JP3674480B2 - Information storage / distribution system and information storage / distribution method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information storage / distribution system and an information storage / distribution method.
[0002]
[Prior art]
For example, if the OS needs to be reinstalled or the application is reinstalled due to a computer system error or the like, user-specific data and information accumulated up to that time will be lost. In the application, various settings are initialized.
[0003]
Therefore, the desired data is stored in a separate recording medium in advance, and the stored data is read into the computer at a later date if necessary, so that the settings of the computer and application, the stored data, etc. are restored to the state at the time of storage. Can be returned.
[0004]
As the above-described storage / restore system, there are various types such as a conventional file backup device, a restore device, and a data synchronization tool (so-called Windows briefcase).
[0005]
[Problems to be solved by the invention]
However, the conventional save / restore system has the following problems. That is, the information (data) to be stored exists independently, and the data is not ranked. As a result, the restored data is overwritten at once. For this reason, for example, it has been difficult to integrate the data acquired by restoration with the original data and to use them comprehensively.
[0006]
In particular, when the stored data is restored and stored in another computer (use terminal), it is stored in the overwrite method without being integrated with the original information (data). Since the information accumulated by the use of the other use terminal is lost, it is not preferable.
[0007]
In the present invention, unique local data (significant information: for example, learning information and user data in the embodiment) possessed by the use terminal is acquired from the use terminal together with the configuration information of the option data and stored, and the same Alternatively, an object of the present invention is to integrate with existing data when incorporating into another user terminal, and to construct a new user-friendly database on the user terminal at the restoration destination. In addition, the option data itself is not acquired from the user terminal when storing, and the option data is also distributed when restoring, so that it is not necessary to acquire necessary option data. And
[0008]
[Means for Solving the Problems]
The information storage / distribution method according to the present invention includes main data including a system dictionary, option data including an extended dictionary that assists the main data, and a use terminal specific that is generated / changed as the user terminal is used. This is an information storage / distribution method in an information storage / distribution server that stores and distributes predetermined data stored in the database in response to a request from a user terminal equipped with a database that allows the incorporation of local data. The local data includes at least one of user data and learning information, and the user data includes a word created at the usage terminal, and the learning information is updated according to a usage history at the usage terminal. The priority added to each word unit (minimum function unit) constituting the system dictionary and the extended dictionary includes the priority, and the higher the value at the time of use, the higher the priority is displayed as a conversion candidate. The information storage / distribution server stores in advance the option data that can be supplied to the user terminal. According to the premise, the information storage / distribution server receives the local data sent together with the storage request from the user terminal and the configuration information of the option data stored in the database, and the reception The configuration information, the processing step for storing the local data in the storage database, the processing step for extracting the local data stored in the storage database in accordance with a restoration request from the user terminal, and the storage database Determining the option data incorporated in the database of the user terminal that requested the storage from the configuration information, and extracting the determined option data from the storage database; the extracted local data and the option From data, before A restoration processing step of restoring the stored request was in use at the user terminal data, and the restored data to include process steps supplied to the user terminal that the restore request.
[0009]
An information storage / distribution system suitable for carrying out this method includes main data including a system dictionary, option data including an extended dictionary for assisting the main data, and generation / A user terminal equipped with a database that allows the incorporation of local data unique to the changing user terminal, and information storage for storing and distributing predetermined data stored in the database in response to a request from the user terminal • An information storage / distribution system equipped with a distribution server is assumed.
The local data includes at least one of user data and learning information. The user data includes words created at the use terminal, and the learning information is updated according to the use history at the use terminal, and the priority added to each word unit constituting the extended dictionary and the extended dictionary The degree of priority includes the degree, and the higher the value at the time of use, the higher the degree of priority displayed as a conversion candidate.
The use terminal includes a local data extraction unit that extracts the predetermined local data stored in the database, a configuration information extraction unit that extracts configuration information of the option data, the local data extraction unit, and the configuration Means for supplying the local data extracted by the information extraction means and the configuration information to the information storage / distribution server.
Further, the information storage / distribution server stores and holds in advance the option data that can be supplied to the use terminal, and the local data sent together with the storage request from the use terminal, and configuration information of the option data From the configuration information stored in the storage database, the storage means for acquiring and storing in the storage database, the means for extracting the local data stored in the storage database according to the restoration request from the user terminal The option data incorporated in the database of the user terminal that requested the storage request is determined, the determined option data is extracted from the storage database, and the storage request is determined from the extracted local data and option data. Restore the data used on the used device, It was constructed restored data to comprise a means for supplying relative user terminal that the restore request. By implementing this system, the information storage / distribution method can be implemented.
[0010]
The information storage / distribution server presupposes the above-described information storage / distribution method, and the information storage / distribution server stores and holds the main data that can be supplied to a user terminal in advance. It is also preferable to restore the database in the user terminal that has made the storage request by performing the process together.
[0011]
The system configuration suitable for carrying out the method invention is premised on the invention of the information storage / distribution system described above, and the information storage / distribution server can supply the main terminal that can be supplied to the user terminal. Data is stored and held in advance, and the data is restored together with the main data to restore the database in the user terminal requested to store.
[0012]
Furthermore, in the information storage / distribution system according to the present invention, the use terminal that has made the restoration request receives the data supplied from the information storage / distribution server, and takes into account the priority and has its own database in units of words. It is good to store in.
[0013]
The information storage / distribution server has two functions of an information storage server and an information distribution server. In the embodiment, the “information storage server” is realized by the “data storage device 10 ′”. In the embodiment, the “information distribution server” is realized by the “data distribution apparatus 10 ″”. Also in the following description, when the description is focused on the storage function, it is simply referred to as an information storage server (data storage device). When the description is focused on the distribution function, it is simply an information distribution server (data distribution device). ).
[0014]
The “use terminal” corresponds to the “use terminal 20 ′ as the information storage source”. Furthermore, “database” corresponds to “significant information storage database 20a” in the embodiment, and “storage database” corresponds to “significant information storage database 10a” in the embodiment. The means for supplying information to the information storage server is realized by the communication unit 20b when supplying via the communication network. When supplying using the recording medium, data is supplied to the recording medium. Realized by a device for writing
[0015]
Furthermore, the information storage / distribution server may include a billing processing unit that performs a predetermined billing process when the storing process in the storage database by the storing unit is completed.
[0016]
The information storage / distribution server can also include a billing processing means for performing billing processing by regarding the completion of delivery by receiving the completion information sent from the user terminal that supplied the restored data.
[0017]
Here, the user terminal that requested the restoration and the user terminal that stored the data to be restored may be the same or different. In particular, in the case of the same, a backup function can be realized by saving and restoring.
[0018]
Further, when the user of the user terminal making the storage request and the user of the user terminal making the restoration request are different, the information storage / distribution server receives the distribution of the restored data. It is also possible to perform charging processing on the terminal side and pay the consideration to the use terminal side that has made the storage request.
[0019]
In that case, the user of the user terminal who has received the consideration can receive distribution of data restored from data stored in another user terminal within the scope of the consideration.
[0020]
In a further preferred embodiment, the information processing apparatus is configured to include a billing processing unit that performs the billing process by regarding the completion of the delivery by receiving the information on the completion of assembly sent from the use terminal. By charging after waiting for the notification of completion of installation in this manner, it is possible to charge only when the desired information is reliably delivered to the user terminal and restored. Of course, this billing processing unit is not an essential component.
[0022]
According to the present invention, since each dictionary is distributed and configured in units of words, which is the minimum functional unit, the restored data to be distributed is also configured in units of words, and each minimum functional unit ( Registration in the database is possible in units of words). Since each minimum function unit is assigned a priority, data can be registered at a predetermined position based on the priority.
[0023]
Furthermore, when storing, the configuration information of the option data (not the option data itself) and local data are supplied to the information storage server and stored in the storage database. This storage database stores optional data separately. When the restoration process is performed, the actual option data is extracted based on the configuration information and distributed together with the stored local data.
[0024]
Therefore, when the storage process and the restoration process are performed on the same terminal, the transmission data capacity for storage is small, and the option data is also received at the time of restoration, so it is necessary to collect option data separately. Disappears. Therefore, for example, it can be effectively used when re-installation is performed due to data destruction or the like. Of course, the usage mode is not limited to the storage and restoration performed using the same usage terminal as described above. Even when the restoration is performed on another usage terminal, the usage terminal that requests restoration uses local data. Necessary option data is also supplied by simply specifying it, which is preferable because it is not necessary to acquire option data one by one.
[0025]
Furthermore, if the main data is also distributed, the database on the use terminal side can be reconstructed, which is preferable because it can be easily restored when the system itself including the main data is destroyed on the use terminal side. .
[0026]
Furthermore, for the information storage / distribution server, it is no longer necessary to store option data with the same data contents in duplicate when receiving storage requests from multiple terminals. preferable.
[0027]
Then, the incorporation in consideration of the priority in the use terminal is determined for each minimum functional unit that is a word unit, and the minimum functional unit that is the same as the minimum functional unit to be processed is registered in the database. It is even better to include a process of registering the minimum function unit distributed to the database on condition that the priority is high.
[0029]
The storage request to the information storage / distribution server (supply of local data and configuration information) and the distribution to the user terminal may be performed online or offline. Also, the storage request and the medium for distribution processing may be a transmission medium such as a communication network or an information recording medium, and various types can be used. And preferably, it is performed via a communication network. By using the communication network in this way, it is possible to automatically perform each process according to the storage request from the user terminal and each process based on the restoration request.
[0032]
The above-described components of the present invention can be combined as much as possible. The information distribution / storage server according to the present invention and each means constituting the user terminal can be realized by a dedicated hardware circuit, or can be realized by a programmed computer. The information distribution method and database update method according to the present invention can be realized by software (program) for operating a computer or by a dedicated hardware circuit.
[0033]
*Definition of terms
“Local data” is unique and meaningful information that is generated and changed with the use of a user terminal. In the embodiment, there are two types of learning information and user data, and only one of them may be used. In addition, the designation is not limited to these learning information and user data. Then, the local data is stored in the database of the user terminal (in the embodiment, “significant information storage database”).
[0034]
DETAILED DESCRIPTION OF THE INVENTION
Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings. First, an example of a data storage / distribution system as a premise of the present invention will be described. As shown in FIGS. 1 to 4, a data storage device 10 ′ (also referred to as “storage server”) that receives and manages data to be stored and a data distribution device 10 ″ (“distribution server”) that distributes the stored data. Is also referred to as “.” A use terminal 20 that transmits and receives data to and from the data storage device 10 ′ and the data distribution device 10 ″ is connected via the communication network 30.
[0035]
In this embodiment, data (stored data) of a certain use terminal (information storage source use terminal) 20 'connected to the communication network 30 is stored, and the stored data is stored in another use terminal (information restoration destination use terminal). ) 20 ″ and the restoration will be described. Of course, the restoration destination may be the use terminal 20 ′ of the storage source. In other words, the data of the use terminal 20 ′ is originally stored for backup. If necessary, the user terminal 20 'can be restored, and when it is stored, it may be restored to another user terminal 20 ". In the following description, reference numeral 20 is used when it is not necessary to distinguish between the information storage source and the information restoration destination user terminal.
[0036]
The use terminal 20 includes a general-purpose processing terminal such as a personal computer and a PDA (Personal Digital Assistance), and a wireless communication terminal such as a mobile phone and a PDA with a communication function. This wireless communication terminal may be regarded as a mobile terminal.
[0037]
“Data” (also referred to as “stored data” or “restored data”) is meaningful information that is meaningful for storing and restoring in the use terminal 20, and this data is provided in the use terminal 20. Is stored in the meaningful information storage database 20a. In other words, data (stored data) that is meaningful information meaningful to the use terminal 20 ′ is accumulated in the use terminal 20 ′ that is the information storage source, and data (restoration) that is distributed in the use terminal 20 ″ that is the information restoration destination. Therefore, in the meaningful information storage database 20a, distributed information, learning history, registered data information by the user, and the like are stored according to the purpose of use of the user terminal.
[0038]
The information storage source use terminal 20 ′ makes a request for storing desired data stored therein to the data storage device 10 ′ and uses the storage system.
[0039]
Further, the information restoration destination use terminal 20 ″ makes a request for restoring desired data to the data distribution device 10 ″ and uses the distribution system. The distributed information (restored data) is stored in the meaningful information storage database 20a in the use terminal 20 ″ and can be used by being integrated with other information already stored. Will be described later.
[0040]
Further, the data storage device 10 ′ acquires, stores and manages data stored in the above-described information storage source use terminal 20 ′ in response to a request. The acquired shared data is stored in the meaningful information storage database 10a.
[0041]
Further, the data distribution device 10 ″ transmits the data stored in the meaningful information storage database 10a stored in the data storage device 10 ′ to the information restoration destination use terminal 20 ″.
[0042]
Furthermore, in this embodiment, data is stored on the server side, and a usage fee is collected (billed) from the user as a price for a service distributed for restoration upon request. Therefore, a charging information storage database 35 is provided, and data such as storage source, storage contents, storage date and time are registered as information for collecting usage fees for storing meaningful information. The billing information storage database 35 may or may not be present.
[0043]
The data storage device 10 ′, the data distribution device 10 ″, the meaningful information storage database 10a, and the charging information storage database 35 may be configured as separate devices, respectively, or any two or all of them may be the same. In the case where the meaningful information storage database 10a and / or the billing information storage database 35 is configured by another device, the data storage device 10 'or the data distribution device 10 " It may be directly connected as an external storage device, or may be configured to be connected via various communication networks such as the Internet and an intranet. Further, when the data storage device 10 ′ and the data distribution device 10 ″ are configured as separate devices, they may be directly connected by a cable or via various communication networks such as the Internet, an intranet, and a LAN. You may comprise so that it may be connected.
[0044]
The communication network 30 is a network for exchanging data, and various communication media (transmission media) such as a public line, the Internet, and an intranet can be used. The storage / distribution data is information stored / distributed in accordance with the purpose of use of the user terminal (user), and is normally distributed via the communication network 30. However, in the present invention, information may be stored and / or distributed via an electronic medium 31 such as a floppy disk, an MO, a compact disk recorder (CD-R), or a digital video disk (DVD).
[0045]
Next, the flow of a series of processing of this system will be described. As shown in FIG. 3, the information storage system first requests the user M to store necessary information (storage data) from the user terminal 20 ′. (▲ 1 ▼). Then, the information storage source user terminal 20 'extracts the specified meaningful information (storage data) to be stored from its own meaningful information storage database 20a, and sends it to the storage server (data storage device) 10'. Then, a storage request for the information is sent ((2)).
[0046]
The data storage device 10 'that has received this storage request stores the meaningful information (storage data) received from the use terminal 20' in the meaningful information storage database 10a ((3)). Then, when the storage process to be stored in the meaningful information storage database 10a is completed, a storage completion notification is received ((4)).
[0047]
Next, the data storage device 10 ′ that has received the storage completion notification makes a charging request to the charging information storage database 35 ((5)). In other words, information for identifying the use terminal of the storage source, stored data contents (data type, capacity, etc.), storage date and time, and the like are registered. When the registration in the accounting information storage database 35 is completed ((6)), the data storage device 10 'sends a storage completion notification to the information storage source use terminal 20' that has received the storage request. Depart (7). Then, the information storage source use terminal 10 ′ that has received this notification sends a storage completion notification to the user ((8)), and ends the series of storage processing. The storage completion notification to the user M can be performed by displaying a completion message on the display unit of the use terminal 20 ′, for example.
Since the charging information storage database 35 is not necessarily provided, if the charging information storage database 35 does not exist, the data storage device 10 ′ stores the data in the meaningful information storage database 10a. The storage completion notice is sent to the information storage source use terminal 20 '.
[0048]
As shown in FIG. 1, the storage data may be supplied via the communication network 30 or may be delivered to the data storage device 10 ′ via the electronic medium 31. Of course, the communication network 30 and the electronic medium 31 may be used together for delivery.
[0049]
On the other hand, an information restoration system for restoring data stored as described above is as shown in FIG. In the meaningful information storage database 10a, meaningful information is already stored in response to a storage request from the user.
[0050]
Therefore, the user M who desires to restore the stored data requests the user terminal 20 ″ to restore the necessary information (data) ((1)). The use terminal 20 ″ sends a restoration request attached to information designated by the user to the distribution server (data distribution apparatus) 10 ″ ((2)).
[0051]
Upon receiving this restoration request, the data distribution apparatus 10 ″ accesses the meaningful information storage database 10a and searches for the relevant meaningful information (data) (3), and extracts the relevant meaningful information. If (4), the extracted information (restored data) is distributed to the requested information restoring destination user terminal 20 ″ (5).
[0052]
Upon receiving this distribution, the use terminal 20 ″ stores the received information (restored data) in its own meaningful information storage database 20a and sends a distribution completion notification to the data distribution device 10 ″ and also to the user. A restoration completion notification is issued (7). Note that the restoration completion notification to the user M can be performed by, for example, displaying a completion message on the display unit of the use terminal 20 ″.
[0053]
Next, the data distribution device 10 ″ that has received the distribution completion notification makes a charging request to the charging information storage database 35 (8), that is, information for specifying the distribution destination user terminal, the distributed data contents (data) And the date and time of delivery, etc., and the registration in the accounting information storage database 35 is completed (9), and the series of information restoration system is completed. Since the database 35 does not necessarily have to be provided, if there is no billing information storage database 35, the processing is terminated upon receipt of a delivery completion notification sent from the use terminal 20 ″.
[0054]
In the above-described example, the restoration completion notification to the user is made by distributing information. However, if charging is involved, the data distribution apparatus 10 ″ with the completion of charging will use the information restoring destination user terminal 20 ″. The use terminal 20 ″ may issue a completion notification to the user M on condition that the completion notification is issued to the user M and the completion notification is received.
[0055]
As shown in FIG. 2, distribution data may be supplied via the communication network 30 or delivered to the data storage device 10 ′ via the electronic medium 31. Of course, the communication network 30 and the electronic medium 31 may be used together for delivery.
[0056]
Next, each part will be described. The user terminal 20 has a software structure as shown in FIG. That is, one or a plurality of application software 22a, 22b,... Exist depending on the operating system (OS) 21 on the use terminal 20. Each application software 22a, 22b can be driven singly or plurally.
[0057]
Here, “application software” is software necessary to achieve the purpose of use of the user terminal 20. For example, when the user terminal is a personal computer, application software includes word processor software and spreadsheet software. Moreover, when the use terminal 20 is a mobile phone, dialers, phone books, mail software (mailers), and the like can be given.
[0058]
In addition, the use terminal 20 includes use purpose auxiliary software 23 as auxiliary software for the application software 22a and 22b. Unlike the software (application software 22a and 22b described above) necessary for achieving the purpose of use of the user terminal 20, the “purpose-of-use auxiliary software 23” improves the convenience of the application software 22a and 22b. Software. For example, if the application software is a word processor or mail software, there are a dictionary and a spell checker. Further, the purpose-of-use assisting software 23 is not limited to text-based software as described above, and can be applied to software that handles various forms such as image data, such as image display software that can be edited and processed. .
[0059]
Further, the electronic data distributed via the communication network 30 is taken into the utilization purpose auxiliary software 23 via the communication interface 24. Similarly, the information distributed via the electronic medium 31 is taken into the utilization purpose auxiliary software 23 via the I / O device 25 that can read the data of the electronic medium 31.
[0060]
As shown in FIG. 6, the usage purpose auxiliary software 23 includes a usage purpose auxiliary software driving unit 23a, a main data unit 23b, an option data unit 23c, a learning information unit 23d, and a user data unit 23e.
[0061]
Here, the purpose-of-use assisting software drive unit 23a is a part for achieving a function of assisting the purpose of use using each data of the main data unit 23b, the option data unit 23c, the learning information unit 23d, and the user data unit 23e. is there. If the purpose-of-use assisting software 23 is a dictionary, there is a function of extracting kanji corresponding to the requested reading, rearranging them in a predetermined order, and responding. Further, when the usage purpose auxiliary software is image display software, it has a function of processing and displaying image data.
[0062]
The main data part 23b is essential data necessary for assisting the purpose of use. If the purpose-of-use assisting software 23 is a dictionary, it is the minimum necessary system dictionary data expected to be used by many people.
[0063]
The option data part 23c is data that can be freely added / exchanged / deleted to / from the main data part 23b later to assist the purpose of use. If the purpose-of-use assisting software 23 is a dictionary, it is dictionary data such as a personal name dictionary, a place name dictionary, a dictionary in a specific technical field, and the like that can be determined depending on the user. The option data part 23c may not be in the initial state. Of course, it may be registered from the beginning.
[0064]
The learning information unit 23d is a part that stores a user's usage history. If the purpose-of-use assisting software 23 is a dictionary, the frequency of use of each word stored in the dictionary is registered. The learning information unit 23d may not be in the initial state. Of course, it may be registered from the beginning.
[0065]
The user data portion 23e is a data area that can be freely used by a user (user). For example, when a user adds new data, it is stored in this area. That is, if the usage purpose assisting software 23 is a dictionary, a new word created by the user is registered in the user data portion 23e. This user data portion 23e may not be in the initial state. Of course, it may be registered from the beginning.
[0066]
As is clear from the above, the learning information unit 23d and the user data unit 23e accumulate data as the user uses the usage terminal 20, and change depending on the usage status of the user. Then, the learning information unit 23d automatically updates the content according to the usage history of the usage terminal 20. Further, the contents of the user data part 23e are updated in accordance with the user's conscious input like new word registration.
[0067]
Furthermore, in this embodiment, a configuration information unit 23f is provided. The configuration information section 23f stores configuration information such as configuration information of the option data section (what kind of option data is held) and an addition history of the option data section (when each option data was added). The Specifically, for example, when the option data is an extended dictionary, there are names specifying option data such as “place name dictionary”, “historical personal name dictionary”, “zip code dictionary”, and the like.
[0068]
In this embodiment, as shown in FIGS. 7 and 8, data used by the above-described use purpose auxiliary software 23 is stored and distributed. More specifically, for data storage, learning information, user data, and option data configuration information D specific to the use terminal are extracted from the meaningful information storage database inside the use terminal 20 ′ that is the information storage source, and meaningful. It is stored and stored in the information storage database 10a.
[0069]
On the other hand, the information distribution uses the stored meaningful information (local data: learning information + user data) and the option data configuration information, and the learning information section 23d of the meaningful information storage database of the information restoration destination user terminal, In addition to the user data portion 23e, information is incorporated into the option data portion 23c and the main data portion 23b to generate a new meaningful information storage database. In other words, meaningful data that is user-specific data uses previously stored data, and typical data such as option data is extracted based on the configuration information, and the user-specific data (local data) ) And typical data are delivered together as restored data D ′. It should be noted that the typical data is not stored from the use terminal but is held in advance in the data distribution device 10 ″ or the like.
[0070]
As a method for storing the actual information (restored data) D ′ at the delivery destination, it may be stored in a predetermined area in each storage unit in the direct use terminal 20 ″ or once stored in another area. Thus, it may be integrated with existing meaningful information (data).
[0071]
The main data part 23b, the option data part 23c, the learning information part 23d, and the user data part 23e associated with the delivery of the restored data may be regarded as having been added with the delivered information (restored data) D ′. It is good that new information (restored data) and existing information are integrated to generate (update) a new main data portion 23b ', option data portion 23c', learning information portion 23d ', and user data portion 23e'. You may catch it. The data to be distributed may not include main data.
[0072]
Next, the internal structure of the data storage / distribution apparatus 10 and the use terminal 20 for storing and distributing the data described above will be described. The hardware configuration is the same for both the data storage device 10 ′ and the data distribution device 10 ″, as shown in FIG.
[0073]
As shown in the figure, it has a communication unit 10b that is connected to a communication network 30 such as a network and controls communication with the network (communication network) 30, and is connected to the communication network 30 via this communication unit 10b. It is possible to send and receive data to and from the used terminal.
[0074]
When data (including various requests) is transmitted from the use terminal 20, the user authentication unit 10c determines whether the use terminal 20 is legitimate. Further, the user authentication unit 10c has a function of performing authentication with the network 30 and authentication of database management. That is, the operator can update the stored contents of the meaningful information storage database 10a via the MM input / output unit (man machine interface) 10d. Therefore, the user authentication unit 10c determines (authenticates) whether or not the operator is a regular person.
[0075]
The MM input / output unit 10d is an external input / output function, and is used by a system operator for input / output. As the input device, for example, a keyboard, a numeric keypad, a mouse, and the like are applicable, and any type can be used as long as an operator's input is transmitted to the system. As the output device, for example, a display, a printer, a speaker, and the like are applicable, and any type can be used as long as it can transmit information from the system to the operator.
[0076]
Further, the data storage / distribution apparatus 10 includes a calculation unit 10e having a calculation function for driving and processing each function, and a database management unit 10f for managing various data structures and data entities. The meaningful information storage database 10a and the accounting information storage database 35 are read and written via the database management unit 10f. The billing information management database 35 stores data necessary for billing, for example, use date / time, use terminal name, user name, distribution data name, and the like.
[0077]
In addition, the meaningful information storage database includes a meaningful information storage area that stores meaningful information (learning information + user data) that is stored data transmitted from the use terminal that is the information storage source, and is similarly transmitted from the use terminal. An area for storing configuration information of option data, which is stored data, an area for storing main data and option data that each user terminal will have, and data required for the data storage / distribution apparatus 10 (others Data) is stored.
[0078]
Furthermore, the data storage / distribution apparatus 10 includes a program unit 10g. The program unit 10g stores a program necessary for achieving the purpose of use of the data storage / distribution apparatus 10, and is sent from the use terminal 20 'that is the information storage source in relation to the present invention. Stored is a program for storing received data based on a request to store meaningful information (stored data), extracting necessary decrypted data based on a distribution request, and executing distribution processing.
[0079]
The processing units 10b to 10g described above are connected via a bus. The hardware configuration is almost the same as that of a conventional server.
[0080]
On the other hand, the hardware configuration diagram on the use terminal 20 side is as shown in FIG. As shown in the figure, a data transmission device connected to a communication network 30 such as a network and having a communication unit 20b for controlling communication with the network, and connected to the communication network 30 via the communication unit 20b. Data can be sent to and received from
[0081]
The user terminal 20 also includes a user authentication unit 20c, and has a function of performing authentication with the network (communication network) 30 and database management. That is, the user can update the contents stored in the user data unit 23e and other databases via the MM input / output unit (man machine interface) 20d. Therefore, the user authentication unit 20c determines (authenticates) whether or not the user is an authorized person.
[0082]
The MM input / output unit 20d is an external input / output function and is used when a user inputs and outputs. As the input device, for example, a keyboard, a numeric keypad, a mouse, and the like are applicable, and any type can be used as long as a user input is transmitted to the system. As the output device, for example, a display, a printer, a speaker, or the like is applicable, and any type can be used as long as it can transmit information from the system to the user.
[0083]
Furthermore, the use terminal 20 includes a calculation unit 20e having a calculation function for driving and processing each function, and a database management unit 20f for managing various data structures and data entities. Then, the data in the meaningful information storage database 20a is read / written via the database management unit 20f. Note that “other data” in the meaningful information storage database 20a stores data necessary to achieve the purpose of use of the user terminal 20.
[0084]
Furthermore, the use terminal 20 includes a program unit 20g. The program unit 20g stores a program necessary for achieving the use purpose of the use terminal 20, and stores application software for executing call processing, document creation, and the like, for example. In terms of the relationship with the present invention, for example, application software 22a and 22b, use purpose auxiliary software 23, and the like shown in FIG. 5 are stored in the program unit 20g. Further, a program for performing processing such as storage / restoration request of meaningful information (data) and storage of restored data such as meaningful information and option data received is also stored in the program unit 20g.
[0085]
The processing units 20b to 20g described above are connected via a bus. The hardware configuration is almost the same as that of a conventional server.
[0086]
The main processing functions for realizing the information storage system and the information restoration system performed between the data storage / distribution apparatus 10 and the use terminal 20 shown in FIGS. 9 and 10 are extracted and shown in FIG. 12 and so on. FIG. 11 shows an information storage system, which shows the relationship between the data storage device 10 ′ and the information storage source use terminal 20 ′. FIG. 12 shows an information restoration system, which shows the relationship between the data distribution apparatus 10 ″ and the information restoration destination use terminal 20 ″.
[0087]
In other words, as shown in FIG. 11, on the information storage source user terminal 20 ′ side, an MM input / output unit 20d (in particular, an input function) for receiving a storage request for information (meaningful information) from the user, data, The communication unit 20b and the program unit 20g are provided.
[0088]
In the program unit 20g, the meaningful information storage request unit 20h that has received the request from the MM input / output unit 20d sends an acquisition command for information necessary to execute the storage request to the meaningful information search unit 20i and the option data configuration. The information is given to the information search unit 20j. The meaningful information search unit 20i accesses the meaningful information storage database 20a and searches for the requested meaningful information. Then, based on the search result, the meaningful information extraction unit 20k in the next stage extracts the relevant meaningful information (learning information + user data) and passes it to the communication unit 20b. On the other hand, the option data configuration information search unit 20j accesses the meaningful information storage database 20a (configuration information unit 23f) and searches for option data information. Then, based on the search result, the option data configuration information extraction unit 20L in the next stage extracts the corresponding option data configuration information and passes it to the communication unit 20b. Then, the communication unit 20b sends the received meaningful information and option data configuration information to the data storage device 10 ′.
[0089]
On the other hand, the data storage device 10 ′ includes a communication unit 10 b for transmitting / receiving data to / from each user terminal 20 and a program unit 10 g. The program unit 10g receives the meaningful information sent together with the storage request from the use terminal 10 'and stores it in the meaningful information storage database 10a and the use terminal 10' sent along with the storage request. An option data configuration information storage unit 10j that receives the received option data configuration information and stores it in the meaningful information storage database 10a is provided.
[0090]
Also, as shown in FIG. 12, an information restoration destination use terminal 20 ″ that constructs an information restoration system receives an MM input / output unit 20d (particularly an input) for receiving a request for restoration of information (meaningful information) from the user. Function), a communication unit 20b for transmitting and receiving data, and a program unit 20g, the basic configuration of which is the same as that of the information storage source use terminal 20 '.
[0091]
The specific function in the program unit 20g is different in the information restoration destination user terminal 20 ″. That is, the program unit 20g receives a restoration request from the MM input / output unit 20d, and passes through the communication unit 20b. The meaningful information restoration request unit 20m that sends a restoration request (distribution request) to the data distribution apparatus 10 ″ and the meaningful information (learning information + user data) sent from the data distribution apparatus 10 ″ A meaningful information embedding unit 20n which is incorporated into a predetermined area in the semantic information storage database 20a and integrates with data stored in the existing learning information unit 23d or the user data unit 23e, and sent from the data distribution device 10 ″. Option data, etc. stored in a predetermined area (option data section 23c or main data section 23b) in the meaningful information storage database 20a. And an option data embedded part 20p that.
[0092]
In addition, the data distribution apparatus 10 ″ side includes a communication unit 10b for transmitting / receiving data to / from each use terminal 20 and a program unit 10g. The program unit 10g receives the restoration received via the communication unit 10b. Based on the request, the restoration information search unit 10m gives an acquisition command of information necessary to execute the restoration request to the option data configuration information analysis unit 10n and the meaningful information extraction unit 10p, respectively.
[0093]
The meaningful information extraction unit 10p accesses the meaningful information storage database 10a, extracts designated meaningful information (learning information + user data), and passes it to the communication unit 10b. On the other hand, the option data configuration information analysis unit 10n accesses the meaningful information storage database 10a, acquires the configuration information of the option data related to the specified restoration data, analyzes the type of option data to be used, and displays the analysis result. It is passed to the option data extraction unit 10q. Then, the option data extraction unit 10q accesses the meaningful information storage database 10a based on the received analysis result, extracts necessary option data from a lot of stored option data, and passes it to the communication unit 10b. In addition, main data may be extracted as necessary. Then, the communication unit 20b sends the received meaningful information, option data, and the like to the information restoration destination user terminal 10 ″ that issued the restoration request.
[0094]
As described above, the data storage device 10 ′ and the data distribution device 10 ″ may be realized by the same device, but the use terminal 20 also becomes an information storage source or an information restoration destination. 11 and 12 may be incorporated in a single user terminal 20. Of course, if it is clear that only one function is used, the other In addition, a user terminal that incorporates two functions, an information storage source and an information restoration destination, can receive and restore data stored in another user terminal. It is also possible to receive and restore the data stored in step 1. Then, particularly in the latter case, the backup function is realized through a server provided separately.
[0095]
In this embodiment, the meaningful information to be distributed is configured by a minimum functional unit group including one “minimum functional unit” or a plurality of “minimum functional units” as shown in FIG. This “minimum functional unit” is a unit that functions alone, and in the case of a dictionary, it is a single word (part of speech) unit. The minimum functional units (word units) are independent of each other and given priority.
[0096]
Therefore, when a plurality of pieces of minimum function unit data are stored in the learning information unit 23d and the user data unit 23e, they are sorted according to the priority, and the higher the priority, the easier to use. The priority is set to an appropriate value in the initial state, but changes according to the usage situation.
[0097]
Therefore, for example, when the data of each minimum functional unit is arranged in the order shown in FIG. 14A in the initial state, the priority is changed by adding the usage history (the more used ones are used). The priority is higher), and the order is different from that in the initial state as shown in FIG. Furthermore, since management is performed for each minimum functional unit, when new data distribution is received and data for one or more minimum functional units is added, the priority is viewed and inserted at an appropriate position. (Refer to (c) in the figure).
[0098]
Furthermore, in this embodiment, as shown in FIG. 15, not only user data but also main data and option data are managed in units of minimum functions, and priorities are added to each. Accordingly, not only comparison of priorities in the user data section 23e but also ranking can be performed by viewing priorities with other data. That is, main data, option data, and user data can be managed together.
[0099]
Further, the meaningful information in this embodiment is the user data stored in the user data portion 23e is data created and registered by the user. The learning information stored in the learning information unit 23d is priority information updated according to the use frequency of main data and option data.
[0100]
Next, the functions in the program units 10g and 20g will be described using the flowcharts of FIG. 16 and subsequent drawings while explaining the operation of the information storage / restoration system. First, when receiving data storage, the user operates the MM input / output unit 20d of the information storage source use terminal 20 ', specifies meaningful information to be stored, and requests storage. Accordingly, the meaningful information storage request unit 20h of the program 20g determines whether or not an instruction to store the meaningful information storage request is given from the MM input / output unit 20d (ST1). In cases other than the storage request, the corresponding predetermined processing is executed (ST2), and the next input is awaited.
[0101]
On the other hand, when there is a meaningful information storage request, the request content is passed to the meaningful information storage request unit 20h. And the meaningful information search part 20i searches applicable meaningful information from the meaningful information storage database 20a (the learning information part 23d, the user data part 23e) (ST3). Then, based on the search result, the meaningful information extraction unit 20k extracts the desired meaningful information and passes it to the communication unit 20b (ST4).
[0102]
Further, the option data configuration information search unit 20j searches for the configuration information of the corresponding option data from the meaningful information storage database 20a (configuration information unit 23f) (ST5). Then, based on the search result, the option data configuration information extraction unit 20L extracts desired option data configuration information and passes it to the communication unit 20b (ST6).
[0103]
In the above description, the retrieval / extraction processing of meaningful information is performed first, and then the retrieval / extraction processing of the configuration information of option data is performed. However, the order may be reversed, and parallel processing is performed. Of course. Further, the configuration information of the option data is not stored in advance by providing the configuration information unit 23f, but the option data configuration information search unit 20j accesses the option data unit every time a storage request is made, and You may comprise so that the structure information of data may be produced | generated.
[0104]
Then, the meaningful information and the option data configuration information obtained by executing the above-described processing steps are transmitted to the data storage device 10 ′ by the communication unit 20b. That is, together with each of the above information, transmission destination information (data storage device address), transmission source information (information for authenticating a valid user such as the address of the user terminal, ID number, etc.), and request contents, The transmission data including the data indicating the storage request is generated and output.
[0105]
On the other hand, when the data storage device 10 ′ receives the storage request from the usage terminal 20 ′, the user authentication unit 10c confirms that the request is a regular usage terminal (storage request), and then the meaningful information storage unit 10i. , The information acquired by the option data configuration information storage unit 10j is stored in the meaningful information storage database 10a (ST8). When the storage process (save in the database) is completed, each storage unit 10i, 10j issues a completion notification, and the communication unit 10b returns this completion notification to the information storage source use terminal 20 '(ST9).
[0106]
The information storage source user terminal 20 'that has received the completion notification via the communication unit 20b outputs a message indicating the completion to the output device (display or the like) of the MM input / output unit 20d, and ends the processing. (ST10).
[0107]
Next, when the restoration process is performed upon receiving the data distribution, as shown in FIG. 17, it is meaningful that the user operates the MM input / output unit 20d of the information restoration destination user terminal 20 ″ to restore the data. Therefore, the meaningful information restoration requesting unit 20m of the program unit 20g determines whether or not a command for requesting restoration of meaningful information is given from the MM input / output unit 20d ( (ST11) If the request is other than the restoration request, the corresponding predetermined processing is executed (ST12), and the next input is waited for. Is transmitted to the data distribution apparatus 10 ″ via the communication unit 20b (ST13).
[0108]
On the other hand, in the data distribution apparatus 10 ″ that has received the restoration request, the meaningful information extraction unit 10p accesses the meaningful information storage database 10a (meaningful information storage area), and the relevant meaningful information (learning information + user data). ) Is retrieved and extracted and passed to the communication unit 10b (ST14, ST16).
[0109]
Further, the option data configuration information analysis unit 10n searches the meaningful information storage database 10a (option data configuration information storage area) for the configuration information of the corresponding option data (ST16). Then, based on the search result, the option data extraction unit 10q extracts the option data listed in the configuration information from the meaningful information storage database 10a (option data storage area) and passes it to the communication unit 10b (ST17). .
[0110]
Then, the meaningful information and option data obtained by executing each processing step described above are distributed toward the information restoration destination user terminal 20 ″ requested for restoration by the communication unit 10b (ST18).
[0111]
The distributed meaningful information and option data are given to the meaningful information embedding unit 20n and the option data embedding unit 20p via the communication unit 20b, and if there is desired data, the meaningful information storing database 20a is stored. Incorporation of meaningful information or the like is performed (ST19, ST21). If there is no desired data, the fact is output to the output device (display or the like) of the MM input / output unit 20d (ST20).
[0112]
Further, the process of incorporating meaningful information or the like shown in step 21 is specifically executed according to the flowchart shown in FIG. That is, data is incorporated for each minimum functional unit that is a word unit.
[0113]
Specifically, one minimum functional unit is acquired from the meaningful information (minimum functional unit county) acquired by distribution (ST31). Since the data is stored for each minimum functional unit in the main data unit 23b in which common / standard data is stored, the same data as the minimum functional unit to be processed is registered in the main data unit 23b. It is determined whether or not (ST32). If it does not exist in the main data part 23b, it is determined whether or not the same minimum functional unit is already registered in the meaningful information storage part (learning information part 23d + user data part 23e) (ST33). .
[0114]
If it is not registered in the meaningful information storage unit, it is new data, so the minimum functional unit to be processed is added to a predetermined storage area of the meaningful information storage unit (ST34).
[0115]
Then, it is determined whether or not an unprocessed minimum functional unit remains in the distributed meaningful information (ST35). If it remains, the process returns to step 31 via step 38 and shifts to processing for the next delivered minimum functional unit (ST38).
[0116]
On the other hand, if either of the steps 32 and 33 is Yes, that is, if the same minimum functional unit is already registered in either the main data part 23b or the meaningful information storage part, the minimum functional unit already registered And the priority of the delivered minimum functional unit are compared (ST37).
[0117]
If the priority of the delivered minimum functional unit to be processed is higher, the process jumps to step 34, and the minimum functional unit to be processed is added to the meaningful information storage unit (ST34).
[0118]
On the contrary, when the priority of the delivered minimum functional unit is lower, the minimum functional unit acquired this time is not used. Then, the process proceeds to step 38, and the process proceeds to the process for the next delivered minimum functional unit (S38).
[0119]
If the processes for all the minimum functional units in the distributed meaningful information are completed by repeatedly executing each of the above processes, the determination in step 35 is No, and the process proceeds to step 36. That is, since the incorporation process (restoration) in the meaningful information storage unit accompanying the current information distribution is completed, the “embedding completion notification” is transmitted to the data distribution apparatus 10 ″, and the series of processes is terminated.
[0120]
Further, in the above-described example, the processing for incorporating meaningful information has been described (that is, FIG. 18 shows the processing function of the meaningful information incorporating unit 20n). In this embodiment, option data is also the minimum functional unit. Therefore, the option data incorporation process can also be executed according to the above-described processing steps. That is, in each processing step of FIG. 18, “significant information” is read as “option data”, and “significant information storage” is read as “option data”. It becomes a processing function of the unit 20p.
[0121]
By performing such incorporation, data for each minimum functional unit is stored in the meaningful information storage unit and the option data unit, and the priority is also associated and registered. Therefore, in the use terminal 20 ″, the data and option data used in the meaningful information in the use terminal 20 ′ as the information storage source are incorporated by restoration. In addition, when using the restored information, priority is given to each minimum functional unit. Therefore, the higher the priority, the better the operability by estimating and using it as the smallest functional unit that is likely to be used. Since it is used in the use terminal 20 'that is the storage source and functions effectively in the use environment, it can be suitably used from the beginning on the side of the use terminal 20 "that has received the distribution.
[0122]
In particular, when the user of the information storage source user terminal 20 ′ is the same user as the information distribution destination user terminal 20 ″, a more user-friendly environment can be reproduced by restoration. Instead of overwriting, the priority is added for each minimum functional unit, so the original data can be used.
[0123]
Furthermore, the data to be transmitted at the time of storage is the meaningful information and the configuration information of the option data, and the data distributed for restoration is the option data and the main data in addition to the above-mentioned meaningful information stored in advance. It can be. In other words, there is no need to send option data or main data when using a backup / save system, and the data sent for storage can be made as small as possible. .
[0124]
The data storage device 10 'is also preferable because the communication time for the storage request is shortened and the data capacity to be handled is small. Furthermore, when receiving storage data from a large number of users, option data and main data are often shared by a plurality of users, and in such cases, receiving option data for each user and storing them enormously Although storage capacity is required, common option data, main data, and the like can be stored and held, and the information can be used for distribution to reduce the storage capacity.
[0125]
In addition, in order to execute the above information distribution system as a business, it is necessary to charge for storage and distribution of option data. Therefore, in this embodiment, the charging timing is such that the distribution is completed on the condition that the actually distributed information is effectively registered in the use terminal 20 ′, and charging is performed.
[0126]
Specifically, the charging process is executed according to the flowchart shown in FIG. That is, first, when data is received from the information restoration destination user terminal 20 ″, it is determined whether or not the received data is an “embedding completion notification” based on step 36 shown in FIG. 18 (ST40). If they are different, processing according to the contents of the received data is executed (ST41).
[0127]
Further, when the installation completion notification is received, it is determined that the distributed information is available on the use terminal 20 ″ side, and the charging program included in the charging processing unit 10k is executed (ST43). The billing amount is specified based on at least the information on the distributed use terminal / user, the distribution date and time, the type of distributed information, and the information provided by the information provider.
[0128]
This billing amount can be changed according to, for example, a flat-rate system in which a fee per time is determined or the capacity of information to be provided. Further, by creating and holding a charge table in which a charge is determined for each type of meaningful information to be distributed, it is easily obtained by referring to the charge table. Furthermore, when the storage source and the restoration destination are the same use terminal or when the users are the same, the charge amount may be determined according to the storage period. In particular, when charging is performed based on the storage period, it is necessary to register the date and time of storage and information on the user / use terminal when the storage process is executed. Such processing can be executed by, for example, a billing processing unit 10k ′ provided in the data storage device 10 ′.
[0129]
Then, the charging result is output to the output device of the MM input / output unit 10d of the data distribution device 10 ″ (ST44), and the charging processing result is registered in the charging information storage database 35 (ST45). You may make it notify also to each utilization terminal 20 'and 20 "side.
[0130]
In addition, charges collected from actual users may be collected each time, or may be collected at a fixed interval (for example, monthly) based on billing information stored in the database. good. And, the collection method may be payment accompanying the issuance of invoices, credit or bank withdrawal, or a certain usage fee may be collected from the user in advance by a pre-payment system and may be allocated from there. . Furthermore, when the user terminal is a mobile phone or the like, it can be collected together with the telephone fee.
[0131]
In addition, as a usage mode of the present embodiment, either a case of storage / restoration between a plurality of usage terminals owned by the same person or a storage / restoration of meaningful information held by another person can be taken. In the case of restoration of meaningful information from a third party, a predetermined consideration can be paid as a provision fee to the user of the information storage source.
[0132]
Also, a user may be an information storage source in some cases and an information restoration destination in other cases. In such cases, the provision (storage) of meaningful information created by the user may be awarded points when distributed to a third party, and other meaningful information may be distributed within the points. it can.
[0133]
Next, the operation in the above-described embodiment will be described with an example. For example, assuming a kana-kanji conversion dictionary used in a Japanese processing system, the application software shown in FIG. 5 is a word processor or other various applications for inputting Japanese. Then, the purpose-of-use auxiliary software becomes a Japanese language processing system (kana-kanji conversion system), and the kana-kanji conversion dictionary becomes a kana-kanji conversion dictionary registered in the main data portion 23b, option data portion 23c, and user data portion 23e shown in FIG. .
[0134]
The minimum functional unit in this case is candidate information including “reading”, “candidate for reading”, and “part of speech”. For each candidate information, a priority is set as an initial value, and the value changes depending on the usage history. That is, the priority in this example is like frequency, and the value increases as it is used.
[0135]
An example of the minimum functional unit registered in each data part is as shown in FIG. That is, as is clear from the comparison between FIG. 15 and FIG. 20, the main data portion 23b is a system dictionary, the option data portion 23c is a specialized dictionary that supports a system dictionary such as a personal name dictionary, and the user data portion 23e is freely available to the user. It becomes a user registration dictionary that can be registered.
[0136]
First, as shown in FIG. 20, a standard system dictionary is registered in the main data unit 23b in units of minimum functions, and the priority of each minimum function unit is associated and registered in the learning information unit 23d. Then, the specialized dictionary is registered in the option data unit 23c in units of minimum functions, and the priority of each minimum function unit is associated and registered in the learning information unit 23d. Further, in the user data part (user registration dictionary part) 23e serving as the meaningful information storage part, registration is made for each minimum functional unit according to the use of the user.
[0137]
Of these, the meaningful information of each learning unit 23d (learning information unit) and user registration dictionary unit 23e (user data unit), which is unique holding information generated with the use of the use terminal, is stored in the data storage device 10 'in advance. It is transmitted and registered in the meaningful information storage database 10a. Then, when dictionary data is subsequently destroyed or learning information is initialized, a restoration request is made to the data delivery apparatus 10 ″ to receive and restore the stored data. It is possible to return to the state of the dictionary at the time of the storage process.By using another user terminal, by making a restoration request to the data distribution apparatus 10 ″, by receiving and restoring the stored data, The dictionary state at the time of storage processing can be set from the beginning of use of the user terminal.
[0138]
At the time of restoration described above, meaningful information of all the corresponding minimum functional units is distributed from the data distribution apparatus 10 ″ to the information restoration destination use terminal 20 ″. The use terminal 20 ″ performs the flowchart shown in FIG. 17 on the received meaningful information, and determines whether or not it is the minimum functional unit that satisfies the additional conditions for the learning information unit 23d and the user data unit 23e as the meaningful information storage unit. Are registered in order, and those that match are registered in the option data section.
[0139]
In the case of the restoration process associated with the destruction of the dictionary data described above, nothing is registered in the user data portion 23e and the like, and therefore all the determinations in step 33 are No. Therefore, it is determined whether or not the same minimum functional unit having a high priority exists in the main data part (system dictionary) 23b. If there is no same, it is registered in the user data part as an additional condition is met. It will be. In the above three examples, since there is no same minimum functional unit, they are additionally registered as they are. Note that the determination of whether or not they are the same is made with a perfect match.
[0140]
As a result, when the distribution of the distributed data is completed, the meaningful information is stored in the user data part (user registration dictionary part) 23e in association with the priority for each minimum function unit as shown in FIG. (Restores to the stored state).
[0141]
Furthermore, since the dictionaries registered in this way are both configured in the minimum functional unit, the dictionaries are integrated to generate one dictionary, and the data access at the time of actual Kana-Kanji conversion is integrated. You may make it search and search with respect to one dictionary. In this integration process, “reading (kana)” is compared for each minimum functional unit, and stored in the order of reading. Furthermore, when there is a homonym, the higher priority is placed in front. As a result, updated data as shown in FIG. 21 is generated.
[0142]
Although not shown in detail, in the state shown in FIG. 20, one of the minimum functional units distributed as further user data is data “Ainu noun (priority n)”. Is included. At this time, if the priority is “1”, the same minimum functional unit is already registered in the main data part (system dictionary), and the priority associated with the minimum functional unit registered in the main data part 23b is Since it is “2”, the priority of the delivered one is low. Therefore, in that case, “Ainu noun (priority 1)”, which is the minimum functional unit delivered, is not added.
[0143]
If the distributed priority n is 3 or more, the branch determination in step 37 is Yes, so that the distributed minimum functional unit “Ainu Ainu noun (priority n)” is added. In this case, the original system dictionary “Ainu noun (priority 2)” is not deleted in this embodiment. However, for example, as shown in FIG. 21, when integrating a plurality of dictionaries, if user registration dictionary data which is distribution data of meaningful information and system dictionary data have the same minimum functional unit, By constructing a dictionary using only the ones with high priority, only one of them can exist in the integrated dictionary to be searched. Of course, coexistence is possible.
[0144]
Although specific illustration is omitted, for example, an integration process as shown in FIG. 21 may be performed in conjunction with the incorporation process. In this embodiment, the comparison between the delivered minimum functional unit and the already registered data is intended for the main data portion 23b and the meaningful information storage portion, but the present invention is not limited to this. In the case where only the meaningful information storage unit is used, or on the contrary, the option data unit 23c is also a comparison target, and the same minimum functional unit having a high priority is already registered in the user data unit 23e, the meaningful information storage is performed. You may make it not add to a part.
[0145]
Next, an actual example when the user terminal 20 is a personal computer and stores a user dictionary will be described. When a personal computer (computer) is damaged or data is destroyed, dictionary data such as character input support software is destroyed, and there is a possibility of losing data that has been learned and registered. In order to prevent this, the user-specific dictionary that has been learned and registered is stored in the storage server, so that it is possible to recover even if such a trouble occurs.
[0146]
That is, FIG. 22 shows a user dictionary storage utility of character input support software on a personal computer. By using this program, the dictionary to be stored is selected, and when “start storage” is clicked, the selected dictionary data is sent to the data storage device 10 ′. During this storage, the screen shown in FIG. 23 is displayed on the monitor of the personal computer that is the user terminal 10 ′. When the storage process is completed, a storage completion notification screen as shown in FIG. 24 is displayed to notify that all dictionaries have been stored.
[0147]
On the other hand, an example of restoration of the user dictionary is as follows. That is, for example, when text is created using character input support software, it is assumed that data used so far is lost due to a system trouble or the like. In such a case, the lost data can be recovered by restoring the previously stored dictionary data from the dictionary storage server (data distribution device 10 ″).
[0148]
Specifically, FIG. 25 shows a state where a candidate “Cao Cao” that has been registered and used before cannot be converted due to a system trouble. In such a case, a restoration request is made using the dictionary restoration function of the character input support software. In this embodiment, a restoration request button “reverse” is incorporated in the toolbar, and when this “reverse” portion is clicked, a selection dialog (dictionary list) for restoration request as shown in FIG. 26 is displayed. .
[0149]
Then, by selecting a dictionary to be restored from the “dictionary list” list shown in FIG. 26 and clicking a “dictionary restoration start” button, a restoration request can be made to the distribution server. When the host (data distribution apparatus 10 ″) where the dictionary displayed in the dictionary list exists is changed, by clicking “Host” in the state shown in FIG. 26, the display screen shown in FIG. 27 is displayed. By switching and further clicking “Change Dictionary Host”, a change screen (not shown) is displayed, and update processing is allowed.
[0150]
On the other hand, when the “dictionary restoration start” button is clicked in the state shown in FIG. 26, restoration starts (distribution request). Accordingly, the restoration data is delivered from the data delivery apparatus 10 ″. During this delivery, the dictionary reception screen shown in FIG. 28 is displayed. When restoration is completed, the restoration completion screen shown in FIG. (Reception complete screen) is displayed, and the restored dictionary can be used.
[0151]
This makes it possible to use the shared dictionary thereafter. For example, when Kanji conversion processing is performed by inputting “OK”, “Cao” can be converted as shown in FIG.
[0152]
In addition to the display of the “restoration completion screen (reception completion screen)” shown in FIG. 29, the use terminal 20 ″ issues an assembly completion notification to the data distribution device 10 ″ in the background. Then, on the data distribution apparatus 10 ″ side that has received the incorporation completion notification, a predetermined charging process is executed, and a restoration completion report as shown in FIG. 31, for example, is output to the display device of the data distribution apparatus 10 ″. .
[0153]
When charging is also performed by the storage process, if the data storage device 10 ′ completes the storage process, a storage completion report as shown in FIG. 32 is output to the display device of the data storage device 10 ′, for example. Is done. In both cases of storage and restoration completion as described above, the billing information is registered in the billing information storage database 35 together with this display.
[0154]
Next, an example applied when the use terminal is a mobile phone will be described. In mobile phones, user dictionaries and learning results that have been used may be lost due to device damage, carrier change, change of model used (replacement), and the like. For this reason, after a certain amount of learning, or after a certain period of time has passed, notification from the user terminal side, notification from the vendor side, or storage of the user dictionary and learning results according to the intention of the user (user) Make it possible.
[0155]
Specifically, in the dictionary storage menu, as shown in FIG. 33, the date when the dictionary was stored last time is displayed on the liquid crystal display as the output device of the MM input / output unit 20d, and a dictionary storage start request can be made. That is, when the numeric keypad which is the MM input / output unit 20d is operated and “1” is pressed and selected, the dictionary is stored. The dictionaries stored here include not only word dictionaries but also various types such as e-mail addresses, telephone numbers, and sent / received mail data.
[0156]
When the storage process is completed for the data storage device 10 ', a completion confirmation message "Dictionary has been stored" is displayed on the liquid crystal display of the mobile phone as shown in FIG.
[0157]
Furthermore, in the present embodiment, as shown in FIG. 35, when a mail or the like is described and learning information increases, a message prompting storage of the dictionary is output from the mobile phone itself. Then, when storage is selected in this state (pressing a predetermined dial button), the above-described menu screen shown in FIG. 33 is displayed. When the start of storage is selected here, the storage process starts.
[0158]
Further, regardless of the amount of increase in learning information as described above, a message such as that shown in FIG. 36 may be output and displayed when a predetermined time elapses due to a periodic storage schedule, and the dictionary may be stored. it can. Also in this case, when storage is selected in this state (pressing a predetermined dial button), the above-described menu screen shown in FIG. 33 is displayed. When the start of storage is selected here, the storage process starts.
[0159]
On the other hand, the restoration of the dictionary displays a dictionary restoration menu on the mobile phone as shown in FIG. This dictionary restoration menu includes a menu for displaying the date and time of the last storage and making a restoration request. At this time, if the numeric keypad which is the MM input / output unit 20d is operated and “1” is pressed and selected, the dictionary is stored.
[0160]
When the distribution process from the data distribution device 10 ″ is finished and the dictionary in the mobile phone is restored, the restoration is completed on the liquid crystal display of the mobile phone, as shown in FIG. A confirmation message is displayed.
[0161]
Although not shown, the screen before the dictionary storage menu shown in FIG. 33 and the dictionary restoration menu shown in FIG. 37 further includes a menu screen for selecting one of the menus.
[0162]
Furthermore, the above-described dictionaries to be stored and distributed are distributed in a state in which priority is given to each minimum functional unit, as in the above-described embodiments, and when restored, the use terminal (mobile phone) ) Added and incorporated into the existing 20 ″ dictionary.
[0163]
FIG. 39 shows still another restoration example. In the example shown in the figure, the postal code dictionary stored in a certain user terminal is restored, and the postal code conversion is performed using the postal code dictionary, thereby saving input.
[0164]
Also in this zip code dictionary, each address is a minimum functional unit and given a priority. Therefore, each time it is used, an address that is frequently used even with the same zip code is displayed first. If you keep a postal code dictionary that has already been used and updated in priority, even if it is the same postal code, the frequently used postal code is displayed at the top, so that it is displayed in a relatively convenient order. can do. Therefore, by storing such an easy-to-use dictionary, if the data is subsequently destroyed or a restoration request is made when you want to use it on another terminal, the state of the postal dictionary that is easy to use at the time of storage Can be.
[0165]
FIG. 40 to FIG. 42 show an example of applying to English words as a dictionary to be processed in the information storage / restoration system. That is, by applying this system and sharing a storage-type English word dictionary, it becomes possible to easily input words for each purpose.
[0166]
Specifically, for example, as shown in FIG. 40, when an English word “John” is input and a word starting from that character is displayed as a conversion candidate, each English word has a priority as a minimum functional unit. Since they are added, they are displayed from the top in descending order of priority. Note that each English word displayed in the figure may have been incorporated as a system dictionary from the beginning, or may have meaningful information added by restoration accompanying distribution.
[0167]
FIG. 41 shows an example in which conversion candidates are displayed when “T” is first input in a conversion method in which candidates are limited for each key input. It is assumed that the movie actor dictionary has been restored before this processing. Then, a priority is assigned to each person name, which is each minimum functional unit that has received the distribution, and this distributed restoration data (movie actor dictionary) has a high priority due to the usage record at the information storage source user terminal. Is set. Therefore, as shown in the figure, among the English words prefixed with “T”, those of the movie actor are displayed at the top of the conversion candidates.
[0168]
Further, in such a method in which candidates are limited for each key input, as shown in FIG. 42, search is performed from the middle of a family name or the like and the candidates are displayed as shown in FIG. It can also be applied to the ones made.
[0169]
In the example shown in the figure, when distribution (restoration) of various personal name dictionaries such as a company's officer name dictionary data or a company employee's directory (such as those disclosed internally on the intranet) is received, the distribution is performed. In the example, the received person name has a high priority and is displayed at the top.
[0170]
【The invention's effect】
As described above, in the present invention, “local data” and “option data configuration information”, which are data specific to the user terminal, are stored in the server at the time of storage, and the configuration information is related at the time of distribution. The workability is improved by restoring and distributing the data including the option data based on the above.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an example of a system (in particular, an information storage system) that is a premise to which the present invention is applied.
FIG. 2 is a diagram showing an example of a system (in particular, an information restoration system) that is a premise to which the present invention is applied.
FIG. 3 is a schematic diagram showing an example of the information storage system.
FIG. 4 is a schematic diagram showing an example of the information restoration system.
FIG. 5 is a software configuration diagram illustrating an example of the inside of a user terminal.
FIG. 6 is a diagram illustrating an example of usage purpose auxiliary software;
FIG. 7 is a diagram showing a preferred embodiment of an information storage system and an information restoration system according to the present invention.
FIG. 8 is a diagram showing a preferred embodiment of an information storage system and an information restoration system according to the present invention.
FIG. 9 is a diagram illustrating an example of a hardware configuration of a data storage / distribution apparatus.
FIG. 10 is a diagram illustrating an example of a hardware configuration of a use terminal.
FIG. 11 is a diagram showing an example of a configuration of a main part for implementing the information storage system according to the present invention.
FIG. 12 is a diagram showing an example of a main configuration for implementing the information restoration system according to the present invention.
FIG. 13 is a diagram showing an example of a data structure of meaningful information to be saved / restored according to the present invention.
FIG. 14 is a diagram illustrating an example of a history of changes in registration contents of meaningful information.
FIG. 15 is a diagram illustrating an example of retained information in a use terminal.
FIG. 16 is a flowchart showing a processing procedure of an embodiment of the information storage system according to the present invention.
FIG. 17 is a flowchart showing a processing procedure of an embodiment of the information restoration system according to the present invention.
FIG. 18 is a flowchart illustrating a meaningful information incorporation processing function;
FIG. 19 is a flowchart illustrating an example of a charging processing function in the data distribution apparatus.
FIG. 20 is a diagram illustrating an example of retained information in a user terminal according to a specific example.
FIG. 21 is a diagram illustrating a process of generating a single dictionary by integrating a plurality of dictionaries.
FIG. 22 is a diagram illustrating an example of an input screen on the use terminal side according to a specific example;
FIG. 23 is a diagram illustrating an example of an input screen during storage on the use terminal side according to a specific example;
FIG. 24 is a diagram illustrating an example of an input screen after completion of storage on the use terminal side according to a specific example.
FIG. 25 is a diagram illustrating an example of using a dictionary before restoration.
FIG. 26 is a diagram illustrating an example of an input screen for restoration processing on the user terminal side according to a specific example.
FIG. 27 is a diagram illustrating an example of an input screen for restoration processing on the user terminal side according to a specific example;
FIG. 28 is a diagram illustrating an example of an input screen during restoration on the use terminal side according to a specific example;
FIG. 29 is a diagram showing an example of an input screen after completion of storage on the use terminal side according to a specific example.
FIG. 30 is a diagram illustrating an example of using a dictionary after restoration is completed.
FIG. 31 is a diagram showing an example of an output screen on the data distribution device side after restoration is completed.
FIG. 32 is a diagram showing an example of an output screen on the data storage device side after storage is completed.
FIG. 33 is a diagram showing an example of a display screen on the use terminal side according to an example applied to a mobile phone as a use terminal.
FIG. 34 is a diagram showing an example of a display screen on the use terminal side according to an example applied to a mobile phone as a use terminal.
FIG. 35 is a diagram showing an example of a display screen on the use terminal side according to an example applied to a mobile phone as a use terminal.
FIG. 36 is a diagram showing an example of a display screen on the use terminal side according to an example applied to a mobile phone as a use terminal.
FIG. 37 is a diagram showing an example of a display screen on the use terminal side according to an example applied to a mobile phone as a use terminal.
FIG. 38 is a diagram showing an example of a display screen on the use terminal side according to an example applied to a mobile phone as a use terminal.
FIG. 39 is a diagram illustrating still another example of sharing.
FIG. 40 is a diagram illustrating an example in which a shared dictionary is applied to English.
FIG. 41 is a diagram illustrating an example in which a shared dictionary is applied to English.
FIG. 42 is a diagram illustrating an example in which a shared dictionary is applied to English.
[Explanation of symbols]
10 Data storage / distribution device
10 'Data storage device
10 "data distribution device
10a Significant information storage database
10b Communication Department
10c User authentication part
10d MM input / output unit
10e Calculation unit
10f Database management department
10g program part
10i meaningful information storage
10j Option data configuration information storage
10k, 10k 'charge processing part
10m Restoration information search part
10n Option data structure information analysis part
10p meaningful information extraction unit
10q option data extraction unit
20 Use terminal
20 'Terminal (information storage source)
20 ″ terminal (information restoration destination)
20a Significant information storage database
20b Communication Department
20c User authentication part
20d MM input / output unit
20e arithmetic unit
20f Database Management Department
20g program part
20h Significant information storage request section
20i meaningful information search part
20j Option data configuration information search part
20k meaningful information extraction unit
20L option data configuration information extraction unit
20m meaningful information restoration request part
20n meaningful information embedded part
20p option data built-in part
21 Operating System (OS)
22a, 22b Application software
23 Use purpose assistance software
23a Use purpose auxiliary software drive
23b, 23b 'main data section
23c, 23c 'Option data part
23d, 23d 'learning information section
23e, 23e 'User data part
23f Configuration information section
24 Communication interface
25 I / O devices
30 communication network
31 Electronic media
35 Accounting information storage database

Claims (9)

A database that includes main data including a system dictionary, includes optional data including an extended dictionary that assists the main data, and local data specific to the user terminal that is generated and changed as the user terminal is used. Use terminal,
An information storage / distribution system comprising an information storage / distribution server that stores and distributes predetermined data stored in the database in response to a request from the user terminal,
The local data includes at least one of user data and learning information,
The user data includes a word created on the user terminal,
The learning information includes the priority added to each word unit constituting the system dictionary and the extended dictionary updated according to the use history in the use terminal,
The priority indicates the degree to which the value is preferentially displayed as a conversion candidate as the value is higher during use.
The user terminal is
Local data extracting means for extracting the predetermined local data stored in the database;
Configuration information extracting means for extracting configuration information of the option data;
Means for supplying the local data extracted by the local data extracting means and the configuration information extracting means and the configuration information to the information storage / distribution server;
The information storage / distribution server
The option data that can be supplied to the user terminal is stored in advance,
A storage unit that acquires the local data sent together with the storage request from the user terminal and the configuration information of the option data, and stores it in a storage database;
Means for extracting the local data stored in the storage database in accordance with a restoration request from a user terminal;
Means for determining option data incorporated in the database of the user terminal that requested the storage from the configuration information stored in the storage database, and extracting the determined option data from the storage database;
Means for restoring the data used in the user terminal that requested the storage from the extracted local data and the option data, and supplying the restored data to the user terminal that requested the restoration An information storage and distribution system characterized by this. The information storage / distribution server stores and holds in advance the main data that can be supplied to a user terminal,
2. The information storage / distribution system according to claim 1, wherein the data is restored together with the main data so as to restore a database in the use terminal that has made the storage request.   The use terminal that has made the restoration request receives data supplied from the information storage / distribution server and stores the data in its own database in consideration of the priority. The information storage / distribution system according to 1 or 2. The information storage / distribution server
4. The information storage / storage device according to claim 1, further comprising a charging processing unit configured to perform a predetermined charging process when the storage process of the storage database by the storage unit is completed. Distribution system. The information storage / distribution server
5. The apparatus according to claim 1, further comprising a billing processing unit configured to perform billing processing by assuming that the delivery is completed by receiving the completion information received from the use terminal that has supplied the restored data. The information storage / distribution system according to item 1. When the user of the user terminal making the storage request is different from the user of the user terminal making the restoration request,
The information storage / distribution server
Perform a charging process on the side of the user terminal that has received the restored data,
The information storage / distribution system according to any one of claims 1 to 3, wherein a consideration is paid to a use terminal side that has made the storage request.   The user of the user terminal that has received the consideration can receive distribution of data restored from data stored by another user terminal within the range of the consideration. Information storage and distribution system described. A database that includes main data including a system dictionary, includes optional data including an extended dictionary that assists the main data, and local data specific to the user terminal that is generated and changed as the user terminal is used. An information storage / distribution method in an information storage / distribution server for storing / delivering predetermined data stored in the database in response to a request from a user terminal,
The local data includes at least one of user data and learning information,
The user data includes a word created on the user terminal,
The learning information includes the priority added to each word unit constituting the system dictionary and the extended dictionary updated according to the use history in the use terminal,
The priority indicates the degree to which the value is preferentially displayed as a conversion candidate as the value is higher during use.
The information storage / distribution server stores and holds the option data that can be supplied to the user terminal in advance,
The information storage / distribution server is
Processing for receiving the local data sent together with the storage request from the user terminal and configuration information of option data stored in the database;
Processing step of storing the received configuration information and the local data in a storage database;
In accordance with the restoration request from the user terminal, the processing step of extracting the local data stored in the storage database;
Determining the option data incorporated in the database of the user terminal that requested the storage from the configuration information stored in the storage database, and extracting the determined option data from the storage database;
A restoration processing step of restoring data used in the user terminal that requested the storage from the extracted local data and the option data;
An information storage / restoration method comprising a processing step of supplying the restored data to a use terminal that has made the restoration request. The information storage / distribution server stores and holds in advance the main data that can be supplied to a user terminal,
9. The information storage / distribution method according to claim 8, wherein the restoration processing step restores a database in the use terminal that has made the storage request by performing the main data together.

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