Patent Publication Number: US-8544018-B2

Title: Communication system, information processing system, connection server, processing server, information processing apparatus, information processing method and program

Description:
TECHNICAL FIELD 
     The present invention relates to a communication system having a plurality of processing servers and a connection server. 
     BACKGROUND ART 
     As the conventional technique for realizing the stable system operation even if the load on a computer system is increased, a load sharing has been developed. Particularly, such load sharing is employed for a server in the computer system. On the other hand, there is a situation where previously inputted data may disappear depending on the processing contents, if a different server is allocated every time of access. Accordingly, there have been developed techniques called a session maintenance and a persistence process in which when the load sharing is made, access is continuously allocated to the same server, using the IP address or cookie (Cookie) of the source. 
     These technical contents were disclosed in non-patent document, Katsuji Yamashita, “Using the load sharing apparatus (1)”, Nikkei Communication, Nikkei BP Company, 2003 Jun. 9, Vol. 392., p. 126-129. 
     However, even if the above technique of session maintenance as conventionally known was used, one information processing apparatus and the other information processing apparatus could not be allocated to the same server in the load sharing. Accordingly, when the peer-to-peer communication is established between two information processing apparatuses, for example, there was a problem that it is difficult for the two information processing apparatuses to exchange information between information processing apparatuses using the same server in the system for load sharing. 
     As a method for solving the problem, the information may be shared among a plurality of servers to which access is allocated by load sharing, in which there is another problem that a large load for sharing information is imposed on each server. 
     Also, there was a demand for lightening a process for session maintenance for use with the conventional technique for session maintenance. 
     SUMMARY OF THE INVENTION 
     Problems that the Invention is to Solve 
     This invention has been achieved to solve the above-mentioned problems, and it is an object of the invention to provide a communication system that can lighten a process for session maintenance in the load sharing. 
     Also, it is another object of the invention to enable access from a plurality of information processing apparatuses to one server in a communication system using the load sharing. 
     In order to accomplish the above object, the present invention provides an information processing system having N processing servers (N is an integer of 2 or greater) and a connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, wherein the connection server comprises a receiving part for receiving request information that is information regarding a request for load sharing, which is sent from the information processing apparatus to a load sharing port of the connection server, a load sharing part for allocating the information processing apparatus that is the source of the request information received by the receiving part to any of the N processing servers, a sending part for sending port position information that is information indicating the position of the connection port corresponding to the processing server allocated by the load sharing part to the information processing apparatus, and a connection part for establishing a connection between the connection port and the processing server corresponding to the connection port. 
     With this configuration, the load sharing is made, and two or more information processing apparatuses have access to the processing server allocated to one information processing apparatus by using the connection port indicated by the port position information. By appropriately making the connection with the connection part, the processing of the connection part is not increased even if the number of sessions between the information processing apparatus and the processing server is increased, whereby it is possible to make the session maintenance through the lighter process. 
     Also, the invention provides an information processing system having N processing servers (N is an integer of 2 or greater) and a connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, wherein the connection server comprises a first receiving part for receiving request information that is information regarding a request for load sharing, which is sent from the information processing apparatus to a load sharing port of the connection server, a load sharing part for allocating the information processing apparatus that is a source of the request information received by the first receiving part to any of the N processing servers, a first sending part for sending the request information to the processing server allocated by the load sharing part, a second receiving part for receiving port position information that is information indicating the position of the connection port corresponding to the processing server and sent from the processing server, a second sending part for sending the port position information received by the second receiving part to the information processing apparatus that is the source of the request information, and a connection part for establishing a connection between the connection port and the processing server corresponding to the connection port, and wherein each of the N processing servers comprises a port position information storage part for storing the port position information that is information indicating the position of one or more connection ports corresponding to the processing server, a request information receiving part for receiving the request information, and a port position information sending part for sending the port position information stored in the port position information storage part when the request information receiving part receives the request information. 
     With this configuration, the load sharing is made, and two or more information processing apparatuses have access to the processing server allocated to one information processing apparatus by using the connection port indicated by the port position information. By appropriately making the connection with the connection part, the processing of the connection part is not increased even if the number of sessions between the information processing apparatus and the processing server is increased, whereby it is possible to make the session maintenance through the lighter process. Also, since the sending process for the port position information is performed in the processing server, the processing load of the connection server can be lighter than the port position information is constructed and sent in the connection server. 
     Also, the invention provides a communication system comprising the information processing system and a first information processing apparatus, wherein the first information processing apparatus comprises a request information sending part for sending the request information to the load sharing port, a port position information receiving part for receiving the port position information, and a communication part for communicating with one processing server via a connection port indicated by the port position information received by the port position information receiving part. 
     With this configuration, the first information processing apparatus has access to the processing server allocated through the load sharing process via the connection port. 
     Also, the invention provides a communication system comprising the information processing system, a first information processing apparatus and a second information processing apparatus, wherein the first information processing apparatus comprises a request information sending part for sending the request information to the load sharing port, a first port position information receiving part for receiving the port position information, a first communication part for communicating with one processing server via a connection port indicated by the port position information received by the first port position information receiving part, and a first port position information sending part for sending the port position information received by the first port position information receiving part, and wherein the second information processing apparatus comprises a second port position information receiving part for receiving the port position information sent from the first information processing apparatus, and a second communication part for communicating with one processing server via a connection port indicated by the port position information received by the second port position information receiving part. 
     With this configuration, the first information processing apparatus and the second information processing apparatus have access to the same processing server via the connection port indicated by the port position information. Accordingly, two or more information processing apparatuses have access to the processing server allocated through the load sharing though the load sharing is made. 
     With the communication system according to the invention, plural information processing apparatuses have access to one processing server in the communication system for making the load sharing. Also, the process for session maintenance in the load sharing can be lightened by appropriately establishing the connection between the information processing apparatus and the processing server. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a diagram showing the configuration of an information processing system according to an embodiment 1 of the present invention. 
         FIG. 2  is a block diagram showing the configuration of a first information processing apparatus according to the embodiment 1 of the invention. 
         FIG. 3  is a block diagram showing the configuration of a second information processing apparatus according to the embodiment 1 of the invention. 
         FIG. 4  is a block diagram showing the configuration of a processing server according to the embodiment 1 of the invention. 
         FIG. 5  is a flowchart showing the operation of a connection server according to the embodiment 1 of the invention. 
         FIG. 6  is a flowchart showing the operation of the first information processing apparatus according to the embodiment 1 of the invention. 
         FIG. 7  is a flowchart showing the operation of the second information processing apparatus according to the embodiment 1 of the invention. 
         FIG. 8  is a view showing one example of correspondence between the processing server and the connection port according to the embodiment 1 of the invention. 
         FIG. 9  is a view showing one example of the configuration of request information according to the embodiment 1 of the invention. 
         FIG. 10  is a view showing one example of a translation table according to the embodiment 1 of the invention. 
         FIG. 11  is a diagram showing the configuration of an information processing system according to an embodiment 2 of the invention. 
         FIG. 12  is a block diagram showing the configuration of a processing server according to the embodiment 2 of the invention. 
         FIG. 13  is a flowchart showing the operation of a connection server according to the embodiment 2 of the invention. 
         FIG. 14  is a flowchart showing the operation of a processing server according to the embodiment 2 of the invention. 
         FIG. 15  is a view showing one example of correspondence between the processing server and the address according to the embodiment 2 of the invention. 
     
    
    
     DESCRIPTION OF REFERENCE NUMERALS AND SIGNS 
     
         
           1  first information processing apparatus 
           2  second information processing apparatus 
           3 ,  5  connection servers 
           41  to  45 ,  61  to  65  processing servers 
           11  request information sending part 
           12  first port position information receiving part 
           13  first communication part 
           14  first port position information sending part 
           21  second port position information receiving part 
           22  second communication part 
           31  receiving part 
           32 ,  52  load sharing parts 
           33  sending part 
           34  connection part 
           411  communication part 
           421  processing part 
           51  first receiving part 
           53  first sending part 
           54  second receiving part 
           55  second sending part 
           611  request information receiving part 
           621  port position information storage part 
           631  port position information sending part 
       
    
     BEST MODE FOR CARRYING OUT THE INVENTION 
     The embodiments of a communication system according to the present invention will be described below. In the following embodiments, the same or like parts and steps designated by the same reference numerals or signs are the same or equivalent, and are not described duplicately. 
     (Embodiment 1) 
     A communication system according to an embodiment 1 of the invention will be described below with reference to the drawings. 
       FIG. 1  is a diagram showing the configuration of the communication system according to this embodiment. In  FIG. 1 , the communication system according to the embodiment comprises a first information processing apparatus  1 , a second information processing apparatus  2 , a connection server  3 , and five processing servers  41 ,  42 ,  43 ,  44  and  45 . The first information processing apparatus  1 , the second information processing apparatus  2  and the connection server  3  are interconnected via a wire or wireless communication circuit  100 . Also, the connection server  3  and the five processing servers  41  to  45  are interconnected via a wire or wireless communication circuit  200 . Herein, the communication circuit  100  may be internet, intranet, or a public telephone line network, for example. The communication circuit  200  is a LAN (Local Area Network), for example, but may be internet, intranet or public telephone line network. 
     The connection server  3  according to this embodiment connects the information processing apparatus and any one of the five processing servers  41  to  45 , and comprises a receiving part  31 , a load sharing part  32 , a sending part  33  and a connection part  34 . 
     The receiving part  31  receives request information transmitted from the first information processing apparatus  1  to a load sharing port of the connection server  3 . Herein, the load sharing port is the port set to receive the request information on the side of the communication circuit  100  of the connection server  3 . A single port or two or more ports may be provided. Also, the request information is information regarding a request for load sharing. The load sharing part  32  as hereinafter described performs a load sharing process, upon the receiving part  31  receiving this request information. This request information may or may not include a command for requesting the load sharing process. For example, the request information may be a packet transmitted from the first information processing apparatus  1  to the load sharing port without information contained in the payload. Also, the request information may include the identification information designating the request information. The receiving part  31  may include a receiving device (e.g., a modem or a network card) for making the reception, or may not include it (in this case, the receiving device, not shown, exists between the receiving part  31  and the communication circuit  100 ). Also, the receiving part  31  may be realized by hardware, or by software such as a driver for driving the receiving device. 
     The load sharing part  32  allocates the information processing apparatus that is a source of the request information received by the receiving part  31  to any of the five processing servers  41  to  45 . Herein, allocating the information processing apparatus to any processing server means specifying the processing server in charge of performing a series of processes requested by the information processing apparatus. A method for this load sharing part  32  allocating the information processing apparatus does not matter. This method may be a round robin for allows plural processing servers to be allocated evenly, a ratio mode for allowing plural processing servers to be allocated at preset ratio, a priority level mode for allowing the processing servers to be grouped and allocated according to the value of priority designated for each processing server group, a least connection mode for allocating the information processing apparatus to the processing server with the least number of connections, a top speed mode for allocating the information processing apparatus to the processing server that responds fastest, a supervisory mode for supervising the number of connections and the response speed of the processing server to make the allocation in accordance with a predetermined algorithm, a prediction mode for supervising the number of connections and the response speed of the processing server and predicting the performance of each processing server to make the allocation, or other methods, for example. These methods are well known, and not described here. Also, for example, when the processing server to be allocated is decided depending on the number of connections or the response speed of the processing server, the connection server  3  may have a measuring part, not shown, for measuring the number of connections or the response speed, or receive the number of connections or the response speed measured by other instruments, regardless of a path via which the load sharing part  32  acquires the number of connections or the response speed. 
     The sending part  33  sends the port position information to the information processing apparatus that transmits the request information. Herein, the port position information is information indicating the position of connection port corresponding to the processing server allocated by the load sharing part  32 . The connection ports that are plural ports on the side of the communication circuit  100  of the connection server  3  correspond to the five processing servers  41  to  45  for every one or more ports. For example, the connection port P 1  and the connection port P 2  correspond to the processing server  41 , the connection port P 3  corresponds to the processing server  42 , and the connection port P 4  and the connection port P 5  correspond to the processing server  43 . The information indicating the position of connection port included in the port position information may be the port number of connection port, for example. The sending part  33  may include a sending device (e.g., a modem or a network card) for making the sending, or may not include it (in this case the sending device, not shown, exists between the sending part  33  and the communication circuit  100 ). Also, the sending part  33  may be realized by hardware, or by software such as a driver for driving the sending device. 
     The connection part  34  makes the connection between the connection port and the processing server corresponding to the connection port. That is, the information transmitted from the information processing apparatus to a certain connection port is sent to the processing server corresponding to the connection port. Also, the information sent from the processing server is sent to the information processing apparatus that makes a request for processing to the processing server. The connection part  34  may include a communication device (e.g., a modem or a network card) for making the communication, or may not include it (in this case, the communication device, not shown, exists between the connection part  34  and the communication circuit  100  or the communication circuit  200 ). Also, the connection part  34  may be realized by hardware, or by software such as a driver for driving the communication device. 
     In the case where any two or more components of the receiving part  31 , the sending part  33  and the connection part  34  have devices for communication, they may be the same means or separate means. 
       FIG. 2  is a block diagram showing the configuration of the first information processing apparatus  1  according to this embodiment. In  FIG. 2 , the first information processing apparatus  1  according to this embodiment comprises a request information sending part  11 , a first port position information receiving part  12 , a first communication part  13 , and a first port position information sending part  14 . The first information processing apparatus  1  may be a computer, a microwave oven, a telephone set, a printer, a facsimile apparatus, a refrigerator, a washing machine, an air conditioner, a television, a video recorder, or a set top box, for example, and take any form as far as it has the following components. 
     The request information sending part  11  sends the request information to the load sharing port of the connection server  3 . The request information sending part  11  may include a sending device (e.g., a modem or a network card) for making the sending, or may not include it (in this case, the sending device, not shown, exists between the request information sending part  11  and the communication circuit  100 ). Also, the request information sending part  11  may be realized by hardware, or by software such as a driver for driving the sending device. 
     The first port position information receiving part  12  receives port position information sent from the connection server  3 . The first port position information receiving part  12  may include a receiving device (e.g., a modem or a network card) for making the reception, or may not include it (in this case, the receiving device, not shown, exists between the first port position information receiving part  12  and the communication circuit  100 ). Also, the first port position information receiving part  12  may be realized by hardware, or by software such as a driver for driving the receiving device. 
     The first communication part  13  communicates with one processing server via the connection port indicated by the port position information received by the first port position information receiving part  12 . The one processing server is the processing server allocated by the load sharing part  32 . The first communication part  13  may include a communication device (e.g., a modem or a network card) for making the communication, or may not include it (in this case, the communication device, not shown, exists between the first communication part  13  and the communication circuit  100 ). Also, the first communication part  13  may be realized by hardware, or by software such as a driver for driving the communication device. 
     The first port position information sending part  14  sends the port position information received by the first port position information receiving part  12  to the second information processing apparatus  2 . Herein, the first port position information sending part  14  may send the port position information to the second information processing apparatus  2  via a predetermined server, send the port position information to the second information processing apparatus  2  through the peer-to-peer communication, or send the port position information to the second information processing apparatus  2  by any other sending method. The method for sending the port position information via the predetermined server may be a well known relay server such as an SIP (Session Initiation Protocol) or H.323, for example, and the description for sending is omitted. Also, the peer-to-peer communication is already well known, and its description is omitted. The first port position information sending part  14  may include a sending device (e.g., a modem or a network card) for making the sending, or may not include it (in this case, the sending device, not shown, exists between the first port position information sending part  14  and the communication circuit  100 ). Also, the first port position information sending part  14  may be realized by hardware, or by software such as a driver for driving the sending device. 
     In the case where any two or more components of the request information sending part  11 , the first port position information receiving part  12 , the first communication part  13 , and the first port position information sending part  14  have devices for communication, they may be the same means or separate means. 
       FIG. 3  is a block diagram showing the configuration of the second information processing apparatus  2  according to this embodiment. In  FIG. 3 , the second information processing apparatus  2  according to this embodiment comprises a second port position information receiving part  21  and a second communication part  22 . The second information processing apparatus  2  may be a computer, a microwave oven, a telephone set, a printer, a facsimile apparatus, a refrigerator, a washing machine, an air conditioner, a television, a video recorder, or a set top box, for example, and take any form as far as it has the following components. 
     The second port position information receiving part  21  receives port position information transmitted from the first information processing apparatus  1 . This port position information may be directly transmitted from the first information processing apparatus  1 , or transmitted via a predetermined server. The second port position information receiving part  21  may include a receiving device (e.g., a modem or a network card) for making the reception, or may not include it (in this case, the receiving device, not shown, exists between the second port position information receiving part  21  and the communication circuit  100 ). Also, the second port position information receiving part  21  may be realized by hardware, or by software such as a driver for driving the receiving device. 
     The second communication part  22  communicates with one processing server via the connection port indicated by the port position information received by the second port position information receiving part  21 . Since the processing server with which the second communication part  22  communicates is also the processing server with which the first communication part  13  of the first information processing apparatus  1  communicates, the first communication part  13  and the second communication part  22  can perform some process, for example, a process for establishing the peer-to-peer communication, or an interactive online game process via the processing server. 
     In the case where the second port position information receiving part  21  and the second communication part  22  have devices for communication, they may be the same means or separate means. 
       FIG. 4  is a block diagram showing the configuration of the processing server  41  according to this embodiment. In  FIG. 4 , the processing server  41  according to this embodiment comprises a communication part  411  and a processing part  421 . 
     The communication part  411  communicates with the connection server  3 . The communication part  411  may include a communication device (e.g., a modem or a network card) for making the communication, or may not include it (in this case, the communication device, not shown, exists between the communication part  411  and the communication circuit  200 ). Also, the communication part  411  may be realized by hardware, or by software such as a driver for driving the communication device. 
     The processing part  421  performs a process according to a processing request transmitted from the information processing apparatus. For example, in the case where the processing server  41  is a web server, it may perform a process for sending an HTTP response to an HTTP request transmitted from the information processing apparatus. Also, in the case where the processing server  41  is a server that makes a process for establishing the peer-to-peer communication between the first information processing apparatus  1  and the second information processing apparatus  2 , it relays the information between the first information processing apparatus  1  and the second information processing apparatus  2 , or exchanges the information between the first information processing apparatus  1  and the second information processing apparatus  2 . The processing contents of the processing part  421  are different depending on the function of the processing server  41 . 
     Similarly, the other processing server  4 N comprises a communication part  41 N and a processing part  42 N. Where “N” is any integer from 2 to 5. 
     Referring to a flowchart of  FIG. 5 , the operation of the connection server  3  according to this embodiment will be described below. 
     (Step S 101 ) It is judged whether or not the receiving part  31  receives request information transmitted to the load sharing port. And if the request information is received, the operation goes to step S 102 , or if not, the operation goes to step S 104 . 
     (Step S 102 ) The load sharing part  32  allocates the information processing apparatus that transmits the request information received at step S 101  to any one of the five processing servers  41  to  45 . 
     (Step S 103 ) The sending part  33  sends the port position information indicating the position of connection port corresponding to the processing server allocated at step S 102  to the information processing apparatus that transmits the request information received at step S 101 . And the operation returns to step S 101 . 
     (Step S 104 ) It is judged whether or not the connection part  34  receives information of processing request transmitted from the information processing apparatus to the connection port. And if the information of processing request is received, the operation goes to step S 105 , or if not, the operation goes to step S 106 . 
     (Step S 105 ) The connection part  34  sends the information regarding the processing request received at step S 104  to the processing server corresponding to the connection port that receives the information regarding the processing request. And the operation returns to step S 101 . 
     (Step S 106 ) It is judged whether or not the connection part  34  receives information of processing result according to the processing request from any of the processing servers  41  to  45 . And if the information of processing result is received, the operation goes to step S 107 , or if not, the operation returns to step S 101 . 
     (Step S 107 ) The connection part  34  sends the information of processing result received at step S 106  to the information processing apparatus that is destination to send the information. And the operation returns to step S 101 . 
     In the flowchart of  FIG. 5 , the process is ended due to an interruption of power off or processing end. 
     Referring to a flowchart of  FIG. 6 , the operation of the first information processing apparatus  1  according to this embodiment will be described below. 
     (Step S 201 ) It is judged whether or not the request information sending part  11  sends request information. And if the request information is sent, the operation goes to step S 202 , or if not, the processing at step S 201  is repeated until it is judged that the request information is sent. It may be judged that the request information sending part  11  sends the request information with a predetermined event as a trigger, or at an appropriate timing, for example. As the predetermined event, for example, the user presses a button of the first information processing apparatus  1 , an application program executed by the processing part, not shown, in the first information processing apparatus  1  requires the processing in the processing server and an instruction of sending the request information is passed to the request information sending part  11 , or any other event. 
     (Step S 202 ) The request information sending part  11  sends the request information to the load sharing port of the connection server  3 . The address of the connection server  3  and the position of the load sharing port may be preset in the request information sending part  11 , or received from the other component by the request information sending part  11  at the time of sending the request information. 
     (Step S 203 ) It is judged whether or not the first port position information receiving part  12  receives the port position information. And if the port position information is received, the operation goes to step S 204 , or if not, a processing at step S 203  is repeated until the port position information is received. 
     (Step S 204 ) The first port position information sending part  14  sends the port position information received by the first port position information receiving part  12  to the second information processing apparatus  2 . 
     (Step S 205 ) The first communication part  13  makes the communication with the processing server via the connection port indicated by the port position information received by the first port position information receiving part  12 . If the communication with the processing server is ended, the operation returns to step S 201 . 
     In the flowchart of  FIG. 6 , the process is ended due to an interruption of power off or processing end. Also, the first information processing apparatus  1  may perform any other process than the process as shown in  FIG. 6 . For example, when a peer-to-peer communication with the second information processing apparatus  2  is established in the communication with the processing server at step S 205 , a communication process with the second information processing apparatus  2  may be performed through the peer-to-peer communication. 
     Referring to a flowchart of  FIG. 7 , the operation of the second information processing apparatus  2  according to this embodiment will be described below. 
     (Step S 301 ) It is judged whether or not the second port position information receiving part  21  receives the port position information. And if the port position information is received, the operation goes to step S 302 , or if not, a processing at step S 301  is repeated until the port position information is received. 
     (Step S 302 ) The second communication part  22  makes the communication with the processing server via the connection port indicated by the port position information received by the second port position information receiving part  21 . This processing server is the same processing server which the first information processing apparatus  1  makes the communication with. If the communication with the processing server is ended, the operation returns to step S 301 . 
     In the flowchart of  FIG. 7 , the process is ended due to an interruption of power off or processing end. Also, the second information processing apparatus  2  may perform any other process than the process as shown in  FIG. 7 . For example, when a peer-to-peer communication with the first information processing apparatus  1  is established in the communication with the processing server at step S 302 , a communication process with the first information processing apparatus  1  may be performed through the peer-to-peer communication. 
     Next, the operation of the communication system according to this embodiment will be described below using a specific example. In this specific example, the IP addresses of each apparatus and each server are as follows. 
     First information processing apparatus  1 : 155.32.10.10 
     Second information processing apparatus  2 : 202.132.10.6 
     Connection server  3  (on the side of communication circuit  100 ): 202.224.135.10 
     Connection server  3  (on the side of communication circuit  200 ): 192.168.0.1 
     Processing server  41 : 192.168.0.11 
     Processing server  42 : 192.168.0.12 
     Processing server  43 : 192.168.0.13 
     Processing server  44 : 192.168.0.14 
     Processing server  45 : 192.168.0.15 
     Also, the port number of the load sharing port is “ 9500 ”, and the port number of the connection port is from “ 10001 ” to “ 10050 ”. Also, the correspondence between the processing servers  41  to  45  and the connection port is shown in  FIG. 8 . For example, the processing server  41  corresponds to the connection port from port number  10001  to  10010 . In the following description, for example, the port of port number  10001  is often called the port  10001 . 
     Also, the processing servers  41  to  45  are servers for performing the process regarding an interactive online game performed between the first information processing apparatus  1  and the second information processing apparatus  2 . 
     First of all, the request information sending part  11  of the first information processing apparatus  1  constructs a packet of request information in accordance with an instruction from the user, and sends the packet of request information to the preset IP address “202.224.135.10” and load sharing port “ 9500 ” of the connection server  3  (steps S 201  and S 202 ). It is assumed that the packet of request information is transmitted from the port  12345  of the first information processing apparatus  1 . It is also assumed that the packet type identification information indicating the packet of request information is included in the payload of the packet of request information, as shown in  FIG. 9 . 
     The packet of request information is received by the receiving part  31  (step S 101 ). The load sharing part  32  allocates the processing server upon receiving the packet of request information. Herein, it is assumed that the load sharing part  32  allocates the processing server  41  by round robin (step S 102 ). The load processing part  32  passes an indication of allocating the processing server  41  to the sending part  33 . 
     It is assumed that the connection server  3  has a table as shown in  FIG. 8 . Then, the sending part  33  constructs a packet of port position information indicating the port number “ 10003 ” of one connection port  10003  selected randomly from among the connection ports  10001  to  10010  corresponding to the processing server  41  by referring to the table, and sends the packet of port position information to the source of the packet of request information received by the receiving part  31  (step S 103 ). The address “155.32.10.10” and the port number “ 12345 ” of the source of the packet of request information can be acquired from the header of the packet of request information. 
     The packet of port position information is received by the first port position information receiving part  12  of the first information processing apparatus  1  (step S 203 ). And the received port position information is sent from the first port position information sending part  14  to the second information processing apparatus  2  (step S 204 ). This sending is made via an SIP server, not shown, connected to the communication circuit  100 . The first information processing apparatus  1  and the second information processing apparatus  2  register the apparatus identification information that is information for identifying. the apparatus, and the IP address and port number, in the SIP server, using a register function of the SIP server. And the sending of the port position information from the first information processing apparatus  1  to the second information processing apparatus  2  is made using a proxy function of the SIP server. A process for relaying the information via the SIP server is already well known, and is not described here. Also, the port position information to be sent from the first information processing apparatus  1  to the second information processing apparatus  2  may be sent via two or more servers, for example, two or more SIP (SIP proxy) servers. 
     It is assumed that the first communication part  13  sends a packet of processing request regarding the interactive online game to the port number “ 10003 ” included in the port position information received by the first port position information receiving part  12 . Herein, the destination address of the packet of processing request is the address “202.224.135.10” on the side of the communication circuit  100  in the connection server  3 . Also, it is assumed that the packet of processing request is sent from the port  12345  of the first information processing apparatus  1 . 
     The connection part  34  has a translation table for the connection between the information processing apparatus and the processing server as shown in  FIG. 10 . In this translation table, the port number of connection port, the IP address of the processing server of destination and the port number of the processing server of destination are associated. In receiving a packet sent to the certain connection port, the connection part  34  changes the IP address and port number of destination included in the header of the packet to the IP address and port number of the processing server corresponding to the connection port in the translation table of  FIG. 10  and sends the packet. In this case, the connection part  34  does not change the IP address and port number of source included in the header of the packet. On the other hand, in receiving a packet sent from the processing server, the connection part  34  converts the IP address and port number of the source of the packet to the IP address “202.224.135.10” on the side of the communication circuit  100  in the connection server  3  and the port number of the connection port associated with the port of the processing server in the translation table of  FIG. 10  and sends the packet. 
     Specifically, in receiving the packet of processing request transmitted from the first information processing apparatus  1  to the connection port  10003  (step S 104 ), the connection part  34  converts the IP address and port number of destination of the packet of processing request to the IP address “192.168.0.11” and post number “ 20003 ” of the processing server corresponding to the port number “ 10003 ” of the connection port by referring to the translation table of  FIG. 10  and sends the packet (step S 105 ). The packet is received at the port  20003  of the processing server  41 . And the processing part  421  of the processing server  41  performs the processing in accordance with the processing request included in the packet of processing request, and sends a packet of processing request including the processing result to the IP address “155.32.10.10” and port number “ 12345 ” of the source of the packet of processing request. 
     The packet of processing result is received by the connection part  34  (step S 106 ), and the IP address “192.168.0.11” and port number “ 20003 ” of source included in the header of the packet are converted into the IP address “202.224.135.10” on the side of the communication circuit  100  in the connection server  3  and the port number “ 10003 ” of the connection port corresponding to the IP address “192.168.0.11” and port number “ 20003 ” of source in accordance with the translation table of  FIG. 10  and sent to the first information processing apparatus  1  (step S 107 ). In this case, the IP address and port number of destination included in the packet of processing result are not converted. 
     The packet of processing result is received by the first communication part  13  of the first information processing apparatus  1 . In this manner, the communication between the first information processing apparatus  1  and the processing server  41  is made (step S 205 ). 
     The port position information transmitted from the first information processing apparatus  1  to the second information processing apparatus  2  via the SIP server, not shown, is received by the second port position information receiving part  21  of the second information processing apparatus  2  (step S 301 ). And the communication is also made via the connection part  34  between the second communication part  22  of the second information processing apparatus  2  and the processing server  41  in the same manner as above described (step S 302 ). The communication is also made via the connection port  10003 . In this manner, the first information processing apparatus  1  and the second information processing apparatus  2  can make the interactive online game using the processing server  41 . 
     Though the interactive online game is performed using the processing server in this specific example, other processes may be made using the processing server. For example, a process for establishing the peer-to-peer communication between the first information processing apparatus  1  and the second information processing apparatus  2  may be made, or the data relay of moving picture data, voice data or application software data may be made. Also, after the first information processing apparatus  1  and the second information processing apparatus  2  make access to the same processing server, the first information processing apparatus  1  and the second information processing apparatus  2  may make the communication via the processing server. Or each of the first information processing apparatus  1  and the second information processing apparatus  2  may make some processing with the processing server. 
     As described above, with the communication system according to this embodiment, the load sharing is made in the connection server  3 , and the information processing apparatus and the processing server are connected via the connection port corresponding to the processing server allocated by the load sharing, whereby the information processing apparatus other than the information processing apparatus making the request for load sharing have access to the same processing server via the connection port as the information processing apparatus making the request for load sharing. 
     In this manner, since two or more information processing apparatuses have access to the same processing server, the processing load on plural processing servers can be reduced. For example, if the first information processing apparatus  1  gains access to the processing server  41 , and the second information processing apparatus  2  gains access to the processing server  42 , a process for passing data from the processing server  41  to the processing server  42  is required in making the data relay from the first information processing apparatus  1  to the second information processing apparatus  2  via the processing servers, whereby the processing load on the processing server is further increased. On the other hand, supposing that each of the first information processing apparatus  1  and the second information processing apparatus  2  gains access to the processing server  41 , the data relay from the first information processing apparatus  1  to the second information processing apparatus  2  can be made via only the processing server  41 , whereby a process for passing data from one processing server to another can be dispensed with, so that the processing load on the processing servers  41  and  42  is reduced. 
     Also, the connection part  34  can connect the information processing apparatus and the processing server in accordance with the table having predetermined records for associating the connection port and the processing server, as shown in the translation table of  FIG. 10  in the above specific example. In the process for session maintenance using the IP address in the conventional example, the number of records in the translation table for use to connect the information processing apparatus and the processing server was proportional to the number of sessions that are maintained. Accordingly, if the number of sessions is increased, the number of records in the translation table is greater, so that the connection load between the information processing apparatus and the processing server is greater. On the contrary, the process in the connection part  34  as described in the above specific example is made using the same translation table, regardless of the number of sessions, whereby the process in the connection part  34  can be lighter than the conventional example. 
     In this embodiment, in the case where two or more connection ports correspond to the processing server, the sending part  33  selects one connection port from among the two or more connection ports, and sends the port position information indicating the position of the connection port as one example. However, the connection port may be selected by other than the sending part  33 . For example, a process for selecting one connection port from among two or more connection ports may be made by the load sharing part  32 . Also, in the case where two or more connection ports correspond to the processing server, for example, the sending part  33  may send the port position information indicating the positions of the two or more connection ports to the information processing apparatus, and select one connection port from among the two or more connection ports in the information processing apparatus. 
     While in this embodiment the information processing apparatus and the processing server are connected using the table as shown in  FIG. 10 , the connection part  34  may connect the information processing apparatus and the processing server using information that is not in the table format. That is, the connection part  34  may connect the information processing apparatus and the processing server using the predetermined correspondent information for associating the connection port and the processing server. 
     (Embodiment 2) 
     A communication system according to an embodiment 2 of the invention will be described below with reference to the drawings. The communication system according to this embodiment sends the port position information from each processing server. 
       FIG. 11  is a diagram showing the configuration of the communication system according to this embodiment. In  FIG. 11 , the communication system according to the embodiment comprises a first information processing apparatus  1 , a second information processing apparatus  2 , a connection server  5 , and five processing servers  61 ,  62 ,  63 ,  64  and  65 . The configuration of the communication system other than the connection server  5  and the five processing servers  61  to  65  is the same as in the embodiment 1, and not described here. 
     The connection server  5  according to this embodiment connects the information processing apparatus and any one of the five processing servers  61  to  65 , and comprises a connection part  34 , a first receiving part  51 , a load sharing part  52 , a first sending part  53 , a second receiving part  54  and a second sending part  55 . The configuration and operation of the connection part  34  are the same as in the embodiment 1, and not described here. 
     The first receiving part  51  receives request information transmitted from the information processing apparatus to a load sharing port of the connection server  5 . Herein, the request information is the same as in the embodiment 1. The first receiving part  51  may include a receiving device (e.g., a modem or a network card) for making the reception, or may not include it (in this case, the receiving device, not shown, exists between the receiving part  51  and the communication circuit  100 ). Also, the first receiving part  51  may be realized by hardware, or by software such as a driver for driving the receiving device. 
     The load sharing part  52 , like the load sharing part  32  of the embodiment 1, allocates the information processing apparatus that is a source of the request information received by the first receiving part  51  to any of the five processing servers  61  to  65 . 
     The first sending part  53  sends the request information received by the first receiving part  51  to the processing server allocated by the load sharing part  52 . The first sending part  53  may include a sending device (e.g., a modem or a network card) for making the sending, or may not include it (in this case, the sending device, not shown, exists between the first sending part  53  and the communication circuit  200 ). Also, the first sending part  53  may be realized by hardware, or by software such as a driver for driving the sending device. 
     The second receiving part  54  receives the port position information sent from the processing server. Herein, the port position information is information indicating the position of connection port as in the embodiment 1. The connection port indicated by this port position information is the connection port corresponding to the processing server that sends the post position information. The second receiving part  54  may include a receiving device (e.g., a modem or a network card) for making the reception, or may not include it (in this case, the receiving device, not shown, exists between the second receiving part  54  and the communication circuit  200 ). Also, the second receiving part  54  may be realized by hardware, or by software such as a driver for driving the receiving device. 
     The second sending part  55  sends the port position information received by the second receiving part  54  to the information processing apparatus that is the source of the request information. The second sending part  55  may include a sending device (e.g., a modem or a network card) for making the sending, or may not include it (in this case, the sending device, not shown, exists between the second sending part  55  and the communication circuit  100 ). Also, the second sending part  55  may be realized by hardware, or by software such as a driver for driving the sending device. 
     In the case where any two or more components of the connection part  34 , the first receiving part  51  and the second sending part  55  have devices for communication, they may be the same means or separate means. 
     Also, in the case where any two or more components of the connection part  34 , the first sending part  53  and the second receiving part  54  have devices for communication, they may be the same means or separate means. 
       FIG. 12  is a block diagram showing the configuration of the processing server  61  according to this embodiment. In  FIG. 12 , the processing server  61  according to this embodiment comprises a communication part  411 , a processing part  421 , a request information receiving part  611 , a port position information storage part  621 , and a port position information sending part  631 . The configuration and operation of the communication part  411  and the processing part  421  are the same as in the embodiment 1, and not described here. 
     The request information receiving part  611  receives the request information sent from the connection server  3 . The request information receiving part  611  may include a receiving device (e.g., a modem or a network card) for making the reception, or may not include it (in this case, the receiving device, not shown, exists between the request information receiving part  611  and the communication circuit  200 ). Also, the request information receiving part  611  may be realized by hardware, or by software such as a driver for driving the receiving device. 
     The port position information storage part  621  stores the port position information. Herein, the port position information stored in the port position information storage part  621  is information indicating the position of one or more connection ports corresponding to the processing server  61 . The port position information storage part  621  is realized by a predetermined recording medium (e.g., a semiconductor memory, a magnetic disk or an optical disk). The port position information storage part  621  may or may not temporarily store the port position information. In the former case, the port position information storage part  621  may be a buffer memory or the like that acquires and temporarily stores the port position information held in a predetermined server or the like. 
     The port position information sending part  631  sends the port position information stored in the port position information storage part  621  to the connection server  5 , when the request information receiving part  611  receives the request information. In the case where the port position information storage part  621  stores the port position information indicating the position of two or more ports, the port position information sending part  631  may send the port position information indicating the position of all the two or more ports, or select one port from among the two or more ports and send the port position information indicating the position of the selected port. In the embodiment, the latter case will be described below. The port position information sending part  631  may include a sending device (e.g., a modem or a network card) for making the sending, or may not include it (in this case, the sending device, not shown, exists between the port position information sending part  631  and the communication circuit  200 ). Also, the port position information sending part  631  may be realized by hardware, or by software such as a driver for driving the sending device. 
     In the case where any two or more components of the communication part  411 , the request information receiving part  611  and the port position information sending part  631  have devices for communication, they may be the same means or separate means. 
     Similarly, it is assumed that the other processing server  6 N comprises a communication part  41 N, a processing part  42 N, a request information receiving part  61 N, a port position information storage part  62 N, and a port position information sending part  63 N. Where “N” is any integer from 2 to 5. Also, the port position information stored in the port position information storage part  62 N is information indicating the position of one or more connection ports corresponding to the processing server  6 N. 
     Referring to a flowchart of  FIG. 13 , the operation of the connection server  5  according to this embodiment will be described below. In the flowchart of  FIG. 13 , the process from step S 104  to step S 107  is the same as in the flowchart of  FIG. 5  in the embodiment 1, and not described here. 
     (Step S 401 ) It is judged whether or not the first receiving part  51  receives request information. And if the request information is received, the operation goes to step S 402 , or if not, the operation goes to step S 104 . 
     (Step S 402 ) The load sharing part  52  allocates the information processing apparatus that transmits the request information received at step S 401  to any one of the five processing servers  61  to  65 . 
     (Step S 403 ) The first sending part  53  sends the request information received at step S 401  to the processing server allocated by the load sharing part  52 . 
     (Step S 404 ) It is judged whether or not the second receiving part  54  receives port position information from the processing server to which the request information is sent at step S 403 . And if the port position information is received, the operation goes to step S 405 , or if not, the operation repeats the processing at step S 404  until the port position information is received. 
     (Step S 405 ) The second sending part  55  sends the port position information received by the second receiving part  54  to the information processing apparatus. This information processing apparatus is the information processing apparatus that transmits the request information received by the first receiving part  51  at step S 401 . And the operation returns to step S 401 . 
     In the flowchart of  FIG. 13 , the process is ended due to an interruption of power off or processing end. 
     Referring to a flowchart of  FIG. 14 , the operation of the processing server  61  according to this embodiment will be described below. 
     (Step S 501 ) It is judged whether or not the request information receiving part  611  receives request information. And if the request information is received, the operation goes to step S 502 , or if not, the operation goes to step S 504 . 
     (Step S 502 ) The port position information sending part  631  reads the port position information stored in the port position information storage part  621 . 
     (Step S 503 ) The port position information sending part  631  sends the read port position information. This sending destination is the information processing apparatus that is the source of the request information. In the case where the port position information stored in the port position information storage part  621  is information indicating the position of two or more connection ports, one connection port may be selected from among the two or more connection ports, and the port position information indicating the position of the selected connection port may be sent, as previously described. And the operation returns to step S 501 . 
     (Step S 504 ) It is judged whether or not the communication part  411  receives information of processing request. And if the information of processing request is received, the operation goes to step S 505 , or if not, the operation returns to step S 501 . 
     (Step S 505 ) The processing part  421  performs the processing according to the information of processing request received by the communication part  411  at step S 504 . 
     (Step S 506 ) The communication part  411  sends information regarding the processing result obtained at step S 505 . This sending destination is the information processing apparatus that is the source of the information of processing request. And the operation returns to step S 501 . The sending destination of the information regarding the processing result may not be the information processing apparatus that is the source of the information of processing request. For example, the communication part  411  may send the information regarding the processing result to another information processing apparatus. Or if it is not required to send the information regarding the processing result, the communication part  411  does not need to perform the processing at step S 506 . 
     In the flowchart of  FIG. 14 , the process is ended due to an interruption of power off or processing end. 
     For other processing servers  62  to  65 , the same process as shown in the flowchart of  FIG. 14  is performed. 
     Next, the operation of the communication system according to this embodiment will be described below using a specific example. In this specific example, the IP addresses of each apparatus and each server are the same as in the specific example of the embodiment 1. Needless to say, the connection server  3  corresponds to the connection server  5 , and the processing servers  41  to  45  correspond to the processing servers  61  to  65 . Also, the settings of the load sharing port and the connection port are the same as in the specific example of the embodiment 1. That is, the connection ports correspond to the processing servers as shown in the table of  FIG. 8 , and the connection part  34  establishes the connection between the information processing apparatus and the processing server using the translation table as shown in  FIG. 10 . 
     Also, the first sending part  53  has an address table that associates the processing server and the address of the processing server as shown in  FIG. 15 . The first sending part  53  acquires the address corresponding to the processing server allocated by the load sharing part  52  from the address table, and sends request information received by the first receiving part  51  to the address. The port number of the destination of the request information is set to “ 20000 ”. 
     Also, the port position information storage parts  621  to  625  of the processing servers  61  to  65  store the port position information indicating the corresponding port numbers as follows. 
     Port position information storage part  621 :  10001  to  10010   
     Port position information storage part  622 :  10011  to  10020   
     Port position information storage part  623 :  10021  to  10030   
     Port position information storage part  624 :  10031  to  10040   
     Port position information storage part  625 :  10041  to  10050   
     First of all, the request information sending part  11  of the first information processing apparatus  1  sends a packet of request information to the connection server  5  in the same manner as in the specific example of the embodiment 1 (steps S 201  and S 202 ). The request information is received by the first receiving part  51  of the connection server  5  (step S 401 ). The processing server  61  is allocated by the load sharing part  52  (step S 402 ). The first sending part  53  acquires the IP address “192.168.0.11” corresponding to the processing server  61  allocated by the load sharing part  52  from the address table as shown in  FIG. 15 , and sends the packet of request information received by the first receiving part  51  to the IP address “192.168.0.11” and the port number “ 20000 ” (step S 403 ). In this case, the source address “155.32.10.10” and the source port number “ 12345 ” for the packet of request information are not changed. 
     The packet of request information is received by the request information receiving part  611  of the processing server  61  (step S 501 ). The port position information sending part  631  reads ten port numbers “ 10001  to  10010 ” stored in the port position information storage part  621 , and selects the port number “ 10003 ” from the ten port numbers (step S 502 ). And the packet of port position information indicating the port number “ 10003 ” is constructed, and sent to the first information processing apparatus  1  that is the source of the packet of request information (step S 503 ). The address “155.32.10.10” and the port number “ 12345 ” of the first information processing apparatus  1  can be acquired from the header of the packet of request information received by the request information receiving part  611 . 
     The packet of port position information sent from the processing server  61  is received by the second receiving part  54  and passed to the second sending part  55  (step S 404 ). The second sending part  55  converts the address and port number of the source included in the header of the packet of port position information from the address and port number of the processing server  61  to the address “202.223.135.10” and the port number “ 9500 ” of the connection server  5 . And the packet of port position information is sent to the first information processing apparatus  1  (step S 405 ). 
     The packet of port position information sent from the connection server  5  is received by the first port position information receiving part  12  of the first information processing apparatus  1  (step S 203 ). Thereafter, the port position information is sent to the second information processing apparatus  2 . The operation of the first information processing apparatus  1  and the second information processing apparatus  2  to perform the processes with the processing server  61  is the same as in the specific example of the embodiment 1 and not described here. 
     As described above, in the communication system according to the embodiment, the port position information can be sent from the processing server, whereby the processing load on the connection server  5  can be reduced. Also, the same effect of the embodiment 1 can be obtained. 
     While in this embodiment, the connection server  5  performs the transfer process for the request information and the port position information between the processing server and the information processing apparatus using the first receiving part  51 , the first sending part  53 , the second receiving part  54  and the second sending part  55 , and the transfer process for the processing request or processing result between the processing server and the information processing apparatus using the connection part  34 , these transfer processes may be performed using the same device for address translation (NAT), or performed by the separate devices. 
     Also, in this embodiment, when the port position information storage part  621  stores the port position information indicating the position of two or more connection ports, the port position information sending part  631  selects one connection port from among the two or more connection ports, and sends the port position information indicating the position of the selected connection port. However, the selection of the connection port may be made by the component other than the port position information sending part  631 . For example, when the connection server  5  receives the port position information indicating the position of the two or more connection ports, which is sent from the processing server  61 , one connection port may be selected in the connection server  5 , or one connection port may be selected in the information processing apparatus. 
     Also, though in the above embodiments, the communication system comprises the second information processing apparatus  2 , the communication system may not have the second information processing apparatus  2 . In this case, for example, the five processing servers may be web servers, and the first information processing apparatus  1  may be a terminal unit that makes access to the web server. Also, in this case, the first information processing apparatus  1  may not have the first port position information sending part  14  for sending the port position information to the second information processing apparatus  2 . 
     Also, in the above embodiments, the first information processing apparatus  1  and/or the second information processing apparatus  2  may make the communication via a communication processing apparatus for making the process for communication. Herein, the communication processing apparatus may have an address translation function, or a fire wall function, for example. 
     Also, though in the above embodiments, the number of processing servers is five, the number of processing servers may be any number of two or greater. 
     Also, though in the above embodiments, the connection server and the processing server are connected via the LAN, the connection between the connection server and the processing server is not limited to the LAN. For example, the connection server and plural processing servers may be directly connected without interposing the network such as the LAN. That is, the connection server and the processing servers may be connected in such a form that the connection server and each processing server can communicate, but the processing servers can not communicate. Also, the connection server and plural processing servers may communicate by connecting them via the serial cable or any other dedicated cable without using the IP address, for example. Also, though in the specific examples of the above embodiments, the communication between the connection server and the processing server is made using the port number on the transport layer and the IP address on the network layer, the invention is not limited to such communication. For example, the communication may be made using the MAC address on the data link layer. In this manner, any method for exchanging information between the connection server and the processing server may be employed. 
     Also, the connection method between the information processing apparatus and the processing server via the connection part  34  in the above embodiments is not limited to those as described above in the specific examples, but any connection method may be employed as far as the connection port and the processing server corresponding to the connection port can be connected. For example, the port number may be also set on the side of the communication circuit  200  of the connection part  34 , and the connection part  34  may convert not only the destination address of the packet sent from the communication circuit  100  to the connection part and the port number of the destination but also the source address and the port number of the source. In this case, the communication is made between the information processing apparatus and the processing server in the same manner as the data relay is performed via the connection server. In the case where the connection server and the processing server are connected via the serial cable, a connection process between the information processing apparatus and the processing server may be performed according to its own protocol in the connection server. For example, a process for deleting the header from the packet may be performed. 
     Also, though in the above embodiments the two information processing apparatuses gains access to the processing server allocated by load sharing, three or more information processing apparatuses may gain access to the processing server allocated by load sharing. For example, if the first information processing apparatus  1  transmits the port position information to other two or more information processing apparatuses, three or more information processing apparatuses have access to the same processing server. 
     Also, in the above embodiments, the packet of request information or the packet of processing request transmitted from the information processing apparatus may include the apparatus identification information that is information identifying the information processing apparatus or the information capable of specifying a pair of the information processing apparatus of source and the information processing apparatus of destination. In the latter case, the information capable of specifying the pair, and the address and port number of one information processing apparatus and the address and port number of the other information processing apparatus may be held associated in the processing server. In this manner, the structure of the packet does not matter in the above embodiments. 
     Also, in the above embodiments, the packet sent from the processing server to the information processing apparatus may include the port position information indicating the position of connection port corresponding to the processing server. For example, the packet sent from the processing server to the information processing apparatus may include the port position information every time, or a certain percent of packets sent from the processing server to the information processing apparatus may include the port position information. 
     Also, in the above embodiments, the request information may include information on the request for processing performed in the processing server. For example, in the embodiment 1, the communication part, not shown, which the connection server  3  has, sends the information on the request for processing to the processing server allocated by the load sharing part  32 . The processing server performs the processing according to the information on the request for processing, and sends the execution result to the connection server  3 . The connection server  3  sends the execution result and the port position information to the information processing apparatus. Also, in the embodiment 2, the first sending part  53  of the connection server  5  sends the request information including the information on the request for processing to the processing server allocated by the load sharing part  52 . The processing server performs the processing according to the information on the request for processing, and sends the execution result and the port position information to the connection server  5 . The connection server  5  sends the execution result of the processing in the processing server and the port position information to the information processing apparatus. In this manner, the processing according to the information on the request for processing included in the request information is performed by the processing server. In this case, the request information may include only the information on the request for processing in the processing server. The information on the request for processing at the second time and following is sent to the connection port indicated by the port position information. In this case, the request information sending part  11  and the first communication part  13  of the first information processing apparatus  1  may be the same component. 
     Also, in the above embodiments, each process (each function) may be centralized on the single apparatus (system), or each process may be decentralized over plural apparatuses. For example, in the above embodiments, the load sharing process is performed in the connection server having the load sharing port, but the load sharing process may be performed in a different apparatus from the connection server. That is, the following information processing method may be performed in the information processing system or the communication system. Namely, this information processing method is an information processing method for use in an information processing system having N processing servers (N is an integer of 2 or greater) and a connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, and the connection server establishes a connection between the connection port and the processing server corresponding to the connection port, the method comprising a reception step of receiving request information that is information regarding a request for load sharing, which is sent from the information processing apparatus, a load sharing step of allocating the information processing apparatus that is a source of the request information received at the reception step to any of the N processing servers, and a sending step of sending port position information that is information indicating the position of the connection port corresponding to the processing server allocated at the load sharing step to the information processing apparatus. 
     Also, another information processing method is an information processing method for use in a connection server making up an information processing system having N processing servers (N is an integer of 2 or greater) and the connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, the method comprising a reception step of receiving request information that is information regarding a request for load sharing, which is sent from the information processing apparatus to a load sharing port of the connection server, a load sharing step of allocating the information processing apparatus that is a source of the request information received at the reception step to any of the N processing servers, a sending step of sending port position information that is information indicating the position of the connection port corresponding to the processing server allocated at the load sharing step to the information processing apparatus, and a connection step of establishing a connection between the connection port and the processing server corresponding to the connection port. 
     Also, another information processing method is an information processing method for use in a connection server making up an information processing system having N processing servers (N is an integer of 2 or greater) and the connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, the method comprising a first reception step of receiving request information that is information regarding a request for load sharing, which is sent from the information processing apparatus to a load sharing port of the connection server, a load sharing step of allocating the information processing apparatus that is a source of the request information received at the first receiving step to any of the N processing servers, a first sending step of sending the request information to the processing server allocated at the load sharing step, a second reception step of receiving port position information that is information indicating the position of the connection port corresponding to the processing server and sent from the processing server, a second sending step of sending the port position information received at the second reception step to the information processing apparatus that is the source of the request information, and a connection step of establishing a connection between the connection port and the processing server corresponding to the connection port. 
     Also, another information processing method is an information processing method for use in any processing server making up an information processing system having N processing servers (N is an integer of 2 or greater) and a connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, the method comprising a request information reception step of receiving the request information that is information regarding a request for load sharing, which is sent via the connection server from the information processing apparatus, and a port position information sending step of sending the port position information that is information indicating the position of one or more connection ports corresponding to the processing server to the connection server when the request information is received at the request information reception step. 
     Also, another information processing apparatus is an information processing method for use in a first information processing apparatus making up a communication system having N processing servers (N is an integer of 2 or greater), a connection server for connecting an information processing apparatus and any one of the N processing servers, and the first information processing apparatus, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, the method comprising a request information sending step of sending the request information that is information regarding a request for load sharing to the connection server, a port position information reception step of receiving the port position information that is information indicating the position of one or more connection ports corresponding to the processing server allocated in the connection server, and a communication step of communicating with one processing server via a connection port indicated by the port position information received at the port position information reception step. 
     Also, in the above embodiments, each component may be configured by the dedicated hardware, or the component feasible by software may be implemented by executing a program. For example, a software program recorded on the recording medium such as a hard disk or a semiconductor memory is read and executed by a program execution part such as a CPU to implement each component. The software for implementing an information processing system in the above embodiments is the following program. Namely, this program is a program for performing a process in an information processing system having N processing servers (N is an integer of 2 or greater) and a connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, and the connection server establishes a connection between the connection port and the processing server corresponding to the connection port, the program enabling a computer to perform a reception step of receiving request information that is information regarding a request for load sharing, which is sent from the information processing apparatus, a load sharing step of allocating the information processing apparatus that is a source of the request information received at the reception step to any of the N processing servers, and a sending step of sending port position information that is information indicating the position of the connection port corresponding to the processing server allocated at the load sharing step to the information processing apparatus. 
     Also, the software for implementing a connection server in the above embodiments is the following program. Namely, this program is a program for performing a process in a connection server making up an information processing system having N processing servers (N is an integer of 2 or greater) and the connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, the program enabling a computer to perform a reception step of receiving request information that is information regarding a request for load sharing, which is sent from the information processing apparatus to a load sharing port of the connection server, a load sharing step of allocating the information processing apparatus that is a source of the request information received at the reception step to any of the N processing servers, a sending step of sending port position information that is information indicating the position of the connection port corresponding to the processing server allocated at the load sharing step to the information processing apparatus, and a connection step of establishing a connection between the connection port and the processing server corresponding to the connection port. 
     Also, the software for implementing a connection server in the above embodiments is the following program. Namely, this program is a program for performing a process in a connection server making up an information processing system having N processing servers (N is an integer of 2 or greater) and the connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, the program enabling a computer to perform a first reception step of receiving request information that is information regarding a request for load sharing, which is sent from the information processing apparatus to a load sharing port of the connection server, a load sharing step of allocating the information processing apparatus that is a source of the request information received at the first reception step to any of the N processing servers, a first sending step of sending the request information to the processing server allocated at the load sharing step, a second reception step of receiving port position information that is information indicating the position of the connection port corresponding to the processing server and sent from the processing server, a second sending step of sending the port position information received at the second reception step to the information processing apparatus that is the source of the request information, and a connection step of establishing a connection between the connection port and the processing server corresponding to the connection port. 
     Also, the software for implementing a processing server in the above embodiments is the following program. Namely, this program is a program for performing a process in a processing server making up an information processing system having N processing servers (N is an integer of 2 or greater) and a connection server for connecting an information processing apparatus and any one of the N processing servers, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, the program enabling a computer to perform a request information reception step of receiving the request information that is information regarding a request for load sharing, which is sent via the connection server from the information processing apparatus, and a port position information sending step of sending the port position information that is information indicating the position of one or more connection ports corresponding to the processing server when the request information is received at the request information reception step. 
     Also, the software for implementing a first information processing apparatus in the above embodiments is the following program. Namely, this program is a program for performing a process in a first processing apparatus making up a communication system having N processing servers (N is an integer of 2 or greater), a connection server for connecting an information processing apparatus and any one of the N processing servers, and the first information processing apparatus, in which the connection ports that are a plurality of ports for the connection server correspond to the N processing servers for every one or more ports, the program enabling a computer to perform a request information sending step of sending the request information that is information regarding a request for load sharing to the connection server, a port position information reception step of receiving the port position information that is information indicating the position of one or more connection ports corresponding to the processing server allocated in the connection server, and a communication step of communicating with one processing server via a connection port indicated by the port position information received at the port position information reception step. 
     Each of the above programs does not include, at the sending step of sending the information or the reception step of receiving the information, a process performed by hardware, for example, a process through a modem or an interface card (a process performed only by hardware) at the sending step. 
     Also, the program may be downloaded from the server and executed, or the program recorded on a predetermined recording medium (e.g., an optical disk such as CD-ROM, a magnetic disk, or a semiconductor memory) may be read and executed. 
     Also, the program may be executed on a single computer or plural computers. That is, the process may be centralized or decentralized. 
     Also, this invention is not limited to the above embodiments, but various changes may be made without departing from the spirit or scope of the invention. 
     In the communication system according to the invention as described above, plural information processing apparatuses have access to one processing server, whereby the communication system is effective as the system for making the load sharing.