JP2004062443A - Service management system and method, server management device, communication terminal, and server device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To search for a high-performance server device when providing services, while avoiding an increase in traffic. <P>SOLUTION: A service management system includes a plurality of server devices S1a, S1b, S2a, S2b which provide services of the same kinds; a communication terminal C1 which issues a server search request to request search for the corresponding server device among the plurality of server devices S1a, S1b, S2a, S2b; and server management devices N1-N4 each of which searches for the corresponding server device in response to the server search request. Each of the server management devices N1-N4 has a server device storage means 10 which accepts the registration of the nearby server device while measuring the performance of the server device and retaining measurements as performance information in relation to an identifier identifying the server device; and a service selection means 9 for selecting the server device in response to the search request and according to the performance information of the server device matching the search request. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a service management system, a service management method, a server management device, and a service management system for searching for a server device when receiving a service from a server device arranged on a computer network by a communication terminal such as a mobile phone, a desktop computer, or a PDA. The present invention relates to a communication terminal and a server device.
[0002]
[Prior art]
In recent years, a communication terminal such as a mobile phone or a personal computer accesses a server device on a network, and a program executed on the server and a program executed on the communication terminal are linked with each other to perform various operations. The system which provides the service of is built.
[0003]
In such a system, the performance of a program on a communication terminal that performs processing in cooperation with a server is greatly affected by network communication delay and server load. For this reason, in order to reduce the communication delay due to the concentration of access and the processing load on the server, a method has been adopted in which server replicas are geographically distributed and the optimum server is selected and the communication terminal is accessed. I have.
[0004]
In this method, in general, a server is statically selected based on the distance between the terminal and the server or the average performance, or a communication terminal or its proxy server communicates with a plurality of replication servers to communicate with the server. Performance is measured, and server selection is made dynamically based on the results.
[0005]
[Problems to be solved by the invention]
However, in the above-described method, when a server is statically selected, there is a problem that it is not possible to adapt to fluctuating network quality and server load. On the other hand, the method in which a communication terminal or its proxy server measures the performance between a plurality of replication servers and dynamically selects a server has a problem that traffic increases over a wide area and measurement time is required.
[0006]
In view of the above, the present invention has been made in view of the above points. By distributing server management devices and managing each server device, it is possible to search for a high-performance server device while suppressing an increase in traffic. It is an object of the present invention to provide a service management system, a service management method, a server management device, a communication terminal, and a server device that enable the user to perform a service.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention provides a method of searching for a server device from among a plurality of server devices that provide the same kind of service according to a search request issued by a communication terminal by a plurality of server management devices. When responding to the communication terminal with the search result, the server management device accepts registration of a nearby server device, measures the performance of the server device, and associates the measurement result with the identifier for identifying the server device as performance information. In response to a search request, a server device is selected based on performance information of each server device corresponding to the search request.
[0008]
According to the present invention, a server device is registered in a nearby server management device, and each server management device searches for a server device managed by itself, so that a performance measurement when selecting a server device is performed. Can be prevented from spreading to a wide area path, and the communication load can be reduced.
[0009]
In the above invention, the search request received from the communication terminal or the server device is transferred to another server management device, and a response including the server device managed by the transfer destination server management device and its performance information is received and managed by itself. It is preferable to select a server device from remote server devices managed by the server device and another server management device based on performance information of each server device.
[0010]
In this case, by enabling the management device to transfer the service search request to another management device, it is possible to search for a remote server device managed by the other management device.
[0011]
In the above invention, the delay with the other server management device is measured, the measurement result is held, and the performance information of the server device managed by the other server management device is received from the other server management device. Then, it is preferable that the held measurement result and the received performance information are held as performance information of the remote server device.
[0012]
In this case, it is possible to select a server device having a short delay as a whole by setting the delay of the remote server device in addition to the delay between the management devices arranged in a distributed manner.
[0013]
In the above invention, the validity time designated by each server is held, the elapsed time from the time when the registration of each server device is received is measured, and the registration of the corresponding server device is deleted according to the result of the clocking. Is preferred.
[0014]
In this case, by deleting the performance information of the old server device, it is possible to cope with a failure of the server device or a change in performance, and it is possible to effectively utilize the resources of the server management device. As a result, if the registration is not updated due to the server failure, the information of the server device is automatically deleted.
[0015]
In the above invention, the delay between the communication terminal and the first server management device near the communication terminal, the delay between the server device and the second server management device near the communication terminal, and the first and second It is preferable to sum the delay between the server management devices and calculate each piece of performance information based on the total result.
[0016]
In this case, the performance of the path from the communication terminal to the server via the server management device can be comprehensively determined, and the server can be selected in consideration of the delay of the entire communication.
[0017]
In the above invention, it is preferable that the performance information of each server device includes a response processing time, a communication delay, and a processing load.
[0018]
In this case, since the performance information actually measured by the server management device includes the response time and the load, it is possible to select a server with a low load or a server device with a short response time during the search. .
[0019]
In the above invention, the threshold value of the performance information is compared with the threshold value of the performance information of each registered server. According to the comparison result, information on the server device registered in the own device is compared with another server management device. It is preferable to have a step of requesting the transfer of the registration to.
[0020]
Further, in the above invention, a step of collating the identifier of each server registered in the own device with the identifier of each server registered in another service management system, and specifying a server registered in duplicate. Comparing the performance information of the server devices registered in duplicate, and determining a nearby server device to be controlled in accordance with the comparison result; and deleting or deleting other registration in the own device in response to the determination. Requesting deletion of registration in the service management system.
[0021]
In this case, it is possible to prevent a plurality of server management apparatuses from managing the same server apparatus redundantly, and to more accurately prevent redundant transmission of server monitoring communication. be able to.
[0022]
BEST MODE FOR CARRYING OUT THE INVENTION
(Configuration of service management system)
A service management system according to the present invention will be described with reference to the drawings. FIG. 1 is an explanatory diagram showing the overall configuration of the service management system according to the present embodiment. As shown in FIG. 1, the service management system according to the present embodiment includes a communication terminal C1, server management devices N1 to N4, and server devices S1a, S1b, and S2a to c. Note that reference numerals S1 and S2 indicating the server devices indicate service types, and indicate that server devices assigned the same reference numerals S1 and S2 provide the same type of service.
[0023]
Each of the server management devices N1 to N4 is a management server that is mutually connected via a communication network, receives registration of a nearby server device, and stores information on the received server device. In the illustrated example, the server management device N1 receives registration of the server S1a, the server management device N2 receives registration of the server devices S2a and S2b, and the server management device N3 receives registration of the server devices S1b and S2c. I have.
[0024]
(Configuration of server management device)
FIG. 2 is a block diagram showing an internal configuration of the server management devices N1 to N4 described above.
[0025]
As shown in FIG. 2, the server management device includes a management unit 8, a timer 11, a server device storage unit 10, a server device selection unit 9, a service search request reception unit 2, a service search request transfer unit 3, , A service search response transmission unit 4, a server device performance measurement unit 6, an other management device performance measurement unit 7, a service search response reception unit 5, a communication unit 1, and a mapping unit 12.
[0026]
The server device storage unit 10 stores a record in which performance information such as a server identifier, a server address, a delay from the server management device to the server device, a response time of the server device, a load on the server device, and a validity period of the information is accumulated. The database to store. For example, the server storage unit 10 of the server management device N1 records the delay and load of the server device S1a, the delay with the server management device N2, and the delay with the server management device N4. The unit 10 records delays and loads of the server devices S2a and S2b, and delays between the server devices N1 and N4.
[0027]
The performance information of each server device is measured and recorded by the server device performance measurement unit 6 when registration from each server device is received.
[0028]
Further, the server device storage unit 10 is connected to a timer 11 and has a function of deleting a record whose validity period has expired by using the time measurement result of the timer 11.
[0029]
The other management device performance measurement unit 7 communicates with another server management device, measures delay and throughput in the other server management device, and identifies an identifier of the server management device related to the measurement, delay time, throughput, measurement time, and the like. And is recorded in the server device storage unit 10 as one record in association with the performance information.
[0030]
The server device selection unit 9 extracts a server device of a type that matches the service search request from the server device storage unit 10, selects a server device based on the requested quality, and passes it to the service search response transmission unit 4. .
[0031]
The service search request receiving unit 2 receives a service search request from a communication terminal or another server management device, outputs a copy of the search request to the service search request transfer unit 3 and causes the service search request transfer unit 3 to transfer the copy to the other server management device. When the request is received, the server device selection unit 9 is activated to search for a service that matches the server device type included in the service search request and the requested quality (delay or load).
[0032]
The service search request transfer unit 3 relays and transfers a copy of the search request received by the service search request reception unit 2 to another server management device. At the time of transfer, the service search request transfer unit 3 transmits the identifier of the server management device (see FIG. 4) so that the server management device receives a response from another server management device that is the transfer destination. The service search request includes the transfer source) and the identifier of the terminal device (user) that transmitted the service search request.
[0033]
Further, the service search request transfer unit 3 includes the number of relays up to now (relay count) in the service search request in order to limit the number of relays. Since the other server management device that has received the transfer returns the service search response including the value of the path delay field, as shown in FIG. 5, the server management device that is the search request source transmits the delay to the remote server device. Can be estimated.
[0034]
Further, when the number of relays exceeds a certain set value, the service search request transfer unit 3 does not perform the relay. Further, at the time of relaying, in order to calculate the delay on the path, the delay to the transfer destination server management device is added to the path delay field.
[0035]
The service search response transmitting unit 4 responds to the search request to the effect that it has been received. If the service search request received by the server management device is transferred from another server management device, A response is returned to the requesting server management device. If the service search request is from the communication terminal, a response is returned to the communication terminal.
[0036]
The service search response receiving unit 5 receives the information of the server device managed by the other server management device, and stores the information in the server device storage unit 10.
[0037]
The server device performance measuring unit 6 transmits a signal to the server device in response to the service search request, and measures a delay time to each server device based on the response speed. When the server device includes the response time and the load in the response signal, the server device performance measuring unit 6 acquires the response time and the load performance information in addition to the delay time.
[0038]
When transferring the service search request to another server management device, the other management device performance measuring unit 7 obtains a delay time to the other server management device by measuring the response speed of the other server management device. When another server management device includes the response time and load in the response signal, the other management device performance measuring unit 7 acquires the response time and load performance information in addition to the delay time.
[0039]
The server device performance measuring unit 6 and the other management device performance measuring unit 7 may be started periodically by a timer, or may be started when a registration request is received from the server device. Then, when the server device performance measuring unit 6 and the other management device performance measuring unit 7 are started, the server device storage unit 10 stores the server devices stored in the server device storage unit 10 based on the delay information with respect to other server management devices. Update delay information. For example, if the delay information of a certain remote server device is received as 50 ms and the delay to the server management device N1 in which the server device is registered is 100 ms, the delay information of the server device is updated as 150 ms. .
[0040]
The communication unit 1 is a module for performing communication between the server management apparatus and other devices, and the communication means may be any method such as wired / wireless, packet, and circuit switching.
[0041]
As shown in FIG. 3, the mapping unit 12 includes an interface unit 121 for inputting / outputting data to / from the server device storage unit 10, a threshold storage unit 122 for storing a threshold value of performance information, and a server device storage unit 10. A comparing unit 124 that compares the performance information of each registered server with a threshold value, and registers information on the server device registered in the own device to another server management device according to the comparison result by the comparing unit 124 And a transfer requesting unit 125 for requesting the transfer.
[0042]
Further, the mapping unit 12 according to the present embodiment compares the identifier of each server registered in the own device with the identifier of each server registered in another service management system, and identifies the server registered in duplicate. The duplication detection unit 123 to be specified is compared with the performance information of the server device that is registered in duplicate, and a jurisdiction determination unit 126 and a jurisdiction determination unit 126 that determine a nearby server device to be controlled according to the comparison result. And a deduplication unit 127 for requesting deletion of registration in the own device or deletion of registration in another server management device in accordance with the result of the determination.
[0043]
The management unit 8 is a management server that manages and controls the operations of the units 1 to 7 and 9 to 11, and is connected to an operation terminal of a system administrator or the like, and enables centralized management of the entire system. Further, the management unit 8 according to the present embodiment, in response to a request from the transfer request unit 125 or the deduplication unit 127 of the mapping unit 12, requests each of the other server management devices to transfer the registration or remove the registration. Send.
[0044]
(Service management method using service management system)
The service management method using the service management system having the above configuration is performed in the following procedure. FIG. 6 is a sequence diagram showing the operation of the service management system.
[0045]
First, as shown in FIG. 6, the communication terminal C1 issues a service search request of type S2 to the nearby server management device N1 (S101). At this time, the server management device in the vicinity is determined as a communication terminal manually or dynamically using DHCP or the like. Here, it is assumed that the server management device N1 has been determined.
[0046]
Upon receiving this search request, the server management device N1 determines whether or not the request has been made redundantly (S102), and ends if the request is duplicated. On the other hand, if it is determined in step S102 that the request is not a duplicate request, it is determined whether or not the number of relays is within the limit (S103). In this case, the number of relays of the service search request from the communication terminal C1 is counted, the current request is added, and the service search request is transferred to the nearby server management devices N2 and N4 (S104). After this transfer, the server management device N1 maintains the standby state for a certain period of time (S105).
[0047]
The server management devices N2 and N4 that have received the transferred search request add 1 to the number of relays of the service search request, search the server device registered in the own device, and extract the server device that matches the request. Attempt (S202). Here, since the server management device N4 does not manage the server device of the type S2, the process ends without returning a response. On the other hand, the server management device N2 returns both of them to N1 in order to manage the server devices S2a and S2b (S203).
[0048]
Further, the server management devices N2 and N4 transfer the data to a nearby server management device N3. Here, the relay count limit is set to two, and the server management device N3 does not perform any further transfer.
[0049]
Then, the server management device N3 that has received the search request extracts a server device that matches the request (S201, S202). Here, since the server management device N3 manages the server device S2c, it includes the identifier of the server device S2c, the delay, and the load in the service search response, and returns a response to the requesting server management device N1. (S203).
[0050]
Eventually, the server management apparatus N1 returns three candidates of the server apparatuses S2a, S2b, and S2c from the server management apparatuses N2 and N3, and the response results are stored in the server storage device 10 of the server management apparatus N1. . At this time, the delay of the server management devices N1 and N2 is added to the response delay from the server devices S2a and S2b, and the delay of the server management devices N1 and N3 is added to the delay of the server device S2c. Here, the delays of the server management devices N1 and N3 are obtained by adding delays to the server management devices N1-N4 and N4-N3 when transferring the service search request.
[0051]
Then, in response to the fact that the delay is specified as the service search request, the server management device N1 selects the server device S2a with the smallest delay and returns it to the communication terminal C1 (S106 and S107).
[0052]
Next, a server device registration process in each server management device will be described. FIG. 7 is a sequence diagram illustrating the operation of the server management device when registering the server device.
[0053]
First, in the server device, the server management device determines a registration validity period (S301). The validity period is determined based on a service period provided by the own device, a maintenance cycle, and the like.
[0054]
Next, service registration is performed on the server management device (S302). At this time, the server management device measures the performance of the server device, acquires a performance record (S402, S401), and registers the record as performance information in association with the identifier of the server device. Further, the server management device maintains the standby state by the timer and measures the path performance with another management device (S401). These processes of S301 to S303 and S401 to S403 are repeatedly performed by a loop process.
[0055]
When the performance is recorded in step S401, a mapping process is performed so that the server device is not registered with another server management device. That is, when registering a server device, the server management device acquires information on the server device registered in another server management device, and there is no duplicate registration or there is no server management device closer to the server management device. If there is an overlap, request registration to the nearest server management device, delete the registration in the own device, or if already registered in the own device, The registered information is transferred to another server management device, and the registration is transferred.
[0056]
(Example of change)
In the present embodiment, the case where the communication terminal issues a search request has been described as an example. However, the present invention is not limited to this. For example, a server device may provide a service provided by another server device. In the case where processing is performed using the same, an appropriate server device may be efficiently searched in the same manner. That is, the search source server device can send a search request to a nearby server management device, and can receive, for example, a server device that can be reached with the shortest delay time as a response.
[0057]
【The invention's effect】
As described above, according to the service management system, the service management method, the server management device, the communication terminal, and the server device of the present invention, since the performance measurement of each server is performed with a nearby server management device, The increase is suppressed. Also, by using information such as the delay between the server management device and the management device to the server and the delay between other server management devices, select a server with a short delay from the communication terminal or calculate the delay between any server devices. Then, a combination that minimizes the delay in server cooperation can be obtained.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram schematically showing an overall configuration of a service management system according to an embodiment.
FIG. 2 is a block diagram illustrating a configuration example of a server management device according to the embodiment;
FIG. 3 is a block diagram illustrating an internal configuration of a mapping unit according to the embodiment.
FIG. 4 is an explanatory diagram showing an example of a search request message format in a search procedure of the server device according to the embodiment.
FIG. 5 is an explanatory diagram showing an example of a search response message format in a search procedure of the server device according to the embodiment.
FIG. 6 is a sequence diagram in a server device search procedure from when the communication terminal according to the embodiment issues and receives a server device search request.
FIG. 7 is a sequence diagram illustrating an operation of the server management apparatus when managing a service in the embodiment.
[Explanation of symbols]
C1 communication terminals N1 to N4 server management devices S1a, S1b, S2a, S2b server device 1 communication unit 2 service search request reception unit 3 service search request transfer unit 4 service search response transmission unit 5 service search Response receiving unit 6 Server device performance measuring unit 7 Other management device performance measuring unit 8 Management unit 9 Server device selecting unit 10 Server device storage unit 11 Timer 12 Mapping unit 121 Interface unit 122 Threshold storage unit 123: duplicate detection unit 124, comparison unit 125, transfer request unit 126, jurisdiction determination unit 127, deduplication unit

Claims (28)

A plurality of server devices that provide the same kind of service,
A communication terminal that issues a server search request to search for a corresponding server device from among the plurality of server devices when requesting service provision;
A server management device that searches for a corresponding server device in response to the server search request and responds to the communication terminal, wherein the server management device includes:
Server device storage means for receiving registration of a nearby server device, measuring the performance of the server device, and holding the measurement result as performance information in association with an identifier identifying the server device;
A service selecting unit for selecting a server device based on performance information of each server device corresponding to the search request in response to the search request. Search request transfer means for transferring a search request received from the communication terminal or the server device to another server management device;
Response receiving means for receiving a response including the server device managed by the transfer destination server management device and its performance information,
2. The service selection unit according to claim 1, wherein the server selection unit selects a server device from a server device managed by itself and a remote server device managed by another server management device based on performance information of each server device. A service management system according to item 1. Another management device performance measuring means for measuring a delay with another server management device and holding the measurement result;
Response receiving means for receiving, from the other server management device, performance information of the server device managed by the other server management device,
2. The server device storage unit stores, as performance information of a remote server device, a measurement result held by the other management device performance measurement unit and performance information received by the response reception unit. Or the service management system according to 2. The server device storage means,
It is characterized in that a valid time designated by each server is retained, an elapsed time from a time when the registration of each server device is received is measured, and the registration of the corresponding server device is deleted according to the result of the timing. The service management system according to claim 1. The service selection means,
The delay between the communication terminal and the first server management device located near the communication terminal, the delay between the server device and the second server management device located near the communication terminal, and the delay between the first and second server management devices. 5. The service management system according to claim 1, wherein delays are totaled, and each of the performance information is calculated based on the total result. 6. 6. The service management system according to claim 1, wherein the performance information of each server device includes a response processing time, a communication delay, and a processing load. Threshold storage means for storing a threshold of the performance information;
Comparing means for comparing the performance information of each server registered in the server device storage means with the threshold value;
According to a result of the comparison by the comparing means, the information relating to the server device registered in the own device, a transfer request unit for requesting the transfer of registration to another server management device, comprising a mapping means having The service management system according to claim 1. The mapping means,
Duplication detection means for comparing the identifier of each server registered in its own device with the identifier of each server registered in another service management system, and identifying a server registered in duplicate;
Jurisdiction determining means for comparing the performance information of the server devices registered in duplicate, and determining a nearby server device to be controlled according to the comparison result;
8. The service management system according to claim 7, further comprising: a deduplication unit for requesting deletion of registration in the own device or deletion of registration in another server management device according to a determination result of the jurisdiction determination unit. A service search in which a plurality of server management apparatuses search for a corresponding server apparatus from among a plurality of server apparatuses providing the same kind of service in response to a search request issued by a communication terminal, and return a search result to the communication terminal. The method,
(1) receiving, in the server management device, the registration of a nearby server device, measuring the performance of the server device, and retaining the measurement result as performance information in association with an identifier for identifying the server device;
(2) selecting a server device based on performance information of each server device corresponding to the search request in response to the search request. (3) transferring a search request received from the communication terminal or the server device to another server management device;
(4) receiving a response including the server device managed by the transfer destination server management device and its performance information;
In the step (2), a server device is selected from a server device managed by itself and a remote server device managed by another server management device based on performance information of each server device. 9. The service management method according to item 9. (5) measuring a delay with another server management device and holding the measurement result;
Receiving the performance information of the server managed by the other server management device from the other server management device (6);
11. The remote server device according to claim 10, wherein in the step (1), the measurement result held in the step (5) and the performance information received in the step (4) are held as performance information of a remote server device. Service management method described in. In the step (1),
It is characterized in that a valid time designated by each server is retained, an elapsed time from a time when the registration of each server device is received is measured, and the registration of the corresponding server device is deleted according to the result of the timing. The service management method according to claim 9. In the step (2),
The delay between the communication terminal and the first server management device located near the communication terminal, the delay between the server device and the second server management device located near the communication terminal, and the delay between the first and second server management devices. 13. The service management method according to claim 9, wherein a total of the delay and the performance information is calculated based on a result of the sum. 14. The service management method according to claim 9, wherein the performance information of each server device includes a response processing time, a communication delay, and a processing load. The threshold value of the performance information is compared with the performance information of each registered server and the threshold value. According to the comparison result, information on the server device registered in the own device is transmitted to another server management device. The service management method according to claim 9, further comprising a step of requesting transfer of registration. Collating the identifier of each server registered in its own device with the identifier of each server registered in another service management system, and identifying a duplicately registered server;
Comparing the performance information of the server devices registered in duplicate, and determining a nearby server device to be controlled according to the comparison result;
16. The service management method according to claim 15, further comprising: requesting deletion of registration in the own device or deletion of registration in another service management system according to the determination. In response to a search request issued by the communication terminal, a server management device that searches for a corresponding server device from among a plurality of server devices that provide the same type of service, and responds to the communication terminal with a search result,
Server device storage means for receiving registration of a nearby server device, measuring the performance of the server device, and holding the measurement result as performance information in association with an identifier identifying the server device;
A server selecting unit for selecting a server device based on performance information of each server device corresponding to the search request in response to the search request. Search request transfer means for transferring a search request received from the communication terminal or the server device to another server management device;
Response receiving means for receiving a response including the server device managed by the transfer destination server management device and its performance information,
18. The service selection unit according to claim 17, wherein the service selection unit selects a server device from a server device managed by itself and a remote server device managed by another server management device based on performance information of each server device. A server management device according to item 1. Another management device performance measuring means for measuring a delay with another server management device and holding the measurement result;
Response receiving means for receiving, from the other server management device, performance information of the server device managed by the other server management device,
18. The remote server device according to claim 17, wherein the server device storage unit holds the measurement result held by the other management device performance measuring unit and the performance information received by the response receiving unit as performance information of the remote server device. Or the server management device according to 18. The server device storage means,
It is characterized in that a valid time designated by each server is retained, an elapsed time from a time when the registration of each server device is received is measured, and the registration of the corresponding server device is deleted according to the result of the timing. The server management device according to claim 17. The service selection means,
The delay between the communication terminal and the first server management device located near the communication terminal, the delay between the server device and the second server management device located near the communication terminal, and the delay between the first and second server management devices. 21. The server management device according to claim 17, wherein the server management apparatus calculates the performance information based on a sum of the delay and the delay. 22. The server management device according to claim 17, wherein the performance information of each server device includes a response processing time, a communication delay, and a processing load. Threshold storage means for storing a threshold of the performance information;
Comparing means for comparing the performance information of each server registered in the server device storage means with the threshold value;
According to a result of the comparison by the comparing means, the information relating to the server device registered in the own device, a transfer request unit for requesting the transfer of registration to another server management device, comprising a mapping means having 23. The server management device according to claim 17, wherein The mapping means,
Duplication detection means for comparing the identifier of each server registered in its own device with the identifier of each server registered in another service management system, and identifying a server registered in duplicate;
Jurisdiction determining means for comparing the performance information of the server devices registered in duplicate, and determining a nearby server device to be controlled according to the comparison result;
24. The server management apparatus according to claim 23, further comprising: a deduplication unit that requests deletion of registration in the own device or deletion of registration in another service management system according to a determination result of the jurisdiction determination unit. A communication terminal receiving a service from a server device,
Means for issuing a search request to a server management device that searches for a corresponding server device from a plurality of server devices that provide the same kind of service;
Means for receiving, from among the server devices registered in the server management device, a result searched based on performance information that is a result of measuring the performance of those server devices. The search request includes a performance index specifying one of a server device type, a response time, and a load,
26. The communication terminal according to claim 25, wherein the response from the server management device is made based on the performance information matching the performance index. A server device that provides a service in response to a request from a communication terminal,
Means for requesting registration to a server management device that searches for a corresponding server device in response to the server search request;
Means for responding to service performance in response to a performance measurement request from the server management device;
Means for providing a service when the server management apparatus is searched based on the result of the performance measurement. Means for specifying the period of valid registration when requesting the registration;
28. The server device according to claim 27, further comprising means for performing a re-registration process before the period expires.

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