access interval + unit processing time × number of reservations. calculate. According to the present invention (claim 17), when the number of accesses during the basic access interval is larger than the basic access interval / unit processing time, the processing limit required to process one call of the center device is set as a lower limit. And a unit time adjusting means for decreasing the value of the unit processing time, and when the value is small, increasing the value of the unit processing time.

According to the present invention (claim 18), the value of the number of reservations is
If the access is the first access from a new terminal device when the preset upper limit is reached,
The terminal device further includes access restriction means for prohibiting repeated access to the terminal device. The present invention (Claim 19) provides an adaptive access control system including a terminal device that repeatedly accesses the center device side to obtain the latest information and a center device that adaptively flattens access traffic from the terminal device. A control center device, a reservation number storage means for storing a value of a variable reservation number, an access detection means for detecting access from a terminal device, and a value of the reservation number when the access detection means detects an access. , A decrementing unit that decrements the value of the number of reservations with a lower limit of 0 every time a predetermined unit processing time elapses, and a number-of-reservation notification unit that notifies the terminal device of the number of reservations.

According to the present invention (claim 20), the value of the number of reservations is
If the access is the first access from a new terminal device when the preset upper limit is reached,
The terminal device further includes access restriction means for prohibiting repeated access to the terminal device. The present invention (Claim 21) provides an adaptive access control system including a terminal device that repeatedly accesses the center device to obtain the latest information and a center device that adaptively flattens access traffic from the terminal device. A receiving terminal device, an access unit that accesses the center device side, a standby time receiving unit that receives a standby time from the center device side, a standby time acquired by the standby time receiving unit, and the access unit again. Re-access activation means for activation.

The present invention (claim 22) provides a terminal device for repeatedly accessing the center device to obtain the latest information,
A receiving terminal device in an adaptive access control system comprising a center device for adaptively flattening access traffic from the terminal device, comprising: an access unit for accessing the center device; and a reservation number from the center device. Means for receiving the number of reservations to be made, waiting time calculating means for calculating a waiting time until the center device is accessed again according to the size of the number of reservations obtained by the means for receiving the number of reservations, and Re-access activation means for activating the means.

According to the present invention (claim 23), the standby time calculating means uses the number of reservations, a preset basic access interval and a unit processing time, and calculates standby time = basic access interval + unit processing time × number of reservations. calculate. The present invention (claim 24) provides an adaptive access control system including a terminal device that repeatedly accesses the center device side to obtain the latest information and a center device that adaptively flattens access traffic from the terminal device. A storage medium storing an adaptive access control program mounted on a control center device, comprising: an access detection process for detecting access from a terminal device; and a value of the number of reservations when an access is detected in the access detection process. An increment process for incrementing, a standby time calculation process for calculating a standby time based on the value of the reservation number of the current reservation number storage process,
It has a standby time notification process for notifying the terminal device of the standby time calculated in the standby time calculation process, and a decrement process for decrementing the value of the number of reservations to 0 as a lower limit every time a predetermined unit processing time elapses.

According to the present invention (claim 25), in the standby time calculation process, the standby time = basic access interval + unit processing time × the number of reservations using the number of reservations and a preset basic access interval and unit processing time. calculate. According to the present invention (claim 26), when the number of accesses during the basic access interval is larger than the basic access interval / unit processing time, the processing limit required for processing one call of the center device is set as a lower limit. In addition, the method further includes a unit time adjusting process for reducing the value of the unit processing time, and when the value is small, increasing the value of the unit processing time.

According to the present invention (claim 27), the value of the number of reservations is
If the access is the first access from a new terminal device when the preset upper limit is reached,
An access restriction process for prohibiting repeated access to the terminal device is further provided. The present invention (claim 28) provides an adaptive access control system comprising a terminal device that repeatedly accesses the center device side to obtain the latest information and a center device that adaptively flattens access traffic from the terminal device. A storage medium storing an adaptive access control program mounted on a control center device, comprising: an access detection process for detecting access from a terminal device; and a value of the number of reservations when an access is detected in the access detection process. It has an increment process for incrementing, a decrement process for decrementing the value of the number of reservations with a lower limit of 0 every time a predetermined unit processing time elapses, and a reservation number notification process for notifying the terminal device of the number of reservations.

According to the present invention (claim 29), the value of the number of reservations is
If the access is the first access from a new terminal device when the preset upper limit is reached,
An access restriction process for prohibiting repeated access to the terminal device is further provided. The present invention (claim 30) provides an adaptive access control system comprising a terminal device that repeatedly accesses the center device to obtain the latest information, and a center device that adaptively flattens access traffic from the terminal device. A storage medium storing an adaptive access control program mounted on a receiving terminal device, comprising: an access process for accessing a center device; a standby time receiving process for receiving a standby time from the center device; and a standby time receiving process. And a re-access activation process that waits for the standby time acquired by the process and activates the access process again.

According to the present invention (claim 31), a terminal device for repeatedly accessing the center device to obtain the latest information,
A storage medium storing an adaptive access control program mounted on a receiving terminal device in an adaptive access control system comprising a center device for adaptively flattening access traffic from the terminal device, wherein the storage device has access to the center device side. The waiting time until the center device is accessed again is calculated according to the access process to be made, the reservation number receiving process for receiving the reservation number from the center device side, and the size of the reservation number acquired by the reservation number receiving process. It has a standby time calculation process and a re-access activation process that activates the access process when the standby time has elapsed.

According to the present invention (claim 32), in the standby time calculation process, the standby time = basic access interval + unit processing time × number of reservations by using the number of reservations and the preset basic access interval and unit processing time. calculate. In the above, according to the present invention, the center device has means for calculating the standby time, and the center device transmits only the value of the number of reservations to the terminal device, and the terminal device side according to the value of the reservation number It has two configuration patterns for calculating the standby time.

In any of the configurations, during the first access, the non-uniform access traffic is adaptively equalized after the second access, and is leveled without applying a specific load to the system. Traffic can be maintained. Further, when the number of accesses during the basic access interval is larger than (basic access interval / unit processing time), the value of the unit processing time is reduced with the processing limit for processing calls in the center device as a lower limit. Also, if the value is small, the value of the unit processing time is increased, so that the waiting time is maintained at the length of the basic access interval until the processing limit, and the access is evenly performed within the basic access interval. Will be placed in

[0026]

FIG. 5 shows the configuration of an adaptive access control system according to the present invention. The configuration shown in the figure is a configuration in which a center device 100 and a terminal device 200 are connected via a network 300. The center device 100
Reservation number storage unit 110, unit processing time elapse detection unit 120,
Reserved number decrement processing unit 130, access detection unit 14
0, the reservation number increment processing unit 150, the standby time calculation unit 160, the standby time notification unit 170, and the data transmission / reception unit 1.
80.

The unit time elapse detecting section 120 issues an instruction to the reservation number decrement processing section 130 every time the unit processing time elapses. Upon acquiring the instruction from the unit time elapse detection unit 120, the reservation number decrement processing unit 130 decrements the value of the reservation number managed in the reservation number storage unit 110 with 0 as the lower limit.

The access detection unit 140
When an access from the server is detected, an instruction is issued to the standby time calculation unit 160 to calculate the length of the standby time based on the current number of reservations, and then the reservation number increment processing unit 15
Give instructions to 0. Reserved number increment processing unit 150
When the instruction is acquired from the access detection unit 140, the value of the reservation number managed in the reservation number storage unit 110 is incremented.

The standby time calculating section 160 calculates a standby time by the following formula: standby time = basic access interval + unit processing time × number of reservations, based on the value of the number of reservations at the present time, and the preset basic access interval and unit processing time. . The calculated standby time value is notified to the terminal device 200 before the access is cut off by the standby time notification unit 170.

The data transmission / reception unit 180 is connected to the network 3
The general data other than the standby time exchanged with the terminal device 200 via the “00” is transmitted or received. The terminal device 200 includes an access processing unit 210, a standby time receiving unit 220, a designated time standby processing unit 230, and a data transmitting / receiving unit 240. When receiving the standby time from the standby time notification unit 170 of the center apparatus 100, the standby time receiving unit 220 passes the value to the specified time standby processing unit 230.

After receiving the standby time, the designated time standby processing section 230 waits for the value of the standby time, and then instructs the access processing section 210 to access the center device 100 again. The data transmission / reception unit 240 receives or transmits general data other than the standby time exchanged between the center device 100 and the terminal device 200.

FIG. 6 is a sequence chart for explaining the processing between the center device and the terminal device according to the present invention. Step 101) Terminal device 200 and center device 100
When the data is transmitted and received between the data transmission / reception units 180 of the center device 100, the access detection unit 140
Notify. The reception processing is performed by the access detection unit 1
After the 40 detects the access, in parallel with the process of notifying the terminal of the standby time performed by the standby time notification unit 170 (or
Before and after).

Step 102) Access detector 140
Instructs the standby time calculation unit 160 to calculate the standby time. In this way, the standby time calculation unit 160 calculates the standby time using the above-described formula, and notifies the standby time notification unit 170. Step 103) Upon acquiring the standby time obtained from the standby time calculation unit 160, the standby time notification unit 170 notifies the terminal device 200 of the standby time.

Step 104) The terminal device 200 waits for the notified standby time. Step 105) The terminal device 200 accesses the center device 100 again. The following processing is performed in step 102
This is the same as the subsequent processing.

[0035]

Embodiments of the present invention will be described below with reference to the drawings. 7 to 9 show processing between the center device and the terminal device according to the present invention.
The state of the second access will be described. Pattern 1 shown in FIG. 7 is a pattern in which one access is made every time the unit processing time elapses. In this case, the number of reservations (the value stored in the number-of-reservations storage unit 110) becomes 0 due to the arrival of each access.
To 1 at the time of the next access arrival due to the elapse of the unit processing time. This decrement is not decremented after the unit processing time elapses from the time when the access is detected, but is decremented every time the unit time of the absolute time elapses, regardless of the presence or absence of the access. Therefore, in the figure, the number of reservations is decremented every time the line crosses the cell of the unit processing time. As a result, for all three accesses, the number of reservations “0” is obtained, and the second access occurs after the elapse of the basic access interval time. As can be seen from the figure, one access is made to each cell.

Pattern 2 shown in FIG. 8 is a case where three accesses are concentrated on the unit processing time square.
In this case, the number of reservations acquired by each access is 0, 1,
2, which means that the second access is performed with a shift by the length of the unit processing time. Again, as can be seen from the figure, one access is made to each cell. Pattern 3 shown in FIG. 9 indicates that when there is an access in the basic access interval that is larger than the basic access interval / unit processing time,
It shows how the number of reservations constantly changes.

First, as can be seen from the figure, the second and subsequent accesses fall within the square of each unit processing time. Then, the actions of the increment and the decrement antagonize, and the value of the number of reservations acquired by each access is always constant. Thereafter, as long as another new access does not enter, the value of the number of reservations is kept constant, and the calculated standby time is also kept constant. Then, immediately after the access from all the terminal devices makes a round, the next re-access starts. Further, even if another new access enters, the access traffic is finally equalized by the same operation.

In the above embodiment, the process of calculating the standby time from the number of reservations is performed on the center device 100 side. However, the number of reservations is notified to the terminal device 200 side to calculate the standby time on the terminal device side. It is also possible. Further, when the number of accesses during the basic access interval is larger than the basic access interval / unit processing time, the value of the unit processing time is reduced with the processing limit required for processing one call of the center apparatus 100 as a lower limit. If the value of the unit processing time is increased when the value is smaller than the basic access interval / unit processing time, the standby time is maintained at the length of the basic access interval until the processing limit, and each access is performed. They are arranged evenly within the basic access interval. When the access density increases and the access cannot be packed within the basic access interval, the waiting time is extended only for the first time, and if you want to operate a system that gives priority to maintaining the access interval as much as possible. Is valid.

Further, when the reserved value reaches a predetermined upper limit, if a new terminal device accesses the terminal device for the first time, the terminal device is prevented from repeatedly accessing the terminal device. Entrance restrictions allow a smooth system operation to be maintained, and are effective when such a system operation is desired. In the above embodiment, the description has been given based on the components of the center device 100 and the terminal device 200. However, the present invention is not limited to this example.
00 is constructed as a program, and disk devices in the center device 100 and the terminal device 200,
The present invention can be easily realized by storing it in a portable storage medium such as a floppy disk, a CD-ROM, or the like, and installing it when implementing the present invention.

It should be noted that the present invention is not limited to the above-described embodiment, but can be variously modified and applied within the scope of the claims.

[0041]

As described above, according to the present invention, in the first access, non-uniform access traffic is adaptively equalized in the second and subsequent accesses. This is effective for stable operation. Since the operation of incrementing and decrementing the number of reservations is a very simple process, the trouble of managing the number of reservations is very light.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining a first principle of the present invention.

FIG. 2 is a diagram for explaining a second principle of the present invention.

FIG. 3 is a first principle configuration diagram of the present invention.

FIG. 4 is a second principle configuration diagram of the present invention.

FIG. 5 is a configuration diagram of an adaptive access control system of the present invention.

FIG. 6 is a sequence chart for explaining processing between the center device and the terminal device according to the present invention.

FIG. 7 shows a process (pattern 1) between the center device and the terminal device according to the embodiment of the present invention.

FIG. 8 shows a process (pattern 2) between the center device and the terminal device according to the embodiment of the present invention.

FIG. 9 shows a process (pattern 3) between the center device and the terminal device according to the embodiment of the present invention.

[Description of Signs] 100 center device 110 reservation number storage means, reservation number storage section 120 unit processing time elapse detection section 130 decrement means, reservation number decrement section 140 access detection means, access detection section 150 increment means, reservation number increment section 160 Standby time calculation means, standby time calculation section 170 standby time notification means, standby time notification section 180 data transmission / reception section 190 reservation number notification means 200 terminal device 210 access means, access processing section 220 standby time reception means, standby time reception section 230 Access start means, designated time standby processing section 240 data transmission / reception section 250 reservation number reception means 260 standby time calculation means

Continuation of the front page (72) Inventor Goichi Maruyama Nippon Telegraph and Telephone Corporation, 3-19-2 Nishishinjuku, Shinjuku-ku, Tokyo

Claims (32)

[Claims] An adaptive access control method for adaptively flattening access traffic in a system that repeatedly accesses a center device from a terminal device side and obtains the latest information, comprising: When an access from the device is detected, a standby time is calculated based on the number of reservations at the present time, and the standby time is notified to the terminal device, and the reservation number is incremented. An adaptive access control method, wherein the value of the number is decremented with 0 as a lower limit, and the terminal device accesses the center device again after the elapse of the standby time notified from the center device side. 2. The standby time is calculated by using the number of reservations, a preset basic access interval and a unit processing time, and using the following formula: standby time = basic access interval + unit processing time × number of reservations. 2. The adaptive access control method according to claim 1. 3. When the number of accesses during the basic access interval is larger than basic access interval / unit processing time, the processing limit required to process one call of the center device is set as a lower limit. 2. The adaptive access control method according to claim 1, wherein the value of the unit processing time is decreased, and if the value is small, the value of the unit processing time is increased. 4. When the value of the number of reservations reaches a preset upper limit, if the access is the first access from a new terminal device, repeated access to the terminal device is prohibited. The adaptive access control method according to claim 1. 5. An adaptive access control method for adaptively flattening access traffic in a system that repeatedly accesses a center device from a terminal device side and obtains the latest information, wherein: Upon detecting an access from the terminal device, the present reservation number is incremented, and every time a predetermined unit processing time elapses, the value of the reservation number is decremented with 0 as a lower limit, and the reservation number is notified to the terminal device. The terminal device calculates a standby time until re-accessing the center device again according to the value of the reservation number notified from the center device side; An adaptive access control method comprising accessing a device. 6. The terminal device calculates the standby time by using a preset basic access interval, a unit processing time, and the number of reservations; standby time = basic access interval + unit processing time × reservation. The adaptive access control method according to claim 5, wherein the adaptive access control method is calculated by the following equation. 7. When the number of accesses during the basic access interval is larger than the basic access interval / unit processing time, the processing limit required to process one call of the center device is set as a lower limit. 6. The adaptive access control method according to claim 5, wherein the value of the unit processing time is decreased, and when the value is small, the value of the unit processing time is increased. 8. An adaptive access control system comprising a terminal device that repeatedly accesses a center device side to obtain the latest information and a center device that adaptively flattens access traffic from the terminal device, A center device, a reservation number storage unit that stores a value of a variable reservation number, an access detection unit that detects an access from the terminal device, and a value of the reservation number when the access detection unit detects an access. To the terminal device; a standby time calculating unit that calculates a standby time based on the value of the number of reservations in the current reservation number storage unit; and a standby time calculated by the standby time calculating unit. A standby time notifying means for notifying, and each time a predetermined unit processing time elapses, the value of the reservation number is decremented with 0 as a lower limit. The terminal device includes an access unit that accesses the center device side, a standby time receiving unit that receives the standby time from the center device side, and a terminal device that is acquired by the standby time receiving unit. An adaptive access control system comprising: a re-access activation unit that waits for the standby time and activates the access unit again. 9. The standby time calculating means calculates standby time = basic access interval + unit processing time × number of reservations using the number of reservations, a preset basic access interval, and a unit processing time. Adaptive access control system. 10. The processing limit required for processing one call of the center device when the number of accesses during the basic access interval is larger than the basic access interval / unit processing time. 9. The adaptive access control system according to claim 8, further comprising a unit time adjusting means for reducing the value of the unit processing time, and when the value is small, increasing the value of the unit processing time. 11. The center device, when the value of the number of reservations reaches a preset upper limit, if the access is the first access from a new terminal device, 9. The adaptive access control system according to claim 8, further comprising access restriction means for prohibiting repeated access. 12. An adaptive access control system comprising a terminal device for repeatedly accessing the center device side to obtain the latest information and a center device for adaptively flattening access traffic from the terminal device, A center device, a reservation number storage unit that stores a value of a variable reservation number, an access detection unit that detects an access from the terminal device, and a value of the reservation number when the access detection unit detects an access. An incrementing unit that increments the number of reservations, a decrementing unit that decrements the value of the number of reservations with 0 as a lower limit every time a predetermined unit processing time elapses, and a number-of-reservation notification unit that notifies the terminal device of the number of reservations. The terminal device comprises: an access unit for accessing the center device side; and the access device from the center device side. A number-of-reservations receiving means for receiving the number of reservations; a waiting-time calculating means for calculating a waiting time until accessing the center device again according to the magnitude of the number of reservations acquired by the number-of-reservations receiving means; Re-access activation means for activating the access means when time has elapsed. 13. The standby time calculating means calculates standby time = basic access interval + unit processing time × number of reservations using preset values of a basic access interval, a unit processing time, and the number of reservations. 13. The adaptive access control system according to claim 12. 14. When the value of the number of reservations reaches a preset upper limit, if the access is the first access from a new terminal device, the center device transmits 13. The adaptive access control system according to claim 12, further comprising access restriction means for prohibiting repetitive access. 15. A control center device in an adaptive access control system comprising a terminal device for repeatedly accessing the center device to obtain the latest information and a center device for adaptively flattening access traffic from the terminal device. A reservation number storage unit that stores a value of a variable reservation number; an access detection unit that detects access from the terminal device; and an access detection unit that, when the access detection unit detects an access, stores the value of the reservation number. Incrementing means for incrementing, waiting time calculating means for calculating a waiting time based on the value of the number of reservations in the current reservation number storing means, and notifying the terminal device of the waiting time calculated by the waiting time calculating means. A waiting time notifying means, which decrements the value of the number of reservations to 0 as a lower limit every time a predetermined unit processing time elapses. And a decrementing means for decrementing. 16. The standby time calculating means calculates standby time = basic access interval + unit processing time × number of reservations by using the number of reservations, a preset basic access interval, and a unit processing time. Control center equipment. 17. If the number of accesses during the basic access interval is larger than basic access interval / unit processing time, the processing limit required to process one call of the center is set as a lower limit. 16. The system according to claim 15, further comprising a unit time adjusting means for reducing the value of the processing time, and when the processing time is small, increasing the value of the unit processing time.
The control center device according to the above. 18. When the value of the number of reservations reaches a preset upper limit, if the access is the first access from a new terminal device, repeated access to the terminal device is prohibited. The control center device according to claim 15, further comprising an access restriction unit. 19. A control center device in an adaptive access control system comprising a terminal device for repeatedly accessing the center device to obtain the latest information and a center device for adaptively flattening access traffic from the terminal device. A reservation number storage unit that stores a value of a variable reservation number; an access detection unit that detects access from the terminal device; and an access detection unit that, when the access detection unit detects an access, stores the value of the reservation number. Increment means for incrementing, decrementing means for decrementing the value of the number of reservations to 0 as a lower limit every time a predetermined unit processing time elapses, and reservation number notifying means for notifying the terminal device of the number of reservations A control center device characterized by the above-mentioned. 20. When the value of the number of reservations reaches a preset upper limit, if the access is the first access from a new terminal device, repeated access to the terminal device is prohibited. 20. The control center device according to claim 19, further comprising an access restriction unit. 21. A receiving terminal device in an adaptive access control system comprising a terminal device for repeatedly accessing the center device side to obtain the latest information and a center device for adaptively flattening access traffic from the terminal device. Access means for accessing the center apparatus side; standby time receiving means for receiving the standby time from the center apparatus side; and waiting for the standby time acquired by the standby time receiving means; And a re-access activating means for activating the means. 22. A receiving terminal device in an adaptive access control system comprising a terminal device for repeatedly accessing the center device to obtain the latest information and a center device for adaptively flattening access traffic from the terminal device. An access unit that accesses the center device side; a reservation number reception unit that receives the reservation number from the center device side; and a size of the reservation number acquired by the reservation number reception unit, A receiving terminal device, comprising: a standby time calculating unit that calculates a standby time until accessing the center device again; and a re-access activation unit that activates the access unit when the standby time has elapsed. 23. The standby time calculating means calculates standby time = basic access interval + unit processing time × number of reservations using the number of reservations and a preset basic access interval and unit processing time. Receiving terminal device. 24. A control center device in an adaptive access control system comprising a terminal device for repeatedly accessing the center device to obtain the latest information and a center device for adaptively flattening access traffic from the terminal device. A storage medium storing an adaptive access control program to be mounted, wherein an access detection process for detecting access from the terminal device, and when an access is detected in the access detection process, the value of the reservation number is incremented. An incrementing process, a waiting time calculating process for calculating a waiting time based on the value of the number of reservations in the current number of reservations storing process, and notifying the terminal device of the waiting time calculated in the waiting time calculating process. Waiting time notification process and when a predetermined unit processing time elapses For each, a storage medium storing an adaptive access control program and having a decrement process of decrementing the value of the reservation number 0 as the lower limit. 25. The standby time calculation process calculates standby time = basic access interval + unit processing time × number of reservations using preset values of a basic access interval, a unit processing time, and the number of reservations. 25. A storage medium storing the adaptive access control program according to 24. 26. When the number of accesses during the basic access interval is larger than the basic access interval / unit processing time, the processing limit required for processing one call of the center apparatus is set as a lower limit. 24. The storage medium storing the adaptive access control program according to claim 23, further comprising a unit time adjusting process for reducing the value of the unit processing time, and when the value is small, increasing the value of the unit processing time. 27. When the value of the number of reservations reaches a preset upper limit, if the access is the first access from a new terminal device, repeated access to the terminal device is prohibited. The storage medium storing the adaptive access control program according to claim 25, further comprising an access restriction process. 28. A control center device in an adaptive access control system comprising a terminal device for repeatedly accessing the center device to obtain the latest information and a center device for adaptively flattening access traffic from the terminal device. A storage medium storing an adaptive access control program to be mounted, wherein an access detection process for detecting access from the terminal device, and when an access is detected in the access detection process, the value of the reservation number is incremented. A decrementing process for decrementing the value of the reservation number with the lower limit of 0 each time a predetermined unit processing time elapses, and a reservation number notification process of notifying the terminal device of the reservation number. Storing an adaptive access control program characterized by Storage medium. 29. When the value of the number of reservations reaches a preset upper limit, if the access is the first access from a new terminal device, repeated access to the terminal device is prohibited. The storage medium storing the adaptive access control program according to claim 28, further comprising an access restriction process. 30. A receiving terminal device in an adaptive access control system comprising a terminal device that repeatedly accesses a center device to obtain the latest information and a center device that adaptively flattens access traffic from the terminal device. A storage medium storing an adaptive access control program to be mounted, comprising: an access process for accessing the center device; a standby time receiving process for receiving the standby time from the center device; and a standby time reception. A re-access activation process that waits for the standby time acquired by a process and activates the access process again, the storage medium storing an adaptive access control program. 31. A receiving terminal device in an adaptive access control system comprising a terminal device that repeatedly accesses a center device to obtain the latest information and a center device that adaptively flattens access traffic from the terminal device. A storage medium storing an adaptive access control program mounted thereon, comprising: an access process for accessing the center device side; a reservation number reception process for receiving the reservation number from the center device side; and a reservation number reception process. A standby time calculation process for calculating a standby time until accessing the center device again according to the magnitude of the reservation number acquired by a process; and a re-access activation for activating the access process when the standby time has elapsed. And an adaptive access control program characterized by having a process. Storage medium. 32. The standby time calculation process calculates standby time = basic access interval + unit processing time × number of reservations using the number of reservations, a preset basic access interval, and a unit processing time. Storage medium storing the adaptive access control program according to the above.