JP3565663B2 - Information transfer system, information storage and provision device, and information provided device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information transfer system in which an information storage and provision device connected to a network provides information to an information provision device connected to the network, and information storage and provision devices and information provision devices that are constituent elements thereof About.
[0002]
[Prior art]
A system that allows a user to retrieve information stored in an information storage and provision device (hereinafter, referred to as a server) connected to a network using an information provision device (hereinafter, referred to as a user terminal) For example, there are information transfer systems on the Internet.
[0003]
In such an information transfer service on the Internet, first, a user accesses a server having data required by the user, and requests transmission of main data (Home Page). In response to the access, the server recognizes the requester and transmits the main data to the requester. When receiving the main data from the server, if necessary, the user selects the necessary detailed data from a menu of the data and requests the server to transmit the detailed data. The server transmits the requested detailed data to the transmission requester. By such a method, a data transfer service on the Internet has been established.
[0004]
It should be noted that the information transfer system constructed on a dedicated or general-purpose network other than the Internet is also transferred by the server in response to a user's request, in substantially the same manner as described above.
[0005]
[Problems to be solved by the invention]
As described above, in the conventional information transfer system, the information at the time when the user accesses the device for the information is transferred from the server to the user. Therefore, the user cannot know that the information has been updated thereafter.
[0006]
For example, game progress information of professional baseball, odds information of horse racing, and the like are frequently updated by the information provider according to the change.
[0007]
Therefore, in the conventional information transfer system, a user who needs such frequently updated information needs to frequently access the server. However, even if the access is repeated, the information may not be updated, and the access often ends in vain. The fact that frequent accesses often result in useless accesses is not an efficient information transfer system in consideration of network traffic. In particular, in the case of an information transfer system targeting many user terminals, frequent access is highly likely to induce congestion and the like.
[0008]
As a method for a user to obtain frequently updated information at the time of updating, as in a teletext system, a server always sends the latest information to a communication network, and the user fetches the information from a terminal as necessary. There are ways. However, in this method, the user terminal also captures information that the user does not need, and the density of the information that is really needed is small. Since a large amount of information is transmitted despite such a small amount of information desired by the user, this method cannot be said to be an efficient method.
[0009]
Therefore, there is a need for an information transfer system that allows a user to efficiently obtain information desired by the user as much as possible in real time from various types of frequently updated information and that has a small load on a network.
[0010]
[Means for Solving the Problems]
In order to solve such a problem, the first present invention provides a method of frequent communication between an information storage and provision device and at least one or more information storage and provision devices and a plurality of information provided devices connected via a network. In an information transfer system for transferring transfer target information having information that can be updated to an information provided device, (A) each information storage and provision device sets (A-1) a type of transfer input information that is newly input or updated. Type information generating means for causing the type information to be included in the transmission signal, and (A-2)Time information generating means for causing the transmission signal to include time information related to transmission of the transmission signal, (A-3)The transfer target information to be provided is a transmission signal related to the contract communication in a label part in a transmission signal format including a label part in which bibliographic items related to transmission of a transmission destination and the like are inserted and an information part in which transmission information is inserted. Insert a contract communication type label indicating that there isAnd insert time information into the information sectionAnd a providing communication means for transmitting the transmission signal with the type information inserted toward each information provided device, and (B) each information provided device, via the (B-1) network. When the contract communication type label of the incoming transmission signal from any of the information storage and provision devices is confirmed, it is determined that the transmission signal is related to the contract communication with each of the information storage and provision devices, and the reception target of the transmission signal is determined. The provider side communication means and (B-2) the type information of the receivable transfer target information contracted by the user itself is built-in, and the type information included in the received transmission signal is checked against the built-in type information. do it,Identify receivable transfer target information contracted by youInformation type identification means and, (B-3) If the information type identification means determines that the data can be received, the time information included in the transmission signal is compared with the time information relating to the transfer target information of the same type received immediately before, and the latest transfer target information is determined. Time information identification means for identifying and updatingAnd characterized in that:
[0011]
According to a second aspect of the present invention, a transfer including information that can be frequently updated from an information storage and provision device between at least one or more information storage and provision devices and a plurality of information provided devices connected via a network. In the information storage and provision device in the information transfer system for transferring the target information to the information provision device, type information generating means for causing the transmission signal to include type information indicating the type of the newly input or update input transfer target information,Time information generating means for causing the transmission signal to include time information related to transmission of the transmission signal,The transfer target information to be provided is a transmission signal related to the contract communication in a label part in a transmission signal format including a label part in which bibliographic items related to transmission of a transmission destination and the like are inserted and an information part in which transmission information is inserted. Insert a contract communication type label indicating that there isAnd insert time information into the information sectionAnd a providing-side communication means for transmitting the transmission signal, into which the type information is inserted, to each information-provided device.
[0012]
According to a third aspect of the present invention, at least one or more information accumulating and providing devices and a plurality of information provided devices are connected via a network., EmotionTransfer target information having information that can be frequently updated from the information accumulation providing deviceAffectionIn the information provided device in the information transfer system for transferring to the information provided device, each information storage providing device confirms a contract communication type label of a transmission signal from any of the information storage providing devices arriving via the network. It is determined that the transmission signal is a transmission signal related to contract communication with the receiving side, and the provided communication means for receiving the transmission signal and the type information of the receivable transfer target information contracted by itself are built in, and the received transmission signal is Is compared with the built-in type information,Identify receivable transfer target information contracted by youInformation type identification means andIf the information type identification means determines that the data can be received, the time information included in the transmission signal is compared with the time information relating to the transfer target information of the same type received immediately before, and the latest transfer target information Time information identification means for identifying and updatingAnd characterized in that:
[0013]
According to the first to third aspects of the present invention, the information-provided device can refuse to receive an unnecessary transmission signal based on the contract communication-type label, and can transfer the transfer target information newly input or updated through the exchange of the type information. The presence can be confirmed, and further, based on the type information, the necessity of the transfer target information is confirmed and taken into the inside, so that the information provided by the information provided device out of the frequently updated various information can be almost efficiently processed. It can be obtained in real time, and the load on the network can be reduced.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
(A) First embodiment
Hereinafter, a first embodiment of an information transfer system according to the present invention will be described in detail with reference to the drawings.
[0015]
In order to provide a real-time information transfer service, the information transfer system of the first embodiment approaches from a communication method, transmits an update information type to a network every time information is updated from a server, and a user side transmits the update information type. Then, filtering is performed according to the information type, and only the updated information necessary on the user side is obtained.
[0016]
(A-1) Configuration of First Embodiment
FIG. 2 shows a network configuration of the information transfer system according to the first embodiment.
[0017]
In FIG. 2, the information transfer system according to the first embodiment includes a plurality of user terminals (information-provided devices) 1-1 to 1-m to which information is provided and at least one or more servers (to provide information). (Information storage and provision devices) 2-1 to 2-n are connected via a network 3.
[0018]
Here, the network 3 may be any of a dedicated network and a public network, and may have any connection form of a bus, ring, or mesh. Depending on the connection form, it is configured to appropriately include a concentrator and a relay station. In the case of the first and second embodiments described later, the network 3 needs to be capable of supporting the broadcast communication function.
[0019]
Each server 2-j (j is 1-n), which is an information storage and provision device, is constituted by, for example, a large-capacity hard disk device, a supercomputer or a workstation having a communication device such as a modem or an Ethernet interface unit. However, when shown in a functional block diagram from the relationship with the features of the information transfer system of the first embodiment, it has the configuration shown in FIG.
[0020]
That is, each server 2-j includes an information input / output unit 20, an information search management unit 21, an information storage unit 22, an encryption unit 23, an encryption key generation unit 24, a time information generation unit 25, an information type generation unit 26, It comprises a server transmitting / receiving unit 27.
[0021]
The information input / output unit 20 inputs new transfer target information, inputs updated transfer target information, or inputs updated contents of contractor information that can be provided with the transfer target information by the information transfer system. Or something. In addition, the information input / output unit 20 outputs the output target information provided from the information search management unit 21 when the stored information is requested by the information provider or when the output of the billing information is requested. Output.
[0022]
Here, as the transfer target information, a genre type indicating a genre (major classification) of the information and an information type indicating a small classification or a fine classification of the information are specified and input. For example, the genre type is specified in the form of “sports”, the minor classification is “baseball”, and the sub classification is specified in the form of “team name”. The contractor information includes information for specifying a contractor such as a contractor and a terminal ID, and information for specifying a genre type and an information type that can receive information transfer. The contractor information may further include information on the contract period and the service execution time.
[0023]
The information storage unit 22 includes a transfer target information storage unit 22a and a contractor information storage unit 22b. The transfer target information storage unit 22a stores the transfer target information in an accessible form using the genre type and the information type as keys. The contractor information storage unit 22b stores the contractor information in an accessible form using the genre type and the information type as keys. The contractor information storage unit 22b also stores billing information for each contractor.
[0024]
When the information input / output unit 20 receives the contractor information for instructing the new subscription, the cancellation, or the change of the contract content, the information search management unit 21 responds to the contractor information storage unit of the information storage unit 22. 22b is updated.
[0025]
When new transfer target information or updated transfer target information is provided from the information input / output unit 20, the information search management unit 21 stores the transfer target information in the transfer target information storage unit 22a of the information storage unit 22 accordingly. The content is updated and the transmission process of the given transfer target information is started. At the start of the transmission process, the charge information of the contractor related to the transfer target information in the contractor information storage unit 22b of the information storage unit 22 is also updated.
[0026]
In the first embodiment, communication between the server 2-j and the user terminal 1-i (i is 1 to m) is communication for transferring a packet as shown in FIG. 3A (for example, ATM communication). The information search management unit 21 divides the transfer target information to be transmitted for each information amount included in one packet (hereinafter, referred to as an information amount of a transfer unit; the transfer information body in FIG. 3B). Then, it is delivered to the encryption unit 23 to start transmission.
[0027]
Here, the information transmitted to the user terminal 1-i may be all of the transfer target information input from the information input / output unit 20, or may be only the information of the updated part. In the case of the transfer target information first input from the information input / output unit 20, all of the information is transmitted. When the updated transfer target information is input from the information input / output unit 20, for example, the information amount is compared with a first threshold, and when the information amount is smaller than the first threshold, all of the input information is deleted. When the transmitted information is equal to or greater than the first threshold value, a different information portion (difference information) is obtained between the input information and the information before update stored in the information storage unit 22, and the amount of the information portion is determined by When the threshold value is larger than the second threshold value, all of the input information is transmitted. When the threshold value is equal to or smaller than the second threshold value, the information portion (including the difference information and the information indicating the difference information) Just send.
[0028]
Further, when a reception response of the decryption key is given from the user terminal 1-i via the server transmission / reception unit 27, the information search management unit 21 stores the information of the contractor information storage unit 22b in the information storage unit 22. If the contractor's information is kept valid and the decryption key reception response is not given, the contractor's information is made invalid (the information itself is erased because of the relationship with billing). Do not execute).
[0029]
The encryption unit 23 encrypts the information of the transfer unit given from the information search management unit 21 by using an encryption key determined by transfer target information created by an encryption key generation unit 24 described later. The transfer is performed to the time information generation unit 25. As will be described later, the encryption key is transferred as a decryption key to the user terminal 1-i of the subscriber of the information transfer service, and the above-described encryption processing is performed only by the subscriber. Is to be able to receive the contents. The specific method of encryption may be any method, and the specific method itself does not have the features of the first embodiment.
[0030]
The encryption key generation unit 24 regenerates the encryption key using a random number or the like at every predetermined time (for example, one month, one week, or one day) such as the contract shortest period, and stores it inside. At the same time, the data is transmitted as a decryption key to each user terminal 1-i via the server transmission / reception unit 27. Therefore, the encryption key and the decryption key are the same data, and the reception information can be decrypted when the user terminal (contractor) 1-i receives the data, and the contract between the sender and the receiver is renewed. Reestablish.
[0031]
Here, a different encryption key is created for each contract minimum unit determined by the genre type and the information type. In transmitting the encryption key, the contractor information of the contract minimum unit related to the encryption key is extracted from the contractor information storage unit 22b of the information storage unit 22, and each contractor (user terminal 1-i ) Are transmitted in time sequence. The transmission of the decryption key naturally includes the key itself and information on the genre type and the information type (the identification number may be used).
[0032]
The transmission of the transfer target information itself is different from the transmission of the encryption key (decryption key), and is performed by broadcast transmission as described later. However, if the network 3 is a closed system for the information transfer service, an encryption key (decryption key) may be transmitted by broadcast communication.
[0033]
Further, the encryption key generation unit 24 provides the corresponding encryption key to the encryption unit 23 in response to a request from the encryption unit 23.
[0034]
The time information generation unit 25 has a built-in clock 25a such as a standard radio clock, and when given information of an encrypted transfer unit, extracts the real time from the clock 25a and outputs the extracted real time. This is processed into a format that can be inserted into a packet, added to the information of the transfer unit that has been subjected to the encryption processing, and given to the information type generation unit 26.
[0035]
FIG. 3C shows an example of a format of time information inserted into a packet, and an example of the number of bits is indicated by a number in parentheses. As shown in FIG. 3C, the time information includes “day” (5 bits), “hour” (5 bits), “minute” (6 bits), “second” (6 bits), and “millisecond”. (10 bits), “microsecond” (10 bits), and “error correction code (CRC)” (α bits). As other information (β bit), “month” or “bit indicating whether or not time information has changed” may be included.
[0036]
Here, the “bit indicating whether or not the time information has changed” indicates whether different time information is inserted or the same time information is inserted for each packet relating to the same transfer target information. For example, switching is performed depending on the type of transfer target information and the amount of information to be transferred. In the first embodiment, different time information is basically inserted for each packet.
[0037]
The transmission of the time information has the following functions. The contractor can distinguish between the latest information and the old information. In other words, the user terminal 1-i receives the update information or the like almost simultaneously with the input to the server 2-j, but the contractor does not always see the information at the time of reception, The new and old information can be recognized regardless of the version number, and the update time can be recognized. Also, the user terminal 1-i can make the clock in the terminal almost accurate by adjusting the clock in the terminal to the extracted time information, although there is an error in the propagation time. Further, in the case where different time information is included for each packet and transmitted, the user terminal 1-i determines the order based on the time information in addition to the order based on the sequence number of the packet. Can be executed, and the order of packets can be checked twice.
[0038]
The time period of the clock 25a of the time information generation unit 25 is given to the encryption key generation unit 24, and the encryption key generation unit 24 captures the generation timing of the encryption key based on the time measurement.
[0039]
The information type generation unit 26 adds the type information indicating the type of the transfer target information as shown in FIG. 3D to the information given from the time information generation unit 25, and inserts the information into the information part of the packet. The information is completed and given to the server transmission / reception unit 27.
[0040]
Here, the type information is, as shown in FIG. 3D, a “server type” (any of 8 to 12 bits) including an ID number or the like that specifies the server 2-j, and the “genre type” described above. (Any of 4 to 8 bits), the above-mentioned “information type” (any of 4 to 12 bits), and “error correction code (CRC)” (γ bits). Note that the genre type and the information type are extracted from the transfer target information storage unit 22a of the information storage unit 22 by the information search management unit 21 and provided to the information type generation unit 26. The server type may also include information for specifying a transfer service providing company.
[0041]
Such type information is used on the user terminal 1-i side to determine (filtering) whether or not the transfer information is to be received.
[0042]
When receiving the transmission partner information (contractor; user terminal) and the decryption key (encryption key) from the encryption key generation unit 24, the server transmission / reception unit 27 inserts the decryption key into the information part, A decryption key notification packet in which the transmission destination information is inserted in the destination field of the section is completed and transmitted to the network 3.
[0043]
Further, when a reception response packet of a decryption key is given from the user terminal 1-i via the network 3, the server transmitting / receiving unit 27 notifies the information retrieval management unit 21 of the fact.
[0044]
Further, when the transmission information is provided from the information type generation unit 26, the server transmission / reception unit 27 inserts the transmission information into the information part of the packet, and adds a header part in which information for instructing broadcast is also inserted. Thus, an information transfer packet is completed and transmitted to the network 3.
[0045]
Here, a contract type information label indicating that the packet is a contractor target packet (hereinafter, referred to as a contract information type packet) is also inserted into the header portion of all types of packets transmitted from the server 2-j. Have been. This contract type information label is used in the user terminal 1-i to identify a contract information type packet or another packet. Also, in the header portion of the packet transmitted from the server 2-j, an information portion identification label indicating that the content of the information portion indicates the transfer target information or the encryption key is inserted. This information part identification label is used in the user terminal 1-i to identify an information transfer packet or an encryption key notification packet. Actually, even in the packet format of the existing network, there are undetermined bits whose usage is not defined. For example, these undetermined bits are used as labels.
[0046]
On the other hand, each user terminal 1-i is composed of, for example, a workstation or a personal computer having a hard disk device, a communication device such as a modem and an Ethernet interface unit, and the like. When shown in a functional block diagram from the relationship, the configuration shown in FIG.
[0047]
That is, each user terminal 1-i includes a terminal transmitting / receiving unit 10, an information type identification unit 11, a time information identification unit 12, a decryption unit 13, a decryption key storage unit 14, an information processing unit 15, an information storage unit 16, It has an input / output unit 17. The terminal transmitting / receiving unit 10, the information type identification unit 11, the time information identification unit 12, the decryption unit 13, and the decryption key storage unit 14 are provided as external devices of the information processing main unit such as a workstation or a personal computer, ie, an information transfer service. It is preferable to realize it as a dedicated peripheral device (adapter device) for preventing unauthorized acquisition of information.
[0048]
The terminal transmission / reception unit 10 executes transmission / reception of a packet to / from the server 2-j via the network 3, and decodes a packet header portion for a reception packet and a packet header portion for a transmission packet. The generation is performed.
[0049]
The terminal transmitting / receiving unit 10 determines the contract type information label of the received packet, and if the label indicates other than the contract information type packet related to the information transfer service, the terminal transmits / receives the packet to a processing configuration of the packet (not shown). Deliver or discard if it does not have the processing configuration. If the label indicates a contract information type packet, it is further determined whether the packet is an information transfer packet or a decryption key notification packet based on the information part identification label. In the case of a decryption key notification packet, the content (decryption key, genre type, and information type) of the information portion is supplied to the decryption key storage unit 14. Since the decryption key notification packet has the identification number of the user terminal 1-i inserted in the destination field without using the broadcast communication, the packet can be separated at this point as well. In the case of an information transfer packet, the packet sequence number in the header part is checked, the order is adjusted, and the packet is given to the information type identification unit 11.
[0050]
In addition, when the terminal transmission / reception unit 10 is requested by the decryption key storage unit 14 to transmit the reception response of the decryption key to the server 2-j, the terminal transmission / reception unit 10 transmits the decryption key reception response packet to the network 3. Then, the decryption key is transmitted to the transmission source server 2-j.
[0051]
The decryption key storage unit 14 receives the decryption key and the received decryption key in a format corresponding to the genre type and the information type when the decryption key and the genre type and the information type are given from the terminal transmitting / receiving unit 10. Is stored, and after the storing operation is completed, the terminal transmitting / receiving unit 10 is instructed to transmit a decryption key reception response to the server 2-j.
[0052]
As described above, since the server 2-j transmits the decryption key only to the user terminal 1-i related to the contract, the decryption key storage unit 14 stores the received decryption key in the server. Although it is not necessary to confirm whether the user terminal 1-i receives the data, the decryption key storage unit 14 stores the contracted genre type stored in the information storage unit 16 described later in consideration of security. After the information type and the genre type and the information type of the received decryption key are collated, they may be stored internally.
[0053]
The decryption key storage unit 14 returns the decryption key when a predetermined decryption key is obtained from the decryption unit 13 described later.
[0054]
The information type identification unit 11 has a built-in type information storage unit 11a storing type information of a server type, a genre type, and an information type to which the user terminal 1-i can receive the transfer (contracted). . When the contents of the packet information section are given from the terminal transmitting / receiving section 10, the information type identification section 11 determines the contents of the type information field as shown in FIG. 3D, ie, the server type, genre type and information type. Identify (including error detection and correction processing based on CRC) and determine whether or not the terminal 1-i stored in the built-in type information storage unit 11a is of a receivable contract type. I do. That is, it is determined whether the type information conforms to its own contract. If the identified type information conforms to the contract, the contents of the packet information section (the type information may be omitted) are transferred to the time information identification section 12. On the other hand, if the identified type information does not conform to its own contract, the information type identification unit 11 discards the packet at this stage. As described above, the filtering of the packet based on the type information is executed.
[0055]
Here, since the type information filtering function may be operated by the contractor to cause the transfer target information to pass through the information type identification unit 11 in violation of the contract, protection through encryption and decryption may be performed. Are doing.
[0056]
When given the processed information from the information type identification unit 11, the time information identification unit 12 identifies the contents of the time information field as shown in FIG. 3C (error detection and correction processing based on the CRC). This is compared with the time of the same type of transfer information received immediately before and stored in the information storage unit 16 via the information processing unit 15 described later, and it is confirmed that the current time is late.
[0057]
As described above, since the server 2-j performs information transmission when the transfer target information is updated or newly input, the time of the information (the information transfer packet) transferred this time is immediately before the received data. It is in principle not considered that the time is earlier than the time of the information. However, when such a time reversal occurs due to an abnormality in the network 3 or the like, the time information identification unit 12 discards the currently received packet. .
[0058]
When confirming the validity of the time information, the time information identification unit 12 gives the time information to the information processing unit 15 to correct the time of a clock (not shown) inside the user terminal 1-i. Also, in the case of a series of information transfer packets in which different time information is inserted for each packet, the continuity of a series of packets arriving at the user terminal 1-i in succession is confirmed, and the sequence is reversed. If so, correct the order. When the above processing is completed, the time information identification unit 12 gives the contents of the packet information unit (at least the transfer information body) to the decoding unit 13.
[0059]
Upon receiving the contents of the packet information section from the time information identification section 12, the decryption section (decryption section) 13 extracts the decryption key associated with the type of the current transfer information from the decryption key storage section 14, and decrypts the decryption key. Using the encryption key, the encrypted transfer information body as shown in FIG. 3B is decrypted, and the decrypted transfer information is provided to the information processing unit 15.
[0060]
The information storage unit 16 stores information transferred with a storage area for each server type, genre type, and information type, together with its time information.
[0061]
The information processing unit 15 accumulates type information of a server type, a genre type, and an information type that the user terminal 1-i can receive (input) from the information input / output unit 17 described later. This is given to the section 11a and accumulated.
[0062]
Further, as described above, the information processing unit 15 gives the time information at the time of the immediately preceding transfer extracted from the information storage unit 16 to the time information identification unit 12.
[0063]
Further, when the decrypted transfer information is given from the decryption unit 13, the information processing unit 15 causes the information storage unit 16 to store the transfer information together with the time information given from the time information identification unit 12, and At the end of the accumulation of the information, the information input / output unit 17 is informed of the updated transfer information or the presence of the newly received transfer information. The time information stored in the information storage unit 16 may be only the time information inserted in the first information transfer packet of the series of information transfer packets, and may be the first and last information of the series of information transfer packets. It may be time information inserted in the transfer packet.
[0064]
Further, when the information input / output unit 17 specifies the server type, the genre type, and the information type and requests the transfer of the transfer information, the information processing unit 15 sends the corresponding transfer information (time (Including information) and gives it to the information input / output unit 17.
[0065]
As described above, the information input / output unit 17 as a user interface inputs the type information of the server type, genre type, and information type to which the user terminal 1-i can receive the transfer (contracted), and updates the information. The transfer information returned by requesting the information processing unit 15 to perform processing of notifying the presence of the transferred information or the newly received transfer information or extracting the transfer information specifying the server type, the genre type, and the information type. Is displayed.
[0066]
(A-2) Operation of the first embodiment
Next, the operation of the first information transfer system including the user terminal 1-i and the server 2-j having the above detailed configurations will be described.
[0067]
First, a process of generating an encryption key and distributing it to a predetermined user terminal (contractor) 1-i will be described focusing on the process in the encryption key generation unit 24. Here, FIG. 5 is a flowchart showing the processing of the encryption key generation unit 24.
[0068]
The encryption key generation unit 24 waits for the key generation time (step 100). When the key generation time comes, first, the type parameter N for specifying the type of the contract minimum unit is initialized (step 101). . Thereafter, the N-th type key is regenerated and stored using a random number or the like (step 102). Thereafter, one subscriber (user terminal) of the N-th type is taken out from the storage unit 22b (step 103), and the server transmission / reception unit 27 is requested to transmit a decryption key (including type information) to the subscriber. (Step 104).
[0069]
As a result, the decryption key is transmitted to the corresponding user terminal 1-i, stored in the decryption key storage unit 14, the reception response is returned to the server 2-j, and the contract is completed.
[0070]
After requesting the transmission of the decryption key, the encryption key generation unit 24 confirms whether or not a transmission request has been issued to all the N-th type contractors (step 105). Returning to the extraction step 103, when transmission requests to all contractors have been issued, it is determined whether or not encryption key generation processing for all types has been completed (step 106).
[0071]
If the processing for all types has not been completed, the type parameter is updated to the one indicating the next type, and the process returns to the above-described encryption key generation step 102 (step 107), and the processing for all types is completed. Then, a series of processing ends.
[0072]
Next, the operation when the transfer target information is input for the first time or when the updated transfer target information is input, which is a feature of the first embodiment, will be described with reference to the above-described blocks in FIGS. The process on the server 2-j side and the process on the user terminal 1-i side will be described in detail in order with reference to the drawings. Here, FIGS. 1 and 4 are block diagrams also showing the flow of the processing, so that independent flowcharts are omitted.
[0073]
When transfer target information is newly input or updated transfer target information is input by the information input / output unit 20, the information search management unit 21 accumulates the transfer target information in the information storage unit 22 accordingly. The contents of the section 22a are updated, and the transmission processing of the given transfer target information is started. At this time, the billing information of the contractor related to the transfer target information is also updated.
[0074]
Here, based on the information amount of the input transfer target information itself and the information amount before the update, the information search management unit 21 transmits all of the input transfer target information, It is determined whether to transmit only an information part (difference information) that is different from the information, and the determined information to be transmitted is cut into an amount for each transfer unit inserted into the information transfer packet and provided to the encryption unit 23. Can be
[0075]
The encryption unit 23 encrypts the information in such a transfer unit using the encryption key determined by the type of the transfer target information generated by the encryption key generation unit 24, and performs encryption and time. The information is transferred to the information generation unit 25.
[0076]
The time information generating unit 25 adds the time information at that time or the time information relating to the first packet to the encrypted transfer unit information, and provides the information type generating unit 26. After that, the information type generation unit 26 adds type information indicating the type of the transfer target information, etc., completes the information to be inserted into the information part of the information transfer packet, and provides the information to the server transmission / reception unit 27.
[0077]
Then, the transmission information from the information type generation unit 26 is inserted into the information part of the information transfer packet by the server transmission / reception unit 27, and the information instructing the broadcast communication, the contract type information label, and the contents of the information part are transmitted to the transmission target. An information transfer packet is completed by adding a header part including an information part identification label or the like indicating information, and transmitted to the network 3.
[0078]
The information transfer packet transmitted in this manner is distributed to each user terminal 1-i by the broadcast function of the network 3.
[0079]
Next, the operation of the user terminal 1-i at the time of receiving such an information transfer packet (characteristic operation of the first embodiment) will be described.
[0080]
When the packet arrives at the terminal transmission / reception unit 10, the contract type information label is determined. If the label indicates other than the contract information type packet related to the information transfer service, the packet is added to the processing configuration of the packet (not shown). Delivered and discarded if there is no processing configuration. If the label indicates a contract information type packet, it is further determined from the information part identification label whether the packet is an information transfer packet or a decryption key notification packet. It is provided to the information type identification unit 11.
[0081]
In the information type identification unit 11, a server type, a genre type, and an information type are identified from the packet information unit given from the terminal transmission / reception unit 10, and the terminal 1-i stored in the type information storage unit 11a incorporated therein. Is compared with the types of contract objects that can be received, and if the identified type information conforms to the contract, the contents of the packet information section are transferred to the time information identifying section 12, while the identified type information conforms to the contract. If not, the information transfer packet is discarded at this stage.
[0082]
The time information identification unit 12 identifies the time information from the information provided from the information type identification unit 11 and compares the time information with the time of the same type of transfer information received immediately before and stored in the information storage unit 16. It is confirmed that this time is late. Here, if there is a time reversal, the current received packet is discarded. On the other hand, when the validity of the time information is confirmed, the time of a clock (not shown) inside the user terminal 1-i is corrected, and a series of transfer packets in which different time information is inserted for each packet. In the case of a group, the continuity of a series of packets arriving at the user terminal 1-i in succession is confirmed, and if the packets are reversed, the order is corrected.
[0083]
After the processing using the time information as described above, the content of the packet information part (transfer information body) given from the time information identification unit 12 is changed by the decryption unit 13 to the decryption key related to the current transfer information type. The transfer information after decryption is provided to the information processing unit 15.
[0084]
The information processing unit 15 stores the transfer information provided from the decoding unit 13 in the information storage unit 16 together with the time information provided from the time information identification unit 12. The unit 17 performs notification processing that there is updated transfer information or transfer information that is newly received.
[0085]
When the information input / output unit 17 specifies the server type, the genre type, and the information type and requests the transfer information to be taken out, the information processing unit 15 sends the corresponding transfer information (time information) from the information storage unit 16. ) Is taken out, given to the information input / output unit 17, and provided to the user.
[0086]
(A-3) Effects of the first embodiment
According to the information transfer system of the first embodiment, the following effects can be obtained.
[0087]
(1) When new transfer target information is input or updated transfer target information is input, the information is immediately delivered from the server 2-j to the user terminal 1-i. The latest information always arrives at the terminal 1-i, and it is possible to prevent the user from accessing the server many times without being able to judge whether the information is the latest information, and to transfer information efficiently. can do.
[0088]
(2) Only when new transfer target information is input or when updated transfer target information is input, that information is transmitted from the server 2-j, so that the latest information is delivered to the user terminal. In addition, the burden on the network 3 can be reduced as compared with a method in which the server repeatedly performs a transmitting operation and the user terminal performs the receiving process as necessary.
[0089]
(3) Since the information transfer packet including the contract type information label is transmitted and received, the user terminal can determine at an early stage whether or not the information transfer packet can be received, thereby reducing unnecessary reception processing.
[0090]
(4) Communication is performed by including the type information in the information transfer packet, and the user terminal 1-i on the receiving side filters the transferred information based on the type information. Unnecessary information can be automatically discarded by setting an appropriate information type. That is, only the latest information required by the user can be received.
[0091]
(5) Since time information is exchanged between the server and the user terminal, an accurate time can always be ensured on the user terminal side. Therefore, it is possible to accurately capture the time interval between the timing at which the user views the transferred information and the timing at which it is transmitted.
[0092]
(6) Since time information is exchanged between the server and the user terminal, even if new and old information arrives at the user terminal in a reversed manner due to a network abnormality or the like, the abnormality can be detected, and later. The old information that has arrived can be discarded. In addition, the order of packets in a series of information transfer can be confirmed using this time information.
[0093]
(7) Since the information transfer is performed by broadcast only when the information is newly input or updated, compared to a system individually accessed from many user terminals, the high speed required of the server is the same as that of the existing information. Lower than the transfer system.
[0094]
(8) Since encryption processing is used, it is possible to easily establish a contract with a contractor, and at the same time, prevent unauthorized use.
[0095]
(B) Second embodiment
Hereinafter, a second embodiment of the information transfer system according to the present invention will be described in detail with reference to the drawings.
[0096]
The information transfer system of the second embodiment also performs a real-time information transfer service by approaching from a communication method, and transmits an update information type from the server to the network every time information is updated. Then, filtering is performed according to the information type, and only the updated information required on the user side is obtained.
[0097]
(B-1) Configuration of Second Embodiment
As shown in FIG. 2, this information transfer system also includes a plurality of user terminals 1-1 to 1-m that are provided with information, and at least one or more servers (information storage and providing devices) 2-1 to 2-1 that provide information. 2-n are connected via the network 3.
[0098]
FIG. 6 is a block diagram showing a functional configuration of the server 2-j according to the second embodiment, in which the same or corresponding parts as those in FIG. 1 are denoted by the same reference numerals.
[0099]
Each server 2-j of the second embodiment also includes an information input / output unit 20, an information search management unit 21, an information storage unit 22, an encryption unit 23, an encryption key generation unit 24, a time information generation unit 25, an information It comprises a type generation unit 26 and a server transmission / reception unit 27.
[0100]
However, the functions of some functional units are different from those of the first embodiment. In the following, each part will be described focusing on differences from the first embodiment.
[0101]
Since the information input / output unit 20, the information storage unit 22, the encryption unit 23, and the time information generation unit 25 are almost the same as those in the first embodiment, the description is omitted.
[0102]
When the information input / output unit 20 receives the contractor information for instructing the new subscription, the cancellation, or the change of the contract content, the information search management unit 21 responds to the contractor information storage unit of the information storage unit 22. 22b is updated. When new transfer target information or updated transfer target information is provided from the information input / output unit 20, the information search management unit 21 stores the transfer target information in the transfer target information storage unit 22a of the information storage unit 22 accordingly. The content is updated.
[0103]
The above function is the same as that of the first embodiment, but the transmission processing function until the transfer target information is finally transmitted to the user terminal is different from that of the first embodiment as described below. .
[0104]
The information search management unit 21 gives the type information in which the information is newly input or updated to the information type generation unit 26, and starts the generation of the information type and the transmission process of only the information type.
[0105]
As will be described later, the contents of the information portion of the packet broadcast to each user terminal 1-i by this transmission start are as shown in FIG. 7A, for example. That is, in addition to the server type, genre type, and information type described in the first embodiment, a detailed type and a type identification number (hereinafter, referred to as type ID) are provided. The detailed type is, for example, a type based on a classification that is finer than the information type and finer than the minimum unit of the contract. That is, on the user terminal 1-i side, it is possible to determine the necessity of newly input or updated information even by classification smaller than the minimum unit of the contract. In the case of the second embodiment, various types of packets are transmitted and received between the server 2-j and the user terminal 1-i as described later, and the type ID is inserted into the packet and the number of bits is small. Can be used to specify the type.
[0106]
When a request for transmission of newly input or updated information is given from any of the user terminals 1-i via the server transmission / reception unit 27, the information search management unit 21 sets the user terminal 1-i to the information type. After confirming from the information of the contractor information storage unit 22b whether the information can be received, the transmission to the user terminal 1-i using the encryption key corresponding to the information type as the decryption key is encrypted. This is an instruction to the key generation unit 24.
[0107]
Here, the information part of the transmission request packet given from the user terminal 1-i includes a message instructing an information request and a type ID, as shown in FIG. 7B. The specific information of the user terminal 1-i is obtained from the transmission source information in the header. As shown in FIG. 7C, the decryption key notification packet includes a type ID in addition to the decryption key.
[0108]
The information search management unit 21 updates the billing information in the contractor information storage unit 22b when a decryption key reception response is given from any of the user terminals 1-i via the server transmission / reception unit 27. At the same time, the newly input or updated transfer target information (which may be difference information from immediately before) is cut into an amount to be included in one packet, and is provided to the encryption unit 23.
[0109]
As described above, when transmission of type information is requested from the information search management unit 21, the information type generation unit 26 generates type information as shown in FIG. 7A and gives it to the server transmission / reception unit 27. Things.
[0110]
The encryption key generation unit 24 regenerates various types of encryption keys at a predetermined cycle, as in the first embodiment. However, the transmission of the encryption key (decryption key) is not performed at the time of generation, and as described above, the transmission processing is individually performed to the transmission destination (user terminal) specified by the instruction from the information search management unit 21. This is different from the first embodiment.
[0111]
As described above, the server transmission / reception unit 27 performs transmission processing of the type information packet, the decryption key notification packet, and the information transfer packet, and performs reception processing of the information request packet and the decryption key reception response packet. Note that only the type information packet is broadcast. The difference between the packets may be distinguished not only by the contents of the packet information part but also by the information part identification label (see FIG. 3A) in the header part. Further, a contract type information label is added to the transmission packet from the server 2-j, as in the first embodiment.
[0112]
The configuration of the information portion of the information transfer packet in the second embodiment includes a type ID, time information, and a transfer information body, as shown in FIG. Since the type information of the updated or newly input information is transmitted in advance in the type information packet, only the type ID needs to be inserted here, and the amount of information per packet of the transfer information body is correspondingly increased. Have many.
[0113]
FIG. 8 is a block diagram showing the functional configuration of the user terminal 1-i according to the second embodiment, in which the same or corresponding parts as in FIG. 4 are denoted by the same reference numerals.
[0114]
As shown in FIG. 8, each user terminal 1-i of the second embodiment also includes a terminal transmitting / receiving unit 10, an information type identification unit 11, a time information identification unit 12, a decryption unit 13, a decryption key storage unit 14, It has an information processing unit 15, an information storage unit 16, and an information input / output unit 17.
[0115]
Here, the functions of the time information identification unit 12, the decryption unit 13, the decryption key storage unit 14, the information processing unit 15, the information storage unit 16, and the information input / output unit 17 are the same as in the first embodiment. , The description of which is omitted.
[0116]
The terminal transmission / reception unit 10 receives a type information packet, a decryption key notification packet, and an information transfer packet, and transmits an information request packet and a decryption key reception response packet.
[0117]
The terminal transmission / reception unit 10 confirms that the packet can be received with the contract type information label, and if the received packet is a type information packet, the type information (FIG. 7A) of the packet information part is transmitted to the information type identification unit 11. Also, when an information transfer request is made from the information type identification unit 11, the information request packet whose information part is shown in FIG. 7B is sent to the server which is the transmission source of the type information packet. 2-j.
[0118]
Further, the terminal transmitting / receiving unit 10 confirms that the contract type information label can be received, and if the received packet is a decryption key notification packet, the decryption key information of the packet information part (FIG. 7C). Is given to the decryption key storage unit 14. When the storage end is notified from the decryption key storage unit 14, the content of the information part is the decryption key reception response packet shown in FIG. To the server 2-j that is the transmission source of the decryption key notification packet.
[0119]
Further, the terminal transmitting / receiving unit 10 confirms that the packet can be received with the contract type information label, and if the received packet is an information transfer packet, the terminal transmitting / receiving unit 10 compares the contents of the packet information unit (FIG. 12 is given.
[0120]
The terminal transmission / reception unit 10 buffers the type ID internally when transmitting the information request packet, and relates to the type requested by itself when receiving the decryption key notification packet or the information transfer packet. Check This is because packets may be exchanged with a plurality of servers almost simultaneously.
[0121]
The information type identification unit 11 accumulates in the storage unit 11a the type information receivable by the user terminal 1-i and input by the user using the information input / output unit 17. Here, such receivable type information may also specify the above-mentioned detailed type, which is a class smaller than the contract minimum unit, that is, specify the contracted class more finely. Is also good.
[0122]
When the type information is given from the terminal transmission / reception unit 10, the information type identification unit 11 checks the content of the storage unit 11a, and when the match is confirmed, instructs the terminal transmission / reception unit 10 to transmit the information transfer request packet. Is what you do.
[0123]
(B-2) Operation of the second embodiment
Next, as described above, the operation of the information transfer system of the second embodiment in which the function of a part of the configuration is different from that of the first embodiment will be described with reference to a sequence diagram shown in FIG. I will explain it. In the case of the second embodiment, the operation of transmitting the decryption key is not an independent operation, so the operation when the transfer target information is input for the first time or when the updated transfer target information is input will be described. I do.
[0124]
When transfer target information is newly input or updated transfer target information is input by the information input / output unit 20, the information search management unit 21 stores the transfer target information in the information storage unit 22 accordingly. The content of the section 22a is updated, and the type information relating to the given transfer target information is provided to the information type generating section 26, and the type information transmission process is started.
[0125]
At this time, the type information as shown in FIG. 7A is generated by the information type generating unit 26 and given to the server transmitting / receiving unit 27, and a header information is added to complete the type information packet. Is broadcast to all user terminals via the network 3 (procedure T1 in FIG. 9).
[0126]
Among the user terminals to which the type information packet has arrived, the user terminals irrelevant to the contract (indicated by reference numeral 1-b in FIG. 9) recognize the contract type information label in the header and discard the type information packet. Then, no further processing is performed (procedure T2 in FIG. 9).
[0127]
On the other hand, the terminal transmitting / receiving unit 10 of the user terminal relating to the contractor recognizes that the current packet is a type information packet, and inserts the type shown in FIG. The information is provided to the information type identification unit 11. As a result, the information type identification unit 11 identifies the type information, and determines whether the type is the type of the transfer target requested by itself.
[0128]
The user terminal (indicated by reference numeral 1-c in FIG. 9) that has determined that a type information packet related to a type other than the type requested by itself has been received, discards the received type information packet, and No processing is performed (procedure T3 in FIG. 9).
[0129]
On the other hand, the information type identification unit 11 of the user terminal (indicated by reference numeral 1-a in FIG. 9) that has determined that the type information packet relating to the type requested by itself has been received, transmits the transmission request packet to the terminal Then, the terminal transmitting / receiving unit 10 transmits an information request packet having the content of the information part shown in FIG. 7B to the user 2-j that transmitted the type information packet (step T4 in FIG. 9).
[0130]
The server transmission / reception unit 27 of the server 2-j that has received such an information request packet notifies the information search management unit 21 of the fact, and the information search management unit 21 determines that the user terminal 1-a of the transmission source has a contract. After confirming that the user is the sender, the encryption key generator 24 is instructed to transmit the decryption key.
[0131]
Thus, the encryption key generation unit 24 requests the server transmission / reception unit 27 to transmit the decryption key of the information type to the transmission partner (user terminal 1-a) instructed by the information search management unit 21. 7C is transmitted to the user terminal 1-a by the server transmission / reception unit 27 (procedure T5 in FIG. 9).
[0132]
The terminal transmitting / receiving unit 10 of the user terminal 1-a confirms the reception permission based on the contract type information label of the received packet, recognizes that the packet is a decryption key notification packet, and converts the contents of the information part into the decryption key. This is given to the storage unit 14. As a result, the decryption key is stored in the decryption key storage unit 14 in a format associated with the type, and after the storage operation, a reception response of the decryption key is transmitted to the terminal transmitting / receiving unit 10 to the server 2-j. And the terminal transmitting / receiving unit 10 sends the decryption key reception response packet in which the content shown in FIG. 7D is inserted into the information part to the server 2-j that is the transmission source of the decryption key notification packet. It is returned (step T6 in FIG. 9). With such a return, the contract is re-established.
[0133]
When the information search management unit 21 is notified that the decryption key has been received from the user terminal 1-a via the server transmission / reception unit 27, the information search management unit 21 stores the contractor information in the storage unit. 22b, the charging information of the user terminal (contractor) 1-a is updated, and the newly input or updated transfer target information (or the difference information from immediately before) may be cut into the amount included in one packet. It is provided to the encryption unit 23.
[0134]
After that, there is no generation processing of the type information, but the information transfer packet in which the content shown in FIG. (Step T7 in FIG. 9).
[0135]
The reception processing of the information transfer packet in the user terminal 1-a is executed in substantially the same manner as in the first embodiment except that there is no operation of identifying the information type, and the information transferred to the information storage unit 16 (transfer). Information body) is stored. The process of presenting the stored transfer information to the user is the same as in the first embodiment.
[0136]
(B-3) Effects of the second embodiment
According to the second embodiment, substantially the same effects as those of the first embodiment can be obtained. In addition to this, according to the second embodiment, the following effects can be obtained.
[0137]
(1) Since only the type information is transmitted alone, detailed information can be included in the type information to be transmitted, and filtering based on more detailed type information can be executed.
[0138]
(2) When the information request is made from the user terminal side, the specificity of the contract is established, so that a more flexible contract can be executed.
[0139]
(C) Other embodiments
In the above description, various modified embodiments have been described, but the present invention is not limited to the above description. Hereinafter, some other embodiments will be exemplified.
[0140]
(1) Each of the above embodiments is based on packet communication, but the communication method is not limited to packet communication. The packet communication may be either a fixed-length packet or a variable-length packet. Since this is not related to the features of the present invention, the description is omitted in the above description, but it goes without saying that a general communication procedure such as retransmission may be introduced.
[0141]
(2) In each of the embodiments described above, an example in which encryption and decryption processes are performed has been described. However, if the network 3 is a closed and dedicated system, these processes may be omitted to construct a system. In addition, the same encryption process may be performed regardless of the type of the transfer target information.
[0142]
(3) In the above embodiments, the filtering based on the contract type information label and the filtering based on the type information are described. However, only the filtering based on the type information may be performed. Filtering may be performed using a combination of information and time information. For example, regarding the latter, the time period during which the results of baseball and the odds of horse racing are required is fixed. Therefore, the user terminal side manages the type information that can be received, including the time period during which reception is permitted. Alternatively, the time zone may be filtered by the time information identification unit.
[0143]
(4) In each of the above embodiments, the case where the user terminal and the server input the contractor information separately has been described. You may make it do.
[0144]
(5) In each of the embodiments described above, the reception response is not returned from the user terminal to the server when the information transfer packet is received. You may be made to reply. In this case, the accounting may be updated at the time of the reception response.
[0145]
(6) The method of presenting the information received and stored by the user terminal to the user is, of course, not limited to the above embodiment.
[0146]
(7) Needless to say, the number of hierarchies in the classification of the transfer target information is not limited to that of the above embodiment.
[0147]
(8) In the above embodiments, the time information is inserted into the information part. However, the time information may be inserted into the header part (label part). In this case, the order of the packets can be determined at an early stage. Similarly, the type information may be inserted into the header part (label part).
[0148]
(9) In each of the above embodiments, the type information to be inserted into the packet has been described as data defining the content, but only the ID may be transmitted.
[0149]
(10) In each of the above embodiments, the information transfer system including the server and the user terminal has been described. However, the communication method as in each of the above embodiments is performed between the server and the auxiliary server via the auxiliary server between the server and the user terminal. And the communication method as in each of the above embodiments may be performed between the auxiliary server and the user terminal. For example, in the case of an electronic newspaper, this is a communication method suitable for a two-stage transfer system such as information transfer from a newspaper company to a store, and information transfer to a store and each household.
[0150]
(11) In each of the above embodiments, the information transmission operation is performed at the time of new input or update of the information to be provided. However, at predetermined intervals, it is checked whether there is any newly input or updated information. The transmission operation may be performed at that time. That is, the biggest feature of the present invention lies in the filtering function, and the information transmission timing is not limited to the above embodiment.
[0151]
(12) In the second embodiment, the type information and the decryption key are transmitted at different timings. However, the type information and the decryption key may be transmitted simultaneously. Such a method is suitable for a closed network in consideration of the confidentiality of the decryption key.
[0152]
(13) In the second embodiment, the transmission of the decryption key is performed when the information transfer request is given. However, the decryption key may be transmitted periodically as in the first embodiment. .
[0153]
【The invention's effect】
As described above, according to the information transfer system, the information storage and provision device, and the information provision device according to the present invention, the information provision device can reject an unnecessary transmission signal based on the contract communication type label, It is possible to confirm the existence of new or updated transfer target information through the transfer of type information related to the input or updated input transfer target information, and further confirm the necessity of the transfer target information based on the type information. Therefore, the information provided by the information-provided device can be efficiently obtained almost in real time among various types of frequently updated information, and the load on the network can be reduced.
[Brief description of the drawings]
FIG. 1 is a functional block diagram illustrating a detailed configuration of a server according to a first embodiment.
FIG. 2 is a block diagram showing a network connection configuration of the system.
FIG. 3 is an explanatory diagram illustrating a format of an information transfer packet according to the first embodiment.
FIG. 4 is a functional block diagram illustrating a detailed configuration of a user terminal according to the first embodiment.
FIG. 5 is a flowchart illustrating an encryption key generation process according to the first embodiment.
FIG. 6 is a functional block diagram illustrating a detailed configuration of a server according to a second embodiment.
FIG. 7 is an explanatory diagram showing an information part format of various packets according to the second embodiment.
FIG. 8 is a functional block diagram illustrating a detailed configuration of a user terminal according to the second embodiment.
FIG. 9 is a sequence diagram illustrating a system operation according to the second embodiment.
[Explanation of symbols]
1-1 to 1-m: user terminal (information provision device), 2-1 to 2-n: server (information storage and provision device), 3: network, 10: terminal transmission / reception unit, 11: information type identification unit, 12: time information identification unit, 13: decryption unit, 14: decryption key storage unit, 15: information processing unit, 16: information storage unit, 17: information input / output unit, 20: input / output unit, 21: information search Management unit 22, 22 information storage unit, 23 encryption unit, 24 encryption key generation unit, 25 time information generation unit, 26 information type generation unit, 27 server input / output unit.

Claims (11)

Between at least one or more information storage and provision devices and a plurality of information provided devices connected via a network, transfer target information having information that can be frequently updated from the information storage and provision device is transferred to the information storage and provision device. In the information transfer system for transferring to the providing device,
Each of the above information storage and provision devices is
Type information generating means for causing the transmission signal to include type information indicating the type of transfer target information that has been newly input or updated,
Time information generating means for causing the transmission signal to include time information related to transmission of the transmission signal,
The transmission target information to be provided is the transmission signal according to the contract communication in the label part in the transmission signal format including the label part in which the bibliographic items related to transmission such as the transmission destination are inserted and the information part in which the transmission information is inserted. A provider communication that inserts a contract communication type label indicating that the information is transmitted, and inserts the time information into the information part and transmits a transmission signal with the type information inserted toward each of the information provided apparatuses. Means,
Each of the above information provision devices is
When confirming the contract communication type label of the transmission signal from any of the information storage providing devices arriving via the network, it is determined that the transmission signal is related to the contract communication with each of the information storage providing devices, and Provided communication means for receiving a transmission signal,
It incorporates the type information of the receivable transfer target information contracted by itself and compares the type information included in the received transmission signal with the built-in type information, and receives the receivable transfer contracted by itself. Information type identification means for identifying the target information ;
If the information type identification means determines that the data can be received, the time information included in the transmission signal is compared with the time information relating to the transfer target information of the same type received immediately before, and the latest transfer target information is compared. And a time information identifying means for identifying and updating the information . The providing side communication means of each of the information storage and provision devices transmits a transmission signal including the transfer target information newly input or updated and the type information generated by the type information generating means,
The information type identification means of each of the information provided devices, when the collation result between the type information included in the received transmission signal and the type information contained therein does not match, discards the received transmission signal. The information transfer system according to claim 1, wherein: The providing side communication means of each of the information storage and provision devices transmits a transmission signal including the type information generated by the type information generating means without including the transfer target information newly input or updated,
The information type identification means of each of the information provided devices, when the collation result between the type information included in the received transmission signal and the built-in type information does not match, discards the received transmission signal, When they match, a transmission signal requesting information transfer is transmitted from the provided communication means,
When the providing communication means of each of the information storage and providing devices receives a transmission signal requesting information transfer, it transmits a transmission signal to which a contract communication type label including newly input or updated input transfer target information is added. The information transfer system according to claim 1, wherein: The information transfer system according to any one of claims 1 to 3, wherein a first transmission signal including at least type information is transmitted to each of the information provision devices by a broadcast communication function. The information according to any one of claims 1 to 4, wherein the type information is identification information of the information storage / providing apparatus of the transmission source, and type information in each of the hierarchically classified categories. Transfer system. The information transfer system according to any one of claims 1 to 5, wherein the type information is inserted into the information section in a transmission signal format. The information transfer system according to any one of claims 1 to 5, wherein the type information is inserted into the label part in a transmission signal format. Each of the information storage and provision devices further includes an encryption unit for encrypting the transfer target information,
The apparatus according to claim 1, wherein each of the information provided apparatuses further includes a decryption unit that decrypts the encrypted transfer target information that has been determined to be capable of receiving the type information by the information type identification unit. 8. The information transfer system according to any one of 1 to 7. 9. The information transfer system according to claim 8, wherein the encryption unit performs different encryption depending on the type of the transfer target information to be transmitted. Between at least one or more information storage and provision devices and a plurality of information provided devices connected via a network, transfer target information having information that can be frequently updated from the information storage and provision device is transferred to the information storage and provision device. In the information storage providing device in the information transfer system for transferring to the providing device,
Type information generating means for causing the transmission signal to include type information indicating the type of transfer target information that has been newly input or updated,
Time information generating means for causing the transmission signal to include time information related to transmission of the transmission signal,
The transmission target information to be provided is the transmission signal according to the contract communication in the label part in the transmission signal format including the label part in which the bibliographic items related to transmission such as the transmission destination are inserted and the information part in which the transmission information is inserted. A provider communication that inserts a contract communication type label indicating that the information is transmitted, and inserts the time information into the information part and transmits a transmission signal with the type information inserted toward each of the information provided apparatuses. Means for providing and storing information. Between at least one or more information storage and provision devices and a plurality of information provided devices connected via a network, transfer target information having information that can be frequently updated from the information storage and provision device is transferred to the information storage and provision device. In the information provided device in the information transfer system for transferring to the providing device,
When confirming the contract communication type label of the transmission signal from any of the information storage providing devices arriving via the network, it is determined that the transmission signal is related to the contract communication with each of the information storage providing devices, and Provided communication means for receiving a transmission signal,
It incorporates the type information of the receivable transfer target information contracted by itself and compares the type information included in the received transmission signal with the built-in type information, and receives the receivable transfer contracted by itself. Information type identification means for identifying the target information ;
If the information type identification means determines that the data can be received, the time information included in the transmission signal is compared with the time information relating to the transfer target information of the same type received immediately before, and the latest transfer target information is compared. Time information identifying means for identifying and updating
An information provision device characterized by having:

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