JP2007034765A - Information processing system, information processing method and server device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information processing method and system, related to qualification verification of a communication network terminal. <P>SOLUTION: In this information processing system, when a qualification requirement when a use communication terminal device MB receives information provision from a server device CSV is cooperative operation with a cooperation communication terminal device FTM, the device FTM transmits identification data #ftm of itself to the device CSV, and the device CSV inspects validity of the device FTM on the basis of the data #ftm. When the device CSV sends out a unique electronic license els to the device FTM, the device FTM emits it and the identification data #ftm of the device FTM itself as transmission data. The device MB capturing the transmission data transmits return data including the transmission data to the device CSV, and the device CSV decides the cooperative operation between both the devices FTM, MB by accordance of the electronic licenses els, and decides that the device FTM interposed is not illegally replaced by accordance of the identification data #ftm. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an information processing system, an information processing method, and a server device, and more particularly to an information processing system, an information processing method, and a server device related to an information service using a communication network.

From a server device, which is an information service providing site that provides information services (contents such as sweepstakes, quizzes, games, contents providing services such as music data distribution, data processing services, etc.), a terminal is connected via a communication network. Use forms for receiving information services are widely used.
Here, there may be a case where a limitation is imposed on a terminal that receives information service provision. For example, if the server device of the information service providing site, which is operated mainly by the taxi industry, provides the information service by limiting the target to terminals currently on the taxi, the information service provider is listed in the taxi. The information service user is a taxi passenger. On the other hand, terminals that are not installed in taxi are excluded from the information service provision targets.

  Conventionally, the service limited to taxi passengers, such as the above-mentioned example in the taxi industry, uses an in-vehicle device mounted on a taxi vehicle as a terminal, and a server device receives an information service (for example, content) via the in-vehicle device. ) Is provided to passengers who are users. When a taxi passenger inputs a request using the input operation function of the in-vehicle device mounted on each taxi vehicle, the in-vehicle device connects to the server device managed by the information service provider via the in-vehicle communication network, and the information service provider When the corresponding content is sent from the server device to the in-vehicle device, the in-vehicle device receives the content and outputs a screen display or audio, and the content is provided to the taxi passenger. That is, the content providing company sends the content from the server device managed by the content provider to each taxi vehicle-mounted device, and the taxi passenger uses the content by the screen or sound of the taxi vehicle-mounted device.

Furthermore, if the above content is paid, the taxi passenger pays the content usage fee to the taxi driver with cash or a ticket when getting off the taxi, for example, and the taxi driver pays the usage fee on behalf of the taxi driver, The commission was paid by the content provider.
According to this, since it becomes possible to provide information services only for in-vehicle devices mounted on taxi vehicles, there is an advantage that users can be limited to taxi passengers only. Also, taxi drivers will earn more money by getting commissions from content providers when passengers use content.

By the way, in recent years, content data services via the Web such as receiving content data via a Web page from a server device that operates an information service providing site, which is a Web site on the Internet, have become widespread. With the rapid spread of telephones, the mainstream of terminal devices using services on the Internet is rapidly shifting from conventional fixed terminal devices such as PCs (personal computers) to mobile communication terminal devices such as mobile phones and PDAs. is there.
This trend is also affecting the services described above, for example, a user who is on a taxi and carries a mobile phone, as described above, directly from his / her mobile phone without using a commercial vehicle-mounted device, It is possible to receive a service such as providing content data via a mobile phone network by accessing a Web site that is an information service providing site, and there is no need to use a commercial vehicle-mounted device.

This causes the following problems. First, even a user who is not on a taxi can access the website using a mobile phone or the like as a terminal device from an office or home, for example, so that the taxi ride is no longer necessary. It does not increase and there is no taxi attracting effect.
Furthermore, when a fee is charged for using the content of the website, a user who is a taxi passenger pays the fee directly to the website (content provider) by a mobile phone by electronic payment or the like. Since there is no way to identify the taxi on which the user is on board, it is difficult to pay the commission to each taxi side. Or even in the case of the above-mentioned proxy receipt where the user pays the content usage fee to the taxi crew with cash or ticket when getting off the taxi, it is difficult for the taxi crew to confirm that the passenger used the content using the mobile phone This will hinder the collection of reliable usage fees. This not only hinders the sales increase of the content provider, but also hinders the sales increase on the taxi side receiving the commission.

In the above description, taxis and passengers have been described as examples. Similarly, there is a problem in the case where the store provides content by limiting the object to be provided to customers.
Business terminals installed at each table and each seat in the store connect to a server device managed by the information service provider via the communication network, and the information service provider supplies the corresponding paid content from the server device to the store business. When it is sent to a business terminal, the business terminal receives this, displays it on the screen, outputs audio, provides paid content to customers, and pays commissions to the store. When content is provided via a site, a user carrying a mobile phone accesses a website, which is an information service providing site, directly from his / her mobile phone without using a business terminal. It is possible to receive services such as providing content data via the mobile phone network, and it is necessary to use business terminals. It is eliminated.

This causes the following problems. First, even a user who has not visited the store can use the content by accessing the website using a mobile phone or the like as a terminal device from the office or home, for example. There is no effect of attracting customers.
Further, for example, when a charge is paid directly to a website (content provider) by a mobile phone from a user who is a visitor by electronic payment or the like, a store on the website where the user is visiting the store is specified. Since there is no technique, it is difficult to pay the commission to each store. Or, even if the customer pays the content usage fee to the store with cash or a ticket, the store clerk is difficult to confirm that the customer has used the content using the mobile phone, so it is reliable use It will hinder the collection of charges. This not only hinders the sales increase of the content provider, but also hinders the sales increase of the store receiving the commission.

  In addition to the above examples, the terminal may be used when entering an amusement park or entering a variety of venues such as ballparks, racetracks, exhibitions, exhibition halls, spot sales halls, museums, and memorials. There is a need for a rational technical configuration for providing a service by limiting a target to a terminal (for example, a mobile communication terminal device using a mobile phone as an example) possessed by a user as a machine.

  As described above, in a configuration in which content is used on a Web page via the Internet, it is not preferable because an unspecified number of mobile phones can access the server device that operates the Web page and provides the content. There has been a demand for a configuration in which the use of content is permitted only to a mobile phone having a predetermined use qualification.

As an example of the above qualifications, a server device that operates a Web page and provides content makes a contract with a plurality of predetermined mediation computers, and the mediation computer provides predetermined check data to a mobile phone by communication, and the check There is a proposal that only a mobile phone that can obtain data by communication from any of the intermediary computers has a content usage qualification, and the server device provides content via the Internet to the mobile phone that satisfies the usage qualification. In other words, in order for a mobile phone to obtain content usage qualifications, it is an agreement that the mobile phone must obtain predetermined check data by communication from any intermediary computer.
In order to implement this arrangement as a technical configuration, there were various technical problems to be solved.

  As an example of a technical problem to be solved, a technology for verifying and specifying the legitimacy and identification of a mobile phone that has obtained predetermined check data by a server device and an intermediary computer that has provided the check data, a predetermined illegally obtained by interception, etc. Although there is a technique for dealing with illegal use of check data, a technique for detecting and eliminating so-called “spoofing”, it has been difficult to realize a suitable configuration having such a function with the conventional technique.

  The present invention has been made for the purpose of providing a technology capable of solving the above problems by embodying the above arrangement as a technical configuration based on the laws of nature, and conformity determination is limited to terminals satisfying predetermined conditions. An object is to provide an information processing system, an information processing method, and a server apparatus using a communication network.

Prior to the description of the means of the present invention, the outline of the present invention will be described.
As shown in FIG. 1, the information processing system Sysc according to the present invention includes a first communication mechanism MNW (for example, a mobile phone network, a packet communication network, and the Internet) and a second communication mechanism ANW (for example, a communication network). The server device CSV (server computer) that can be connected to a business communication network such as an in-vehicle communication network) and functions as a content service providing site and management headquarters is connected to the second communication mechanism ANW (for example, an in-vehicle communication network). Data can be sent to a cooperative communication terminal device FTM (for example, an in-vehicle computer) that can communicate with the server device CSV, and control data and management data can be taken in from the cooperative communication terminal device FTM. .
Furthermore, the server device CSV is configured to be able to communicate with a used communication terminal device MB (for example, a mobile phone) via the first communication mechanism MNW. The server device CSV is controlled by the equipped data processing means mspr.

  The cooperative communication terminal device FTM (in-vehicle computer) is controlled by the equipped second data processing means mfpr, exchanges data with the server device CSV via the second communication mechanism ANW, and modulates with data as another data transmission function It is configured to emit electromagnetic waves to the surroundings. Electromagnetic waves include infrared rays, radio waves, and images.

  The used communication terminal device MB (mobile phone) is controlled by the first data processing means mbpr provided, exchanges data with the server device CSV via the first communication mechanism MNW, and as the other data capture function, the cooperative communication terminal The configuration is such that the electromagnetic waves emitted by the device FTM are detected and captured, and the data is demodulated.

  Here, when the communication terminal device MB detects and captures the electromagnetic wave emitted by the cooperative communication terminal device FTM loaded with the transmission data and obtains the transmission data of the matter, in the present invention, the communication terminal device MB uses the cooperative communication terminal. It is referred to as operating in cooperation with the apparatus FTM, and it is assumed that a cooperative operating route SRN is formed between them. That is, data can be transmitted from the cooperative communication terminal device FTM to the used communication terminal device MB by the cooperative operation.

The server device CSV is a content service providing site and can directly provide content data to the used communication terminal device MB via the first communication mechanism MNW to the used communication terminal device MB, but here the target is expanded indiscriminately Instead, the server device CSV sends the electronic license els to the pre-registered cooperative communication terminal device FTM, and then the cooperative communication terminal device FTM emits the electronic license els on the electromagnetic wave, and the emitted electronic The use qualification is given only to the use communication terminal device MB that detects and imports the license els.
In this case, the server device CSV must be able to confirm that the used communication terminal device MB has acquired the electronic license els reliably and legitimately.

  Moreover, in the above, the communication between the cooperative communication terminal device FTM and the used communication terminal device MB is unidirectional by the emission / detection of electromagnetic waves, and the transmitting side is the cooperative communication terminal device FTM and the receiving side is the used communication terminal device MB. This is because the used communication terminal device MB (mobile phone) handles a lot of personal information, so that the confidentiality is ensured. The used communication terminal device MB only receives data from the cooperative communication terminal device FTM, No data is transmitted from the used communication terminal device MB to the cooperative communication terminal device FTM.

  In order to implement the above functions under the above restrictions, in the present invention, the server apparatus CSV executes checks such as “inspection”, “confirmation”, and “verification”, and contents are used only for the use communication terminal apparatus MB that has passed all of them. To use. Each is described below.

Inspection:
The data processing means mspr of the server device CSV applies for the main body inspection that the cooperative communication terminal device FTM is a legitimate device in order to eliminate inappropriate (for example, non-member) cooperation communication terminal device FTM participation. This is carried out for the linked communication terminal device FTM. A list of identification data #ftm of legitimate cooperative communication terminal devices FTM registered in advance is recorded in the storage means of the server device CSV, and the subscribed cooperative communication terminal device FTM transmits it via the second communication mechanism ANW. The identification data #ftm is checked against the list to check whether there is a match.
When the inspection is passed, it is determined that the cooperative communication terminal device FTM is valid, and the next check is performed. Further, it is assumed that the data processing unit mspr stores the identification data #ftm in the storage unit.

Verification:
The data processing means mspr of the server device CSV sends the electronic license els via the second communication mechanism ANW to the justified cooperative communication terminal device FTM. The data processing unit mspr further stores the electronic license els in the storage unit.
The second data processing unit mfpr of the cooperative communication terminal device FTM releases the received electronic license els on an electromagnetic wave. On the other hand, when there is data transmission from any use communication terminal device MB to the server device CSV via the first communication mechanism MNW, the data processing means mspr matches the electronic license els stored in the storage means. Verify that.
If it matches here, it turns out that the use communication terminal device MB has obtained the electronic license els from the cooperation communication terminal device FTM by the cooperation operation, and the cooperation communication terminal device FTM and the use communication terminal device MB operate in cooperation. It is verified that

Confirmation:
Even if it passes the above inspection and verification, it cannot be determined yet. The cooperative communication terminal device FTM is determined to be valid at the time of the above-described inspection, and the identification data #ftm arrives at the beginning. The electronic license els is issued and the cooperative communication is performed from the server device CSV. It is the time after the above inspection that is sent to the terminal device FTM. Therefore, there is no fear that the cooperative communication terminal device FTM is so-called “replacement (illegal replacement)” by another cooperative communication terminal device until the electronic license els is transmitted, that is, from the beginning of the inspection to the start of verification. I can't say that. In the verification process, the cooperative communication terminal device FTM only receives and releases the electronic license els.

  Therefore, in the present invention, at any time after the cooperative communication terminal apparatus FTM receives the electronic license els, the cooperative communication terminal apparatus FTM prepares its own identification data #ftm as transmission data and releases it on electromagnetic waves. When there is data transmission from any use communication terminal device MB to the server device CSV via the first communication mechanism MNW, the data processing means mspr sends the sent data to the identification data # stored in the storage means in the above inspection process. It is confirmed whether or not it matches ftm, and if it matches, it is confirmed that the cooperative communication terminal apparatus FTM is the same as that at the time of the initial inspection, and has not been “replaced (unauthorized replacement)”.

  As described above, only the inspection process (main body inspection) and the verification process (cooperative operation verification) have the disadvantage that “replacement (illegal replacement)” is established even if both are passed. This drawback can be solved by adding the above confirmation process.

Only the utilization communication terminal device MB that has been able to receive the electronic license els released from the cooperative communication terminal device FTM obtains the qualification to access and use the content data dco held by the server device CSV. As a result, only the used communication terminal device MB that has acquired the electronic license els can be the user of the content data dco, and the used communication terminal device that does not have the electronic license els can be excluded.
In addition, since the use of the communication terminal device MB that has been operated in cooperation with the cooperation communication terminal device FTM that has been found to be invalid in the confirmation process and has obtained the electronic license els can be prohibited, the occurrence of disadvantages can be prevented. Can be prevented.

  If all of the inspection, verification of cooperative operation, and confirmation without unauthorized substitution pass, the content data dco is provided from the server device CSV to the corresponding used communication terminal device MB. By receiving the content data dco, not only can the content be used, but also acts as a notification that the server device CSV has determined that this cooperative communication terminal device FTM is valid. That is, the use communication terminal device MB receives the transmission of the content data dco from the server device CSV and presents it on the presentation screen, so that the user of the use communication terminal device MB, for example, the taxi passenger, the cooperation communication terminal device FTM that has operated in cooperation. It can be notified that (business-purpose in-vehicle device) is determined to be valid. Based on this notification, the taxi passenger can pay the content usage fee with cash or a ticket to the crew of the taxi in peace.

  When the communication terminal device MB is wirelessly connected to, for example, a cellular telephone network that constitutes a part of the first communication mechanism MNW, the communication terminal device MB is located at an arbitrary location, and the server device CSV Can communicate. When the cooperative communication terminal device FTM is wirelessly connected to, for example, an in-vehicle communication network that is a part of the second communication mechanism ANW, the cooperative communication terminal device FTM can be located at an arbitrary location, and the server device CSV Can communicate.

  In addition to the above, the cooperative communication terminal device FTM has, for example, an electromagnetic wave emission function related to infrared communication, Bluetooth (registered trademark) communication, and the like, and can transmit data to the communication terminal device MB having such an electromagnetic wave detection function. it can. Alternatively, the cooperative communication terminal device FTM is provided with an image display function for displaying a two-dimensional code pattern such as a QR code, for example, and the image can be captured by the image capturing means. Can communicate. In other words, cooperative operation can be performed by image transmission.

  The cooperative communication terminal device FTM cannot identify the used communication terminal device MB that has detected the released electronic license els. That is, because of the one-way transmission / reception, data does not flow from the communication terminal device MB used to the cooperative communication terminal device FTM. Therefore, data relating to the user or / and the used communication terminal device MB, particularly confidential information, does not leak to the cooperative communication terminal device FTM. This is convenient for the user.

  In addition, as will be described later in detail, the fee settlement when the fee is charged is, for example, a configuration in which the cooperative communication terminal device FTM intervenes when the taxi crew member receives the fee from the taxi passenger with cash or a ticket (first implementation) Example) and a configuration (second embodiment) in which electronic payment is performed by account transfer between the use communication terminal device MB and the server device CSV without interposing the cooperative communication terminal device FTM.

  The above is the gist of the present invention. Details of the configuration and operation, as well as other features and effects of the present invention will be made clear in the following description of embodiments.

Next, means for solving the problems of the present invention will be described.
An information processing system according to claim 1 of the present invention includes:
A server device configured by a computer, which can be connected to the first communication mechanism and the second communication mechanism, both of which are communication networks;
A communication terminal device configured by a computer capable of communicating with the server device via the first communication mechanism;
A collaborative communication terminal device configured with a computer capable of communicating with the server device via the second communication mechanism;
An information processing system that is a computer network system comprising:
(A) The server device is at least
(A.1) data processing means embodied as a computer program and operating as a cooperation of software and hardware;
(A.2) a first communication unit on the server side related to communication via the first communication mechanism;
(A.3) a second communication unit on the server side related to communication via the second communication mechanism;
(A.4) a storage device on the server side;
The storage device on the server side includes at least
(A.2.1) Identification data and a communication address on the second communication mechanism related to a predetermined valid cooperative communication terminal device;
(A.2.2) content data;
And remember
(A.2.3) Saved data or / and provisional data generated during processing,
Can be memorized,
(B) The cooperative communication terminal device is at least
(B.1) second data processing means embodied as a computer program and operating as cooperation between software and hardware;
(B.2) a second communication unit on the cooperation terminal side related to communication via the second communication mechanism;
(B.3) data sending means for emitting electromagnetic waves modulated by arbitrary transmission data;
(B.4) a storage device on the cooperation terminal side;
The storage device on the link terminal side stores at least identification data of the link communication terminal device, and can store stored data or / and provisional data generated during processing,
(C) The communication terminal device used is at least
(C.1) first data processing means embodied as a computer program and operating as cooperation between software and hardware;
(C.2) a first communication unit on the use terminal side involved in communication via the first communication mechanism;
(C.3) data detection means for detecting the emitted electromagnetic waves and obtaining the transmission data;
(C.4) a storage device on the use terminal side;
The storage device on the side of the user terminal can store stored data or / and provisional data generated during processing,
The information processing system
(D.1) The second data processing means of the cooperative communication terminal device uses the identification data stored in the storage device on the cooperative terminal side as the second communication unit on the cooperative terminal side and the second communication. Performing an identification data transmission process to be transmitted to the server device via a mechanism;
(D.2) The data processing means of the server device sends the identification data transmitted from the cooperative communication terminal device via the second communication mechanism in the identification data transmission process to the second communication unit on the server side. In comparison with the identification data related to the valid cooperative communication terminal device received through the server-side storage device, if there is a match, execute the inspection process to justify the cooperative communication terminal device ,
(D.3) A storage process in which the data processing means of the server device stores the identification data of the cooperative communication terminal device validated in the inspection process in the storage device on the server side as inspected identification data Run
(D.4) The server-side storage device by issuing an electronic license composed of digital data provided only by the cooperative communication terminal device validated in the inspection process by the data processing means of the server device Executing the license generation and providing process of storing the electronic license as an issued electronic license and sending the electronic license to the cooperative communication terminal device via the second communication unit on the server side and the second communication mechanism,
(D.5) The second data processing unit of the cooperative communication terminal device that has received the electronic license transmission via the second communication unit on the cooperative terminal side receives the electronic license and the cooperative terminal side Organizing transmission data including the identification data extracted from the storage device, and emitting an electromagnetic wave modulated by the transmission data from the data sending means,
(D.6) A detection process in which the first data processing unit of the communication terminal apparatus uses the transmission data from the electromagnetic wave detected by the data detection unit to obtain the electronic license and the identification data. Run,
(D.7) The first data processing means of the usage communication terminal apparatus executes a saving process in which the identification data obtained in the detection process is saved in a storage device on the usage terminal side;
(D.8) The first data processing means of the usage communication terminal apparatus uses the identification data and the electronic license obtained in the detection process as the first communication unit on the usage terminal side and the first communication mechanism MNW. Performing a feedback process to be sent to the server device via
(D.9) The data processing means of the server device converts the identification data transmitted from the use communication terminal device in the feedback process into the inspected identification data stored in the storage device on the server side. In contrast, if there is a matched identification data, the collaborative communication terminal device is not replaced after the identification data transmission process, and a confirmation process is performed.
(D.10) The data processing means of the server device converts the electronic license transmitted from the use communication terminal device in the feedback process into the issued electronic license stored in the storage device on the server side. In contrast, if there is a matching issued electronic license, a verification process is performed in which the used communication terminal device operates in cooperation with the cooperative communication terminal device.
It is characterized by that.

An information processing system according to claim 2 of the present invention is the one according to claim 1,
The data sending means of the cooperative communication terminal device and the data detecting means of the utilization communication terminal device are infrared communication, Bluetooth (registered trademark) communication, DSRC (Dedicated Short Range Communications) communication, wireless LAN, UWB (Ultra Wide Band). ) A configuration conforming to at least one communication method of communication and communication using a non-contact wireless tag.

An information processing system according to claim 3 of the present invention is the one according to claim 1,
The data sending means of the cooperative communication terminal device includes an image presentation device in which the transmitted data is retrievably incorporated, and the data detection means of the communication terminal device uses the image optically. An imaging device
The image includes a two-dimensional code pattern organized by the server device based on the electronic license, and a processing pattern obtained by processing the identification data by a predetermined image encryption method in the cooperative communication terminal device. And

An information processing system according to a fourth aspect of the present invention is the information processing system according to any one of the first to third aspects,
The data processing means of the server device, in the storage device on the server side, for the used communication terminal device that has passed the verification process,
1. Data indicating the presence of the communication terminal device,
2. The date and / or time at which the verification process was performed,
3. Position data transmitted from the cooperative communication terminal device or / and the utilization communication terminal device to the server device at any time from the start of the identification data transmission process to the end of the verification process,
Record and store at least one of
It is characterized by having a configuration.

An information processing method according to claim 5 of the present invention includes:
A server device configured by a computer, which can be connected to the first communication mechanism and the second communication mechanism, both of which are communication networks;
A communication terminal device configured by a computer capable of communicating with the server device via the first communication mechanism;
A collaborative communication terminal device configured with a computer capable of communicating with the server device via the second communication mechanism;
An information processing method executed by an information processing system that is a computer network system comprising:
(A) The server device is at least
(A.1) data processing means embodied as a computer program and operating as a cooperation of software and hardware;
(A.2) a first communication unit on the server side related to communication via the first communication mechanism;
(A.3) a second communication unit on the server side related to communication via the second communication mechanism;
(A.4) a storage device on the server side;
The storage device on the server side includes at least
(A.2.1) Identification data and a communication address on the second communication mechanism related to a predetermined valid cooperative communication terminal device;
(A.2.2) content data;
And remember
(A.2.3) Saved data or / and provisional data generated during processing,
Can be memorized,
(B) The cooperative communication terminal device is at least
(B.1) second data processing means embodied as a computer program and operating as cooperation between software and hardware;
(B.2) a second communication unit on the cooperation terminal side related to communication via the second communication mechanism;
(B.3) data sending means for emitting electromagnetic waves modulated by arbitrary transmission data;
(B.4) a storage device on the cooperation terminal side;
The storage device on the link terminal side stores at least identification data of the link communication terminal device, and can store stored data or / and provisional data generated during processing,
(C) The communication terminal device used is at least
(C.1) first data processing means embodied as a computer program and operating as cooperation between software and hardware;
(C.2) a first communication unit on the use terminal side involved in communication via the first communication mechanism;
(C.3) data detection means for detecting the emitted electromagnetic waves and obtaining the transmission data;
(C.4) a storage device on the use terminal side;
The storage device on the side of the user terminal can store stored data or / and provisional data generated during processing,
The information processing method includes:
(D.1) The second data processing means of the cooperative communication terminal device uses the identification data stored in the storage device on the cooperative terminal side as the second communication unit on the cooperative terminal side and the second communication. Transmitting the identification data to the server device via a mechanism; and
(D.2) The data processing means of the server device sends the identification data transmitted from the cooperative communication terminal device via the second communication mechanism in the identification data transmission process to the second communication unit on the server side. In contrast to the identification data relating to the valid cooperative communication terminal device received through the server-side storage device, if there is a match, the cooperative communication terminal device is justified, an inspection process,
(D.3) A storage process in which the data processing means of the server device stores the identification data of the cooperative communication terminal device validated in the inspection process in the storage device on the server side as inspected identification data When,
(D.4) The server-side storage device by issuing an electronic license composed of digital data provided only by the cooperative communication terminal device validated in the inspection process by the data processing means of the server device A license generation providing process for storing the electronic license as an issued electronic license and sending the electronic license to the cooperative communication terminal device via the second communication unit on the server side and the second communication mechanism;
(D.5) The second data processing unit of the cooperative communication terminal device that has received the electronic license transmission via the second communication unit on the cooperative terminal side receives the electronic license and the cooperative terminal side Organizing transmission data including the identification data extracted from the storage device, and emitting electromagnetic waves modulated by the transmission data from the data sending means,
(D.6) A detection process in which the first data processing means of the communication terminal apparatus uses the transmission data from the electromagnetic waves detected by the data detection means to obtain the electronic license and the identification data; ,
(D.7) A storage process in which the first data processing unit of the communication terminal device stores the identification data obtained in the detection process in a storage device on the user terminal side;
(D.8) The first data processing means of the usage communication terminal apparatus uses the identification data and the electronic license obtained in the detection process as the first communication unit on the usage terminal side and the first communication mechanism MNW. A feedback process to be sent to the server device via
(D.9) The data processing means of the server device converts the identification data transmitted from the use communication terminal device in the feedback process into the inspected identification data stored in the storage device on the server side. In contrast, if there is a matching verified identification data, it is assumed that the cooperative communication terminal device is not replaced after the identification data transmission process,
(D.10) The data processing means of the server device converts the electronic license transmitted from the use communication terminal device in the feedback process into the issued electronic license stored in the storage device on the server side. In contrast, if there is a matching issued electronic license, the use communication terminal device operates in cooperation with the cooperative communication terminal device, and a verification process,
It is characterized by comprising.

An information processing method according to claim 6 of the present invention is the one according to claim 5,
The data sending means of the cooperative communication terminal device and the data detecting means of the utilization communication terminal device are infrared communication, Bluetooth (registered trademark) communication, DSRC (Dedicated Short Range Communications) communication, wireless LAN, UWB (Ultra Wide Band). ) A configuration conforming to at least one communication method of communication and communication using a non-contact wireless tag.

An information processing method according to claim 7 of the present invention is the one according to claim 5,
The data sending means of the cooperative communication terminal device includes an image presentation device in which the transmitted data is retrievably incorporated, and the data detection means of the communication terminal device uses the image optically. An imaging device
The image includes a two-dimensional code pattern organized by the server device based on the electronic license, and a processing pattern obtained by processing the identification data by a predetermined image encryption method in the cooperative communication terminal device. And

An information processing method according to an eighth aspect of the present invention is the method according to any one of the fifth to seventh aspects,
The data processing means of the server device, for the used communication terminal device that has passed the verification process, in the storage device on the server side,
1. Data indicating the presence of the communication terminal device,
2. The date and / or time at which the verification process was performed,
3. Position data transmitted from the cooperative communication terminal device or / and the utilization communication terminal device to the server device at any time from the start of the identification data transmission process to the end of the verification process,
A presence proof process for recording and storing at least one of the above.

A server device according to claim 9 of the present invention provides:
It is composed of a computer and can be connected to a first communication mechanism and a second communication mechanism, both of which are communication networks,
Via the first communication mechanism, it is possible to communicate with a use communication terminal device configured by a computer,
A server device capable of communicating with a cooperative communication terminal device configured by a computer via the second communication mechanism,
at least,
(1) data processing means embodied as a computer program and operating as cooperation between software and hardware;
(2) a first communication unit related to communication via the first communication mechanism;
(3) a second communication unit related to communication via the second communication mechanism;
(4) a storage device;
And the storage device is at least
(5) Identification data and a communication address on the second communication mechanism related to a predetermined valid cooperative communication terminal device;
(6) Saved data or / and provisional data generated during processing,
Can be memorized,
The data processing means receives the identification data transmitted from the cooperative communication terminal device via the second communication mechanism via the second communication unit, and sends it to a valid cooperative communication terminal device stored in the storage device. In contrast to such identification data, if there is a match, justify the cooperative communication terminal device, execute an inspection process,
The data processing means stores the identification data of the cooperative communication terminal device validated in the inspection process in the storage device as inspected identification data, and executes a storage process.
The data processing means provides an electronic license composed of digital data to be provided only to the cooperative communication terminal device validated in the inspection process, stores it as an issued electronic license in the storage device, and Performing a license generation providing process of sending an electronic license to the cooperative communication terminal device via the second communication unit and the second communication mechanism;
When the data processing means receives the identification data from the communication terminal device used via the first communication mechanism MNW and the first communication unit, the identification data stored in the storage device is the checked identification data. On the other hand, if there is matching identification data that matches, the cooperative communication terminal apparatus is not replaced after the inspection process, a confirmation process is performed,
When the data processing means receives an electronic license from the used communication terminal device via the first communication mechanism MNW and the first communication unit, the issued electronic license stored in the storage device is stored in the electronic license. In contrast, if there is a matching issued electronic license, a verification process is performed in which the use communication terminal device operates in cooperation with the cooperation communication terminal device.
It is characterized by that.

A server device according to a tenth aspect of the present invention is the one according to the ninth aspect,
The data processing means, for the use communication terminal device that has passed the verification process, in the storage device,
1. Data indicating the presence of the communication terminal device,
2. The date and / or time at which the verification process was performed,
3. Position data transmitted from the cooperative communication terminal apparatus or / and the utilization communication terminal apparatus to the server apparatus at any time from the start of the inspection process to the end of the verification process,
Record and store at least one of
It is characterized by having a configuration.

  In the information processing system according to claim 1 of the present invention, the information processing method according to claim 5 and the server device according to claim 9, the cooperative communication terminal device is surely present by the server device executing the inspection process. In addition, it is possible to check whether it is a registered valid cooperative communication terminal device. At the same time, it can be specified which of a plurality of cooperative communication terminal devices is.

  Further, the server device issues an electronic license, returns it to the server device via the cooperative communication terminal device and the use communication terminal device, and uses the communication terminal device through a verification process for verifying whether it has returned correctly after making one round in this way. If the electronic license is transmitted from the valid cooperative communication terminal device to the use communication terminal device, it is verified that the use communication terminal device is operated in cooperation with the cooperation communication terminal device.

  The server device stores inspected identification data at the time of inspection, while the cooperative communication terminal device releases the electronic license and its own identification data, and the used communication terminal device that detects and captures the identification data is the server device. Confirm that there was no unauthorized replacement of the cooperative communication terminal device after the identification data transmission process by matching the identification data transmitted from the use communication terminal device in the server device with the inspected identification data. Is done.

  Further, in the use communication terminal device, the identification data collected from the detected transmission data is stored in the storage device on the use terminal side, so that it is possible to record and store which of the cooperation communication terminal devices operated in cooperation.

  Furthermore, since the data transmitted by each use communication terminal device reaches the server device without going through the cooperation communication terminal device, personal information that is confidential information handled by the use communication terminal device is disclosed to the cooperation communication terminal device. There is no. Therefore, the occurrence of leakage or unauthorized use from the cooperative communication terminal device is eliminated.

  According to the information processing system of claim 2 and the information processing method of claim 6, since the data transferable distance varies depending on the communication method used, the request is made by applying a communication method according to the required distance. It can be set as the optimal structure. In addition, by configuring the data sending unit and the data detecting unit to be compatible with a plurality of communication methods, data transmission using different transmission media can be performed simultaneously.

  According to the information processing system of claim 3 and the information processing method of claim 7, the image is divided into a two-dimensional code pattern and a processing pattern, the two-dimensional code pattern is organized by a server device, and the processing pattern is By the configuration formed by the cooperative communication terminal device, it is possible to eliminate the scratch (unauthorized replacement) of the cooperative communication terminal device.

  According to the information processing system according to claim 4, the information processing method according to claim 8, and the server device according to claim 10, the cooperation operation of the cooperation communication terminal device and the use communication terminal device is verified, The existence proof that the used communication terminal device surely exists is also possible. In this case, it is also possible to prove the date and / or time when the cooperative operation verification was performed. In addition, the location of the used communication terminal device can be proved with the accuracy of the distance at which the linked operation of the linked communication terminal device and the used communication terminal device is established. In this case, the location data is verified by applying the location data of the cooperative communication terminal device to the use communication terminal device.

In the system of the present invention, in a series of processes related to data exchange performed by the server device, the cooperative communication terminal device, and the used communication terminal device, the server device transmits the cooperative communication terminal device identification data transmitted from the cooperative communication terminal device. Based on (hereinafter, abbreviated as identification data), the collaborative communication terminal device is inspected to confirm that it is a legitimate collaborative communication terminal device, and the server device issues an electronic license to communicate with the collaborative communication terminal device. Based on whether the returned electronic license matches with the terminal device through the terminal device, the used communication terminal device receives the electronic license from the linked communication terminal device, so that the used communication terminal device is a valid linked communication terminal. Verify that the system is linked to the device.
Furthermore, in order to eliminate fraud in which the above-described valid cooperative communication terminal device is replaced with an unauthorized device, the server device performs the following confirmation after recording the identification data during the inspection. After the cooperative communication terminal device receives the electronic license, the cooperative communication terminal device transmits its identification data to the use communication terminal device, and when the identification data arrives at the server device from the use communication terminal device, the server device Verifies the identification data that has arrived and the identification data that remains in the record. As a result, the server device can easily and surely find and eliminate the cooperative communication terminal device that has been illegally replaced, and can implement a safe and highly reliable system.

  Each embodiment described below is a preferred example of the information processing system and information processing method of the present invention, and is also a preferred example of a server device. Each embodiment may be given various limitations preferable in terms of technical configuration as examples showing the essential configuration and operation of the present invention. However, the scope of the present invention is particularly limited in the following description. Unless otherwise described, the present invention is not limited to these examples.

A first embodiment of an information processing system according to the present invention will be described in the order of configuration, operation, and advantages with reference to the following drawings.
FIG. 1 is an overall block configuration diagram of an example of an information processing system according to the present invention.
FIG. 2 is a block diagram of an example of the server device.
FIG. 3 is an explanatory diagram of an example of a database.
FIG. 4 is a block configuration diagram of an example of a cooperative communication terminal device.
FIG. 5 is a block diagram of an example of a communication terminal device used.
FIG. 6 is an explanatory diagram of an example of use in a taxi vehicle.
FIG. 7 shows an example of the display screen.
FIG. 8 is a diagram showing another example of the display screen.
FIG. 9 is an explanatory diagram of the data flow of the first embodiment.
FIG. 10 is a timing chart of the first embodiment.
FIG. 11 is a configuration diagram of an example of execution data.
FIG. 12 is a timing chart following FIG.

  The series of processing executed by the information processing system of the first embodiment is the first embodiment of the information processing method according to the present invention. Similarly, the server apparatus is the first embodiment of the server apparatus according to the present invention. It is an example.

As shown in FIG. 1, the information processing system Sysc is
(1) a computer-configured server device CSV that can be connected to the first communication mechanism MNW and the second communication mechanism ANW that are communication networks;
(2) Utilization communication configured by a computer having a function of receiving data transmission by detecting and capturing electromagnetic waves emitted from the cooperative communication terminal device FTM and capable of communicating with the server device CSV via the first communication mechanism MNW. A terminal device MB;
(3) A collaborative communication terminal device constituted by a computer having a function of emitting an electromagnetic wave carrying data to be transmitted to the communication terminal device MB used and capable of communicating with the server device CSV via the second communication mechanism ANW FTM,
It is comprised and comprises.

  The information processing system Sysc provides an information service, for example, a content providing service. The server device CSV supplies content data to the use communication terminal device MB, and the user uses the use communication terminal device MB. Content data. There are many types of content services provided by the server device CSV, and there are a wide variety of content data dco such as video, music, text, poetry, drama, drama, sweepstakes, song, quiz, and electronic ticket. Participation in Lotto is also part of the content service provided.

When data is transmitted from the collaborative communication terminal device FTM to the use communication terminal device MB by the emission of electromagnetic waves and its detection / capture, the use communication terminal device MB and the collaborative communication terminal device FTM are referred to as operating in cooperation. It is assumed that a cooperative operation route SRN is formed between them.
As described above, for the communication terminal device MB to operate in cooperation with the cooperative communication terminal device FTM, the qualification requirement when the communication terminal device MB receives information from the server device CSV via the first communication mechanism MNW. If this is the case, the information processing system Sysc verifies that the above-described cooperative operation has been established using natural laws as follows.

  First, the cooperative communication terminal device FTM transmits its identification data #ftm to the server device CSV via the second communication mechanism ANW, and the server device CSV checks the validity of the cooperative communication terminal device FTM based on the identification data #ftm. If the inspection passes, the identification data #ftm is stored in the memory, and then the server device CSV issues a unique electronic license els, which is stored in the memory and then stored in the memory to the cooperative communication terminal device FTM via the second communication mechanism ANW. When it is sent out, the cooperative communication terminal apparatus FTM puts it on the electromagnetic wave as a transmission data obtained by adding its own identification data #ftm to this and emits it. When the communication terminal device MB that detects the emitted electromagnetic wave and captures the transmission data transmits the return data including the transmission data to the server device CSV via the first communication mechanism MNW, the server device CSV receives the received identification. The data #ftm and the identification data #ftm stored in the memory are collated. If they match, the interlinked communication terminal device FTM intervened is confirmed as valid, and the received electronic license els and the electronic license els stored in the memory It is assumed that the presence / absence of the match is verified, and if it matches, the used communication terminal device MB operates in cooperation with the linked communication terminal device FTM.

  Applicable communication terminal devices MB include mobile mobile phones (cellular phones and PHDs), personal communication devices including personal digital assistants PDAs, mobile computer devices compatible with communication, mobile Internet devices, and communication compatible devices. There are fixed computer devices and fixed Internet devices. The used communication terminal device MB may be recorded with a solid identification number #mb (solid ID) such as a production number for identifying itself.

  The first communication mechanism MNW provides a function related to data exchange between the server device CSV and the used communication terminal device MB, and the configuration is not limited as long as it implements a one-to-one correspondence session. Alternatively, it conforms to at least one of the analog communication protocols.

  The first communication mechanism MNW includes a base station equipment such as a cellular antenna, a base station controller, a mobile phone switch, a gateway switch, etc., in addition to a mobile communication network and a packet communication network related to the exchange of digital data, and a public telephone. In short, it is the name of a series of wired / wireless communication facilities that connect the communication terminal device MB and the server device CSV, including the network, leased line, the Internet, etc. As an example, a cellular phone network and related facilities (gateways, etc.) Internet network and related equipment (routers, proxy servers, etc.). Therefore, it is preferable to apply packet communication, in particular, data exchange based on a Web page embodied by WWW (World Wide Web, abbreviated as Web) which is a function of the Internet and related technologies such as CGI and Cookie. At least the source IP address and destination IP address are specified in the header of each packet by packet communication, and there are connection providers, many routers, gateways, servers, etc. in the middle. A one-to-one connection between the destinations is formed, and data is added via the first communication mechanism MNW from the use communication terminal device MB to the server device CSV, or the first communication mechanism from the server device CSV to the use communication terminal device MB. Data can be added via the MNW.

In packet communication by the first communication mechanism MNW, a transmission source address and a transmission destination address are listed in the header of each packet. Both are communication addresses on the first communication mechanism MNW. A response (acknowledge) packet is sent back to this source address. When using the Internet mechanism, an IP address may be allocated each time by a connection provider (ISP).
The first communication mechanism MNW is not limited to the Internet mechanism, and can be applied to any communication mechanism related to so-called packet communication. Furthermore, the Internet mechanism is not limited to a Web page, and may be another application.

  The used communication terminal device MB has a communication address on the first communication mechanism MNW, and similarly the server device CSV has a communication address on the first communication mechanism MNW. As an example, the former communication address is a mobile phone number, and the latter communication address uniquely corresponds to the URL of the Web site of the server device CSV and is specified as a target by the connection provider. Therefore, the used communication terminal device MB can access the Web site by designating the URL of the Web site of the server device CSV.

  Applicable as the cooperative communication terminal device FTM includes an in-vehicle communication terminal device, a fixed computer device compatible with communication, a fixed Internet device, a personal communication device including a portable information terminal PDA, a mobile mobile phone, and a mobile There are internet devices. The in-vehicle communication terminal device is sometimes called an in-vehicle device or an in-vehicle server.

  The second communication mechanism ANW conforms to at least one of various digital communication or analog communication protocols. An example of the second communication mechanism ANW is an in-vehicle communication network and related equipment. In this embodiment, the communication address on the second communication mechanism ANW of the server device CSV is set to #csv_A.

  Data transmission from the cooperative communication terminal device FTM to the communication terminal device MB is performed by infrared communication, Bluetooth communication, DSRC (Dedicated Short Range Communications) communication, wireless LAN, UWB (Ultra Wide Band) communication, or non-contact Depending on the wireless data transmission method including communication by wireless tag, or the image in which the communication terminal device FTM displays the image in which the transmission data is incorporated, and the communication terminal device MB having the imaging function captures the image. Data transmission method is applied. Both the radio and the image are electromagnetic waves, and the cooperative communication terminal device FTM emits the electromagnetic waves, and the used communication terminal device MB detects and captures the electromagnetic waves to transmit data.

  As described above, when data is transmitted from the cooperative communication terminal device FTM to the utilization communication terminal device MB through the transmission and reception of electromagnetic waves, the utilization communication terminal device MB and the cooperation communication terminal device FTM are referred to as operating in cooperation as described above. Assume that a cooperative operation route SRN is formed between them.

  The length of the cooperative operation route SRN is practical, for example, when used in a taxi car, it is practical that the distance between the passenger's mobile phone (utilization communication terminal device MB) and the in-vehicle device (collaborative communication terminal device FTM) is within 2 meters. It is preferable that the mobile phone of the customer and the terminal of the store are within 10 meters in a straight distance in booths and stores in the city, and various event venues such as airport waiting halls, amusement parks, ballparks, racetracks, exhibitions, For use in exhibition halls, spot sales halls, museums, and memorials, it is preferable that the mobile phone of the visitor and the terminal of the facility be within 100 meters in a straight line distance.

Next, the configuration of the server device CSV will be described with reference to FIG. The server device CSV is a server-side computer and includes a CPU, buses, non-volatile and / or volatile storage means wmys (including a read-only memory such as a ROM) such as a semiconductor memory and a magnetic disk with a small recording capacity, a first A communication unit SMCU, a second communication unit SFCU, a recording device DRDV having a large recording capacity storing at least a database DB, which is a means for recording data, a power source, and the like as a device / equipment; The recording device DRDV or / and the storage means wmys are stored and stored, and are provided with data processing means mspr that can be read and executed by the CPU. The data processing means mspr operates in cooperation with software and hardware in accordance with a stored program system. Furthermore, a timer mtr whose operation is controlled by the data processing means mspr is provided.
The recording device DRDV and / or the storage means wmys is referred to as a storage device on the server side.

The first communication unit SMCU is a first communication unit on the server side, has a communication address #csv_M on the first communication mechanism MNW of the server device CSV, and executes communication via the first communication mechanism MNW. The second communication unit SFCU is a second communication unit on the server side, has a communication address #csv_A on the second communication mechanism ANW of the server device CSV, and executes communication via the second communication mechanism ANW.
Each includes a communication driver that performs transmission / reception control including a transmission / reception circuit, a communication address, and a protocol, an interface, a modem, and the like. In addition, for example, the processing function related to data compression and expansion during communication such as SSL and the processing function related to encryption / decryption during communication is included in the first communication unit SMCU and the second communication unit SFCU in this embodiment for convenience of explanation. ing. Further, it is assumed that #csv_M and #csv_A are disclosed as the communication address.

  The data processing means mspr includes a processing module md_pr, an inspection module md_xn, an electronic license generation module md_gn, a term management module md_ef, a confirmation module md_cr, a verification module md_vf, and an authentication module md_cf, and is read and executed by the CPU. , Transmits / receives data to / from the use communication terminal device MB via the first communication unit SMCU, and transmits / receives data to / from the cooperative communication terminal device FTM via the second communication unit SFCU. Arithmetic processing and data processing accompanied with data exchange with other computer programs are executed, and operation control including starting / stopping a part of the above-mentioned devices / equipment and other computer programs is executed.

The processing module md_pr manages the data in the database DB, manages data input / output to the storage means wmys, controls the operation of the first communication unit SMCU and the second communication unit SFCU, the inspection module md_xn, the electronic license generation module md_gn, and the term management The module md_ef, the confirmation module md_cr, the verification module md_vf, and the authentication module md_cf are activated and managed (control management).
The processing module md_pr controls the start, timing, and stop of the timer mtr, and executes time setting at the time of collaborative operation verification.

The inspection module md_xn executes an inspection process as to whether or not the cooperative communication terminal device FTM is a member. This is called main body inspection. That is, when the cooperative communication terminal device identification data #ftm is received from the cooperative communication terminal device FTM, this is collated with the cooperative communication terminal device original book data dorf of the cooperative communication terminal device file Ftm, so that the legitimate registered membership is obtained. It is inspected whether or not it is a cooperative communication terminal device FTM.
If it is a valid cooperative communication terminal device FTM, the processing module md_pr accepts the sent data, and if it is not a valid cooperative communication terminal device FTM, it does not accept the sent data. This is a screening operation for the cooperative communication terminal device.

  The electronic license generation module md_gn executes a process for generating an electronic license els composed of digital data. The electronic license els is unique data sent to the cooperative communication terminal device FTM that has passed the main body inspection. The issued electronic license els is recorded as an element of the valid data diff in the valid file Feff in the database DB of the server device CSV by the processing module md_pr. The electronic license els has an expiration date, and the start time td is recorded as an element of the valid data diff.

  The expiration date management module md_ef performs lifetime management of the electronic license els registered in the valid file Feff based on the data of the timer mtr, and continuously monitors whether it has expired (expire). When the elapsed time measured from the issue time or transmission time of the electronic license els exceeds a predetermined limit, the valid data diff in which the electronic license els is recorded is deleted from the valid file Feff as a timeout.

  The confirmation module md_cr executes a confirmation process of whether or not the cooperative communication terminal apparatus FTM has been “replaced” by another cooperative communication terminal apparatus during the process. The cooperative communication terminal device identification data #ftm transmitted as a demand from the cooperative communication terminal device FTM at the beginning is stored in the storage means wmys by the processing module md_pr. If the cooperative communication terminal device identification data #ftm transmitted as return data from the utilization communication terminal device MB to the server device CSV later matches the stored cooperative communication terminal device identification data #ftm, the beginning and later It can be confirmed that there is no “scratch (unauthorized replacement)” of the cooperative communication terminal device FTM up to now.

  The verification module md_vf executes a verification process as to whether or not the communication terminal device MB and the cooperative communication terminal device FTM are operating in cooperation. The electronic license els issued after the main body inspection is stored in the valid data diff in the database DB by the processing module md_pr. If the electronic license els transmitted to the server device CSV from the used communication terminal device MB as return data later matches the stored electronic license els, the used communication terminal device MB links the electronic license els. It is obtained from the communication terminal apparatus FTM, and is a proof that the two have cooperated. In this way, cooperative operation verification can be performed.

The authentication module md_cf executes user authentication processing for the user who operates the communication terminal device MB used. Depending on the application in which the user himself uses the execution data dexc generated by the previous use, confirmation that the user is the user is required. At this time, the authentication module md_cf collates the authentication data #uid input by the user with the existing authentication original book data dor in the execution data dexc in the database DB.
Even if an unauthorized person tries to perform various procedures without permission from the user himself / herself using the communication terminal device MB by executing the personal authentication, the server device CSV does not accept the authentication data #uid because the authentication data #uid cannot be input correctly. Can be eliminated.

  Furthermore, according to the present invention, the authentication data #uid input at the used communication terminal device MB is sent only directly to the server device CSV via the first communication mechanism MNW, and the authentication data #uid is sent to the cooperative communication terminal device FTM. Never sent or routed through. The same applies to the authentication original book data dorg. Therefore, since the cooperative communication terminal device FTM does not know the authentication data #uid, the “spoofing” fraud that illegally uses the user authentication data obtained by eavesdropping, which may have occurred in the conventional configuration, There is an advantage that high reliability can be realized without being generated in the configuration of the present invention.

It is also possible to use the individual identification number #mb (solid ID) of the used communication terminal device MB as the authentication data #uid. A typical example of the solid identification number #mb is a manufacturing serial number, which is recorded on a cellular phone, for example. In the case of using the individual identification number #mb, the user does not need to perform an input operation for registering authentication data, and does not need to input every time it is used, and is automatically processed and convenient, but is fixed. Therefore, there is a drawback that data cannot be easily updated even if leakage occurs.
Details of the operation of each module will be described in the subsequent processing flow.

  The recording device DRDV includes a large-capacity fixed or removable magnetic disk medium and / or a large-capacity optical disk recording medium or / and a semiconductor memory, and records and stores various data including the database DB.

As shown in FIG. 3, the database DB includes a menu file Fmnu that stores menu data dmenu, a content file Fcon that mainly stores content data, a website file Wste that records website data, homepage screen data, and the like, and valid data diff. , An effective file Feff storing execution data, an execution file Fexc storing execution data dexc, and each cooperation communication terminal device original book data dorf formally registered as a member and a communication address #far on the second communication mechanism ANW The communication terminal device file Ftm is stored and stored.
The valid data def stores the issued electronic license els, the start time td, the inspected cooperative communication terminal device identification data (inspected identification data) #ftm, and may include presence data described later. In the valid data def in FIG. 3, the issued electronic license is abbreviated as an electronic license, and the inspected cooperative communication terminal device identification data is abbreviated as identification data.

  Further, although not shown, the database DB may be configured to store and store a use communication terminal device file that stores original book data of each use communication terminal device that is officially registered as a member. In this case, the inspection module md_xn of the server device CSV executes the screening operation of the use communication terminal device in the same manner as the screening operation of the cooperative communication terminal device, and accepts only the use communication terminal device MB.

  The storage means wmys stores temporary data such as content identification number #cid, authentication data #uid, request data abc, individual identification number #mb of the communication terminal device MB used, and temporary data generated during processing.

Next, the configuration of the cooperative communication terminal apparatus FTM will be described with reference to FIG.
The cooperative communication terminal device FTM is a computer-configured terminal device, and includes a CPU, buses (not shown), non-volatile memory and / or volatile memory storage means wmyf (magnetic disk medium, read-only memory such as ROM, etc. ), The second communication unit FSCU, the data sending means FRNU, the presentation unit FDP, the input unit FIP, the power supply, etc. as a device / equipment, and further a computer program stored in the storage means wmyf and stored by the CPU Second data processing means mfpr capable of reading is provided. The second data processing means mfpr operates in cooperation with software and hardware in accordance with the stored program system, and includes a processing module mdf_pr. Examples of the cooperative communication terminal device FTM include an in-vehicle device and an in-vehicle server. The cooperative communication terminal device FTM takes input (data and operation) by the operator, and notifies the operator by presenting the presenting unit FDP.

  The second communication unit FSCU is a second communication unit on the cooperation terminal side, and is wirelessly connected or wired to the second communication mechanism ANW, and the communication address on the second communication mechanism ANW of the cooperation communication terminal device FTM. It has #far and includes a communication driver, an interface, etc. that perform transmission / reception control including a transmission / reception circuit, a communication address, and a protocol. In the present embodiment, the second communication unit FSCU includes a processing function related to data compression and decompression during communication and a processing function related to encryption / decryption during communication such as SSL.

  The processing module mdf_pr is read and executed by the CPU, and transmits / receives data to / from the server apparatus CSV appropriately corresponding to various protocols including the TCP / IP protocol via the second communication unit FSCU, and data sending means Controls the emission of electromagnetic waves carrying transmission data from the FRNU, and executes arithmetic processing and data processing involving data exchange with the above-mentioned apparatus / equipment and other computer programs (not shown). Executes operation control including starting and stopping of some and other computer programs.

The processing module mdf_pr executes data input / output management for the storage means wmyf, operation control including start timing control of the second communication unit FSCU and the data sending means FRNU, and the like.
In particular, when the request input rsta input from the input unit FIP is input by the user's operation, the linked communication terminal device identification data #ftm read from the storage means wmyf is added, and the second communication unit FSCU and the second communication mechanism ANW are added. The electronic license els transmitted from the server device CSV is received via the second communication mechanism ANW and the second communication unit FSCU, and then the above-mentioned cooperative communication terminal device is sent to the electronic license els. The transmission data is organized by adding the identification data #ftm, and a process of emitting the electromagnetic wave modulated by the transmission data from the data sending means FRNU is executed.
After that, when the collection request rcv sent from the server device CSV is received via the second communication mechanism ANW and the second communication unit FSCU, it is presented to the presentation unit FDP, and then received from the input unit FIP by the operation of the crew When the data #rcpt is fetched, a process of transmitting the received data #rcpt to the server device CSV via the second communication unit FSCU and the second communication mechanism ANW is executed. Details of the operation of the processing module mdf_pr will be described in the subsequent processing flow.

The data sending means FRNU is a transmission data emitting means, and includes an antenna, an output circuit, a transmission circuit, etc., and includes wireless data including infrared communication, Bluetooth communication, DSRC communication, wireless LAN, UWB communication, and communication using a non-contact wireless tag. A transfer method or the like can be applied. The transmission data includes an electronic license els and cooperative communication terminal device identification data #ftm.
The data sending means FRNU includes an interface circuit, a light emission control circuit, an infrared light emitting diode, etc. when infrared rays are used as a transmission medium.

  The storage unit wmyf is a storage device on the cooperation terminal side, and the cooperation communication terminal device identification data #ftm, the communication address #csv_A on the second communication mechanism ANW for each server device CSV, and a portal screen such as FIG. The content provider company list screen data shown in (2) is stored in advance as saved data, and further stores temporary data, temporary data generated during processing, and the like.

The presenting unit FDP is an output interface unit to the user, which includes a liquid crystal display, a speaker, and the like, and executes image display and sound notification based on data sent under the control of the second data processing unit mfpr. Initially, the portal screen shown in FIG.
The input unit FIP is an input interface unit for an operator composed of input devices such as input keys, buttons, switches, touch panels, and microphones, and generates a signal according to the input operation and sends it to the second data processing means mfpr. To do.

Next, the configuration of the utilized communication terminal device MB will be described with reference to FIG.
The used communication terminal device MB is a computer-configured terminal device, which includes a CPU, buses, non-volatile memory and / or volatile memory storage means wmyb (including read-only memory such as ROM), a first communication unit BSCU, Data detection means BRNU, call part ALVR, presentation part BDP, input part BIP, power supply, etc. are provided as devices / equipment, and are further stored in the storage means wmyb and can be read and executed by the CPU. First data processing means mbpr is provided. The first data processing means mbpr operates in cooperation with software and hardware in accordance with the stored program system.
The used communication terminal device MB is suitable for a cellular phone having a packet communication function, that is, a mobile phone, a PHS terminal, a portable information communication terminal PDA (Personal Digital Assistant), a tablet PC, or the like. In particular, a mobile phone equipped with a browser and capable of connecting to the Internet is preferable. The used communication terminal device MB takes in the input (data and operation) by the user, and is notified to the user by presenting the presenting unit BDP.

  The first communication unit BSCU is a first communication unit on the use terminal side, and performs communication via the first communication mechanism MNW. The communication driver and interface perform transmission / reception control including a transmission / reception circuit, a communication address, and a protocol. And the like, and has a communication address #mar on the first communication mechanism MNW. In the present embodiment, processing related to data compression and expansion during communication and processing functions related to encryption / decryption during communication such as SSL are included in the first communication unit BSCU in this embodiment.

  The first data processing means mbpr includes a browser module mdb_br and a processing module mdb_pr, and is read and executed by the CPU, so that various protocols including the TCP / IP protocol are appropriately handled via the first communication unit BSCU. Then, it transmits / receives data to / from the server device CSV, and detects the electromagnetic waves emitted by the cooperative communication terminal device FTM by the data detection means BRNU, captures the transmitted data, and the above devices / equipment and other computers not shown Arithmetic processing and data processing accompanied with data exchange with the program are executed, and operation control including starting and stopping a part of the above-mentioned devices and devices and other computer programs is executed.

  The browser module mdb_br executes Web page browsing and data transmission with the site using the input form under the operation control by the processing module mdb_pr.

  The processing module mdb_pr executes data input / output management to the storage means wmyb, operation control including start timing control of the first communication unit BSCU and data detection means BRNU, start timing management and operation control (control management) of the browser module mdb_br, etc. To do.

  Further, the electronic license els and the linked communication terminal device identification data #ftm included in the transmission data are temporarily stored in the storage means wmyb, the first communication unit BSCU and the first communication of the electronic license els and the linked communication terminal device identification data #ftm. Sending to server apparatus CSV via mechanism MNW, fetching and presenting part of instruction notification spf, billing notice pcm, content data dco sent from server apparatus CSV via first communication mechanism MNW and first communication unit BSCU Presentation to BDP, content identification number #cid input from input unit BIP, authentication data #uid, request data abc, reception number #reg_N, reception number #reg_O, acquisition of incidental data atd (not shown) and storage means wmyb Temporary storage, organization of request notification ABC, first communication unit BSCU and first communication Sending to the server device CSV over the mechanism MNW, it executes the like.

  The instruction notification spf includes menu data dmenu, which is screen data for instructing an instruction input, and a reception number #reg_N. Examples of menu data dmenu are shown in FIGS. 7B, 7C, and 8A.

Examples of the request notification ABC transmitted to the server apparatus CSV include the following.
(A) Immediate use of content data dco for a fee:
Reception number #reg_N, request data abc = 1, content identification number #cid, account information act
(B) Immediate use of content data dco for free:
Reception number #reg_N, request data abc = 2, content identification number #cid
(C) Registration for a fee:
Reception number #reg_N, request data abc = 3, incidental data atd, content identification number #cid, authentication data #uid, account information act
(D) Registration for free:
Reception number #reg_N, request data abc = 4, incidental data atd, content identification number #cid, authentication data #uid
(E) Winning inquiry:
Reception number #reg_N, request data abc = 5, reception number #reg_O (target reception number), content identification number #cid, authentication data #uid
The details of the operation of each module will be described in the subsequent processing flow.

  The data detection means BRNU includes a detection antenna, a detection circuit, an amplifier circuit, and the like, and is configured to detect the electromagnetic waves emitted from the cooperative communication terminal device FTM and take in the transmitted data. The data detection means BRNU includes an infrared detection sensor, a detection circuit, an interface circuit, and the like when infrared is used as a transmission medium.

  The storage means wmyb is a storage device on the use terminal side, and temporarily holds electronic license els, content identification number #cid, authentication data #uid for personal authentication, reception number #reg_N, reception number #reg_O, request data abc, etc. Data to be stored, stored data such as cooperative communication terminal device identification data #ftm captured during processing, and temporary data generated during processing are stored.

The presenting unit BDP is an output interface unit to the user, which includes a liquid crystal display, a speaker, and the like, and executes image display and sound notification based on data sent under the control of the first data processing unit mbpr.
The input unit BIP is an input interface unit to the user, which is composed of input devices such as input keys, buttons, switches, touch panels, and microphones, and generates a signal according to the input operation and sends it to the first data processing means mbpr. To do. The user of the communication terminal device MB operates the input unit BIP and inputs authentication data #uid (user ID) for authenticating the user. There is also a configuration in which a part is combined with the presenting unit BDP.
The call unit ALVR manages telephone communication via the first communication unit BSCU.

In the present invention, the cooperative communication terminal device identification data #ftm transmitted from the cooperative communication terminal device FTM and received by the server device CSV is referred to as a demand. For each demand, the “main body inspection” is executed, and for the demand that has passed the main body inspection, valid data def (see FIG. 3) is created in the valid file Feff, and a unique electronic license els is issued for cooperative communication. Send to terminal device FTM.
Then, when the communication terminal device MB takes in the electronic license els and the cooperation communication terminal device identification data #ftm released by the cooperative communication terminal device FTM on the electromagnetic wave and transmits them as return data to the server device CSV, the received server device CSV is The above “confirmation” and “cooperation check” are executed for each return data, and those that pass both are called events. For each event, execution data dexc (see FIG. 11) is created, a receipt number #reg_N is issued, and sent to the communication terminal device MB using this event in an instruction notification spf.

In the execution file Fexc, execution data dexc created for each event that passes the main body inspection and the cooperative operation verification is recorded. FIG. 11 shows an example of the configuration of the execution data dexc.
Each execution data dexc includes reception number #reg, existence proof #dtp, request data abc, authentication original book data dorg, content identification number #cid, incidental data atd, cooperative communication terminal device identification data #ftm, receipt data #rcpt. Etc. are recorded.

The reception number #reg is data specifying this event. The reception date and time may be included. Existence proof #dtp is data certifying the existence of the used communication terminal device MB. The request data abc is data relating to a request from the user for the event.
The authentication ledger data dorg is data in the ledger that is collated when identifying the registrant, and the authentication data #uid previously entered by the registrant is registered as the authentication ledger data dor, and input by the user at the time of collation. The authenticated authentication data #uid is compared with the authentication original book data dor to authenticate the identity of the registrant.
The content identification number #cid (content identification number) is data for specifying the content such as a prize or a name / type of a bag.
The incidental data atd is arbitrary data registered by the user at the time of content participation registration. As an example of the incidental data atd, there is a number set by a user who requests participation registration or a combination of numbers in a prize or a prize.

  The cooperative communication terminal device identification data #ftm is unique to each cooperative communication terminal device FTM. If the cooperative communication terminal device FTM is officially registered, the cooperative communication terminal device original book is stored in the database DB of the server device CSV. The same data is stored as data dorf.

The following items relate specifically to the payment of content usage fees for passengers who use content during taxi rides.
The receipt data #rcpt is the date when the content usage fee is received from the user, the receipt of cash or a ticket, the record of the settlement date by the credit card, and the like. For example, when cash or a ticket paid from a passenger who uses the content when getting on taxi is received, it is created based on a notification sent from the cooperative communication terminal device FTM (on-vehicle device) to the server device CSV, and when making a payment with a credit card Is generated based on the notification sent from the cooperative communication terminal device FTM (on-vehicle device) to the server device CSV and the payment notification from the financial institution that has contracted the payment processing.

The driver ID (not shown), together with the linked communication terminal device identification data #ftm, provides the linked communication terminal device FTM (on-vehicle device) by the business entity that operates the server device CSV when the content is used during the taxi ride. This data is used to identify the taxi and the driver in order to settle the cooperation fee to be paid to the taxi company, and is created based on the data sent from the cooperative communication terminal device FTM (onboard device) to the server device CSV.
The settlement date (not shown) is a record of the date when the business entity settles the terminal usage fee to the taxi company.

  FIG. 6 is an explanatory diagram of the usage situation in the taxi car. In the same figure, the cooperative communication terminal device FTM, which is an in-vehicle device, is installed on the back of the front seat, while the use communication terminal device MB is operated by a passenger in the rear seat and is used with the cooperation communication terminal device FTM. Communication terminal device MB is in a close position. Therefore, the used communication terminal device MB can easily detect the electromagnetic waves emitted from the cooperative communication terminal device FTM and take in data.

  FIG. 9 illustrating the data flow of the information processing system Sysc according to the first embodiment, FIGS. 10 and 12 illustrating the timing chart of the processing, and FIGS. 11 and 2 illustrating the configuration of the execution data dexc (server apparatus) The operation of the information processing system Sysc will be described below with reference to the CSV block diagram), FIG. 4 (block diagram of the cooperative communication terminal device FTM), FIG. 5 (block diagram of the used communication terminal device MB) and the like as appropriate.

  In FIG. 4, as an example, the cooperative communication terminal device FTM is an in-vehicle device mounted on a taxi vehicle, and the use communication terminal device MB of FIG. 5 is, for example, a mobile phone carried by a passenger of the taxi who is a user. It is assumed that the vehicle is on the taxi vehicle. Similarly, the first communication mechanism MNW includes a cellular phone network that supports packet communication, the second communication mechanism ANW includes an in-vehicle wireless communication network, and the server device CSV functions as a content providing site. The cooperative communication terminal device FTM can communicate with the server device CSV using the in-vehicle wireless communication network, and the used communication terminal device MB can communicate with the server device CSV using a cellular phone network that supports packet communication.

  In the storage means wmyf of the cooperative communication terminal device FTM, the respective communication addresses (abbreviated as #csv_A) on the second communication mechanism ANW of a plurality of server devices (abbreviated as “CSV” in FIG. 4) are in a list form. Stored as a site list. On the other hand, on the portal screen shown in FIG. 7A displayed on the presenting unit FDP, a plurality of content providing sites (each of the above-described server devices) are displayed on the content providing company list. The viewing passenger (user) can select and specify any of them by an operation (screen touch, key input, etc.) on the input unit FIP. The portal screen data (not shown) is stored in the storage means wmyf in advance.

  In step S01, the taxi passenger operates the input unit FIP of the cooperative communication terminal device FTM as a user, so that a start request rsta is input as a selection specification of a desired content providing site (server device CSV) and a content service request. Then, the processing module mdf_pr of the second data processing means mfpr of the cooperative communication terminal device FTM takes in the start request rsta. The processing module mdf_pr that has captured these inputs searches the site list in the storage means wmyf based on the site designation, and obtains the corresponding communication address #csv_A on the second communication mechanism ANW of the designated server device CSV. Identify and read.

In step S02, identification data #ftm of the cooperative communication terminal device stored in advance in the storage unit wmyf is extracted. Next, the processing module mdf_pr sends the communication address #csv_A to the second communication unit FSCU to set it as a transmission destination, and sends the start request rsta and the linked communication terminal device identification data #ftm via the second communication unit FSCU and the second communication mechanism ANW. To the corresponding server device CSV.
Alternatively, the start request rsta may be omitted, and only the cooperative communication terminal device identification data #ftm may be transmitted to the corresponding server device CSV.
Here, the cooperative communication terminal device identification data #ftm may be a product serial number, an arbitrary symbol, or a communication address #far on the second communication mechanism ANW of the cooperative communication terminal device FTM.

  Further, the communication address #csv_A on the second communication mechanism ANW of the server device CSV is searched for data stored in advance in the storage means wmyf as described above, and is acquired from the outside or is input by the user. It can also be. The above corresponds to the identification data transmission process.

When the start request rsta and the cooperative communication terminal device identification data #ftm or the cooperative communication terminal device identification data #ftm are transmitted from the cooperative communication terminal device FTM via the second communication mechanism ANW, the server device CSV receives the second The communication unit SFCU takes in, and the processing module md_pr temporarily stores it in the storage unit wmys, and then starts processing.
When the processing module md_pr detects the start request rsta and the cooperative communication terminal device identification data #ftm or the cooperative communication terminal device identification data #ftm from the provisional storage, the processing module md_pr recognizes that it is a new request and first transmits the cooperation. An inspection process (that is, a main body inspection process) for inspecting whether the communication terminal device FTM is a valid device body that is already registered in the server device CSV is executed.

  In step S03, the processing module md_pr activates the inspection module md_xn as an inspection process. The inspection module md_xn starts checking whether or not the cooperative communication terminal device FTM is a registered device body for the sent cooperative communication terminal device identification data #ftm temporarily stored in the storage unit wmys. To do.

  On the other hand, in the cooperative communication terminal device file Ftm stored in the database DB of the server device CSV, original book data dorf of a plurality of cooperative communication terminal devices registered in advance as legitimate cooperative communication terminal devices and the corresponding data The communication address #far (communication address on the second communication mechanism ANW of the cooperative communication terminal apparatus FTM) is stored as an address list in a list form. The original book data dorf is obtained by previously registering the identification data #ftm of the valid cooperative communication terminal device as the original book.

The inspection module md_xn collates each of the original book data dorf with the sent cooperative communication terminal device identification data #ftm. If there is a match, the cooperative communication terminal apparatus FTM can be confirmed as a registered valid one, and one cooperative communication terminal apparatus FTM can be specified. Therefore, the inspection processing result is accepted.
On the other hand, if there is no match as a result of the collation, it is confirmed that the cooperative communication terminal device FTM is not registered and is not valid, and the inspection processing result is rejected.
The inspection module md_xn sends the above pass / fail result to the processing module md_pr and returns control to the processing module md_pr.

  The processing module md_pr then discards the data temporarily stored in the storage means wmys when the above-described inspection processing fails, and ends the processing of this start request. In the cooperative communication terminal device FTM, when there is no reply from the server device CSV and a time-out occurs, the processing module mdf_pr extracts the screen data of FIG. 8C indicating that the processing is impossible from the storage unit wmyf and displays it. The above corresponds to the inspection process.

  The processing module md_pr creates the valid data def related to the current processing in the valid file Feff of the database DB, and is currently temporarily stored in the storage means wmys, and the cooperative communication terminal device FTM that has passed the examination Identification data #ftm is stored in the valid data def as inspected identification data #ftm. The valid data diff and inspected identification data #ftm are used in a later confirmation process. The above corresponds to the memory process.

  On the other hand, if the above-described inspection process is acceptable, the process proceeds to the cooperative operation verification process in step S04, and the processing module md_pr first activates the electronic license generation module md_gn. When the electronic license generation module md_gn generates an electronic license els that is used only for the processing of the current start request based on a random number or the like and passes it to the processing module md_pr, the processing module md_pr stores the linked communication terminal device file in the database DB. The communication address #far of the corresponding cooperative communication terminal device FTM is read from Ftm, sent to the second communication unit SFCU to be set as the transmission destination, and then the electronic license els is sent to the second communication unit SFCU via the second communication unit SFCU. 2 Send out to the corresponding cooperative communication terminal FTM via the communication mechanism ANW.

  The processing module md_pr stores the sent electronic license els as the issued electronic license els in the valid data def. Further, the current time is taken from the timer mtr as the start time td and stored in the valid data diff. As a result, the issued electronic license els, the start time td, and the checked identification data #ftm are stored in one valid data def as a set. The issued electronic license els is used in a later verification process. The above corresponds to the license generation and provision process.

  On the other hand, the term management module md_ef is always operating, and the term of the issued electronic license els described in each valid data def stored in the valid file Feff is determined from the start time td and the timer mtr. Monitor based on the current time obtained. If the issued electronic license els expired after a predetermined period, the expiration date management module md_ef deletes the valid data diff described in the issued electronic license els from the valid file Feff or prohibits the use. Attach the label. This expiration monitoring prevents unauthorized use of old issued electronic licenses els that have been issued a long time ago.

  In step S05, when the processing module mdf_pr of the cooperative communication terminal device FTM receives the electronic license els received via the second communication mechanism ANW and the second communication unit FSCU, the processing module mdf_pr temporarily stores it in the storage means wmyf and stores it in the electronic license els. The transmission data is organized by adding the cooperative communication terminal device identification data #ftm extracted from the storage means wmyf. Then, when the transmission data is passed to the data sending means FRNU, the data sending means FRNU emits it from an antenna having an electromagnetic wave modulated by the transmission data. This corresponds to the release process.

  In step S06, when the electromagnetic wave is detected by the data detection means BRNU of any of the used communication terminal devices MB, the transmission data is taken in. At this time, a cooperative operation route SRN is formed between the cooperative communication terminal device FTM and the used communication terminal device MB, and the cooperative communication terminal device FTM and the used communication terminal device MB are operated in cooperation. The processing module mdb_pr temporarily stores the electronic license els among the captured transmission data in the storage unit wmyb. This corresponds to the detection process.

  In addition, the processing module mdb_pr saves and stores the cooperative communication terminal device identification data #ftm in the stored transmission data in the storage unit wmyb. By storing the cooperative communication terminal device identification data #ftm, it is possible to check later which cooperative communication terminal device has operated in cooperation. Saving to memory is essential for subsequent screen presentation and printout. The above can be realized by adopting a configuration in which the cooperative communication terminal device identification data #ftm is not retransmitted from the cooperative communication terminal device FTM to the server device CSV, but is transmitted to the server device CSV via the used communication terminal device MB. It was. Further, when the cooperative communication terminal device identification data #ftm arrives at the server device CSV, the server device CSV can confirm that the cooperative communication terminal device identification data #ftm has been dropped and stored in the used communication terminal device MB. This corresponds to the preservation process.

  Subsequently, the processing module mdb_pr organizes return data including at least the cooperative communication terminal device identification data #ftm and the electronic license els, and transmits the packet to the server device CSV via the first communication unit BSCU and the first communication mechanism MNW. . In the header of the packet, the communication address #mar on the first communication mechanism MNW of the communication terminal device MB used is mounted as a transmission source address. This corresponds to the return process.

  When the processing module md_pr of the server device CSV receives the return data received via the first communication mechanism MNW and the first communication unit SMCU, the processing module md_pr temporarily stores it in the storage means wmys in step S07, and then activates the confirmation module md_cr. The confirmation module md_cr starts the process of the confirmation process, and the inspected identification data described in the cooperative communication terminal device identification data #ftm included in the temporarily stored return data and the valid data def stored in the database DB Match #ftm. If they match, it is confirmed by this that the associated communication terminal device FTM involved in the first stage of the inspection is continuously involved, and there has been no unauthorized substitution that is being scraped to another associated communication terminal device during the process. it can. The confirmation process is thus completed, and the confirmation module md_cr passes control to the verification module md_vf. If an unauthorized replacement is found in this confirmation process, the unauthorized replacement is transmitted to the processing module md_pr and control is returned to the processing module md_pr. The processing module md_pr aborts this return data processing. Here, it is also possible to send a notification that processing is impossible to the source address of the packet.

In step S08, the verification module md_vf extracts the electronic license els included in the return data temporarily stored in the storage unit wmys, and the issued electronic license described in the valid data diff stored in the database DB. Check against els. If they match, it can be seen that the electronic license els sent from the server device CSV to the cooperative communication terminal device FTM has been transmitted to the use communication terminal device MB via electromagnetic wave emission and detection capture, and the use communication terminal device MB is connected to the cooperation communication terminal. It can be verified by this that the system has cooperated with the apparatus FTM. In addition, the passing of the cooperative operation verification is also proof that the electronic license els is within the expiration date. This is because if the expiration date has expired, the expiration date management module md_ef deletes the issued electronic license els as described above, so that the corresponding issued electronic license els does not exist, and thus the cooperative operation verification is passed. There is nothing.
On the other hand, when the cooperation operation verification is failed, the verification module md_vf notifies the processing module md_pr to that effect and returns control to the processing module md_pr. The processing module md_pr aborts this return data processing. Here, it is also possible to send a notification that processing is impossible to the source address of the packet. The above is the verification process.

The return data that passes both the main body inspection and the cooperative operation verification as described above is handled as a valid event in the server device CSV thereafter.
Here, the processing module md_pr issues a receipt number #reg_N, and creates execution data dexc (see FIG. 11) in the execution file Fexc of the database DB based on the return data. In the execution data dexc, the reception number #reg_N and the linked communication terminal device identification data #ftm transferred from the return data are first described. Each reception number #reg_N has a one-to-one correspondence with one event.

  Here, data relating to the used communication terminal device MB, for example, an address recorded in the header of the packet, and identification information (for example, manufacturing serial number) of the used communication terminal device MB sent on the return data are recorded as items. However, from the viewpoint of protecting personal information, it is desirable to avoid recording of information belonging to personal information as much as possible. Therefore, a configuration in which management is performed based on a unique reception number #reg_N is preferable.

  Thereafter, the event is managed using the execution data dexc and the reception number #reg_N. The receipt number #reg_N may be abbreviated as the receipt number #reg when there is no possibility of confusion.

  In step S09, the processing module md_pr organizes at least the above reception number #reg_N and an instruction notification spf on which screen data dmenu for allowing the user to specify desired contents is organized and used via the first communication mechanism MNW. Send to device MB. As an example of the screen data dmenu, the screen data for specifying the content identification number #cid shown in FIG. 7B, or the screen for specifying the request data abc and the authentication data #uid shown in FIG. 7C. And screen data for designating the accompanying data atd shown in FIG.

  In step S10, the processing module mdb_pr of the used communication terminal device MB presents the received instruction notification spf to the storage means wmyb, presents it to the presentation unit BDP, and operates the input unit BIP by the user to identify the content identification number # It waits for input of instruction data necessary for the subsequent processing such as cid, request data abc, authentication data #uid, and the like.

  Next, in step S11, the processing module mdb_pr organizes a request notification ABC on which the input instruction data and the above reception number #reg_N are placed, and transmits the request notification ABC to the server device CSV via the first communication mechanism MNW.

In step S12, the processing module md_pr of the server device CSV temporarily stores the request notification ABC in the storage means wmyf, and if it contains the authentication data #uid of the user, activates the authentication module md_cf.
The authentication module md_cf records the authentication data #uid as the authentication original book data dorg in the execution data dexc of the reception number #reg in the database DB if registration is specified in the request data abc attached to the authentication data #uid. To do. On the other hand, if there is no designation of registration, it is assumed that the authentication process is verified with the authentication original book data org of each existing execution data dexc, and if there is a match, the personal authentication is established. This corresponds to the personal authentication process.
Even if an unauthorized person tries to perform various procedures against the intention of the user himself / herself using the communication terminal device MB, the server device CSV does not accept the server device CSV and rejects it. Is done.

  Further, in the configuration of the present invention, the authentication data #uid is sent only to the server device CSV and directly via the first communication mechanism MNW, and the authentication data #uid is sent to the cooperative communication terminal device FTM, or the cooperative communication terminal device. There is no going through FTM. The same applies to the authentication original book data dorg. Therefore, the cooperative communication terminal device FTM does not know the authentication data #uid, so that “spoofing” fraud can be prevented and a highly reliable system can be realized.

  On the other hand, if the request data abc corresponds to a paid service in step S13, the processing module md_pr issues a usage fee billing notification pcm and sends it to the usage communication terminal device MB via the first communication mechanism MNW. Is transmitted to the cooperative communication terminal device FTM via the second communication mechanism ANW.

  The billing notice pcm is a request for paying the usage fee by cash or cash voucher to the administrator of the cooperative communication terminal device FTM, and when presented at the usage communication terminal device MB, the user manages the cooperative communication terminal device FTM. A usage fee is paid to the user. On the other hand, the collection request rcv is a request for collecting the usage fee from the user on behalf of the administrator of the cooperative communication terminal apparatus FTM. The received data is input to the cooperative communication terminal device FTM by an administrator (for example, a taxi crew member) who has collected the fee.

  Thereafter, in step S14, the processing module mdf_pr of the cooperative communication terminal apparatus FTM transmits the reception data #rcpt input to the input unit FIP to the server apparatus CSV via the second communication mechanism ANW.

  In step S15, the processing module md_pr of the server device CSV can confirm that the fee has been collected on behalf of the receipt data #rcpt from the cooperative communication terminal device FTM. Therefore, the processing module md_pr proceeds with the service processing related to this event. For example, if the desired content specified by the request data abc is the lottery purchase, the numerical specification as shown in FIG. The screen data is sent to the used communication terminal device MB via the first communication mechanism MNW, the designated incidental data atd is received and recorded in the execution data dexc of the event, or the desired content is obtained by browsing the content data dco. If there is, the corresponding content data dco is extracted from the database DB based on the content identification number #cid, etc., and is sent to the used communication terminal device MB via the first communication mechanism MNW.

  In step S16, the processing module mdb_pr of the used communication terminal device MB browses the presentation unit BDP by presenting the content data dco provided from the server device CSV as an example.

  On the other hand, when the administrator of the cooperative communication terminal device FTM can confirm that the content data dco is presented and used in the use communication terminal device MB, the processing module mdf_pr sends the transmission confirmation #cfm to the second communication mechanism in step S17. It can also be transmitted to the server device CSV via the ANW. By receiving the delivery confirmation #cfm, the server apparatus CSV can make a proof that the content data dco is reliably provided to the use communication terminal apparatus MB. As described above, the information providing service by the information processing system Sysc1 is executed.

  As described above, when the usage communication terminal device MB can operate in cooperation with the cooperative communication terminal device FTM as a condition for the usage communication terminal device MB to use the content, If this information processing system Sysc is applied, it can be verified that the cooperative operation is established. Therefore, the use communication terminal device MB can use the content even if the given condition is satisfied. Similarly, the use of a user who does not satisfy the given condition, for example, a user who is not on the taxi (non-passenger) can be excluded.

A second embodiment of the information processing system according to the present invention will be described in the order of configuration, operation, and advantages with reference to the following drawings.
FIG. 13 is an explanatory diagram of another example of use in a taxi vehicle.
FIG. 14 is an external view of an example of a cooperative communication terminal device.
FIG. 15 is a block diagram of the server device in the second embodiment.
FIG. 16 is a block diagram of the cooperative communication terminal device in the second embodiment.
FIG. 17 is a block diagram of a communication terminal device used in the second embodiment.
FIG. 18 is an explanatory diagram of the data flow of the second embodiment.
FIG. 19 is a timing chart of the second embodiment.
FIG. 20 is a timing chart following FIG.

  The series of processes executed by the information processing system of the second embodiment is the second embodiment of the information processing method according to the present invention. Similarly, the server apparatus is the second embodiment of the server apparatus according to the present invention. It is an example.

The above-described embodiment is configured to verify the cooperative operation through the electromagnetic waves (including radio waves, magnetic waves, and infrared communication) of the cooperative communication terminal device FTM and the used communication terminal device MB.
In the second embodiment, data is transmitted from the cooperative communication terminal device FTM2 to the used communication terminal device MB2 by image transmission.

FIG. 15 shows a block configuration of the server device CSV2 constituting the information processing system Sysc2 of the second embodiment, FIG. 16 shows a block configuration of the cooperative communication terminal device FTM2, and FIG. 17 shows a block configuration of the used communication terminal device MB2. .
In the second embodiment based on image transmission, the presentation unit FDP acts as data transmission means of the cooperative communication terminal device FTM2, and the two-dimensional code in which the electronic license els sent from the server device CSV2 is incorporated is linked communication. In the presentation unit FDP, add a pattern obtained by graphicizing the cooperative communication terminal device identification data #ftm in the terminal device FTM2 or add a graphic pattern of #ftm ′ obtained by encrypting the cooperative communication terminal device identification data #ftm. Present as an image on the screen.
On the other hand, the camera unit CAM functions as data detection means of the used communication terminal device MB2. The camera unit CAM captures the image in which the data is incorporated by capturing the image presented in the presentation unit FDP of the cooperative communication terminal device FTM2, and decrypts the electronic license els and the cooperative communication terminal device identification data #ftm. By restoring, the cooperative operation route SRN is formed, and the cooperative operation of the cooperative communication terminal device FTM2 and the used communication terminal device MB2 is established.

  FIG. 14 is a diagram illustrating a front surface of an example of the cooperative communication terminal device FTM2. The presentation unit FDP configured by a flat panel display device such as a liquid crystal provided in the cooperative communication terminal device FTM2 is connected to the two-dimensional code pattern d2p sent from the server device CSV2 as an example of an image in which data is incorporated, and cooperative communication. The processing pattern #ftm ′ obtained by converting the identification data #ftm into a figure by encryption is added on the terminal device FTM and displayed on a screen display.

  The two-dimensional code is an electronic license els, which is data to be transmitted, incorporated as an image that cannot be easily read. For example, an existing code such as a QR code (registered trademark) can be applied, and a proprietary standard Application of a two-dimensional code is also possible. In addition, any patterning technique can be applied to patterning the identification data #ftm of the cooperative communication terminal device in the cooperative communication terminal device FTM2.

Next, the configuration of the server device CSV2 will be described with reference to FIG. The same parts as those of the server device CSV described above are denoted by the same reference numerals and description thereof is omitted.
The server device CSV2 includes data processing means mspr2 instead of the data processing means mspr shown in FIG. The data processing means mspr2 includes a processing module md_pr2 instead of the processing module md_pr shown in FIG. 2, and a two-dimensional code creation module md_2d and a settlement processing module md_st are newly provided. Other modules are the same as those in FIG.

  When the processing module md_pr2 sends the electronic license els obtained from the electronic license generation module md_gn to the two-dimensional code creation module md_2d, the two-dimensional code creation module md_2d creates a two-dimensional code pattern d2p incorporating the electronic license els. The module md_pr2 sends the two-dimensional code pattern d2p to the cooperative communication terminal device FTM2 via the second communication unit SFCU and the second communication mechanism ANW.

  The settlement processing module md_st performs communication scode (see FIG. 18) related to the electronic transfer execution with the financial institution BK based on the account information act transmitted from the use communication terminal device MB2, and uses the first electronic account (use side, for example, It manages the transfer of charges from the user account (account of the communication terminal device MB2) ac1 to the second electronic account (provider side, for example, the account of the operator of the server device CSV2) ac2. When the electronic payment is completed, the payment processing module md_st notifies the processing module md_pr2 to that effect and passes control.

  The processing module md_pr2 is configured to execute processing relating to each function (described later) characteristic of the second embodiment.

Based on FIG. 16, the structure of cooperation communication terminal device FTM2 is demonstrated. The same parts as those in the above-described cooperative communication terminal apparatus FTM are denoted by the same reference numerals, and description thereof is omitted.
The cooperative communication terminal apparatus FTM2 includes a second data processing unit mfpr2 instead of the second data processing unit mfpr shown in FIG. 4, and also includes a processing module mdf_pr2 instead of the processing module mdf_pr. Further, the data sending means FRNU is omitted and the presentation unit FDP acts as a substitute. The presenting unit FDP can present an image of a two-dimensional code pattern or a graphic pattern on the screen.
Further, the processing module mdf_pr2 is configured to transmit later-described presence data related to the presence certificate to the server device CSV2 at a later-described time.

Based on FIG. 17, the structure of utilization communication terminal device MB2 is demonstrated. The same parts as those in the above-described communication terminal device MB are denoted by the same reference numerals and description thereof is omitted.
The used communication terminal device MB2 replaces the data detection means BRNU shown in FIG. 5 with a camera unit CAM. A first data processing unit mbpr2 is provided instead of the first data processing unit mbpr, and a processing module mdb_pr2 is provided instead of the processing module mdb_pr. Furthermore, a decryption module mdb_any is newly provided.
The camera unit CAM is configured to operate when a shooting button is operated, to shoot, convert the captured image into data, and send the data to the decoding module mdb_any.
The decoding module mdb_any operates when data is sent from the camera unit CAM, decodes the sent pattern, and passes the result to the processing module mdb_pr2. It has a function of decoding the electronic license els from the two-dimensional code and a function of decoding the cooperative communication terminal device identification data #ftm from the graphic pattern. Further, the decryption may be configured to include decryption of encryption in addition to pattern decryption.

Further, the second embodiment has a presence proof function.
The existence certificate is one of services provided by the server device CSV2, and the server device CSV2 proves that the used communication terminal device MB2 exists at the date and time or / and the location thereof. The server device CSV2 is based on the fact that the use communication terminal device MB2 operates in cooperation with the cooperation communication terminal device FTM2, and uses the record of the date and time or / and the place where the cooperation communication terminal device FTM2 exists. The existence of the device MB2 is proved. The processing related to the presence certificate is managed by the processing module md_pr2.

  When the cooperative communication terminal device FTM2 transmits a request signal carrying the cooperative communication terminal device identification data #ftm to the server device CSV2, the presence data dtp of the cooperative communication terminal device FTM2 (its date and time or / and its location) ) And send. The processing module md_pr2 of the server device CSV2 records the presence data dtp in the valid data diff. This existence data dtp is transferred by the processing module md_pr2 as existence certification #dtp in the execution data dexc when the execution data dexc is organized (see FIG. 11).

  The existence certificate #dtp is transcribed from the presence data dtp transmitted from the cooperative communication terminal device FTM2 and / or the used communication terminal device MB2 to the server device CSV2 at any time from the start of the main body inspection to the end of the cooperative operation verification. It may be.

Among the presence data dtp, the data indicating the location is the location data if the cooperative communication terminal device FTM2 is at a fixed position, and the GPS or the like if the cooperative communication terminal device FTM2 moves by an in-vehicle device or the like. The calculated current position data is used.
Of the existence data dtp, the date and time (referred to as a time stamp) are strictly different from the start time td, but the start time td may be used. In FIG. 3, for convenience of explanation, the valid data def indicates the start time td, and the existence data dtp is not shown.

  The existence certificate #dtp recorded in the execution data dexc is used as a proof of the transaction as necessary. In addition, specific information of the used communication terminal device MB2 can be recorded in the existence certificate #dtp. As the specific information, it is preferable to apply a solid identification number (solid ID) or a manufacturing serial number of the used communication terminal device MB2. The specific communication information can be transmitted to the server device CSV2 by the use communication terminal device MB2 on the return data, for example.

In addition, the second embodiment has a multi-compatible function. The multi-compatible function will be described below.
When the cooperative communication terminal device FTM2 releases the transmission data as described above, a plurality of used communication terminal devices MB2 may detect and import the same transmission data. That is, the demand and the electronic license els have a one-to-one relationship, but the electronic license els and the return data may have a one-to-many relationship. This is due to the result of detection and capture of a plurality of use communication terminal devices MB2 of electromagnetic waves emitted by the cooperative communication terminal device FTM2. Accordingly, when one electronic license els is transmitted, a plurality of return data is returned.
As a result, the same electronic license els is used by the respective communication terminal devices MB2 to organize return data and transmit it to the server device CSV2. That is, the correspondence between the cooperative communication terminal device FTM2 and the used communication terminal device MB2 is “one-to-many”. However, return data can be distinguished by the source address.

  The data processing means mspr2 of the server device CSV2 cooperates with the confirmation processing individually for each return data even when a plurality of return data (multiple return data) having the same electronic license els arrives as described above. Execute operation verification processing. Each related module executes the processing described above, and the processing module md_pr2 executes its management. When the confirmation and verification are passed, an individual reception number #reg_N is issued and notified to the corresponding use communication terminal device MB2 on the instruction notification spf. As a result, multiple correspondence is possible.

Furthermore, in addition to the existence proof #dtp, information using the same electronic license els can be used together to prove that, for example, a plurality of used communication terminal devices MB2 existed at the same date and time. Is possible.
In addition to the fact that the multi-corresponding function is applied to the second embodiment, it should be understood that it can be applied to the first embodiment, for example.

  The fee settlement in the first embodiment is such that the receipt data #rcpt is transmitted from the cooperative communication terminal device FTM to the server device CSV when the taxi crew member receives the registration fee from the passenger in cash or a ticket. However, in the second embodiment, the participation registration fee settlement is executed by electronic settlement by account transfer between the use communication terminal device MB2 and the server device CSV2. Electronic payment is performed by three parties: a communication terminal device MB2, a server device CSV2, and a computer (electronic payment computer device) BK of a financial institution.

  FIG. 13 is an explanatory diagram of the usage situation in the taxi car. In the figure, the cooperative communication terminal device FTM2, which is an in-vehicle device, is installed on the back of the front seat, while the use communication terminal device MB2 is operated by a passenger in the rear seat and is used with the cooperation communication terminal device FTM2. Communication terminal device MB2 is in a close position. Therefore, the used communication terminal device MB2 can easily capture and capture the two-dimensional code pattern displayed on the screen of the cooperative communication terminal device FTM2.

  FIG. 18 illustrating the data flow of the information processing system Sysc2, which is the second embodiment, FIGS. 19 and 20 illustrating the processing timing chart, FIG. 15 (block diagram of the server device CSV2), and FIG. The operation of the information processing system Sysc2 will be described below with reference to FIG. 17 (block diagram of the used communication terminal device MB2) and the like as appropriate.

  In FIG. 16, as an example, the cooperative communication terminal device FTM2 is an in-vehicle device mounted on a taxi vehicle, and the use communication terminal device MB2 of FIG. 17 is, for example, a mobile phone carried by a passenger of the taxi who is a user. It is assumed that the vehicle is on the taxi vehicle. Similarly, the first communication mechanism MNW includes a cellular phone network that supports packet communication, the second communication mechanism ANW includes an in-vehicle wireless communication network, and the server device CSV2 functions as a content providing site. The cooperative communication terminal device FTM2 can communicate with the server device CSV2 using the in-vehicle wireless communication network, and the used communication terminal device MB2 can communicate with the server device CSV2 using a mobile phone network compatible with packet communication.

  In the storage means wmyf of the cooperative communication terminal device FTM2, the respective communication addresses (abbreviated as #csv_A) on the second communication mechanism ANW of the plurality of server devices (abbreviated as “CSV” in FIG. 16) are listed. Stored as a site list. On the other hand, on the portal screen shown in FIG. 7A displayed on the presenting unit FDP, a plurality of content providing sites (each of the above-described server devices) are displayed on the content providing company list. The viewing passenger (user) can select and specify any of them by an operation (screen touch, key input, etc.) on the input unit FIP. The portal screen data (not shown) is stored in the storage means wmyf in advance.

  In step S21, the taxi passenger operates the input unit FIP of the cooperative communication terminal device FTM2 as a user, so that a start request rsta is input as a selection specification of a desired content providing site (server device CSV2) and a content service request. Then, the processing module mdf_pr2 of the second data processing unit mfpr2 of the cooperative communication terminal device FTM2 takes in the start request rsta. The processing module mdf_pr2 that has fetched these inputs searches the site list in the storage means wmyf based on the site designation, and finds the corresponding communication address #csv_A on the second communication mechanism ANW of the designated server device CSV2. Identify and read.

In step S22, identification data #ftm of the cooperative communication terminal device stored in advance in the storage unit wmyf is extracted. Next, the processing module mdf_pr2 sends the communication address #csv_A to the second communication unit FSCU to set it as a transmission destination, and sends the start request rsta and the linked communication terminal device identification data #ftm via the second communication unit FSCU and the second communication mechanism ANW. To the corresponding server device CSV2.
Alternatively, the start request rsta may be omitted and only the cooperative communication terminal device identification data #ftm may be transmitted to the corresponding server device CSV2.
Here, the cooperative communication terminal device identification data #ftm may be a product serial number, an arbitrary symbol, or a communication address #far on the second communication mechanism ANW of the cooperative communication terminal device FTM2. The above corresponds to the identification data transmission process.

  The processing module mdf_pr2 can also transmit the current presence data dtp of the cooperative communication terminal apparatus FTM2 to the server apparatus CSV2 via the second communication mechanism ANW.

The server device CSV2 receives the start request rsta and the cooperative communication terminal device identification data #ftm, the cooperative communication terminal device identification data #ftm, or the presence data dtp from the cooperative communication terminal device FTM via the second communication mechanism ANW. When the second communication unit SFCU comes in, the processing module md_pr2 temporarily stores it in the storage unit wmys and then starts processing.
When the processing module md_pr2 detects the start request rsta and the cooperative communication terminal device identification data #ftm or the cooperative communication terminal device identification data #ftm from the temporary storage, the processing module md_pr2 recognizes that it is a new request and first transmits the cooperation. An inspection process (that is, a main body process) for inspecting whether or not the communication terminal apparatus FTM2 is a valid apparatus main body already registered in the server apparatus CSV2 is executed.

  In step S23, the processing module md_pr2 activates the inspection module md_xn. The inspection module md_xn starts checking whether or not the cooperative communication terminal device FTM2 is a registered device body for the sent cooperative communication terminal device identification data #ftm temporarily stored in the storage unit wmys. To do.

  On the other hand, in the cooperative communication terminal device file Ftm stored in the database DB of the server device CSV2, original book data dorf of a plurality of cooperative communication terminal devices registered in advance as legitimate cooperative communication terminal devices and the corresponding data Communication address #far (communication address on the second communication mechanism ANW of the cooperative communication terminal apparatus FTM2) is stored as an address list in a list form. The original book data dorf is obtained by previously registering the identification data #ftm of the valid cooperative communication terminal device as the original book.

The inspection module md_xn collates each of the original book data dorf with the sent cooperative communication terminal device identification data #ftm. If there is a match, the cooperative communication terminal apparatus FTM2 can be confirmed as a registered valid one, and one cooperative communication terminal apparatus FTM2 can be specified. Therefore, the inspection processing result is accepted.
On the other hand, if there is no match as a result of the collation, it is confirmed that the cooperative communication terminal device FTM2 is not registered and is not valid, and the inspection processing result is rejected.
The inspection module md_xn sends the above pass / fail result to the processing module md_pr2, and returns control to the processing module md_pr2.

  The processing module md_pr2 then discards the data temporarily stored in the storage means wmys when the above-described inspection processing fails, and ends the processing of this start request. When the cooperative communication terminal device FTM2 times out without a reply from the server device CSV2, the processing module mdf_pr2 extracts the screen data of FIG. 8C indicating that the processing is impossible from the storage unit wmyf and displays it. The above corresponds to the inspection process.

  The processing module md_pr2 creates the valid data def related to the current process in the valid file Feff of the database DB, and is temporarily stored in the storage means wmys, and the cooperative communication terminal device FTM2 that has passed the test Identification data #ftm is stored in the valid data def as inspected identification data #ftm. The valid data diff and inspected identification data #ftm are used in a later confirmation process. The above corresponds to the memory process.

  On the other hand, if the above-described inspection process is acceptable, the process moves to verification of cooperative operation in step S24, and the processing module md_pr2 first activates the electronic license generation module md_gn. When the electronic license generation module md_gn generates an electronic license els that is used only for the processing of the current start request based on a random number and passes it to the processing module md_pr2, the processing module md_pr2 issues the electronic license els It is stored in the valid data diff as a license els. Further, the current time is taken from the timer mtr as the start time td and stored in the valid data diff. As a result, the issued electronic license els, the start time td, and the checked identification data #ftm are stored in one valid data def as a set. The issued electronic license els is used in a later verification process.

  Next, the processing module md_pr2 reads the communication address #far of the corresponding cooperative communication terminal device FTM from the cooperative communication terminal device file Ftm of the database DB, and sends it to the second communication unit SFCU to set it as the transmission destination. Next, the two-dimensional code creation module md_2d is activated. When the two-dimensional code creation module md_2d converts the electronic license els into the two-dimensional code pattern d2p, the processing module md_pr2 sends the two-dimensional code pattern d2p to the corresponding cooperative communication terminal apparatus FTM2 via the second communication mechanism ANW. This corresponds to the license generation and provision process.

  On the other hand, the term management module md_ef is always operating, and the term of the issued electronic license els described in each valid data def stored in the valid file Feff is determined from the start time td and the timer mtr. Monitor based on the current time obtained. If it finds an issued electronic license els that has expired after a predetermined period, the term management module md_ef deletes the valid data diff described in the electronic license els from the valid file Feff or displays a label for prohibition of use. Attach This expiration monitoring prevents unauthorized use of old issued electronic licenses els that have been issued a long time ago.

  In step S25, when the processing module mdf_pr2 of the cooperative communication terminal device FTM2 receives the two-dimensional code pattern d2p received via the second communication mechanism ANW and the second communication unit FSCU, it temporarily stores it in the storage means wmyf, and this electronic license els Is added with a processing pattern #ftm 'processed by a predetermined image encryption method by regarding the cooperative communication terminal device identification data #ftm taken out from the storage means wmyf as a figure and being processed by a predetermined image encryption method. Organize. The image includes a two-dimensional code pattern d2p organized based on the electronic license els and a processing pattern #ftm ′ (see FIG. 14). Next, the image is presented on the presentation unit FDP. This corresponds to the release process.

  Since the cooperative communication terminal device identification data #ftm is usually composed of alphanumeric characters / symbols, kanji, kana characters, etc., this is regarded as a figure, and the disclosed image encryption / decryption method, for example, fractal image compression technology Can be applied to encryption / decryption of the image, and an encrypted graphic pattern can be obtained. In particular, methods such as fractal image processing using an iterative function system for patterns of alphanumeric strings and the Julia-Mandelbrot method, which is a deterministic fractal, have been applied.

  When the server device CSV2 organizes and sends the two-dimensional code pattern on which both the electronic license els and the identification data #ftm are loaded to the cooperative communication terminal device FTM2, the identification data #ftm is provided to the cooperative communication terminal device FTM2. As a result, it is not possible to eliminate the scratch fraud of the cooperative communication terminal device FTM2. The reason why the present invention is configured to divide the pattern into two-dimensional code pattern d2p and pattern #ftm ′ and to stack pattern #ftm ′ in cooperative communication terminal device FTM2 is the reason for such a cooperative communication terminal device's scratch (illegal replacement). It is for eliminating.

  In step S26, this image is captured when the camera unit CAM of any of the used communication terminal devices MB2 captures the image. At this time, a cooperative operation route SRN is formed between the cooperative communication terminal device FTM2 and the usage communication terminal device MB2, and the cooperative communication terminal device FTM2 and the usage communication terminal device MB2 are cooperatively operated. The processing module mdb_pr2 that has detected the operation of the camera unit CAM activates the decryption module mdb_any, the decryption module mdb_any decrypts the captured image, restores the electronic license els and the linked communication terminal device identification data #ftm, and sends it to the processing module mdb_pr2 . This corresponds to the detection process.

  The processing module mdb_pr2 temporarily stores the electronic license els in the storage unit wmyb, and stores and records the cooperative communication terminal device identification data #ftm. This corresponds to the preservation process.

  Subsequently, the processing module mdb_pr2 organizes return data including at least the cooperative communication terminal device identification data #ftm and the electronic license els, and transmits the packet to the server device CSV2 via the first communication unit BSCU and the first communication mechanism MNW. . In the header of the packet, the communication address #mar on the first communication mechanism MNW of the used communication terminal device MB2 is mounted as a transmission source address. This corresponds to the return process.

  When receiving the return data received via the first communication mechanism MNW and the first communication unit SMCU, the processing module md_pr2 of the server device CSV2 temporarily stores it in the storage means wmys in step S27, and then activates the confirmation module md_cr. The confirmation module md_cr starts the process of the confirmation process, and the inspected identification data described in the cooperative communication terminal device identification data #ftm included in the temporarily stored return data and the valid data def stored in the database DB Match #ftm. If there is a match, the cooperative communication terminal device FTM2 involved in the first stage of the inspection process has been continuously involved, and there has been no unauthorized substitution that is being scraped to another cooperative communication terminal device during processing. I can confirm. The confirmation process is thus completed, and the confirmation module md_cr passes control to the verification module md_vf. If an unauthorized replacement is found in this confirmation process, the unauthorized replacement is transmitted to the processing module md_pr2, and control is returned to the processing module md_pr2. The processing module md_pr2 aborts this return data processing. Here, it is also possible to send a notification that processing is impossible to the source address of the packet.

In step S28, the verification module md_vf extracts the electronic license els included in the return data temporarily stored in the storage unit wmys, and the issued electronic license described in the valid data def stored in the database DB. Check against els. If they match, it can be seen that the electronic license els sent from the server device CSV2 to the cooperative communication terminal device FTM2 has been transmitted to the use communication terminal device MB2 through image display and photographing / capture, and the use communication terminal device MB2 communicates with the cooperation communication. With this, it can be verified that the terminal device FTM2 operates in cooperation. In addition, the passing of the cooperative operation verification is also proof that the electronic license els is within the expiration date. This is because if the expiration date has expired, the expiration date management module md_ef deletes the issued electronic license els as described above, so that the corresponding issued electronic license els does not exist, and thus the cooperative operation verification is passed. There is nothing.
On the other hand, when the cooperative operation verification is failed, the verification module md_vf notifies the processing module md_pr2 to that effect and returns control to the processing module md_pr2. The processing module md_pr2 aborts this return data processing. Here, it is also possible to send a notification that processing is impossible to the source address of the packet. The above corresponds to the verification process.

The return data that has passed both the confirmation and the cooperative operation verification as described above is handled as a valid event in the server device CSV2 thereafter.
The processing module md_pr2 issues a receipt number #reg_N here, and organizes execution data dexc (see FIG. 11) in the execution file Fexc of the database DB based on the return data (step S29). In the execution data dexc, the reception number #reg_N and the linked communication terminal device identification data #ftm transferred from the return data are first described. Each reception number #reg_N has a one-to-one correspondence with one event.

Further, the processing module md_pr2 takes out the presence data dtp temporarily stored in the storage means wmys, applies it to the use communication terminal device MB2 operating in cooperation, and records it as execution proof #dtp in the execution data dexc.
Existence proof #dtp is
1. Data indicating the presence of this communication terminal device MB2;
2. The date and / or time when the verification process was performed,
3. Position data transmitted from the cooperative communication terminal device FTM2 and / or the used communication terminal device MB2 to the server device CSV2 at any time from the start of the identification data transmission process to the end of the verification process,
At least one of the above is recorded and stored.

  Here, data relating to the used communication terminal device MB2, for example, an address recorded in the header of the packet, and identification information (for example, a production serial number) of the used communication terminal device MB2 sent on the return data are recorded as items. However, from the viewpoint of protecting personal information, it is desirable to avoid recording of information belonging to personal information as much as possible. Therefore, a configuration in which management is performed based on a unique reception number #reg_N is preferable.

  Thereafter, the event is managed using the execution data dexc and the reception number #reg_N. The receipt number #reg_N may be abbreviated as the receipt number #reg when there is no possibility of confusion.

  In step S31, the processing module md_pr2 organizes at least the above reception number #reg_N and an instruction notification spf on which screen data dmenu for allowing the user to specify desired contents is organized and used via the first communication mechanism MNW. Send to device MB2. As an example of the screen data dmenu, the screen data for designating the content identification number #cid shown in FIG. 7B, or the screen for designating the request data abc and the authentication data #uid shown in FIG. 7C. And screen data for designating the accompanying data atd shown in FIG.

  In step S32, the processing module mdb_pr2 of the used communication terminal device MB2 presents the received instruction notification spf to the storage means wmyb, presents it to the presentation unit BDP, and operates the input unit BIP by the user to identify the content identification number # It waits for input of instruction data necessary for the subsequent processing such as cid, request data abc, authentication data #uid, and the like.

  Next, in step S33, the processing module mdb_pr2 organizes the input instruction data and the request notification ABC on which the reception number #reg_N is placed, and transmits it to the server device CSV2 via the first communication mechanism MNW.

In step S34, the processing module md_pr2 of the server device CSV2 temporarily stores the request notification ABC in the storage means wmyf, and if it contains the authentication data #uid of the user, activates the authentication module md_cf.
The authentication module md_cf records the authentication data #uid as the authentication original book data dorg in the execution data dexc of the reception number #reg in the database DB if registration is specified in the request data abc attached to the authentication data #uid. To do. On the other hand, if there is no designation of registration, it is assumed that the authentication process is verified with the authentication original book data org of each existing execution data dexc, and if there is a match, the personal authentication is established. This corresponds to the personal authentication process.
Even if an unauthorized person tries to perform various procedures without permission from the user himself / herself using the communication terminal device MB2, the server device CSV2 does not accept the server device CSV2 and rejects it. Is done.

  Further, in the configuration of the present invention, the authentication data #uid is sent only to the server device CSV2 and directly via the first communication mechanism MNW, and the authentication data #uid is sent to the cooperative communication terminal device FTM2, or the cooperative communication terminal device There is no route through FTM2. The same applies to the authentication original book data dorg. Therefore, since the cooperative communication terminal device FTM2 does not know the authentication data #uid, the “spoofing” fraud can be prevented and a highly reliable system can be realized.

  On the other hand, in step S35, when the request data abc corresponds to a paid service, the processing module md_pr2 issues a usage fee billing notification pcm and sends it to the usage communication terminal device MB2 via the first communication mechanism MNW. The billing notice pcm is a request for electronic payment of the usage fee.

  In response to the billing notification pcm, the processing module mdb_pr2 of the used communication terminal device MB2 transmits the account information act to the server device CSV2 via the first communication mechanism MNW in step S36.

  In step S37, the processing module md_pr2 of the server device CSV2 activates the settlement processing module md_st when the account information act is received from the used communication terminal device MB2. The payment processing module md_st manages electronic payment processing by three parties including the communication terminal device MB2, the server device CSV2, and a computer (electronic payment computer device) BK of a financial institution. That is, the settlement processing module md_st transmits the account information act transmitted from the used communication terminal device MB2 to the financial institution BK, and performs communication scod (see FIG. 18) related to the electronic transfer execution with the financial institution BK. Transfer charges from the confirmed first electronic account (user side, for example, the account of the user of the communication terminal device MB2) ac1 to the second electronic account (provider side, for example, the account of the operator of the server device CSV2) ac2. Let When the electronic payment is completed, the payment processing module md_st notifies the processing module md_pr2 to that effect and passes control.

  After the fee is collected by electronic payment as described above, the processing module md_pr2 advances the service processing related to this event. For example, if the desired content designated by the request data abc is a lottery purchase, the screen data designated by numbers as shown in FIG. 8A is sent to the communication terminal device MB2 via the first communication mechanism MNW. Send and receive the specified incidental data atd and record it in the execution data dexc of the event, or if the desired content is browsing the content data dco, the corresponding content data dco based on the content identification number #cid etc. Is extracted from the database DB and sent to the used communication terminal MB2 via the first communication mechanism MNW.

In step S38, the processing module mdb_pr2 of the used communication terminal device MB2 displays the content data dco provided from the server device CSV2 as an example, and browses it.
The information providing service by the information processing system Sysc2 is executed as described above.

  In each of the above-described embodiments, the cooperative communication terminal device FTM is configured as an in-vehicle device or a hall terminal device installed in a waiting hall in the airport. A content providing site computer connected to both the mechanism MNW (for example, the Internet) and the second communication mechanism ANW is used as a server device CSV, and a reception terminal device installed in a booth in the city and connected to the second communication mechanism ANW is linked. The communication terminal device FTM is used, and the user uses his / her mobile phone as the used communication terminal device MB to cause the server device CSV to verify that the reception terminal device and the mobile phone are operating in cooperation as described above. Thus, it is confirmed that the mobile phone is a terminal device that satisfies the usage qualification.

  For example, when a mobile phone MB with an Internet connection function is used to receive distribution of music data from a music distribution site, if the mobile phone MB does not operate in cooperation with a booth terminal in the city, the mobile phone MB will distribute music. Since it can be prevented from being downloaded from the site, it is possible to implement a system that provides a music distribution service only to users who have usage qualifications. Of course, the object is not limited to music distribution, but can be applied to a wide range of applications such as image distribution and game software distribution.

  In addition, in the configuration using the hall terminal device installed in the waiting hall in the airport, the configuration using the terminal installed in the booth in the city, etc., the usage fee is paid from the mobile phone which is the usage communication terminal device MB. In addition to the telephone fee, it may be debited and settled.

INDUSTRIAL APPLICABILITY The present invention is suitable for an industry that provides content provision using a communication network, and in particular, an in-vehicle device in which a server device that operates a content providing site is a mobile terminal device mounted on a mobile vehicle such as a taxi vehicle. Therefore, it is suitable for use in a content business that provides participation registration type content such as bags, quizzes, and questionnaires to taxi passengers.
In addition, the terminal devices are not limited to mobile devices, such as waiting wings in airports, content booths and kiosks fixed in towns and shops, and PCs at home and offices as terminal devices. It can also be applied to the content business provided.

1 is an overall block configuration diagram of an example of an information processing system according to the present invention. It is a block block diagram of an example of a server apparatus. It is explanatory drawing of an example of a database. It is a block block diagram of an example of a cooperation communication terminal device. It is a block block diagram of an example of a utilization communication terminal device. It is explanatory drawing of an example of the utilization in a taxi vehicle. It is a figure which shows an example of a display screen. It is a figure which shows the other example of a display screen. It is explanatory drawing of the flow of data of 1st Example. 3 is a timing chart of the first embodiment. It is a block diagram of an example of execution data. It is a timing chart following FIG. It is explanatory drawing of another example of utilization in a taxi vehicle. It is an external view of an example of a cooperation communication terminal device. It is a block block diagram of the server apparatus in 2nd Example. It is a block block diagram of the cooperation communication terminal device in 2nd Example. It is a block block diagram of the utilization communication terminal device in 2nd Example. It is explanatory drawing of the data flow of 2nd Example. It is a timing chart of 2nd Example. It is a timing chart following FIG.

Explanation of symbols

Sysc information processing system CSV server device mspr Data processing means #csv_A Communication address on second communication mechanism ANW of server device CSV #csv_M Communication address on first communication mechanism MNW of server device CSV MNW first communication mechanism MB using communication terminal Device mbpr first data processing means #mar communication address on first communication mechanism MNW of communication terminal device MB used #mb individual identification number of communication terminal device MB used SRN cooperative operation route FTM cooperative communication terminal device mfpr second data processing means #Far Communication address on second communication mechanism ANW of cooperative communication terminal device FTM #ftm Cooperation communication terminal device identification data ANW second communication mechanism els Electronic license dco Content data

Claims (10)

A server device configured by a computer, which can be connected to the first communication mechanism and the second communication mechanism, both of which are communication networks;
A communication terminal device configured by a computer capable of communicating with the server device via the first communication mechanism;
A collaborative communication terminal device configured with a computer capable of communicating with the server device via the second communication mechanism;
An information processing system that is a computer network system comprising:
(A) The server device is at least
(A.1) data processing means embodied as a computer program and operating as a cooperation of software and hardware;
(A.2) a first communication unit on the server side related to communication via the first communication mechanism;
(A.3) a second communication unit on the server side related to communication via the second communication mechanism;
(A.4) a storage device on the server side;
The storage device on the server side includes at least
(A.2.1) Identification data and a communication address on the second communication mechanism related to a predetermined valid cooperative communication terminal device;
(A.2.2) content data;
And remember
(A.2.3) Saved data or / and provisional data generated during processing,
Can be memorized,
(B) The cooperative communication terminal device is at least
(B.1) second data processing means embodied as a computer program and operating as cooperation between software and hardware;
(B.2) a second communication unit on the cooperation terminal side related to communication via the second communication mechanism;
(B.3) data sending means for emitting electromagnetic waves modulated by arbitrary transmission data;
(B.4) a storage device on the cooperation terminal side;
The storage device on the link terminal side stores at least identification data of the link communication terminal device, and can store stored data or / and provisional data generated during processing,
(C) The communication terminal device used is at least
(C.1) first data processing means embodied as a computer program and operating as cooperation between software and hardware;
(C.2) a first communication unit on the use terminal side involved in communication via the first communication mechanism;
(C.3) data detection means for detecting the emitted electromagnetic waves and obtaining the transmission data;
(C.4) a storage device on the use terminal side;
The storage device on the side of the user terminal can store stored data or / and provisional data generated during processing,
The information processing system
(D.1) The second data processing means of the cooperative communication terminal device uses the identification data stored in the storage device on the cooperative terminal side as the second communication unit on the cooperative terminal side and the second communication. Performing an identification data transmission process to be transmitted to the server device via a mechanism;
(D.2) The data processing means of the server device sends the identification data transmitted from the cooperative communication terminal device via the second communication mechanism in the identification data transmission process to the second communication unit on the server side. In comparison with the identification data related to the valid cooperative communication terminal device received through the server-side storage device, if there is a match, execute the inspection process to justify the cooperative communication terminal device ,
(D.3) A storage process in which the data processing means of the server device stores the identification data of the cooperative communication terminal device validated in the inspection process in the storage device on the server side as inspected identification data Run
(D.4) The server-side storage device by issuing an electronic license composed of digital data provided only by the cooperative communication terminal device validated in the inspection process by the data processing means of the server device Executing the license generation and providing process of storing the electronic license as an issued electronic license and sending the electronic license to the cooperative communication terminal device via the second communication unit on the server side and the second communication mechanism,
(D.5) The second data processing unit of the cooperative communication terminal device that has received the electronic license transmission via the second communication unit on the cooperative terminal side receives the electronic license and the cooperative terminal side Organizing transmission data including the identification data extracted from the storage device, and emitting an electromagnetic wave modulated by the transmission data from the data sending means,
(D.6) A detection process in which the first data processing unit of the communication terminal apparatus uses the transmission data from the electromagnetic wave detected by the data detection unit to obtain the electronic license and the identification data. Run,
(D.7) The first data processing means of the usage communication terminal apparatus executes a saving process in which the identification data obtained in the detection process is saved in a storage device on the usage terminal side;
(D.8) The first data processing means of the usage communication terminal apparatus uses the identification data and the electronic license obtained in the detection process as the first communication unit on the usage terminal side and the first communication mechanism MNW. Performing a feedback process to be sent to the server device via
(D.9) The data processing means of the server device converts the identification data transmitted from the use communication terminal device in the feedback process into the inspected identification data stored in the storage device on the server side. In contrast, if there is a matched identification data, the collaborative communication terminal device is not replaced after the identification data transmission process, and a confirmation process is performed.
(D.10) The data processing means of the server device converts the electronic license transmitted from the use communication terminal device in the feedback process into the issued electronic license stored in the storage device on the server side. In contrast, if there is a matching issued electronic license, a verification process is performed in which the used communication terminal device operates in cooperation with the cooperative communication terminal device.
An information processing system characterized by this.   The data sending means of the cooperative communication terminal device and the data detection means of the communication terminal device used are infrared communication, Bluetooth (registered trademark) communication, DSRC (Dedicated Short Range Communications) communication, wireless LAN, UWB (Ultra Wide Band). 2. The information processing system according to claim 1, wherein the information processing system conforms to at least one communication method of communication and communication using a contactless wireless tag. The data sending means of the cooperative communication terminal device includes an image presentation device in which the transmitted data is retrievably incorporated, and the data detection means of the communication terminal device uses the image optically. An imaging device
The image includes a two-dimensional code pattern organized by the server device based on the electronic license, and a processing pattern obtained by processing the identification data by a predetermined image encryption method in the cooperative communication terminal device. The information processing system according to claim 1. The data processing means of the server device, in the storage device on the server side, for the used communication terminal device that has passed the verification process,
1. Data indicating the presence of the communication terminal device,
2. The date and / or time at which the verification process was performed,
3. Position data transmitted from the cooperative communication terminal device or / and the utilization communication terminal device to the server device at any time from the start of the identification data transmission process to the end of the verification process,
Record and store at least one of
The information processing system according to claim 1, wherein the information processing system is configured. A server device configured by a computer, which can be connected to the first communication mechanism and the second communication mechanism, both of which are communication networks;
A communication terminal device configured by a computer capable of communicating with the server device via the first communication mechanism;
A collaborative communication terminal device configured with a computer capable of communicating with the server device via the second communication mechanism;
An information processing method executed by an information processing system that is a computer network system comprising:
(A) The server device is at least
(A.1) data processing means embodied as a computer program and operating as a cooperation of software and hardware;
(A.2) a first communication unit on the server side related to communication via the first communication mechanism;
(A.3) a second communication unit on the server side related to communication via the second communication mechanism;
(A.4) a storage device on the server side;
The storage device on the server side includes at least
(A.2.1) Identification data and a communication address on the second communication mechanism related to a predetermined valid cooperative communication terminal device;
(A.2.2) content data;
And remember
(A.2.3) Saved data or / and provisional data generated during processing,
Can be memorized,
(B) The cooperative communication terminal device is at least
(B.1) second data processing means embodied as a computer program and operating as cooperation between software and hardware;
(B.2) a second communication unit on the cooperation terminal side related to communication via the second communication mechanism;
(B.3) data sending means for emitting electromagnetic waves modulated by arbitrary transmission data;
(B.4) a storage device on the cooperation terminal side;
The storage device on the link terminal side stores at least identification data of the link communication terminal device, and can store stored data or / and provisional data generated during processing,
(C) The communication terminal device used is at least
(C.1) first data processing means embodied as a computer program and operating as cooperation between software and hardware;
(C.2) a first communication unit on the use terminal side involved in communication via the first communication mechanism;
(C.3) data detection means for detecting the emitted electromagnetic waves and obtaining the transmission data;
(C.4) a storage device on the use terminal side;
The storage device on the side of the user terminal can store stored data or / and provisional data generated during processing,
The information processing method includes:
(D.1) The second data processing means of the cooperative communication terminal device uses the identification data stored in the storage device on the cooperative terminal side as the second communication unit on the cooperative terminal side and the second communication. Transmitting the identification data to the server device via a mechanism; and
(D.2) The data processing means of the server device sends the identification data transmitted from the cooperative communication terminal device via the second communication mechanism in the identification data transmission process to the second communication unit on the server side. In contrast to the identification data relating to the valid cooperative communication terminal device received through the server-side storage device, if there is a match, the cooperative communication terminal device is justified, an inspection process,
(D.3) A storage process in which the data processing means of the server device stores the identification data of the cooperative communication terminal device validated in the inspection process in the storage device on the server side as inspected identification data When,
(D.4) The server-side storage device by issuing an electronic license composed of digital data provided only by the cooperative communication terminal device validated in the inspection process by the data processing means of the server device A license generation providing process for storing the electronic license as an issued electronic license and sending the electronic license to the cooperative communication terminal device via the second communication unit on the server side and the second communication mechanism;
(D.5) The second data processing unit of the cooperative communication terminal device that has received the electronic license transmission via the second communication unit on the cooperative terminal side receives the electronic license and the cooperative terminal side Organizing transmission data including the identification data extracted from the storage device, and emitting electromagnetic waves modulated by the transmission data from the data sending means,
(D.6) A detection process in which the first data processing means of the communication terminal apparatus uses the transmission data from the electromagnetic waves detected by the data detection means to obtain the electronic license and the identification data; ,
(D.7) A storage process in which the first data processing unit of the communication terminal device stores the identification data obtained in the detection process in a storage device on the user terminal side;
(D.8) The first data processing means of the usage communication terminal apparatus uses the identification data and the electronic license obtained in the detection process as the first communication unit on the usage terminal side and the first communication mechanism MNW. A feedback process to be sent to the server device via
(D.9) The data processing means of the server device converts the identification data transmitted from the use communication terminal device in the feedback process into the inspected identification data stored in the storage device on the server side. In contrast, if there is a matching verified identification data, it is assumed that the cooperative communication terminal device is not replaced after the identification data transmission process,
(D.10) The data processing means of the server device converts the electronic license transmitted from the use communication terminal device in the feedback process into the issued electronic license stored in the storage device on the server side. In contrast, if there is a matching issued electronic license, the use communication terminal device operates in cooperation with the cooperative communication terminal device, and a verification process,
An information processing method comprising:   The data sending means of the cooperative communication terminal device and the data detection means of the communication terminal device used are infrared communication, Bluetooth (registered trademark) communication, DSRC (Dedicated Short Range Communications) communication, wireless LAN, UWB (Ultra Wide Band). 6. The information processing method according to claim 5, wherein the information processing method conforms to at least one communication method of communication and communication by a contactless wireless tag. The data sending means of the cooperative communication terminal device includes an image presentation device in which the transmitted data is retrievably incorporated, and the data detection means of the communication terminal device uses the image optically. An imaging device
The image includes a two-dimensional code pattern organized by the server device based on the electronic license, and a processing pattern obtained by processing the identification data by a predetermined image encryption method in the cooperative communication terminal device. The information processing method according to claim 5. The data processing means of the server device, for the used communication terminal device that has passed the verification process, in the storage device on the server side,
1. Data indicating the presence of the communication terminal device,
2. The date and / or time at which the verification process was performed,
3. Position data transmitted from the cooperative communication terminal device or / and the utilization communication terminal device to the server device at any time from the start of the identification data transmission process to the end of the verification process,
The information processing method according to claim 5, further comprising an existence proof process for recording and storing at least one of the information. It is composed of a computer and can be connected to a first communication mechanism and a second communication mechanism, both of which are communication networks,
Via the first communication mechanism, it is possible to communicate with a use communication terminal device configured by a computer,
A server device capable of communicating with a cooperative communication terminal device configured by a computer via the second communication mechanism,
at least,
(1) data processing means embodied as a computer program and operating as cooperation between software and hardware;
(2) a first communication unit related to communication via the first communication mechanism;
(3) a second communication unit related to communication via the second communication mechanism;
(4) a storage device;
And the storage device is at least
(5) Identification data and a communication address on the second communication mechanism related to a predetermined valid cooperative communication terminal device;
(6) Saved data or / and provisional data generated during processing,
Can be memorized,
The data processing means receives the identification data transmitted from the cooperative communication terminal device via the second communication mechanism via the second communication unit, and sends it to a valid cooperative communication terminal device stored in the storage device. In contrast to such identification data, if there is a match, justify the cooperative communication terminal device, execute an inspection process,
The data processing means stores the identification data of the cooperative communication terminal device validated in the inspection process in the storage device as inspected identification data, and executes a storage process.
The data processing means provides an electronic license composed of digital data to be provided only to the cooperative communication terminal device validated in the inspection process, stores it as an issued electronic license in the storage device, and Performing a license generation providing process of sending an electronic license to the cooperative communication terminal device via the second communication unit and the second communication mechanism;
When the data processing means receives the identification data from the communication terminal device used via the first communication mechanism MNW and the first communication unit, the identification data stored in the storage device is the checked identification data. On the other hand, if there is matching identification data that matches, the cooperative communication terminal apparatus is not replaced after the inspection process, a confirmation process is performed,
When the data processing means receives an electronic license from the used communication terminal device via the first communication mechanism MNW and the first communication unit, the issued electronic license stored in the storage device is stored in the electronic license. In contrast, if there is a matching issued electronic license, a verification process is performed in which the use communication terminal device operates in cooperation with the cooperation communication terminal device.
The server apparatus characterized by the above-mentioned. The data processing means, for the use communication terminal device that has passed the verification process, in the storage device,
1. Data indicating the presence of the communication terminal device,
2. The date and / or time at which the verification process was performed,
3. Position data transmitted from the cooperative communication terminal apparatus or / and the utilization communication terminal apparatus to the server apparatus at any time from the start of the inspection process to the end of the verification process,
Record and store at least one of
The server device according to claim 9, wherein the server device is configured.

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