JP4643472B2 - Communication method, connection management server, and mobile phone - Google Patents

Description

  The present invention relates to a communication method, a connection management server, and a mobile phone.

In recent years, with the development of communication technology and downsizing of devices, so-called mobile computing is known in which a computer other than a fixed location is connected to another computer located remotely. . Such mobile computing requires a host-side communication device and a client-side communication terminal (see, for example, Patent Document 1). Here, there is a case where a so-called thin client terminal that is provided with only an input / output device without a storage area is used as a communication terminal on the client side.
JP 2003-22227 A

  When a thin client terminal is used as a communication terminal on the client side, there is an advantage that a communication system can be constructed at a low price, for example. However, since the thin client terminal located remotely from the host computer does not have a storage area inside, for example, when the user connects to the host computer through the thin client terminal, the connection address of the host computer on the communication network is set each time. There is a disadvantage that it is necessary to input, and is not convenient. In order to enhance this convenience, for example, if a storage area is provided in the thin client terminal, if the thin client terminal is lost or stolen, various information stored in the storage area leaks to the outside. There is a possibility.

  Therefore, the present invention has been made in view of the above, and a communication method that improves convenience when connecting to a host computer through a thin client terminal that does not have a storage area inside and is remotely located from the host computer, An object is to provide a connection management server and a mobile phone.

  In order to solve the above-described problem, the communication method of the present invention includes a first step in which mobile phone specifying information for specifying a mobile phone is transmitted from the mobile phone to the connection management server, and connection management in the first step. Based on the mobile phone specifying information received by the server, the connection destination address information on the communication network previously stored corresponding to the mobile phone specifying information is read, so that a storage area to which the client terminal can be connected is provided. A second step in which the host computer is specified by the connection management server; a third step in which the connection destination address information of the host computer specified in the second step is transmitted from the connection management server to the mobile phone; and the mobile phone and the client It is received by the mobile phone in the third step through the short-range communication means established between the terminals. The connection destination address information is transmitted from the mobile phone to the client terminal, and the client terminal and the host computer are connected to the communication network based on the connection destination address information received by the client terminal in the fourth step. And a fifth step connected at the same time.

  At this time, the connection management server stores in advance the connection destination address information on the communication network of the host computer having a storage area to which the client terminal can be connected in correspondence with the mobile phone specifying information for specifying the mobile phone. Means for identifying the host computer by reading the connection destination address information held in the storage means based on the mobile phone identification information received by the means, the receiving means for receiving the cellular phone identification information from the cellular phone And transmission means for transmitting the connection destination address information of the host computer specified by the specifying means to the mobile phone.

  At this time, the mobile phone is connected to a communication network of a host computer having a first storage means for transmitting mobile phone specifying information for specifying its own mobile phone to the connection management server and a storage area to which the client terminal can be connected. The connection destination address information received by the first reception means is transmitted to the client through the first reception means for receiving the connection destination address information from the connection management server and the short-range communication means established between the mobile phone and the client terminal. Second transmitting means for transmitting to the terminal.

  According to such a communication method, connection management server and mobile phone of the present invention, the specifying means of the connection management server specifies a host computer having a storage area to which the client terminal can be connected based on the mobile phone specifying information. Next, the transmission means of the connection management server transmits the connection destination address information on the communication network of the host computer to the mobile phone. And the 2nd transmission means of a mobile telephone transmits the connecting address information of the said host computer to a client terminal.

  Through such a series of operations, the client terminal can obtain the connection destination address information of the host computer to which the self terminal can connect, so the client terminal does not always store the connection destination address information of the host computer inside. The host computer can be easily accessed based on the connection destination address information of the host computer transmitted from the mobile phone at each connection.

  In addition, since a series of operations as described above are performed, the client terminal can be connected to the storage area of the host computer, so that the client terminal can be referred to without providing a storage area inside the own terminal. A large storage area can be secured outside.

  Further, the communication method of the present invention includes a first step in which mobile phone specifying information for specifying a mobile phone is transmitted from the mobile phone to the connection management server, and the mobile phone received by the connection management server in the first step. Based on the telephone identification information, the connection destination address information on the communication network stored in advance corresponding to the cellular telephone identification information is read, so that the client terminal has a storage area that can be connected via the cellular telephone. A second step in which the host computer is specified by the connection management server; a third step in which the first connection destination address information of the host computer specified in the second step is transmitted from the connection management server to the mobile phone; The second connection destination of the mobile phone through the short-range communication means established between the phone and the client terminal The sixth step in which the dress information is transmitted from the mobile phone to the client terminal, the first connection destination address information received in the mobile phone in the third step, and the second received in the client terminal in the sixth step And a seventh step in which the client terminal and the host computer are connected on the communication network via the mobile phone based on the connection destination address information.

  At this time, the connection management server stores in advance the connection destination address information on the communication network of the host computer having a storage area to which the client terminal can be connected in correspondence with the mobile phone specifying information for specifying the mobile phone. Means for identifying the host computer by reading the connection destination address information held in the storage means based on the mobile phone identification information received by the means, the receiving means for receiving the cellular phone identification information from the cellular phone And transmission means for transmitting the connection destination address information of the host computer specified by the specifying means to the mobile phone.

  At this time, the mobile phone is connected to a communication network of a host computer having a first storage means for transmitting mobile phone specifying information for specifying its own mobile phone to the connection management server and a storage area to which the client terminal can be connected. The first receiving means for receiving the first connection destination address information from the connection management server, and the short distance communication means established between the own mobile phone and the client terminal, the first on the communication network of the own mobile phone. A third transmission unit that transmits the second connection destination address information to the client terminal, and a first reception unit that receives data transmitted from the client terminal based on the second connection destination address information transmitted by the third transmission unit. Transfer means for transferring to the host computer based on the first connection destination address information.

  According to the communication method, the connection management server, and the mobile phone of the present invention, the host having the storage area to which the client terminal can connect via the mobile phone based on the mobile phone specifying information by the specifying means of the connection management server. Identify the computer. Next, the transmission means of the connection management server transmits the connection destination address information of the host computer to the mobile phone. And the 3rd transmission means of a mobile telephone transmits the connecting address information of an own mobile telephone to a client terminal.

  Through such a series of operations, the mobile phone acquires connection destination address information of the host computer to which the self terminal can be connected, and the client terminal acquires connection destination address information of the mobile phone to which the self terminal can be connected. . Therefore, the client terminal can easily access the host computer via the mobile phone.

  That is, the client terminal can easily access the host computer via the mobile phone without knowing the connection destination address information of the host computer. At this time, the mobile phone transfers data transmitted from the client terminal to the host computer.

  In addition, the client terminal can easily store the connection destination address information of the mobile phone in the mobile phone based on the connection destination address information of the mobile phone transmitted from the mobile phone each time the connection is made. Can be accessed.

  Furthermore, the client terminal can be indirectly connected to the storage area of the host computer via a mobile phone. For this reason, the client terminal can secure a storage area that can be referred to via the mobile phone without providing a storage area inside the self terminal.

  According to the present invention, it is possible to improve convenience when connecting to a host computer through a client terminal that does not have a storage area inside and is located remotely from the host computer.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of a communication system according to the present invention will be described in detail with reference to the accompanying drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted.

[First Embodiment]
First, a basic configuration of a communication system 1 according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a schematic configuration diagram of the communication system 1. As shown in FIG. 1, the communication system 1 includes a mobile phone 10, a connection management server 20, host PCs (host computers) 30 and 31, and a thin client (client terminal) 40. Hereinafter, each component of the communication system 1 will be described in detail.

  The mobile phone 10 is a mobile phone communication terminal capable of performing data communication wirelessly. The mobile phone 10 in the first embodiment is configured to be able to communicate with the connection management server 20 via the communication network 50. In the first embodiment, the communication network 50 is a mobile phone network such as a PDC (Personal Digital Cellular) network or an IMT (International Mobile Telecommunication) 2000 network. Further, the mobile phone 10 is configured to be able to communicate with the thin client 40 using a short-range communication (short-range communication means) 60. As the short-range communication 60, in the first embodiment, for example, contactless IC card communication, Bluetooth (registered trademark), or the like is used. As shown in FIG. 1, the mobile phone 10 includes a first transmission unit (first transmission unit) 101, a first reception unit (first reception unit) 102, and a second transmission unit (second transmission unit) 103. Is provided. Hereinafter, each component of the mobile phone 10 will be described in detail.

  The first transmission unit 101 accesses the connection management server 20 through the communication network 50 through HTTP (Hyper Text Transfer Protocol) communication, and transmits the mobile phone specifying information for specifying the mobile phone 10 of the terminal itself to the connection management server 20. To do. As the mobile phone identification information, for example, a personal identification number of the mobile phone 10 such as a phone number, a password for accessing the connection management server 20 by HTTP communication, an electronic signature, and a combination thereof are used.

  The first receiving unit 102 is a communication network (communication network) of a host PC to which the thin client 40 can be connected (host PC 30 in the first embodiment as will be described later) among the host PCs 30, 31 and the like. The connection destination address information on 70 is received from the connection management server 20. The connection destination address information includes a network address on the communication network 70 of the host PC 30, authentication information for connecting to the host PC 30, and the like. By using the network address, the host PC 30 can be specified on the communication network 70. Further, as the authentication information, for example, information that is updated every time the first transmission unit 101 accesses the connection management server 20 by HTTP communication, such as information with a time limit, for example, higher security is realized. Note that the communication network 70 is, for example, a local area network (LAN) or a wide area network (WAN) as a communication network provided so that the thin client 40 and the host PC 30 can communicate with each other. The first reception unit 102 outputs the received connection destination address information of the host PC 30 to the second transmission unit 103.

  The second transmission unit 103 transmits the connection destination address information of the host PC 30 input from the first reception unit 102 to the thin client 40. At this time, the second transmission unit 103 transmits the connection destination address information of the host PC 30 using the short-range communication 60 established between its own mobile phone 10 and the thin client 40. That is, the second transmission unit 103 is configured to be able to perform data communication with the thin client 40 through the short-range communication 60. For example, when the user brings the main body of the mobile phone 10 close to the thin client 40, data communication is performed. Is called.

  The connection management server 20 specifies a host PC corresponding to the mobile phone specifying information based on the mobile phone specifying information received from the mobile phone 10 (that is, a host PC that can be used by the user of the mobile phone 10 through the thin client 40). To the mobile phone 10 to that effect. The connection management server 20 is a computer system that includes a storage unit such as a CPU, a memory, a communication interface, and a hard disk as physical components.

  The connection management server 20 in the first embodiment is configured to be able to communicate with the mobile phone 10 via the communication network 50. Further, the connection management server 20 is configured to be able to communicate with the host PCs 30, 31 and the like via the communication network 80. The communication network 80 is, for example, a LAN or a WAN in the first embodiment. The connection management server 20 includes a storage unit (storage unit) 201, a reception unit (reception unit) 202, a specification unit (specification unit) 203, and a transmission unit (transmission unit) 204 as functional components. Hereinafter, each component of the connection management server 20 will be described in detail.

  In the storage unit 201, connection destination address information on the communication network 70 such as the host PCs 30 and 31 is stored in advance corresponding to the mobile phone identification information. FIG. 2 is a diagram illustrating an image of mobile phone specifying information, host PC specifying information, and connection destination address information to the host PC stored in the storage unit 201. In FIG. 2, a solid number is used as the mobile phone identification information, and an IP address (Internet Protocol Address) on the communication network 70 is used as connection destination address information to the host PC. As shown in FIG. 2, the mobile phone with the individual number 090xxx1111 has a connection destination address xxx. xxx. xxx. 111, and the mobile phone with the individual number 090xxx2222 is connected to the connection destination address xxx. xxx. xxx. This corresponds to 222 host PCs 31.

  The receiving unit 202 receives mobile phone identification information from the mobile phone 10. The receiving unit 202 outputs the received mobile phone specifying information to the specifying unit 203.

  The specifying unit 203 specifies a host PC that can be used by the user of the mobile phone 10 from among the host PCs 30 and 31 based on the mobile phone specifying information input from the receiving unit 202. The specifying unit 203 specifies a host PC that can be used by the user of the mobile phone 10 by reading out information stored in the database shown in FIG. 2 (that is, the host PC associated with the mobile phone specifying information). Is retrieved from the database), and connection destination address information on the communication network 70 to the host PC is output to the transmission unit 204.

  Hereinafter, the host PC specified by the specifying unit 203 is referred to as a host PC 30. That is, the receiving unit 202 outputs the individual number 090xxx1111 as the mobile phone specifying information to the specifying unit 203, and the specifying unit 203 reads the database shown in FIG. 2 to specify the host PC 30 and connect to the host PC 30. As address information, xxx. xxx. xxx. 111 is output to the transmission unit 204. Further, the specifying unit 203 controls the host PC 30 to stand by for connection from the thin client 40, for example, by transmitting a command to turn on the power to the host PC 30 when the specified host PC 30 is not turned on.

  The transmission unit 204 receives the connection destination address information xxx. xxx. xxx. 111 is transmitted to the mobile phone 10.

  The host PCs 30, 31 and the like are host computers that can be connected by the user of the mobile phone 10 through the thin client 40, and are computer systems that include a storage unit such as a CPU, a memory, a communication interface, and a hard disk as physical components. is there. Further, as will be described later, the user of the mobile phone 10 connects to the host PCs 30 and 31 through the thin client 40 and uses the data stored in the storage units 303 and 313 of the host PC. Various processing can be performed using the arithmetic units 302, 312 and the like. In order to simplify the description, the communication system 1 includes two hosts, a host PC 30 and a host PC 31, as host PCs.

  The host PCs 30 and 31 in the first embodiment are configured to be able to communicate with the connection management server 20 via the communication network 80. Further, the host PCs 30, 31 and the like are configured to be able to communicate with the thin client 40 via a communication network 70 constituted by, for example, a LAN, a WAN, or the like. Such host PCs 30, 31 and the like include, as functional components, connection units 301 and 311, operation units 302 and 312 and storage units 303 and 313, and the like.

  The connection units 301, 311 and the like perform data communication with the thin client 40 through the communication network 70. The connection units 301, 311, etc. first check the connection destination address information transmitted from the thin client 40 and determine whether to permit communication connection from the thin client 40. That is, for example, the connection destination address information transmitted from the thin client 40 is compared with the address information held by itself, and data communication with the thin client 40 is started only when the two address information matches each other. .

  For example, the connection units 301 and 311 receive a data transmission request from the thin client 40 and output information indicating that to the arithmetic units 302 and 312. The arithmetic units 302, 312 and the like output desired data found by searching the storage units 303 and 313 to the connection units 301 and 311. The connection units 301 and 311 and the like output the data to the thin client 40. Send.

  Further, the connection units 301, 311 and the like, for example, receive a calculation request from the thin client 40 and output information indicating that to the calculation units 302, 312 and the like. Next, the calculation units 302 and 312 perform calculations in response to the calculation request, and output the calculation results to the connection units 301 and 311 and the like. Then, the connection units 301, 311, etc. transmit the calculation result to the thin client 40.

  The thin client 40 is a communication terminal used by the user of the mobile phone 10 to connect to the host PCs 30, 31 and the like. As physical components, an input device such as a mouse and a keyboard, an output device such as a monitor, and short-range communication It is configured with an interface. The thin client 40 includes a memory, a hard disk, and the like with a minimum capacity necessary for operating as a client-side terminal, but a storage area for storing or storing user data created or read by a user or created by an application program Not equipped.

  The thin client 40 in the first embodiment is configured to be able to communicate with the mobile phone 10 using the short-range communication 60. Further, the thin client 40 is configured to be able to communicate with the host PCs 30, 31, etc. via the communication network 70. Such a thin client 40 includes a reception unit 401, a connection unit 402, and a display unit 403 as functional components.

  The receiving unit 401 receives connection destination address information of the host PC 30 transmitted from the mobile phone 10 using the short-range communication 60. The reception unit 401 outputs the received connection destination address information of the host PC 30 to the connection unit 402.

  The connection unit 402 connects to the host PC 30 through the communication network 70 based on the connection destination address information of the host PC 30 input from the reception unit 401 and performs data communication. First, the connection unit 402 requests the host PC 30 to authenticate the connection destination address information by transmitting the connection destination address information of the host PC 30 input from the reception unit 401 to the host PC 30. As described above, when the connection destination address information transmitted by the connection unit 402 matches the address information held by the host PC 30, information indicating that communication connection is permitted is transmitted from the host PC 30. . Then, the connection unit 402 requests, for example, data transmission or calculation from the host PC 30 and receives data or calculation results transmitted from the host PC 30. The connection unit 402 outputs data or calculation results received from the host PC 30 to the display unit 403.

  The display unit 403 displays data input from the connection unit 402, and includes a display device such as a monitor.

  Subsequently, an operation (communication method) performed by the communication system 1 will be described with reference to FIGS. 3 and 4. Hereinafter, a process in which the user of the mobile phone 10 connects to the host PC 30 using the thin client 40 will be described step by step.

  FIG. 3 is a diagram summarizing communication methods between the constituent elements constituting the communication system 1. As shown in FIG. 3, the mobile phone 10 and the connection management server 20 are configured to be able to communicate with each other via a communication network 50. Further, the thin client 40 and the mobile phone 10 are configured to be able to communicate with each other using the short-range communication 60. Further, the connection management server 20 and the host PC 30 are configured to be able to communicate with each other via the communication network 80. Further, the thin client 40 and the host PC 30 are configured to be able to communicate with each other via the communication network 70.

  FIG. 4 is a sequence diagram showing the operation of the communication system 1. First, the mobile phone 10 accesses the connection management server 20 through the communication network 50 by HTTP communication and transmits mobile phone specifying information for specifying the mobile phone 10 of the self terminal to the connection management server 20 (step). S1).

  Next, the connection management server 20 receives the mobile phone specific information transmitted in step S1 and reads out the database information as shown in FIG. 2, for example, from the host PCs 30 and 31, etc. Identifies the host PC 30 as a host PC that can be used through the thin client 40 (step S2).

  Next, the connection management server 20 transmits the connection destination address information on the communication network 70 of the host PC 30 specified in step S2 to the mobile phone 10 (step S3).

  Next, the cellular phone 10 transmits the connection destination address information of the host PC 30 transmitted from the connection management server 20 in step S <b> 3 to the thin client 40 through the short-range communication 60 established with the thin client 40. (Step S4).

  Next, the thin client 40 requests authentication for accessing the host PC 30. This operation can be performed by transmitting the connection destination address information of the host PC 30 transmitted in step S4 to the host PC 30 (step S5).

  Next, the host PC 30 authenticates the connection destination address information transmitted from the thin client 40 by comparing the connection destination address information transmitted in step S5 with the address information held by itself. It performs (step S6).

  Next, when the two address information matches with each other in the authentication in step S6, information indicating that the connection from the thin client 40 is permitted is transmitted to the thin client 40 as an authentication response (step S7).

  Next, when information indicating that the thin client 40 permits the connection is received from the host PC 30 in step S7, data transmission / reception between the thin client 40 and the host PC 30 is started (step S8). Although not shown, when the two address information do not match each other in step S7, the host PC 30 transmits information indicating that the connection from the thin client 40 is not permitted to the thin client 40 as an authentication response, and the thin client 40 Data transmission / reception between the PC 40 and the host PC 30 is not started.

  Next, operations and effects of the communication system 1 and the communication method according to the first embodiment will be described. According to the communication method described above, and the mobile phone 10, connection management server 20, host PCs 30 and 31, etc. used in this communication method, and the thin client 40, the specifying unit 203 of the connection management server 20 includes mobile phone specifying information. Based on this, the host PC 30 is specified as a host computer to which the thin client 40 can be connected. Next, the transmission unit 204 of the connection management server 20 transmits the connection destination address information of the host PC 30 to the mobile phone 10. Then, the second transmission unit 103 of the mobile phone 10 transmits the connection destination address information of the host PC 30 to the thin client 40.

  Through such a series of operations, the thin client 40 can acquire the connection destination address information of the host PC 30 to which the self terminal can be connected. Therefore, the thin client 40 always stores the connection destination address information of the host PC 30 therein. Even without this, the host PC 30 can be easily accessed based on the connection destination address information of the host PC 30 transmitted from the mobile phone 10 at each connection. That is, according to the first embodiment, it is possible to improve convenience when connecting to the host PC 30 through the thin client 40 that does not have a storage area inside and is located remotely from the host PC 30.

  Further, according to the first embodiment, since the thin client 40 can be connected to the storage area of the host PC 30, the thin client 40 can refer to a storage area that can be referred to without providing a storage area inside its own terminal. It will be possible to secure. For this reason, for example, when the thin client 40 is lost or stolen, it is possible to prevent leakage of information handled by the thin client 40.

[Second Embodiment]
Subsequently, a basic configuration of the communication system 2 according to the embodiment of the present invention will be described with reference to FIG. FIG. 5 is a schematic configuration diagram of the communication system 2. As shown in FIG. 5, the communication system 2 includes a mobile phone 10, a connection management server 20, host PCs (host computers) 30 and 31, and a thin client (client terminal) 40. Hereinafter, each component of the communication system 2 will be described in detail.

  The mobile phone 10 is a mobile phone communication terminal capable of performing data communication wirelessly. The mobile phone 10 according to the second embodiment is configured to be able to communicate with the connection management server 20 via the communication network 50. In the second embodiment, the communication network 50 is a mobile phone network such as a PDC network or an IMT2000 network. Further, the mobile phone 10 is configured to be able to communicate with the thin client 40 using a short-range communication (short-range communication means) 60. As the short-range communication 60, in the first embodiment, for example, contactless IC card communication, Bluetooth (registered trademark), or the like is used. Further, the mobile phone 10 is configured to be able to communicate with the thin client 40, the host PCs 30, 31 and the like via a communication network (communication network) 90. As the communication network 90, for example, a wireless LAN is adopted in the second embodiment.

  As shown in FIG. 5, the mobile phone 10 includes a first transmission unit (first transmission unit) 101, a first reception unit (first reception unit) 102, and a third transmission unit (third transmission unit) 104. And a transfer unit (transfer means) 105. Hereinafter, each component of the mobile phone 10 will be described in detail.

  The first transmission unit 101 accesses the connection management server 20 through the communication network 50 by HTTP communication, and transmits mobile phone specifying information for specifying the mobile phone 10 of the self terminal to the connection management server 20. As the mobile phone identification information, for example, a personal identification number of the mobile phone 10 such as a phone number, a password for accessing the connection management server 20 by HTTP communication, an electronic signature, and a combination thereof are used.

  The first receiving unit 102 is a host PC to which the thin client 40 can be connected via the mobile phone 10 among the host PCs 30 and 31 and the like (referred to as host PC 30 in the second embodiment as will be described later). Connection destination address information (first connection destination address information) on the communication network 90 is received from the connection management server 20. The connection destination address information includes a network address of the host PC 30 on the communication network 90, authentication information for connecting to the host PC 30, and the like. By using the network address, the host PC 30 can be specified on the communication network 90. Further, as the authentication information, for example, information that is updated every time the first transmission unit 101 accesses the connection management server 20 by HTTP communication, such as information with a time limit, for example, higher security is realized. The first receiving unit 102 outputs the received connection destination address information of the host PC 30 to the transfer unit 105.

  The third transmitting unit 104 transmits connection destination address information (second connection destination address information) on the communication network 90 of the mobile phone 10 of the self terminal to the thin client 40. At this time, the third transmission unit 104 transmits the connection destination address information of the own terminal using the short-range communication 60 established between the own mobile phone 10 and the thin client 40. That is, the third transmission unit 104 is configured to be able to perform data communication with the thin client 40 through the short-range communication 60. For example, data communication is performed when the user brings the main body of the mobile phone 10 close to the thin client 40. Is called.

  The transfer unit 105 transfers data between the thin client 40 and the host PC 30 through the communication network 90. That is, the transfer unit 105 transfers data transmitted from the thin client 40 to the host PC 30 based on the connection destination address information of the host PC 30 input from the first receiving unit 102. For example, the transfer unit 105 acquires connection destination address information of the thin client 40 when transferring data from the thin client 40 to the host PC 30, and based on the connection destination address information, transfers data transmitted from the host PC 30. Transfer to the thin client 40.

  The transfer unit 105 transfers the authentication request from the thin client 40 to the host PC 30. Specifically, the thin client 40 transmits authentication information for connection to the host PC 30 by transmitting connection destination address information on the communication network 90 of the mobile phone 10 to the transfer unit 105. Next, when the connection destination address information transmitted and the address information of the own terminal match each other, the transfer unit 105 uses the host PC 30 connection destination address information input from the first reception unit 102 as the host PC 30. The authentication request of the thin client 40 is transferred to the host PC 30. As will be described later, the host PC 30 authenticates the connection destination address information received from the transfer unit 105.

  The connection management server 20 specifies a host PC corresponding to the mobile phone specifying information based on the mobile phone specifying information received from the mobile phone 10 (that is, a host PC that can be used by the user through the thin client 40 and the mobile phone 10). To the mobile phone 10 to that effect. The connection management server 20 is a computer system that includes a storage unit such as a CPU, a memory, a communication interface, and a hard disk as physical components.

  The connection management server 20 in the second embodiment is configured to be able to communicate with the mobile phone 10 via the communication network 50. Further, the connection management server 20 is configured to be able to communicate with the host PCs 30, 31 and the like via the communication network 80. The communication network 80 is, for example, a LAN or a WAN in the second embodiment. The connection management server 20 includes a storage unit (storage unit) 201, a reception unit (reception unit) 202, a specification unit (specification unit) 203, and a transmission unit (transmission unit) 204 as functional components. Hereinafter, each component of the connection management server 20 will be described in detail.

  The storage unit 201 stores connection destination address information on the communication network 90 such as the host PCs 30 and 31 in advance corresponding to the mobile phone specifying information. FIG. 2 is a diagram illustrating an image of mobile phone specifying information, host PC specifying information, and connection destination address information to the host PC stored in the storage unit 201. In FIG. 2, a solid number is used as the mobile phone identification information, and an IP address on the communication network 90 is used as connection destination address information to the host PC. As shown in FIG. 2, the mobile phone with the individual number 090xxx1111 has a connection destination address xxx. xxx. xxx. 111, and the mobile phone with the individual number 090xxx2222 is connected to the connection destination address xxx. xxx. xxx. This corresponds to 222 host PCs 31.

  The receiving unit 202 receives mobile phone identification information from the mobile phone 10. The receiving unit 202 outputs the received mobile phone specifying information to the specifying unit 203.

  The specifying unit 203 specifies a host PC that can be used by the user of the mobile phone 10 from among the host PCs 30 and 31 based on the mobile phone specifying information input from the receiving unit 202. The specifying unit 203 specifies a host PC that can be used by the user of the mobile phone 10 by reading out information stored in the database shown in FIG. 2 (that is, the host PC associated with the mobile phone specifying information). Is retrieved from the database), and connection destination address information on the communication network 70 to the host PC is output to the transmission unit 204.

  Hereinafter, the host PC specified by the specifying unit 203 is referred to as a host PC 30. That is, the receiving unit 202 outputs the individual number 090xxx1111 as the mobile phone specifying information to the specifying unit 203, and the specifying unit 203 reads the database shown in FIG. 2 to specify the host PC 30 and connect to the host PC 30. As address information, xxx. xxx. xxx. 111 is output to the transmission unit 204. Further, the specifying unit 203 controls the host PC 30 to stand by for connection from the thin client 40, for example, by transmitting a command to turn on the power to the host PC 30 when the specified host PC 30 is not turned on.

  The transmission unit 204 receives the connection destination address information xxx. xxx. xxx. 111 is transmitted to the mobile phone 10.

  The host PCs 30, 31 and the like are host computers to which the thin client 40 can be connected via the mobile phone 10, and have a computer system including a storage unit such as a CPU, a memory, a communication interface, and a hard disk as physical components. It is. As will be described later, the user connects to the host PCs 30 and 31 through the thin client 40 and the mobile phone 10 and uses the data stored in the storage units 303 and 313 of the host PC. Various processes can be performed using the arithmetic units 302 and 312 of the PC. In order to simplify the description, the communication system 2 includes a host PC 30 and a host PC 31 as host PCs.

  The host PCs 30 and 31 in the second embodiment are configured to be able to communicate with the connection management server 20 via the communication network 80. Further, the host PCs 30, 31 and the like are configured to be able to communicate with the mobile phone 10 via a communication network 90 configured by, for example, a wireless LAN. Such host PCs 30, 31 and the like include, as functional components, connection units 301 and 311, operation units 302 and 312 and storage units 303 and 313, and the like.

  The connection units 301, 311 and the like perform data communication with the thin client 40 via the communication network 90 and further via the mobile phone 10. The connection units 301, 311, etc. first check the connection destination address information transmitted from the mobile phone 10, and determine whether or not to permit communication connection from the thin client 40. That is, for example, the connection destination address information transmitted from the mobile phone 10 (connection destination address information transmitted from the connection management server 20 to the mobile phone 10 as connection destination address information to the host PC 30) and the address held by itself. The information is compared, and data communication with the thin client 40 is started only when the two pieces of address information match each other.

  For example, when the connection units 301 and 311 receive a data transmission request from the thin client 40 via the transfer unit 105 of the mobile phone 10, for example, the connection units 301 and 311 output information indicating that to the arithmetic units 302 and 312. The arithmetic units 302, 312 and the like output the desired data found by searching the storage units 303 and 313 to the connection units 301 and 311 and the connection units 301 and 311 and the like. The data is transmitted to the thin client 40 via the transfer unit 105.

  For example, when the connection units 301 and 311 receive a calculation request from the thin client 40 via the transfer unit 105 of the mobile phone 10, for example, the connection units 301 and 311 output information indicating that to the calculation units 302 and 312. Next, the calculation units 302 and 312 perform calculations in response to the calculation request, and output the calculation results to the connection units 301 and 311 and the like. Then, the connection units 301, 311, etc. transmit the calculation result to the thin client 40 via the transfer unit 105 of the mobile phone 10.

  The thin client 40 is a communication terminal used by the user of the mobile phone 10 to connect to the host PCs 30, 31 and the like. As physical components, an input device such as a mouse and a keyboard, an output device such as a monitor, and short-range communication It is configured with an interface. The thin client 40 includes a memory, a hard disk, and the like with a minimum capacity necessary for operating as a client-side terminal, but a storage area for storing or storing user data created or read by a user or created by an application program Not equipped.

  The thin client 40 in the second embodiment is configured to be able to communicate with the mobile phone 10 using the short-range communication 60. Further, the thin client 40 is configured to be able to communicate with the host PCs 30, 31 and the like through the communication network 90 and further via the mobile phone 10. Such a thin client 40 includes a reception unit 401, a connection unit 402, and a display unit 403 as functional components.

  The receiving unit 401 receives connection destination address information of the mobile phone 10 transmitted from the mobile phone 10 using the short-range communication 60. The reception unit 401 outputs the received connection destination address information of the mobile phone 10 to the connection unit 402.

  The connection unit 402 performs data communication with the mobile phone 10 based on the connection destination address information of the mobile phone 10 input from the reception unit 401, and consequently performs data communication with the host PC 30. . Prior to this data communication, the connection unit 402 first connects to the host PC 30 via the mobile phone 10 by sending back the connection destination address information of the mobile phone 10 input from the receiving unit 401 to the mobile phone 10. Require authentication to As described above, when this authentication is established by the host PC 30, information indicating that communication connection is permitted is transmitted from the host PC 30 via the transfer unit 105 of the mobile phone 10.

  When the communication connection is permitted by the host PC 30, the connection unit 402 requests the host PC 30 to transmit or calculate data via the transfer unit 105 of the mobile phone 10, and the data or calculation result transmitted from the host PC 30. Is received via the transfer unit 105 of the mobile phone 10. That is, the connection unit 402 passes through the transfer unit 105 of the mobile phone 10, so that data stored in the storage unit 303 of the host PC 30 can be obtained without knowing connection destination address information on the communication network 90 of the host PC 30. Can be referred to, and calculation can be requested to the calculation unit 302. The connection unit 402 outputs data or calculation results received from the host PC 30 via the transfer unit 105 of the mobile phone 10 to the display unit 403.

  The display unit 403 displays data or calculation results input from the connection unit 402, and includes a display device such as a monitor.

  Subsequently, an operation (communication method) performed by the communication system 2 will be described with reference to FIGS. 6 and 7. Hereinafter, a process in which the user connects to the host PC 30 using the thin client 40 will be described step by step.

  FIG. 6 is a diagram summarizing communication methods between the constituent elements constituting the communication system 1. As shown in FIG. 6, the mobile phone 10 and the connection management server 20 are configured to be able to communicate with each other via a communication network 50. Further, the thin client 40 and the mobile phone 10 are configured to be able to communicate with each other using the short-range communication 60. Further, the connection management server 20 and the host PC 30 are configured to be able to communicate with each other via the communication network 80. Further, the thin client 40 and the mobile phone 10, and the mobile phone 10 and the host PC 30 are configured to be able to communicate with each other via the communication network 90.

  FIG. 7 is a sequence diagram showing the operation of the communication system 2. First, the mobile phone 10 accesses the connection management server 20 through the communication network 50 by HTTP communication and transmits mobile phone specifying information for specifying the mobile phone 10 of the self terminal to the connection management server 20 (step). S11).

  Next, the connection management server 20 receives the mobile phone specifying information transmitted in step S11, and reads out the database information as shown in FIG. The host PC 30 is specified as a host PC that can be used through the thin client 40 (step S12).

  Next, the connection management server 20 transmits the connection destination address information on the communication network 90 of the host PC 30 specified in step S12 to the mobile phone 10 (step S13).

  Next, the mobile phone 10 transmits connection destination address information on the communication network 90 of the mobile phone 10 of the self terminal to the thin client 40 through the short-range communication 60 established with the thin client 40 (step S14). ).

  Next, the thin client 40 requests authentication for accessing the host PC 30. This operation is performed by sending back the connection destination address information of the mobile phone 10 received in step S14 to the mobile phone 10 (step S15).

  Next, when the connection destination address information transmitted in step S15 and the address information of the own terminal match each other, the cellular phone 10 uses the connection destination address information of the host PC 30 received in step S13 as the host. By transmitting to the PC 30, the authentication request of the thin client 40 is transferred to the host PC 30 (step S16). Although not shown, when the two pieces of address information do not match each other, the mobile phone 10 does not transfer the authentication request for the thin client 40 to the host PC 30.

  Next, the host PC 30 compares the connection destination address information transmitted in step S16 with the address information held by the self terminal, so that the connection destination address information transmitted from the mobile phone 10 is obtained. Authentication is performed (step S17).

  Next, when the two pieces of address information match each other in the authentication in step S17, information indicating that the connection from the thin client 40 is permitted is transmitted as an authentication response to the mobile phone 10 (step S18).

  Next, the cellular phone 10 transfers the authentication response received from the host PC 30 in step S18 to the thin client 40 (step S19).

  Next, when information indicating that the thin client 40 permits the connection is received from the host PC 30 via the mobile phone 10 in step S19, data transmission / reception between the thin client 40 and the host PC 30 causes the mobile phone 10 to receive data. Is started (step S20). Although not shown, when the two address information do not match each other in step S18, the host PC 30 uses the thin client 40 via the mobile phone 10 as an authentication response with information indicating that the connection from the thin client 40 is not permitted. The data transmission / reception between the thin client 40 and the host PC 30 is not started.

  Next, operations and effects of the communication system 2 and the communication method according to the second embodiment will be described. According to the communication method described above, and the mobile phone 10, connection management server 20, host PCs 30 and 31, etc. used in this communication method, and the thin client 40, the specifying unit 203 of the connection management server 20 includes mobile phone specifying information. Based on this, the thin client 40 identifies the host PC 30 as a host computer that can be connected via the mobile phone 10. Next, the transmission unit 204 of the connection management server 20 transmits the connection destination address information of the host PC 30 to the mobile phone 10. Then, the third transmission unit 104 of the mobile phone transmits the connection destination address information of its own mobile phone 10 to the thin client 40.

  Through such a series of operations, the mobile phone 10 acquires connection destination address information of the host PC 30 to which the self terminal can be connected, and the thin client 40 acquires connection destination address information of the mobile phone 10 to which the self terminal can be connected. It will be. For this reason, the thin client 40 can access the host PC 30 via the mobile phone 10. That is, the thin client 40 can easily access the host PC 30 via the mobile phone 10 without knowing the connection destination address information of the host PC 30. At this time, the mobile phone 10 transfers data transmitted from the thin client 40 to the host PC 30 and transfers data transmitted from the host PC 30 to the thin client 40. That is, according to the second embodiment, it is possible to improve convenience when connecting to the host PC 30 through the thin client 40 that does not have a storage area inside and is located remotely from the host PC 30.

  Further, the thin client 40 does not always store the connection destination address information of the mobile phone 10 inside, but based on the connection destination address information of the mobile phone 10 transmitted from the mobile phone 10 each time the connection is made, The mobile phone 10 can be easily accessed. That is, according to the second embodiment, it is possible to improve convenience when connecting to the mobile phone 10 through the thin client 40 that does not have a storage area inside.

  Further, the thin client 40 can be indirectly connected to the storage area of the host PC 30 via the mobile phone 10. Therefore, the thin client 40 can secure a storage area that can be referred to via the mobile phone 10 without providing a storage area inside the self-terminal. For this reason, for example, when the thin client 40 is lost or stolen, it is possible to prevent leakage of information handled by the thin client 40.

  As mentioned above, although preferred embodiment of this invention was described, it cannot be overemphasized that this invention is not limited to the said embodiment.

  For example, in the above-described embodiment, the connection management server 20 and the host PCs 30 and 31 are configured as individual computer systems. However, the connection management server 20 and the host PCs 30 and 31 are configured as a single computer system. Also good.

1 is a schematic configuration diagram of a communication system 1. FIG. FIG. 3 is a diagram illustrating an image of information stored in a connection management server 20. 1 is a diagram summarizing communication methods between components constituting a communication system 1. FIG. 3 is a sequence diagram showing an operation of the communication system 1. FIG. 1 is a schematic configuration diagram of a communication system 2. FIG. 2 is a diagram summarizing communication methods between components constituting the communication system 2. FIG. 3 is a sequence diagram showing an operation of the communication system 2. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1, 2 ... Communication system, 10 ... Mobile telephone, 20 ... Connection management server, 30, 31 ... Host PC, 40 ... Thin client.

Claims (2)

A first step in which mobile phone specifying information for specifying a mobile phone is transmitted from the mobile phone to the connection management server;
Based on the mobile phone identification information received by the connection management server in the first step, connection destination address information on the communication network held in advance corresponding to the mobile phone identification information is read, A second step in which a host computer having a storage area to which a client terminal can be connected via the mobile phone is specified by the connection management server;
A third step in which first connection destination address information of the host computer specified in the second step is transmitted from the connection management server to the mobile phone;
A sixth step in which second connection destination address information of the mobile phone is transmitted from the mobile phone to the client terminal through near field communication means established between the mobile phone and the client terminal;
The client terminal based on the first connection destination address information received by the cellular phone in the third step and the second connection destination address information received by the client terminal in the sixth step And a seventh step in which the host computer is connected on the communication network via the mobile phone. First transmission means for transmitting mobile phone specifying information for specifying its own mobile phone to the connection management server;
First receiving means for receiving, from the connection management server, first connection destination address information on a communication network of a host computer having a storage area to which a client terminal can be connected;
Third transmission means for transmitting second connection destination address information on the communication network of the mobile phone to the client terminal through short-range communication means established between the mobile phone and the client terminal; ,
The host computer based on the first connection destination address information received by the first reception means and the data transmitted from the client terminal based on the second connection destination address information transmitted by the third transmission means And a transfer means for transferring to the mobile phone.

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