WO2009096015A1 - 公開情報送信方法、公開情報送信システム、中央装置及びプログラム - Google Patents
公開情報送信方法、公開情報送信システム、中央装置及びプログラム Download PDFInfo
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- WO2009096015A1 WO2009096015A1 PCT/JP2008/051477 JP2008051477W WO2009096015A1 WO 2009096015 A1 WO2009096015 A1 WO 2009096015A1 JP 2008051477 W JP2008051477 W JP 2008051477W WO 2009096015 A1 WO2009096015 A1 WO 2009096015A1
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/60—Protecting data
- G06F21/62—Protecting access to data via a platform, e.g. using keys or access control rules
- G06F21/6218—Protecting access to data via a platform, e.g. using keys or access control rules to a system of files or objects, e.g. local or distributed file system or database
- G06F21/6245—Protecting personal data, e.g. for financial or medical purposes
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F16/00—Information retrieval; Database structures therefor; File system structures therefor
- G06F16/20—Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
- G06F16/29—Geographical information databases
Definitions
- the present invention relates to a public information transmission method, a public information transmission system, a central device, and a central device for transmitting public information transmitted from a portable information terminal to a central device to be disclosed to a third party from the central device to an information processing terminal.
- the present invention relates to a program for causing an apparatus to function as a computer.
- SNS social network service
- each business provider provides various SNSs.
- SNS has a feature that can specify the disclosure range of information such as a person's profile, diary, and photos.
- the present invention has been made in view of such circumstances, and appropriately protects the user's privacy by delaying the transmission of public information based on the position information and obfuscating the position information in the public information. It is also possible to provide a public information transmission method, a public information transmission system, a central apparatus, and a program for causing the central apparatus to function as a computer.
- Another object of the present invention is to delay the transmission of public information based on date / time information, and to obscure the date / time information in the public information, thereby appropriately protecting the user's privacy, and more safety. It is in providing the central apparatus etc. which can improve this.
- the public information transmission method is a public information transmission method in which public information transmitted from a portable information terminal to a central device to be disclosed to a third party is transmitted from the central device to an information processing terminal.
- the public information transmitted from the portable information terminal with reference to the reception step in which the central device receives the position information transmitted from the terminal and the location database in which the words indicating the location are classified according to a plurality of classes
- the distance based on the position information is equal to or greater than the threshold distance stored in the storage unit, the public information converted by the conversion step is sent from the central device. Characterized in that it comprises a transmission step of transmitting to the serial information processing terminal.
- a public information transmission system is a public information transmission system in which a portable information terminal, an information processing device, and a central device are connected via a communication network.
- the portable information terminal is disclosed to a third party to the central device.
- Means for transmitting public information to be transmitted to the central device, the central device receiving means for receiving public information transmitted by the means for transmitting, and receiving means for receiving position information transmitted from the portable information terminal And referring to a location database in which words indicating locations are classified according to a plurality of classes, a word indicating a location included in the public information transmitted from the portable information terminal indicates a location belonging to a higher class.
- Conversion means for converting to a word, position information of the portable information terminal received by the receiving means, and position information of the portable information terminal when the public information is transmitted.
- Ku distance in the case of more than the threshold distance stored in the storage unit, and a sending means for sending the public information after being converted by the conversion means to the information processing terminal.
- the central device is a central device for transmitting public information transmitted from a portable information terminal to be disclosed to a third party to the outside, and receiving means for receiving position information transmitted from the portable information terminal; With reference to a location database in which words indicating locations are classified according to a plurality of classes, the words indicating locations included in the public information transmitted from the portable information terminal are changed to words indicating locations belonging to higher classes.
- a transmission means for transmitting the public information converted by the conversion means to the outside is equal to or greater than the threshold distance stored in the storage unit.
- the central device refers to a date and time storage means for storing a transmission date and time when the public information is transmitted by the portable information terminal, and a time database in which words indicating time are classified according to a plurality of classes, A time conversion means for converting a word indicating the time included in the public information transmitted from the portable information terminal into a word indicating a time belonging to a higher class, the transmission means received by the reception means.
- the distance based on the position information of the portable information terminal and the position information of the portable information terminal at the time of transmitting the public information is not less than the threshold distance stored in the storage unit, and the date and time output by the clock unit and
- the difference between the transmission date and time stored in the date and time storage means is equal to or greater than the threshold time stored in the storage unit, the public information converted by the conversion means and the time conversion means is transmitted to the outside. Characterized in that are configured so.
- the central device comprises a threshold distance increasing means for increasing the threshold distance stored in the storage unit when a word indicating a place exists in the public information transmitted from the portable information terminal. To do.
- the central device comprises a threshold time increasing means for increasing the threshold time stored in the storage unit when a word indicating time is present in the public information transmitted from the portable information terminal. To do.
- the word indicating the location includes an indicating pronoun
- the threshold distance increasing means stores the indicating pronoun in the storage unit when the indicating pronoun exists in the public information transmitted from the portable information terminal. It is configured to increase the stored threshold distance.
- the word indicating the time includes a word indicating the past, present or future
- the threshold time increasing means includes the past, present or future in the public information transmitted from the portable information terminal.
- the central apparatus includes an identification information storage unit that stores user identification information, and the transmission unit transmits the identification information when the identification information is transmitted from the information processing apparatus.
- the threshold value stored in the storage unit is a distance that is not present in the information storage unit and is based on the location information of the mobile information terminal received by the receiving unit and the location information of the mobile information terminal when the public information is transmitted. When the distance is greater than or equal to the distance, the public information converted by the conversion means is configured to be transmitted to the outside.
- the central device stores, in a storage unit, calculation means for calculating a transmission frequency based on transmission dates and times of a plurality of public information stored by the date and time storage means, and home location information of a user who uses the portable information terminal.
- the home location storage means to store and the transmission frequency calculated by the calculation means are equal to or higher than the threshold frequency stored in the storage section, and the location information received by the reception means and the home location location information stored in the home location storage means
- a shortening unit that shortens the threshold distance or the threshold time stored in the storage unit when the base distance is equal to or greater than the threshold stored in the storage unit.
- the central device increases the threshold time stored in the storage unit when it is determined that a predetermined time has elapsed since the reception unit last received the position information transmitted from the portable information terminal. Means are provided.
- the central device includes a position history storage means for storing the position information received by the receiving means in a position history database, a speed calculation means for calculating a moving speed based on the position information stored in the position history database,
- the moving speed calculating means comprises means for shortening the threshold distance or threshold time stored in the storage unit.
- the conversion means refers to a location database in which words indicating locations are classified according to a plurality of classes, and indicates locations included in the public information transmitted from the portable information terminal.
- An extraction means for extracting a plurality of words; a classification means for classifying each word extracted by the extraction means by class; and a word other than a word belonging to the highest class among the classes classified by the classification means, Means for referring to a place database and converting the word into a word belonging to the highest class.
- the time conversion means refers to a time database in which words indicating time are classified according to a plurality of classes, and includes a time included in the public information transmitted from the portable information terminal.
- the central device refers to a location database obtained by classifying a word indicating a location according to a plurality of classes, and converts the word indicating a location included in public information transmitted from the portable information terminal to the conversion
- Auxiliary conversion means for converting to a word indicating a place belonging to a higher class than the word to be converted by means, and the portable information at the time of transmitting the position information of the portable information terminal and the public information received by the receiving means
- an auxiliary transmission unit that transmits the public information converted by the auxiliary conversion unit to the outside is provided.
- the central device refers to a time database in which words indicating time are classified according to a plurality of classes, and the words indicating times included in the public information transmitted from the portable information terminal are
- the auxiliary time conversion means for converting to a word indicating a time belonging to a higher class than the word to be converted by the conversion means, the difference between the date and time output by the clock unit and the transmission date and time stored in the date and time storage means,
- the information processing apparatus includes an auxiliary transmission unit that transmits the public information converted by the auxiliary time conversion unit to the outside.
- the central apparatus stores the transmission date and time when the public information is transmitted by the portable information terminal in the central apparatus that transmits the public information transmitted from the portable information terminal to the third party.
- the date and time storage means and the time database in which words indicating time are classified according to a plurality of classes, and the words indicating times included in the public information transmitted from the portable information terminal belong to a higher class
- the conversion unit And transmitting means for transmitting the converted public information to the outside.
- the program according to the present invention is a program for transmitting public information transmitted from a portable information terminal to a computer to be disclosed to a third party from the computer to the outside, and is transmitted to the computer from the portable information terminal.
- a reception step for receiving location information, and a location database in which words indicating locations are classified according to a plurality of classes, and a word indicating a location included in the public information transmitted from the mobile information terminal A conversion step of converting into a word indicating a place belonging to a class of the user, and a distance based on the position information of the portable information terminal received at the receiving step and the position information of the portable information terminal at the time when the public information is transmitted.
- the public information transmission system is configured by a portable information terminal, an information processing apparatus, and a central apparatus connected to each other via a communication network.
- the portable information terminal transmits public information to be disclosed to a third party to the central device.
- the central device receives the transmitted public information and receives the position information transmitted from the portable information terminal.
- the central device refers to the location database in which the word indicating the location is classified according to a plurality of classes by the conversion means, and converts the word indicating the location included in the public information transmitted from the portable information terminal to the upper class Is converted to a word indicating the location belonging to. Then, the distance based on the received position information of the portable information terminal and the position information of the portable information terminal when the public information is transmitted is obtained.
- the central device transmits the public information converted by the conversion means to the information processing terminal. For example, this threshold distance is increased by the threshold distance increasing means when there is a word indicating a place in the public information.
- the date and time storage means of the central device stores the transmission date and time when the public information is transmitted by the portable information terminal.
- the time conversion means of the central device refers to the database when the words indicating time are classified according to a plurality of classes, and the words indicating the times included in the public information transmitted from the portable information terminal are Is converted to a word indicating the time belonging to.
- the central device has a distance based on the received position information of the portable information terminal and the position information of the portable information terminal at the time of transmitting the public information is equal to or greater than the threshold distance stored in the storage unit, and is output by the clock unit. Whether or not the difference between the transmission date and time and the transmission date and time stored in the date and time storage means is greater than or equal to the threshold time stored in the storage unit.
- the central device determines that the distance is longer than the threshold distance and the threshold time, the central device transmits the public information after being converted by the conversion means and the time conversion means to the information processing terminal. For example, this threshold time is increased by the threshold time increasing means when there is a word indicating time in the public information.
- the public information after being converted by the conversion means is transmitted to the information processing terminal.
- public information is transmitted when a user leaves
- the central device has a distance based on the received position information of the portable information terminal and the position information of the portable information terminal at the time of transmitting the public information is equal to or greater than the threshold distance stored in the storage unit, In addition, it is determined whether or not the difference between the date and time output by the clock unit and the transmission date and time stored in the date and time storage means is equal to or greater than the threshold time stored in the storage unit. If the central device determines that the distance is equal to or greater than the threshold distance and the threshold time, the central device transmits the public information converted by the conversion means and the time conversion means to the information processing terminal.
- FIG. 10 is a block diagram illustrating a hardware configuration of a server computer according to a fourth embodiment. It is a flowchart which shows the procedure of a shortening process. It is a flowchart which shows the procedure of a shortening process. It is explanatory drawing which shows the record layout of the position storage file which concerns on Embodiment 2. FIG. It is a flowchart which shows the procedure of an increase process. It is explanatory drawing which shows the record layout of the position storage file which concerns on Embodiment 6.
- FIG. It is a flowchart which shows the procedure of the shortening process of the threshold time and threshold distance based on a moving speed.
- FIG. 20 is a block diagram illustrating a configuration of a server computer according to a ninth embodiment.
- FIG. 1 is a schematic diagram showing an outline of a public information transmission system.
- the public information transmission system includes a central device 1, a portable information terminal 2, a communication network N, and information processing terminals 3, 3,.
- the portable information terminal 2 is a mobile phone used by a user who uploads public information to a blog or SNS, a PDA (Personal Digital Assistance), a notebook computer, a portable audio player having a display unit and an input unit, and a digital camera having a communication function Or a portable game machine.
- the mobile information terminal 2 is described as being a mobile phone 2 and will be described using an example of uploading information to an SNS.
- a server computer is used as the central device 1, and a mobile phone or a personal computer 3 is used as the information processing terminal 3.
- the central device 1 is the server computer 1 and the information processing terminal 3 is the personal computer 3.
- the mobile phone 2, the server computer 1, and the personal computer 3 are connected to each other via a mobile phone network and a communication network N such as the Internet.
- a communication network N such as the Internet.
- an HTML (HyperText Markup Language) document is generated by HTTP (Hyper Text Transfer Protocol) or the like. Send and receive.
- the user transmits public information to the third party using the mobile phone 2 to the server computer 1.
- the server computer 1 monitors the current position of the mobile phone 2 and the time elapsed since the public information was transmitted.
- the server computer 1 determines whether or not the mobile phone 2 is a predetermined distance away from the position when the public information is transmitted and a predetermined time has elapsed from the date and time when the public information is transmitted.
- the server computer 1 has left a predetermined distance and a predetermined time has passed, the word indicating the location of the public information and the word indicating the time are obscured, and the public information after the ambiguity processing is completed to the personal computer 3.
- Send Send.
- FIG. 2 is a block diagram showing a hardware configuration of the mobile phone 2.
- the mobile phone 2 includes a CPU (Central Processing Unit) 21 as a control unit, a RAM (Random Access Memory) 22, an input unit 23, a display unit 24, a storage unit 25, a communication unit 26, a clock unit 28, a GPS (Global Positioning System). ) It includes a receiver 212, a camera 29, a microphone 210, a speaker 211, and the like.
- the CPU 21 is connected to the hardware units of the mobile phone 2 via the bus 27, controls them, and executes various software functions according to the control program 25P stored in the storage unit 25.
- the display unit 24 is, for example, a liquid crystal display, and the input unit 23 is configured by a push button or the like. In addition, you may make it comprise the display part 24 and the input part 23 integrally like a touchscreen.
- the speaker 211 amplifies and outputs audio data, call data, or an audio signal related to audio input from the microphone 210.
- the microphone 210 converts an audio signal input from the outside into an electric signal.
- the converted electrical signal is converted into digital data by an A / D converter (not shown) and output to the CPU 21.
- the communication unit 26 includes a high-frequency transmission / reception unit, an antenna, and the like, and transmits / receives various data including voice data, character data, image data, and the like.
- the clock unit 28 outputs the current date / time information to the CPU 21.
- the storage unit 25 stores a control program 25P, a browser 251 and the like.
- the browser 251 analyzes the HTML file transmitted / received via the communication unit 26 by HTTP and displays it on the display unit 24.
- the camera 29 is constituted by a CCD (Charge Coupled Device) or the like and outputs the captured image data to the CPU 21.
- the GPS receiver 212 receives radio waves from an artificial satellite (GPS satellite) and measures the current position (including latitude, longitude, and altitude) and the current direction of the mobile phone 2.
- the CPU 21 transmits the position information received by the GPS receiver 212, specifically, latitude and longitude to the server computer 1 at regular time intervals (for example, every 10 minutes).
- the GPS receiver 212 is used as a method for acquiring the position information of the mobile phone 2.
- the present invention is not limited to this as long as the position information can be acquired periodically. It is not a thing.
- information on the access point of a wireless LAN (Local Area Network), position information of a base station of the mobile phone 2, or position information of a reader that reads a wireless tag embedded in the mobile phone is used. There may be.
- FIG. 3 is a block diagram showing a hardware configuration of the server computer 1.
- the server computer 1 includes a CPU 11 as a control unit, a RAM 12, an input unit 13, a display unit 14, a communication unit 16, a clock unit 18, a storage unit 15, and the like.
- the CPU 11 is connected to the hardware units of the server computer 1 via the bus 17 and controls them, and executes various software functions according to the control program 15P stored in the storage unit 15.
- the display unit 14 is a liquid crystal display, for example, and displays necessary information.
- the input unit 13 includes a keyboard and a mouse, and information input from the input unit 13 is output to the CPU 11.
- the clock unit 18 outputs the current date / time information to the CPU 11.
- the communication unit 16 is a gateway or the like that functions as a firewall, and transmits / receives necessary information to / from the mobile phone 2.
- the storage unit 15 is configured by a hard disk, for example, and in addition to the control program 15P described above, a location database (hereinafter referred to as DB) 151, a time DB 152, a threshold distance storage file 153, a threshold time storage file 154, a date and time storage file 155 , A location storage file 156 and an identification information file 157 are stored.
- DBs and files are stored in the storage unit 15 of the server computer 1 and stored in a DB server (not shown), and necessary information retrieval and writing processes are performed using SQL (Structured Query Query Language). You may make it perform. Details of each DB and file will be described later.
- FIG. 4 is an explanatory diagram showing an image when public information is registered.
- the CPU 11 of the server computer 1 reads the template of the public information registration screen stored in the storage unit 15 and transmits it to the mobile phone 2.
- the CPU 21 of the mobile phone 2 activates the browser 251 and displays a public information registration screen as shown in FIG.
- the public information is information that the user of the mobile phone 2 discloses to a third party, and includes, for example, a title, a message, image data, a URL (Uniform Resource Locator) of a link destination, and the like.
- a title box 41, a message box 42, an image data thumbnail 43, a registration button 44, and the like are displayed.
- the user inputs public information into the title box 41 and the message box 42 through the input unit 23.
- character data of “event” is input to the title box 41 from the input unit 23 and displayed on the browser 251.
- character data such as “I finished drinking coffee and headed for the station L. To participate in the event on May 25, 2007 ...” is input from the input unit 23. And displayed on the browser 251.
- the CPU 21 of the mobile phone 2 displays the current date and time information on the public information registration screen of the browser 251 based on the date and time information output from the clock unit 28.
- the current date and time is displayed as “May 25, 2007, 10:00:00”.
- the CPU 21 displays the latitude and longitude as current position information on the public information registration screen of the browser 251.
- the latitude is x and the longitude is y.
- the image data thumbnail 43 a thumbnail of the image data released on the SNS is displayed together with the message.
- the CPU 21 stores the image data captured through the camera 29 in the storage unit 25.
- the CPU 21 generates a thumbnail image of the image data stored in the storage unit 25 and displays the generated image data thumbnail 43 on the public information registration screen of the browser 251.
- the CPU 21 transmits to the server computer 1 together with the input title, message, image data, current date and time (transmission date and time), current position information, and identification information given to the user.
- the user who uses the mobile phone 2 is the user S.
- the CPU 11 of the server computer 1 receives the transmitted title, message, image data, date and time information, position information, and user S identification information via the communication unit 16.
- the CPU 11 of the server computer 1 stores the transmitted information in the date / time storage file 155 as a history.
- FIG. 5 is an explanatory diagram showing a record layout of the date / time storage file 155.
- the date / time storage file 155 includes a transmission date / time field, a position information field, a title field, a message field, and the like.
- FIG. 5 shows the public information of the user S.
- the transmission date / time field the transmission date / time of the public information, specifically, the operation date / time of the registration button 44 through the input unit 23 of the mobile phone 2 is stored.
- the date and time when the public information is transmitted by the mobile phone 2 is used.
- the date and time when the CPU 11 of the server computer 1 receives the public information from the mobile phone 2 may be used.
- the location information field stores latitude and longitude as location information at the time when the mobile phone 2 transmits public information.
- the title field stores the title of the transmitted public information
- the message field stores the transmitted public information message. Note that a message that is a part of public information is obscured by a conversion process that will be described later, but both the message before the conversion process and the message after the conversion process are stored in the title field of the date / time storage file 155.
- the CPU 11 stores these information in the date / time storage file 155. For example, at 10 o'clock on May 25, 2007, the date “event” and the message shown in FIG.
- FIG. 6 is an explanatory diagram showing a record layout of the position storage file 156.
- the position storage file 156 includes a transmission date / time field, a position information field, and a distance field.
- the CPU 21 of the mobile phone 2 transmits the position information output from the GPS receiver 212 to the server computer 1 together with the date / time information at regular time intervals.
- the server computer 1 stores the transmitted position information in the position storage file 156 in association with the identification information of the user S together with the transmitted date and time information.
- the transmission date / time field the date / time when the mobile phone 2 transmits the current position information is stored.
- the position information is transmitted to the server computer 1 every 10 minutes.
- position information as latitude and longitude transmitted from the mobile phone 2 is stored.
- distance field the distance from the position of the mobile phone 2 when the public information is first transmitted to the current position of the mobile phone 2 is stored in km.
- the CPU 11 calculates the distance using the latitude and longitude at the time when the public information is first transmitted, and then the transmitted latitude and longitude, and stores the distance in association with the transmitted latitude and longitude.
- the public information of the title “event” is transmitted at a point of latitude x and longitude y at 10:00 on May 25, 2007.
- position information of latitude x1 and longitude y1 is transmitted from the mobile phone 2 to the server computer 1.
- the distance is stored as 0.2 km.
- the cellular phone 2 periodically transmits the position information to the server computer 1 until a predetermined date and time (for example, three days) elapses.
- a predetermined date and time for example, three days
- the server computer 1 requests the location information to be transmitted to the cellular phone 2, and this request
- the CPU 21 of the mobile phone 2 may transmit the position information to the server computer 1.
- the threshold distance storage file 153 stores a reference threshold distance.
- the threshold distance may be input through the input unit 23 of the mobile phone 2 in addition to the operator inputting an appropriate value from the input unit 13 or when the user registers his / her own gender and hobby profile. good. In the latter case, the input threshold distance is transmitted to the server computer 1, and the CPU 11 of the server computer 1 stores the transmitted threshold distance in association with the user identification number.
- This threshold distance is a numerical value used in the comparison between the position information when the mobile phone 2 transmits public information and the linear distance calculated based on the current position information of the mobile phone 2.
- the CPU 11 performs the ambiguity process and transmits the public information to the personal computer 3.
- the threshold distance is assumed to be 10 km.
- the threshold time storage file 154 stores a reference threshold time.
- the threshold time may be input through the input unit 23 of the mobile phone 2 in addition to the operator inputting an appropriate value from the input unit 13 or when the user registers the profile. In the latter case, the input threshold time is transmitted to the server computer 1, and the CPU 11 of the server computer 1 stores the transmitted threshold time in association with the user identification number.
- This threshold time is a numerical value used in comparison with the difference from the transmission date and time when the mobile phone 2 transmits public information to the current date and time output from the clock unit 18. When the difference is equal to or longer than the threshold time, the CPU 11 transmits the public information to the personal computer 3 after performing the obscuring process. In the present embodiment, the threshold time is assumed to be 10 hours.
- the present invention is not limited to this.
- the obfuscated public information when the straight line distance is greater than or equal to the threshold distance, the obfuscated public information may be transmitted, or when the date difference is equal to or greater than the threshold time, the obfuscated public information may be transmitted.
- FIG. 7 is an explanatory diagram showing a record layout of the location DB 151.
- the location DB 151 is a database in which words indicating locations are classified according to a plurality of classes, and includes a class field, a genre field, and a place word field.
- a class field a class for classifying a word indicating a place is stored. In this embodiment, for ease of explanation, it is classified into four stages, and class 1 having the smallest numerical value belongs to the highest class.
- the genre field stores an attribute for classifying a word indicating a location in association with each class.
- the genre “prefecture” is stored in the highest class 1.
- words belonging to this genre are stored in association with classes and genres.
- class 1 stores A prefecture and B prefecture as prefectures.
- the genre “city” is stored in the higher class 2 and a word indicating a place corresponding to the genre is stored in association with a word indicating a place belonging to a higher class.
- the genre “city” of class 2 stores C city, D city, and the like belonging to A prefecture of class 1.
- E city, F city, etc. belonging to class B, B are stored.
- the genre “town” is stored in the next higher class 3, and a word indicating a place corresponding to this is stored in association with a word indicating a place belonging to a higher class.
- the genre “town” of class 3 stores G town, H town, and the like belonging to C city of class 2.
- the genre “point” is stored in the lowest class 4 and a word indicating a place corresponding to this is stored in association with a word indicating a place belonging to a higher class.
- the genre “point” of class 4 stores L station, M station, N department store, etc. belonging to class G town G.
- a database may use map data or the like used for car navigation or the like.
- the CPU 11 refers to the location DB 151 and extracts a word indicating the location in the public information.
- the CPU 11 converts the word into a word indicating a place higher than the class to which the extracted word belongs in order to make it ambiguous.
- the CPU 11 performs processing for conversion to a G town of class 3 that is an upper class to which the L station belongs.
- the extracted word is E city of class 2, it is converted into B prefecture of class 1 to which E city belongs. Thereby, the information indicating the position entered by the user is obscured while maintaining accuracy to some extent.
- an example of conversion to a word belonging to a higher rank of the first level has been described.
- the present invention is not limited to this, and a word belonging to a higher rank of two or more levels may be converted.
- FIG. 8 is an explanatory diagram showing the record layout of the time DB 152.
- the time DB 152 is a database in which words indicating time are classified according to a plurality of classes, and includes a class field, a genre field, and a time word field.
- a class for classifying words indicating time is stored in the class field. In the present embodiment, for ease of explanation, it is classified into five stages, and class 1 having the smallest numerical value belongs to the highest class.
- the genre field stores an attribute for classifying words indicating time in association with each class. For example, the genre “year”, which is an attribute of a word indicating the corresponding time, is stored in association with the highest class 1.
- time word database words indicating time are stored in association with classes and genres, and “X year” is stored in the genre “year” of class 1.
- the letter X is a wild card, meaning that it may be an arbitrary integer.
- the genre “month” is stored in association with the higher class 2 and the time word field stores the year X month and month X belonging to the lower level of the upper class 1 year.
- the genre “day” is stored in association with the higher class 3 and the time word field belongs to the lower part of the month of the upper class 2, X year X month X day, X month X day, and X days are stored.
- “day” the day of the week may be stored.
- the genre “hour” is stored in association with the next higher class 4, and the hour word field belongs to the lower part of the day of the upper class 3, X year X month X day X hour, X Month X day X hour, X day X hour, and X hour are stored.
- the genre “minute” is stored in association with the lowest class 5 and the hour word field belongs to the lower part of the time of the upper class 4, X year X month X day X hour X minute, X Month X day X hour X minute, X day X hour X minute, X hour X minute, and X minute are stored.
- the information may be input from the input unit 13 by the operator.
- CPU11 refers to time DB152, extracts the word which shows the time in public information.
- the CPU 11 converts it into a word indicating time higher than the class to which the extracted word belongs in order to make it ambiguous.
- the CPU 11 performs a process of converting to the class 2 May 2007 which is a higher class.
- the extracted word is 5 o'clock on May 25 of class 4, it is converted to May 25 or 25 of 2007 with reference to the current year on May 25 of upper class 3.
- the information indicating when the user has entered the information is obscured while maintaining accuracy to some extent.
- the word indicating the place or time in the message is converted, but it goes without saying that the word indicating the place or time in the title may be converted.
- the server computer 1 executes the conversion process.
- the location DB 151 and the time DB 152 may be stored on the mobile phone 2 side, and the CPU 21 of the mobile phone 2 may perform the conversion process.
- the message before conversion and the message after conversion are transmitted to the server computer 1 based on the instruction of the CPU 21 of the mobile phone 2.
- FIG. 9 is an explanatory diagram showing a record layout of the identification information file 157.
- the identification information file 157 includes a user field and an identification information field.
- identification information of other users who allow the user to browse public information that is not obscured in real time is stored for each user.
- a user who can view public information that is stored in the identification information file 157 and is not obscured in real time is referred to as a limited user, and other users are referred to as general users.
- This identification information is, for example, an e-mail address or an ID for logging in to SNS.
- the user inputs identification information of other users who are permitted to register as limited users through the input unit 23 of the mobile phone 2.
- the input identification information is transmitted to the server computer 1 together with the user identification information.
- the CPU 11 of the server computer 1 stores the limited user identification information in the identification information field in association with the transmitted user identification information.
- a general user and a limited user are distinguished from each other. However, all users may be processed as a general user without providing a limited user.
- FIG. 10 is an explanatory diagram showing a display image of public information.
- FIG. 10A is an explanatory diagram showing a display image that can be viewed by a limited user
- FIG. 10B is an explanatory diagram showing a display image that can be browsed by a general user. 10 is described based on the example shown in FIG.
- the CPU 11 determines whether or not the identification number transmitted from the personal computer 3 matches the identification information stored in the identification information file 157. If the CPU 11 determines that they match, the CPU 11 reads the transmission date / time, title, message, and image data thumbnail stored in the date / time storage file 155 to create an HTML document.
- the CPU 11 transmits the created document to the personal computer 3. As shown in FIG. 10A, the date / time, title, message, and thumbnail of the image data sent by the user S are displayed as they are on the browser of the personal computer 3 without being obscured.
- the CPU 11 determines that the identification number transmitted from the personal computer 3 does not match the identification information stored in the identification information file 157, the CPU 11 determines that the user is a general user.
- the CPU 11 calculates a difference (elapsed time) based on the date and time output from the clock unit 18 and the transmission date and time stored in the date and time storage file 155.
- the CPU 11 reads the threshold time from the threshold time storage file 154, and whether the calculated difference is equal to or greater than the threshold time and whether the distance stored in the position storage file 156 is greater than or equal to the threshold distance stored in the threshold distance storage file 153. Judging.
- the CPU 11 determines that the time is equal to or longer than the threshold time and equal to or longer than the threshold distance, the CPU 11 transmits the public information after performing the ambiguity processing using the location DB 151 and the time DB to the personal computer 3.
- the CPU 11 determines that the time is shorter than the threshold time or shorter than the threshold distance, the CPU 11 stops the transmission of the public information to the personal computer 3, and stores the text that has not been disclosed yet stored in the storage unit 15. Send the containing screen.
- 10B shows an example in which L station is converted to G town belonging to the upper class and May 25, 2007 is converted to May 2007 belonging to the upper class.
- 11 to 13 are flowcharts showing the procedure of public information registration and conversion processing.
- the user operates the input unit 23 of the mobile phone 2 and inputs the URL of the server computer 1 that operates the SNS.
- the CPU 21 activates the browser 251 and accesses the server computer 1 (step S111).
- the CPU 11 of the server computer 1 reads an identification information input screen for logging in to the SNS from the storage unit 15 and transmits it to the mobile phone 2 via the communication unit 16 (step S112).
- the CPU 21 of the mobile phone 2 receives the identification information input screen transmitted via the communication unit 26.
- the CPU 21 displays the received identification information input screen on the browser 251 and accepts input of identification information from the input unit 23.
- the CPU 21 transmits the received identification information to the server computer 1 (step S113).
- the CPU 11 of the server computer 1 receives the transmitted identification information, and determines whether or not the received identification information matches the identification information stored in advance in the storage unit 15 (step S114). If the CPU 11 determines that they do not match (NO in step S114), it determines that the access is unauthorized and ends the process. On the other hand, if the CPU 11 determines that they match (YES in step S114), the public information registration screen described in FIG. 4 is read from the storage unit 15 and transmitted to the mobile phone 2 (step S115).
- the CPU 21 of the mobile phone 2 receives the public information registration screen and displays it on the browser 251 (display unit 24) (step S116).
- the user inputs a title and a message through the input unit 23, and selects arbitrary image data from the storage unit 25 among the image data captured by the camera 29.
- the CPU 21 receives the input title, message, and selected image data (step S117).
- the CPU 21 determines whether or not the registration button 44 has been input from the input unit 23 (step S118). When the CPU 21 determines that the registration button 44 has not been input (NO in step S118), the CPU 21 proceeds to step S117 and repeats the above processing.
- step S118 the CPU 21 obtains date / time information by referring to the date / time information output from the clock unit 28, and the current position information from the GPS receiver 212. Is acquired (step S119).
- the CPU 21 transmits the received title, message, and image data, and the acquired date information and position information to the server computer 1 (step S121).
- the CPU 11 of the server computer 1 stores the date / time information transmitted in step S121 as the transmission date / time in the date / time storage file 155 as shown in FIG. 5 (step S122).
- the CPU 11 stores the transmitted title, message, and image data in the date / time storage file 155 in association with the stored transmission date / time (step S123).
- the CPU 11 stores the positional information such as latitude and longitude in association with the transmission date and time transmitted in step S121 as shown in FIG. 6 (step S124).
- the user who owns the mobile phone 2 moves by walking, car, train or the like or stays there.
- the CPU 21 of the mobile phone 2 periodically acquires the current position information from the GPS receiver 212 with reference to the date / time information output from the clock unit 28, and transmits the acquired position information to the server computer 1 (step). S125).
- the CPU 11 of the server computer 1 receives the position information every time it is transmitted from the mobile phone 2, refers to the date / time information output from the clock unit 18, and uses the position information transmitted as the transmission date / time together with FIG. As described above, the history of movement of the mobile phone 2 is sequentially stored (step S126).
- the CPU 11 calculates a distance based on the position information stored in step S124 and the position information received in step S126, and stores the calculated distance in the position storage file 156 in association with the position information stored in step S126 (step S127). ). Note that the processing from step S125 to step S127 is repeatedly executed until a predetermined time (for example, 24 hours) stored in the storage unit 15 has elapsed.
- the CPU 11 reads the message stored in the date / time storage file 155 (step S128).
- the CPU 11 performs morphological analysis on the message and divides it into a plurality of words.
- CPU11 refers to place DB151 about the word in a message, and extracts the word which shows a place (step S129).
- the CPU 11 reads the corresponding class of the word indicating the extracted place with reference to the place DB 151 (step S131).
- the word which shows the place which belongs to the class one step higher than the read class is read with reference to the place DB 151 (step S132).
- the word indicating the location read in step S129 is converted into a high-order concept word indicating the location read in step S132 (step S133).
- CPU11 refers to time DB152 similarly about the word in a message, and extracts the word which shows time (step S134).
- the CPU 11 reads the corresponding class of the word indicating the extracted time with reference to the time DB 152 (step S135).
- a word indicating a time belonging to a class one level higher than the read class is read with reference to the time DB 152 (step S136).
- the word indicating the time read in step S134 is converted into a high-order concept word indicating the time read in step S136 (step S137).
- the CPU 11 stores the message converted in steps S133 and S137 in the date and time storage file 155 in association with the message before conversion (step S138).
- the obfuscated converted message for general users and the unobfuscated original message for limited users are respectively stored in the date / time storage file 155.
- a general user or limited user who wants to view the user's public information starts a browser of the personal computer 3 and accesses the server computer 1.
- the CPU 11 of the server computer 1 transmits a screen for logging in to the SNS, and a general user or a limited user logs in by entering an identification number.
- the CPU 11 of the server computer 1 accepts the public information transmission request and identification information transmitted from the personal computer 3 (step S141).
- the CPU 11 performs the following processing when transmitting the public information of the user stored in step S138 to a general user or a limited user.
- the CPU 11 determines whether or not the transmitted identification information related to the user to be disclosed is stored in the identification information file 157 (step S142).
- the CPU 11 refers to the identification information file 157 and determines whether or not the transmitted identification information is stored as identification information related to the user to be disclosed. For example, when the public information of the user S is transmitted, it is determined whether or not the transmitted identification number is “S001”, “S002”, “S003”, or the like.
- the CPU 11 determines that the transmitted identification information is stored in the identification information file 157 as identification information related to the disclosure target user (YES in step S142), the user of the personal computer 3 is determined to be a limited user. Then, the title, message, and image data are read from the date / time storage file 155 (step S143). Then, after converting the title, message, and image data into an HTML document, it is transmitted to the personal computer 3 of the limited user (step S144), and the process ends. Note that the message read and transmitted in steps S143 and S144 has not been subjected to processing by obscuring.
- the CPU 11 determines that the transmitted identification information is not stored in the identification information file 157 as identification information relating to the disclosure target user (NO in step S142), the user of the personal computer 3 is a general user. And the current date and time information is acquired by referring to the output from the clock unit 18 (step S145). The CPU 11 reads the transmission date / time stored in the date / time storage file 155 (step S146). The CPU 11 calculates the difference between the current date / time information acquired in step S145 and the transmission date / time read in step S146 (step S147).
- step S148 determines whether or not the calculated difference is equal to or greater than the threshold time stored in threshold time storage file 154 (step S148). If the CPU 11 determines that the difference is equal to or greater than the threshold time (YES in step S148), the CPU 11 reads the distance from the distance field of the position storage file 156 (step S149). Note that the distance read from the distance field may be either the distance with the newest transmission date and the distance with the maximum distance in the distance field. In the present embodiment, the distance corresponding to the latest transmission date and time indicating the current position of the mobile phone 2 is read.
- step S150 determines whether or not the read distance is greater than or equal to the threshold distance stored in threshold distance storage file 153 (step S150). If the CPU 11 determines that the read distance is greater than or equal to the threshold distance (YES in step S150), the CPU 11 reads the title, the converted message after the ambiguity processing, and the image data from the date / time storage file 155 (step S151). Then, after converting the title, the converted message, and the image data into an HTML document, it is transmitted to the personal computer 3 of the general user (step S152).
- step S148 determines in step S148 that the difference is not greater than or equal to the threshold time (NO in step S148), and in step S150, the CPU 11 determines that the distance is not greater than or equal to the threshold distance (NO in step S150), the privacy is protected. Therefore, information indicating that the public information has not been released is transmitted (step S153). For example, the message “Please wait for a while” stored in the storage unit 15 may be read out and transmitted to the personal computer 3 of the general user.
- Embodiment 2 The second embodiment relates to a mode in which the threshold distance and the threshold time are increased according to the words in the public information.
- FIG. 16 is an explanatory diagram showing an image when registering public information according to the second embodiment.
- a threshold time input box 45 and a threshold distance input box 46 are newly provided.
- This public information registration screen is stored in the storage unit 15 of the server computer 1, and when the user registers the public information, the public information registration screen read in response to the request is transmitted to the mobile phone 2.
- the CPU 21 of the mobile phone 2 displays a public information registration screen shown in FIG. 16 on the browser 251.
- the user inputs a desired threshold time in the threshold time input box 45 and inputs a desired threshold distance in the threshold distance input box 46 through the input unit 23.
- the threshold time is input as 10 hours, and the threshold distance is input as 10 km.
- the CPU 11 receives the input threshold time and threshold distance together with the title, image data, and message, and triggers the input of the registration button 44 to input the input threshold time, threshold distance, title, image data, and message to the server computer 1.
- the basic threshold time and threshold distance are increased depending on the presence / absence of a word indicating a place and a word indicating a time included in the message, and other messages are disclosed to general users. Increase according to the public status of whether or not. Details will be described below.
- FIG. 17 is an explanatory diagram showing a record layout of the date / time storage file 155 according to the second embodiment.
- the configuration includes a public information ID field, a threshold time field, a threshold distance field, and a status field.
- the date and time storage file 155 stores the public information transmitted from the mobile phone 2 of each user as a history, and the threshold time and threshold distance calculated by the processing described later based on the transmitted threshold time and threshold distance are further stored. It is remembered.
- the public information ID field stores a unique public information ID for specifying the transmitted public information. For example, the public information ID of the public information transmitted at 10:00 on May 25, 2007 is S001. Every time public information is newly transmitted, a new public information ID is assigned and stored.
- the latest public information ID of the public information transmitted at 15:00 on June 1, 2007 is S005. Since the transmission date / time field, the position information field, the title field, and the message field are as described in the first embodiment, detailed description thereof is omitted.
- the image data is stored in association with the public information ID, although not shown in FIG.
- a threshold time determined by processing to be described later is stored based on an instruction from the CPU 11.
- the threshold time is stored in the threshold time storage file 154 in association with the user identification information and the public information ID.
- a threshold distance determined by processing to be described later is stored in the threshold distance field based on an instruction from the CPU 11.
- the threshold distance is stored in the threshold distance storage file 153 in association with the user identification information and the public information ID.
- the status field stores the disclosure status of public information.
- the difference between the public information transmission and the present time is equal to or greater than the threshold time, and the location information of the mobile phone 2 and the current location of the mobile phone 2 at the time when the public information is transmitted.
- the public information is disclosed to limited users, and the converted public information is disclosed to general users.
- a general / limited state a case where the limited user can browse the public information before conversion and the general user can browse the public information after conversion.
- a limited state In other cases, that is, when it is not longer than the threshold time or when it is not longer than the threshold distance, only the limited user can view the public information. This case is called a limited state.
- the CPU 11 determines that the difference between the current date and time and the transmission date and time is equal to or greater than the threshold time stored in the threshold time field, and that the latest distance stored in the position storage file 156 is equal to or greater than the threshold distance stored in the threshold distance field.
- the general / limited state is determined, and the information is stored in the state field. Otherwise, it is determined as a limited state, and the information is stored in the state field.
- the public information with public information IDs S001 and S002 is in the general / limited state
- the public information with public information IDs S003 to S005 is in the limited state.
- step S181 receives the title, message, threshold distance, threshold time, date / time information, position information, and the like transmitted from the mobile phone 2 (step S181).
- the CPU 11 stores the received title, message, and position information in the date / time storage file 155, and stores the received date / time information in the date / time storage file 155 as a transmission date / time (step S182).
- step S181 and step S182 is as described in the first embodiment.
- the CPU 11 determines whether or not there is a limited state in the public information related to the past public information ID in the date and time storage file 155 (step S183). Specifically, the CPU 11 refers to the state field of past public information other than the public information for which the threshold distance is determined by this registration, and extracts public information in which the limited state is stored. In the example of FIG. 17, it can be said that both the past public information IDs S003 and S004 are in a limited state than the public information ID to be registered this time. If the past public information is still in a limited state, the user has registered the public information intensively, and there is an increased possibility that the position and time will be specified. A process for increasing the threshold distance is performed.
- the CPU 11 determines that there is no limited information in the public information related to the past public information ID in the date / time storage file 155 (NO in step S183), the CPU 11 refers to the location DB 151 to indicate the location in the message. It is determined whether or not a word exists (step S184). If the CPU 11 determines that a word indicating the location is present in the message (YES in step S184), the CPU 11 multiplies the threshold distance received in step S181 by the coefficient A stored in the storage unit 15, and stores the threshold distance after multiplication in the date and time. The information is stored in the threshold distance field of the file 155 and in correspondence with the public information ID in the threshold distance storage file 153 (step S185).
- the coefficient A is a value larger than 1, for example, and is 1.2 in the present embodiment.
- the threshold distance L5 multiplied by the coefficient 1.2 is stored as shown in FIG.
- the threshold distance received in step S181 is directly used in the threshold distance field of the date / time storage file 155 and the threshold distance storage file 153. Is stored in association with the public information ID (step S186).
- the received threshold distance itself is used because the possibility of specifying the place is reduced.
- step S183 determines in step S183 that there is a limited state in the public information related to the past public information ID in the date and time storage file 155 (YES in step S183).
- the CPU 11 determines the threshold distance of the public information in the limited state and Of the threshold distances received in step S181, the maximum threshold distance is read (step S187).
- the threshold distances in the limited state are L3 and L4, and the received threshold distance is 10 km.
- the maximum threshold distance is selected in consideration of the relationship with other public information and a margin.
- step S188 judges whether the word which shows a place exists in a message (step S188). If the CPU 11 determines that there is a word indicating the location in the message (YES in step S188), the CPU 11 multiplies the maximum threshold distance read in step S187 by the coefficient B stored in the storage unit 15, and the threshold after multiplication
- the distance is stored in the threshold distance field of the date / time storage file 155 and in correspondence with the public information ID in the threshold distance storage file 153 (step S191).
- the coefficient B is set equal to or larger than the coefficient A. In the present embodiment, 1.5 is stored as the coefficient B. In this embodiment, when the number is increased for ease of explanation, the coefficient is multiplied, but it goes without saying that the coefficient may be added. For example, if the threshold distance is in km units, 5 km may be added, and if the threshold distance is in m units, 500 m may be added.
- the maximum threshold distance read in step S187 is stored in the threshold distance field of the date / time storage file 155 and the threshold distance storage file 153. Is stored in association with the public information ID (step S192). Thereby, the optimum threshold distance is set according to the disclosure status of past public information already registered and the presence or absence of a word indicating the location in the message.
- the optimum threshold time is determined by the following processing for the threshold time.
- 20 and 21 are flowcharts showing the processing procedure when determining the threshold time.
- the CPU 11 of the server computer 1 receives the title, message, threshold distance, threshold time, date / time information, position information, and the like transmitted from the mobile phone 2 (step S201).
- the CPU 11 stores the received title, message, and position information in the date / time storage file 155, and stores the received date / time information in the date / time storage file 155 as a transmission date / time (step S202).
- the CPU 11 determines whether or not there is a limited state in the public information related to the past public information ID in the date / time storage file 155 (step S203). Specifically, the CPU 11 refers to the state field of past public information other than the public information that determines the threshold time by this registration, and extracts the public information in which the limited state is stored. If the past public information is still in a limited state, the user has registered the public information intensively, and there is an increased possibility that the location and time will be specified, so the user inputs the threshold time as follows: Process to increase the threshold time.
- the CPU 11 determines that there is no limited information in the public information related to the past public information ID in the date / time storage file 155 (NO in step S203).
- the CPU 11 refers to the time DB 152 to indicate the time in the message. It is determined whether or not a word exists (step S204). If the CPU 11 determines that there is a word indicating time in the message (YES in step S204), the CPU 11 multiplies the threshold time received in step S201 by the coefficient C stored in the storage unit 15, and stores the threshold time after multiplication in the date and time.
- the information is stored in the threshold time field of the file 155 and in correspondence with the public information ID in the threshold time storage file 154 (step S205).
- the coefficient C is a value larger than 1, for example, and is 1.2 in the present embodiment. For the public information IDS005, the threshold time T5 multiplied by the coefficient 1.2 is stored as shown in FIG.
- the threshold time received in step S201 is directly stored in the threshold time field of the date / time storage file 155 and the threshold time storage file 154. Is stored in association with the public information ID (step S206).
- the received threshold time itself is used because the possibility of specifying time is reduced.
- step S203 If the CPU 11 determines in step S203 that there is a limited state in the public information related to the past public information ID of the date and time storage file 155 (YES in step S203), the threshold time of the public information in the limited state and Of the threshold times received in step S201, the maximum threshold time is read (step S207).
- the threshold times in the limited state are T3 and T4, and the received threshold time is 10 hours.
- the maximum threshold time is selected in consideration of the relationship with other public information and the margin.
- step S208 determines whether or not a word indicating time exists in the message (step S208). If the CPU 11 determines that there is a word indicating time in the message (YES in step S208), the CPU 11 multiplies the maximum threshold time read in step S207 by the coefficient D stored in the storage unit 15, and the threshold after multiplication.
- the time is stored in the threshold time field of the date / time storage file 155 and in correspondence with the public information ID in the threshold time storage file 154 (step S211).
- the coefficient D is set equal to or larger than the coefficient C. In the present embodiment, 1.5 is stored as the coefficient D. In this embodiment, when the number is increased for ease of explanation, the coefficient is multiplied, but it goes without saying that the coefficient may be added. For example, when the threshold time is a time unit, 3 hours may be added, and when the threshold time is a day time, 2 days may be added.
- the maximum threshold time read in step S207 is stored in the threshold time field of the date / time storage file 155 and the threshold time storage file 154. Is stored in association with the public information ID (step S212). Thereby, the optimum threshold time is set according to the disclosure status of the past public information already registered and the presence or absence of a word indicating the time in the message.
- the second embodiment has the above-described configuration, and the other configurations and operations are the same as those of the first embodiment. Therefore, corresponding parts are denoted by the same reference numerals, and detailed description thereof is omitted.
- Embodiment 3 relates to a form in which a pronoun is included as a word indicating a place, and a word indicating past, present, or future is included in a word indicating time.
- FIG. 22 is an explanatory diagram showing a record layout of the location DB 151.
- the word indicating the place includes a pronoun pronoun.
- the demonstrative pronoun is one of the pronouns used to indicate a place, etc., and there are “that”, “that”, “that”, etc. as distant names, and “that”, “there” and “ There “, etc., and there are” this ",” here “,” here “, etc. as short names.
- the near name belongs to the class 4 like the point, and “this”, “here”, “here”, etc. are stored in the place word field.
- the middle name belongs to class 3, which is a higher class than the near name, and “it”, “there”, “there”, etc. are stored.
- the distant name belongs to the class 2 which is a higher rank than the middle name, and “that”, “over there”, “over there”, etc. are stored.
- the “higher” of “here” is “there”, the higher of “there” is “there”, and “here”, “there”, and “there” belong to the same group.
- the “higher” of “here” is “that”, the higher of “here” is “that”, and “here”, “that”, and “that” belong to the same group.
- FIG. 23 is an explanatory diagram showing a record layout of the time DB 152.
- the word indicating time includes words indicating the past, the present, and the future.
- the lower class 2 stores “last month”, “this month”, “next month”, and the like as in the month.
- “Yesterday”, “Today”, “Tomorrow” and the like are stored as in the case of the day.
- “now” is stored as in the case of time.
- the group of words indicating the past is “Yesterday”, “Last Month”, “Last Year”, etc., in order from the lower rank.
- the group of words indicating the present is “now”, “today”, “this month”, “this year”, etc. in order from the lower rank.
- a group of words indicating the future is “tomorrow”, “next month”, “next year”, etc. in order from the lower rank.
- the CPU 11 determines that a word indicating the past, present, or future exists in the message, the CPU 11 starts from 1 to increase the threshold time stored in the threshold time storage file 154 described in the first or second embodiment.
- the threshold time after multiplication is stored in the threshold time storage file 154.
- FIG. 24 is an explanatory diagram showing a display image of public information.
- FIG. 24A is an explanatory diagram showing a display image that can be browsed by a limited user
- FIG. 24B is an explanatory diagram showing a display image that can be browsed by a general user.
- the CPU 11 extracts “now” as a word indicating the past, present or future in the message shown in FIG. 24A with reference to the time DB 152. Then, it is converted to “today” of upper class 3 belonging to the same group of “now” of class 4. Further, the CPU 11 extracts “there” as an indicating pronoun in the message shown in FIG. Then, it is converted to “Aso” which is the upper class 2 of the same group as “there” of the class 3.
- the message is “After I finished drinking coffee, I headed to station L. To participate in the event on May 25, 2007. I cannot take a taxi there.” From "I finished drinking coffee today and headed to town G. To participate in the event in May 2007. I can't take a taxi there .".
- FIG. 25 is a flowchart showing a procedure of conversion and threshold distance increase processing when a pronoun is included.
- CPU11 reads the message memorize
- the CPU 11 stores the converted message in the date / time storage file 155 in association with the message before conversion (step S243).
- the CPU 11 reads the threshold distance from the threshold distance storage file 153 (step S244), and multiplies the read threshold distance by a coefficient larger than 1 stored in the storage unit 15 (step S245).
- the CPU 11 stores the multiplied threshold distance in the threshold distance storage file 153 (step S246).
- FIG. 26 is a flowchart showing a procedure of conversion and threshold time increase processing when a word indicating past, present or future is included.
- CPU11 reads the message memorize
- the CPU 11 reads the threshold time from the threshold time storage file 154 (step S254), and multiplies the read threshold time by a coefficient larger than 1 stored in the storage unit 15 (step S255).
- the CPU 11 stores the threshold time after multiplication in the threshold time storage file 154 (step S256).
- the third embodiment is configured as described above, and the other configurations and operations are the same as those of the first and second embodiments. Therefore, corresponding parts are denoted by the same reference numerals, and detailed description thereof is omitted. To do.
- FIG. 27 is a block diagram illustrating a hardware configuration of the server computer 1 according to the fourth embodiment.
- a home location information file 158 and a threshold frequency storage file 159 are provided.
- the headquarters location information file 158 stores, for each user, information on the headquarters that serves as a base of life in which each user spends a lot of time on a daily basis, such as at home or at work.
- the user accesses the server computer 1 by the mobile phone 2 and logs in to the SNS. Thereafter, the user enters his / her name and address on the initial registration screen or the like. This input address is transmitted to the server computer 1.
- the CPU 11 of the server computer 1 stores the transmitted address in association with the user identification information. Further, the CPU 11 reads map data (not shown) in the storage unit 15 and stores the latitude and longitude information corresponding to the transmitted address in the home location information file 158 as home location information in association with the user identification information.
- the threshold frequency storage file 159 stores the transmission frequency of public information transmitted from the mobile phone 2 as a threshold value. For example, 3 records are stored per hour.
- the CPU 11 refers to a plurality of transmission dates / times in the transmission date / time field of the date / time storage file 155 to calculate the transmission frequency. In the present embodiment, the current date and time information output from the clock unit 18 is referred to calculate how many pieces of public information have been transmitted one hour before the present time. Then, the CPU 11 determines whether or not the calculated transmission frequency is equal to or higher than the threshold frequency stored in the threshold frequency storage file 159.
- the CPU 11 determines that the frequency is equal to or higher than the threshold frequency
- the latest location information is read out of the location information in the location storage file 156, and the home location information stored in the home location information file 158 is read out.
- the distance is calculated based on the position information of both, and it is determined whether or not the calculated distance is larger than the threshold value stored in the storage unit 15.
- the distance serving as the threshold is stored as 100 km, for example. If the CPU 11 determines that the distance is equal to or greater than the threshold frequency and the distance is equal to or greater than the threshold, the CPU 11 determines that the travel destination is the threshold distance stored in the threshold distance storage file 153 and the threshold distance stored in the threshold time storage file 154 And processing for shortening the threshold time. Specifically, the threshold distance and the threshold time are multiplied by a coefficient smaller than 1, for example, 0.8.
- the CPU 11 of the server computer 1 receives the identification information for identifying the user transmitted from the mobile phone 2 and the home address of the user (step S281).
- CPU11 refers to the map data memorize
- the CPU 11 stores the converted latitude / longitude in the home location information file in association with the identification information as home location information (step S283).
- the public information is accumulated in the date / time storage file 155.
- the CPU 11 refers to the date and time information output from the clock unit 18 and reads the transmission date and time for one hour before from the current date and time information from the date and time storage file 155 (step S284).
- the CPU 11 calculates the transmission frequency of the public information by dividing the number of transmission dates and times related to the read public information by one hour which is a unit time (step S285).
- the CPU 11 reads the threshold frequency from the threshold frequency storage file 159 (step S286).
- the CPU 11 determines whether or not the calculated transmission frequency is equal to or higher than the read threshold frequency (step S287).
- step S287 When the CPU 11 determines that the transmission frequency is not equal to or higher than the threshold frequency (NO in step S287), the series of processing ends. On the other hand, when the CPU 11 determines that the transmission frequency is equal to or higher than the threshold frequency (YES in step S287), the CPU 11 reads the current position information from the position storage file 156 (step S288). Specifically, the CPU 11 reads position information with the latest transmission date and time in the position storage file 156. The home location information stored in step S283 is read from the home location information file 158 (step S289). The CPU 11 calculates the distance based on the position information read in step S288 and the latitude / longitude of the home position information read in step S289 (step S291).
- step S292 reads a threshold value from the memory
- the CPU 11 reads out the threshold time stored in advance as an initial value from the threshold time storage file 154 (step S297).
- the CPU 11 multiplies the coefficient smaller than 1 read out in step S295 by the threshold time, and stores the multiplied threshold time in the threshold time storage file 154 (step S298). Thereby, the shortening process of the threshold time and the threshold distance is executed.
- the CPU 11 determines whether or not a predetermined time has elapsed (step S299). If the CPU 11 determines that the certain time has not elapsed (NO in step S299), the CPU 11 waits until the certain time has elapsed. Note that this predetermined time is stored in advance in the storage unit, for example, 24 hours.
- the threshold distance is changed to the threshold distance that is the initial value read in step S294, and the changed threshold distance is stored in the threshold distance storage file 153. (Step S2910).
- the CPU 11 changes the threshold time to the threshold time that is the initial value read in step S297, and stores the changed threshold time in the threshold time storage file 154 (step S2911).
- the fourth embodiment is configured as described above, and the other configurations and operations are the same as those of the first to third embodiments. Therefore, the corresponding parts are denoted by the same reference numerals and detailed description thereof is omitted. To do.
- Embodiment 5 relates to a mode in which the threshold time is increased when position information is not received for a certain period of time.
- FIG. 30 is an explanatory diagram showing a record layout of the position storage file 156 according to the second embodiment.
- the CPU 21 of the mobile phone 2 refers to the output of the clock unit 28 and transmits the position information output from the GPS receiver 212 to the server computer 1 every 10 minutes.
- the CPU 11 of the server computer 1 stores position information in the position storage file 156 in association with the transmission date and time. In the example of FIG. 30, the position information of the mobile phone 2 is stored every 10 minutes.
- the CPU 11 of the server computer 1 stores information indicating that it cannot be received after 10 minutes.
- the CPU 11 displays “reception error” that is information indicating that it cannot be received at 10:40. Store it in association with. Further, the position information is not transmitted at 10:50 and 11:00.
- the CPU 11 performs a process of increasing the threshold distance stored in the threshold distance storage file 153 when a predetermined time has elapsed since the last reception of the position information.
- This predetermined time is stored in advance in the storage unit 15 and is, for example, 30 minutes. As described above, when the position information cannot be received, the user may remain in the same place. Therefore, when the position information cannot be received for a certain period of time, the threshold time is increased to appropriately protect the privacy.
- FIG. 31 is a flowchart showing the procedure of the increase process.
- the CPU 11 determines whether or not position information and transmission date / time have been received from the mobile phone 2 (step S311). Note that only the location information may be transmitted from the mobile phone 2, and it may be determined in step S311 whether the location information has been received. In this case, the output from the clock unit 18 of the server computer 1 is referred to, and the reception date is used instead of the transmission date.
- the CPU 11 receives the transmission date / time and position information (YES in step S311)
- the CPU 11 stores the received transmission date / time and position information in the position storage file 156 (step S312). Thereafter, the process returns to step S311.
- Step S313 the CPU 11 determines whether a predetermined time has elapsed since the last reception of the position information and the transmission date / time with reference to the position storage file 156. If the CPU 11 determines that the predetermined time has not elapsed (NO in step S313), the process returns to step S311. On the other hand, if the CPU 11 determines that the predetermined time has elapsed (YES in step S313), the mobile phone 2 determines that the position information cannot be transmitted due to the above-described cause, and the initial value stored in the threshold time storage file 154 Is read out (step S314).
- the CPU 11 reads out a coefficient stored in advance from the storage unit 15 (step S315). This coefficient may be a value larger than 1.
- the CPU 11 multiplies the threshold time by a coefficient and stores it in the threshold time storage file 154 (step S316).
- the CPU 11 again determines whether or not the transmission date / time and position information have been received (step S317). If the CPU 11 determines that it has not received the transmission date / time and position information (NO in step S317), it waits until these are received. On the other hand, if the CPU 11 determines that the transmission date / time and position information have been received (YES in step S317), the threshold time after multiplication by the coefficient stored in step S316 is used as the initial threshold time stored in the threshold time storage file. Is stored in place (step S318).
- the fifth embodiment has the above-described configuration, and the other configurations and operations are the same as those of the first to fourth embodiments. Therefore, the corresponding parts are denoted by the same reference numerals and detailed description thereof is omitted. To do.
- Embodiment 6 relates to a mode in which the threshold time and the threshold distance are shortened according to the moving speed of the mobile phone 2.
- FIG. 32 is an explanatory diagram showing a record layout of the position storage file 156 according to the sixth embodiment.
- a moving distance field and a moving speed field are newly provided.
- the position storage file 156 functions as a position history DB.
- the CPU 21 of the mobile phone 2 transmits public information, transmission date / time, and position information to the server computer 1, and the CPU 11 of the server computer 1 receives the transmission date / time and position information.
- the distance field stores the distance between the position information of the mobile phone 2 when the transmission date and time is first received and the position information after the unit time (in this example, 10 minutes) has elapsed, in association with the transmitted position information. ing.
- the CPU 11 calculates a movement distance per unit time based on the distance stored in the distance field, and stores it in the movement distance field in association with the transmission date / time and position information. For example, at 10:10 on May 25, it can be understood that the vehicle has moved by 0.2 km compared to 10:00:00 10 minutes ago. At 10:20, it moved 0.2 km compared to 10:10 10 minutes ago, and at 10:30, it moved 10 km compared to 10:20 10 minutes ago. I can understand that.
- the CPU 11 calculates the moving speed per unit time based on the moving distance per unit time, and stores the calculated moving speed in the moving speed field of the position storage file 156.
- the unit is stored as speed per hour, and from 10: 0 to 10:10 and from 10:10 to 10:20, the travel distance is 10 minutes and each is 0.2 km. It is calculated as 1.2 km. It is estimated that the user who uses the mobile phone 2 is moving on foot. On the other hand, from 10:20 to 10:30, the vehicle moves 10 km per 10 minutes, so the moving speed is calculated as 60 km / h.
- CPU11 reads the threshold moving speed memorize
- the CPU 11 performs processing for shortening the threshold time stored in the threshold time storage file 154, and similarly performs processing for shortening the threshold distance stored in the threshold distance storage file 153.
- FIG. 33 and FIG. 34 are flowcharts showing the procedure for shortening the threshold time and threshold distance based on the moving speed.
- the CPU 11 of the server computer 1 sequentially stores the position information transmitted from the mobile phone 2 every unit time in the position storage file 156 in association with the transmission date / time.
- the CPU 11 calculates a movement distance per unit time based on the transmitted position information (step S331).
- the CPU 11 stores the calculated moving distance in the position storage file 156 in association with the transmission date and time (step S332).
- the CPU 11 calculates a moving speed per unit time based on the calculated moving distance and unit time (step S333).
- the CPU 11 stores the calculated moving speed in the position storage file 156 in association with the moving distance and the transmission date / time (step S334).
- the CPU 11 reads the threshold speed stored in advance in the storage unit 15 (step S335).
- the CPU 11 determines whether or not the calculated moving speed is equal to or higher than the threshold speed (step S336).
- the CPU 11 determines that the calculated moving speed is not equal to or higher than the threshold speed (NO in step S336), the series of processing ends.
- the CPU 11 determines that the calculated moving speed is equal to or higher than the threshold speed (YES in step S336)
- the CPU 11 reads the initial threshold time from the threshold time storage file 154 (step S337).
- the CPU 11 reads the coefficient from the storage unit 15 (step S338), multiplies the read coefficient by the threshold time, and stores the multiplied threshold time in the threshold time storage file 154 (step S339).
- the coefficient may be a value smaller than 1.
- the CPU 11 reads the threshold distance which is the initial value stored in the threshold distance storage file 153 (step S341).
- the CPU 11 multiplies the read threshold distance by the coefficient read in step S338, and stores the multiplied threshold distance in the threshold distance storage file 153 (step S342).
- step S343 determines whether or not a predetermined time has passed. If the CPU 11 determines that the predetermined time has not elapsed (NO in step S343), the CPU 11 waits until the predetermined time elapses. This fixed time is stored in the storage unit 15 for 3 hours, for example. On the other hand, if the CPU 11 determines that the predetermined time has elapsed (YES in step S343), the threshold time as the initial value is stored in the threshold time storage file 154 to return the threshold distance and the threshold time to the initial values (step S344). ), And the threshold distance as an initial value is stored in the threshold distance storage file 153 (step S345).
- the sixth embodiment has the above-described configuration, and the other configurations and operations are the same as those of the first to fifth embodiments. Therefore, the corresponding parts are denoted by the same reference numerals and detailed description thereof is omitted. To do.
- Embodiment 7 The seventh embodiment relates to a mode in which when a word indicating a plurality of times belonging to different classes or a word indicating a place exists, words other than the word belonging to the highest class are converted in accordance with the highest class.
- FIG. 35 is an explanatory diagram showing a display image of public information.
- FIG. 35A is an explanatory diagram showing a display image that can be browsed by a limited user
- FIG. 35B is an explanatory diagram showing a display image that can be browsed by a general user. The processing in this embodiment will be described using the example sentence in FIG.
- CPU11 extracts the word which shows the place in a message with reference to place DB151 shown in FIG.
- “L station” of class 4, “there” of class 3, and “F city” of class 2 are extracted.
- CPU11 extracts the word which shows the place with the highest class, and performs the conversion process of the word which shows another place according to the class of the word which shows the extracted place.
- a word indicating a place having the highest class is converted into a word indicating a place belonging to a higher class by the processing described in the first embodiment. For example, “L station” of class 4 jumps over “G town” of class 3 and is converted to “C city” of class 2. This is because when there are a plurality of classes, it is safer to perform the conversion process based on the highest class as much as possible.
- “there” in class 3 is converted to “there”, a distant name of class 2.
- “F city” of class 2 with the highest class is converted to “B prefecture” belonging to class 1 which is one higher level.
- Similar processing is performed for words indicating time.
- CPU11 extracts the word which shows the time in a message with reference to time DB152 shown in FIG. In the example of FIG. 35A, “Now” of class 4, “May 25, 2007” of class 3, and “April 2007” of class 2 are extracted.
- CPU11 extracts the word which shows the time of the highest class, and performs the conversion process of the word which shows another time according to the class of the word which shows the time of extraction. Further, the word indicating the time when the class is the highest is converted into the word indicating the time belonging to a higher class by the processing described in the first embodiment.
- “Now” of class 4 jumps over “Today” of class 3 and is converted to “This month” of class 2. Further, “May 25, 2007” of class 3 is converted to “May 2007” of class 2. “April 2007” of class 2 having the highest class is converted to “2007” belonging to class 1 which is one higher level.
- the CPU 11 deletes the word indicating the place or time, or a specific symbol, for example,? It may be converted into a mark or a “secret” mark.
- the CPU 11 stores the converted message together with the message before conversion in the date / time storage file 155. When there is no upper class, there is often no need to raise the class by one because it is sufficient to ensure safety and protect privacy. Therefore, it is not necessary to convert to a specific symbol.
- 36 and 37 are flowcharts showing the procedure of the conversion process.
- the CPU 11 reads the message transmitted from the date / time storage file 155 and performs conversion processing according to the following procedure.
- CPU11 extracts the word which shows a place from the read message with reference to place DB151 (step S361).
- the CPU 11 pays attention to the class of the word indicating the extracted place, and extracts a word indicating the place with the highest class (step S362).
- the CPU 11 converts a word indicating another place not extracted in step S362 with reference to the place DB 151 on the basis of the highest word class (step S363).
- the CPU 11 determines whether there is a higher rank than the word indicating the place of the highest rank with reference to the place DB 151 (step S364). When the CPU 11 determines that there is no higher class (NO in step S364), the CPU 11 converts the word indicating the place with the highest class extracted in step S362 into an abstract symbol stored in advance in the storage unit 15 (step S365). ). On the other hand, if the CPU 11 determines that a higher class exists (YES in step S364), the word indicating the place with the highest class is converted into a higher class word (step S366).
- CPU11 extracts the word which shows time from the read message with reference to time DB152 (step S367).
- the CPU 11 pays attention to the class of the word indicating the time of extraction, and extracts a word indicating the time of the highest class (step S368).
- the CPU 11 converts a word indicating another time not extracted in step S367 with reference to the time DB 152 on the basis of the highest word class (step S369).
- the CPU 11 determines whether or not there is a higher rank than the word indicating the time of the highest rank with reference to the time DB 152 (step S371). If the CPU 11 determines that there is no higher class (NO in step S371), the CPU 11 converts the word indicating the highest class extracted in step S368 into an abstract symbol stored in advance in the storage unit 15 (step S372). ). On the other hand, if the CPU 11 determines that a higher class exists (YES in step S371), the CPU 11 converts a word indicating the highest class to a higher class word (step S373). Then, the CPU 11 stores the converted message in the date and time storage file 155 in association with the message before conversion (step S374).
- the seventh embodiment has the above-described configuration, and the other configurations and operations are the same as those of the first to sixth embodiments. Therefore, the corresponding parts are denoted by the same reference numerals and detailed description thereof is omitted. To do.
- Embodiment 8 The eighth embodiment relates to a mode in which the converted public information is transmitted to a general user after performing an obfuscation process with higher strength when it is not longer than the threshold distance or not longer than the threshold time.
- FIG. 38 is a graph for explaining the processing contents of this embodiment.
- FIG. 38A is a graph showing changes in the obscuration strength of public information for general users according to Embodiment 1
- FIG. 38B is a graph showing the obscuration strength of public information for general users according to the present embodiment. It is a graph which shows a change.
- the horizontal axis indicates the distance, and Ts is the threshold distance.
- the vertical axis indicates the strength of the obscuring process.
- FIGS. 38 (a) and (b) both show the change in the obscuration intensity accompanying the change in the distance.
- the intensity of obscuration is the first stage.
- This first stage is a conversion process that raises the rank of a word indicating a place by one stage. If it is not longer than the threshold distance, the general user cannot receive the converted message. The same applies to the threshold time.
- the limited user can receive transmission of public information that has not been subjected to the obfuscation process.
- the CPU 11 performs the ambiguity processing in the second stage, which is one stage higher than the first stage. Specifically, a conversion process is performed to increase the word class indicating distance by two levels. Further, when the threshold distance is less than 1 ⁇ 2, the CPU 11 performs the obscuring processing strength in the third stage, which is two stages higher than the first stage. Specifically, a conversion process is performed to increase the word class indicating distance by three levels.
- the intensity is changed based on 1 ⁇ 2 of the threshold distance has been described. However, this is only an example, and the intensity can be freely changed, for example, every 1/3 of the threshold distance. You only have to set it.
- FIG. 39 is an explanatory diagram showing a display image of public information.
- FIG. 39A is an explanatory diagram showing a display image that can be viewed by a general user when the level of obscuration is at the second level
- FIG. 39B is a level at which the level of obscuration is at the third level.
- FIG. 39 (b) shows a case where the distance is less than 1 ⁇ 2 of the threshold distance or the difference is less than 1 ⁇ 2 of the threshold time.
- the CPU 11 performs a process of increasing the level of obscuration from the word class indicating the original time or place by three steps. For example, the word “now” indicating time is increased by three levels and converted to “this year”. Similarly, the word “L station” indicating a place is increased by three levels and converted to “A prefecture”. If the CPU 11 raises the class and the corresponding word does not exist in the location DB 151 or the time DB 152, the symbol? Is read from the storage unit 15 and converted. For example, the word “25 May 2007” indicating time is converted to “?”, And the word “there” indicating location is also converted to “?”.
- FIG. 39 (a) shows a case where the distance is 1/2 or more of the threshold distance and less than the threshold distance, or the difference is 1/2 or more of the threshold time and less than the threshold distance.
- the CPU 11 performs a process of increasing the level of ambiguity by two steps from the word class indicating the original time or place. For example, the word “now” indicating time is increased by two levels and converted to “this month”. Similarly, the word “L station” indicating the place is converted into “C city” by two steps. This makes it possible to provide information with high immediacy to general users.
- a two-stage class is provided, and the limited user of one class is subjected to the ambiguity processing according to the present embodiment in the same manner as the limited user when the distance is less than the threshold distance and the threshold time.
- the public information may be transmitted.
- the CPU 11 of the server computer 1 receives the message in the public information transmitted from the mobile phone 2, and extracts a word indicating the place and a word indicating the time (step S401).
- the CPU 11 refers to the location DB 151 for the word indicating the extracted location, performs the first to third stage conversion processing, and similarly refers to the time DB 152 for the word indicating the extracted time, Conversion processing is performed (step S402).
- the CPU 11 stores the message after the conversion processing in the first to third steps is associated with the message before conversion in the date and time storage file 155 (step S403).
- the CPU 11 reads out the word indicating the corresponding place belonging to the upper class based on the class of the word indicating the extracted place, converts it as the first stage, and converts the corresponding place belonging to the second upper class. Are read and converted as the second stage, and words indicating the corresponding places belonging to the upper three classes are read and converted as the third stage. The same processing is performed for the word indicating time.
- a general user or a limited user who wants to view the user's public information starts the browser of the personal computer 3 and accesses the server computer 1.
- the CPU 11 of the server computer 1 transmits a screen for logging in to the SNS, and a general user or a limited user logs in by entering an identification number.
- the CPU 11 of the server computer 1 receives the public information transmission request and identification information transmitted from the personal computer 3 (step S404).
- the CPU 11 determines whether or not the transmitted identification information related to the user to be disclosed is stored in the identification information file 157 (step S405).
- the CPU 11 refers to the identification information file 157 and determines whether or not the transmitted identification information is stored as identification information related to the user to be disclosed.
- the CPU 11 determines that the transmitted identification information is stored in the identification information file 157 as identification information relating to the disclosure target user (YES in step S405), the user of the personal computer 3 is determined to be a limited user.
- the title, message, and image data are read from the date / time storage file 155 (step S406). Then, after converting the title, message, and image data into an HTML document, it is transmitted to the personal computer 3 of the limited user (step S407), and the process ends.
- the CPU 11 determines that the transmitted identification information is not stored in the identification information file 157 as identification information relating to the disclosure target user (NO in step S405), the user of the personal computer 3 is a general user.
- the current date / time information is acquired by referring to the output from the clock unit 18 (step S408).
- the CPU 11 reads the transmission date / time stored in the date / time storage file 155 (step S409).
- the CPU 11 calculates the difference between the current date information acquired in step S408 and the transmission date read in step S409 (step S411).
- step S412 determines whether or not the calculated difference is equal to or greater than the threshold time stored in threshold time storage file 154 (step S412). If the CPU 11 determines that the difference is equal to or greater than the threshold time (YES in step S412), the CPU 11 reads the distance from the distance field of the position storage file 156 (step S413).
- step S414 determines whether or not the read distance is equal to or greater than the threshold distance stored in threshold distance storage file 153 (step S414).
- the CPU 11 determines that the read distance is greater than or equal to the threshold distance (YES in step S414)
- the CPU 11 reads the title, the converted message after the obscuring process, and the image data from the date / time storage file 155 (step S415).
- the CPU 11 converts the title, the converted message, and the image data into an HTML document, and then transmits it to the personal computer 3 of the general user (step S416), and the series of processing ends.
- step S412 determines in step S412 that the difference is not greater than or equal to the threshold time (NO in step S412), and if the CPU 11 determines in step S414 that the distance is not greater than or equal to the threshold distance (NO in step S414), the difference is the threshold time. Whether or not the distance is less than 1 ⁇ 2 of the threshold distance (step S417).
- the CPU 11 determines that the difference is less than 1 ⁇ 2 of the threshold time or the distance is less than 1 ⁇ 2 of the threshold distance (YES in step S417), the CPU 11 can release the third stage.
- the title, the message after the third stage conversion, and the image data are read from the date / time storage file 155 (step S418). Then, the title, the message after the third stage conversion, and the image data are transmitted to the personal computer 3 of the general user (step S419). Then, the process returns to step S408 again.
- the CPU 11 determines that the difference is less than 1 ⁇ 2 of the threshold time or the distance is not less than 1 ⁇ 2 of the threshold distance (NO in step S417), the difference is 1 ⁇ 2 or more of the threshold time and less than the threshold time. Or, it is determined that the distance is 1 ⁇ 2 or more of the threshold distance and less than the threshold distance, and the title, the message after the second stage conversion, and the image are converted from the date / time storage file 155 so that the second stage can be disclosed. Data is read (step S421). Then, the title, the message after the second stage conversion, and the image data are transmitted to the personal computer 3 of the general user (step S422). Then, the process returns to step S408 again.
- the eighth embodiment is configured as described above, and the other configurations and operations are the same as those of the first to seventh embodiments. Therefore, the corresponding parts are denoted by the same reference numerals and detailed description thereof is omitted. To do.
- FIG. 43 is a block diagram showing a configuration of the server computer 1 according to the ninth embodiment.
- a program for operating the server computer 1 according to the ninth embodiment can be provided by a portable recording medium 1A such as a CD-ROM as in the ninth embodiment. Furthermore, the program can be downloaded from another server computer (not shown) via the communication network N. The contents will be described below.
- a portable recording medium 1A on which a program for causing a recording medium reading device (not shown) of the server computer 1 shown in FIG. 43 to receive position information, convert a word, and transmit public information is inserted into the storage unit 15
- This program is installed in the control program 15P.
- such a program may be downloaded from an external server computer (not shown) via the communication unit 16 and installed in the storage unit 15.
- Such a program is loaded into the RAM 12 and executed. Thereby, it functions as the server computer 1 as described above.
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Abstract
Description
1A 可搬型記録媒体
2 携帯電話機
3 パーソナルコンピュータ
11 CPU
13 入力部
14 表示部
15 記憶部
15P 制御プログラム
16 通信部
18 時計部
21 CPU
22 RAM
23 入力部
24 表示部
25 記憶部
26 通信部
28 時計部
151 場所DB
152 時DB
153 閾距離記憶ファイル
154 閾時間記憶ファイル
155 日時記憶ファイル
156 位置記憶ファイル
157 識別情報ファイル
158 本拠地位置情報ファイル
159 閾頻度記憶ファイル
210 マイク
211 スピーカ
212 GPS受信機
N 通信網
以下本発明の実施の形態を、図面を参照して説明する。図1は公開情報送信システムの概要を示す模式図である。公開情報送信システムは、中央装置1、携帯情報端末2、通信網N、及び、情報処理端末3、3、・・・を含んで構成される。携帯情報端末2はブログまたはSNSに公開情報をアップロードするユーザが使用する携帯電話機、PDA(Personal Digital Assistance)、ノート型コンピュータ、表示部及び入力部を有する可搬型オーディオプレーヤ、通信機能を有するデジタルカメラ、または可搬型ゲーム機等である。以下では携帯情報端末2を携帯電話機2であるものとして説明し、また情報をSNSにアップロードする例を用いて説明する。
実施の形態2は閾距離及び閾時間を公開情報中の単語に応じて増加させる形態に関する。図16は実施の形態2に係る公開情報を登録する際のイメージを示す説明図である。実施の形態1の構成に加えて、閾時間入力ボックス45及び閾距離入力ボックス46が新たに設けられている。この公開情報登録画面はサーバコンピュータ1の記憶部15に記憶されており、ユーザが公開情報を登録する際に、その要求に応えて読み出した公開情報登録画面を携帯電話機2へ送信する。携帯電話機2のCPU21はブラウザ251上に図16に示す公開情報登録画面を表示する。ユーザは入力部23を通じて、希望する閾時間を閾時間入力ボックス45に入力し、また希望する閾距離を閾距離入力ボックス46に入力する。
実施の形態3は場所を示す単語として指示代名詞が含まれ、時を示す単語に過去、現在、または未来を示す単語が含まれる形態に関する。図22は場所DB151のレコードレイアウトを示す説明図である。場所を示す単語には指示代名詞が含まれる。指示代名詞は場所等を指し示す際に用いられる代名詞の一つであり、遠称として「あれ」、「あそこ」、及び「あちら」等が存在し、中称として「それ」、「そこ」及び「そちら」等が存在し、近称として「これ」、「ここ」及び「こちら」等が存在する。
実施の形態4は本拠地以外の領域においては閾時間及び閾距離を短縮する形態に関する。図27は実施の形態4に係るサーバコンピュータ1のハードウェア構成を示すブロック図である。実施の形態1の構成に加えて、本拠地位置情報ファイル158及び閾頻度記憶ファイル159が設けられている。本拠地位置情報ファイル158はユーザ別に、各ユーザの自宅または職場等のユーザが日常において多くの時間を費やす生活の本拠となる本拠地の情報が記憶されている。具体的には、ユーザは携帯電話機2によりサーバコンピュータ1へアクセスし、SNSへログインする。その後、初期登録画面等において、自身の名前及び住所を入力する。この入力された住所はサーバコンピュータ1へ送信される。
実施の形態5は位置情報を一定時間受信しない場合に、閾時間を増加する形態に関する。図30は実施の形態2に係る位置記憶ファイル156のレコードレイアウトを示す説明図である。携帯電話機2のCPU21は時計部28の出力を参照し、10分おきにGPS受信機212から出力される位置情報をサーバコンピュータ1へ送信する。サーバコンピュータ1のCPU11は実施の形態1で述べた如く、送信日時に対応づけて位置情報を位置記憶ファイル156に記憶する。図30の例では10分ごとに携帯電話機2の位置情報が記憶されている。
実施の形態6は携帯電話機2の移動速度に応じて閾時間及び閾距離を短縮する形態に関する。図32は実施の形態6に係る位置記憶ファイル156のレコードレイアウトを示す説明図である。実施の形態1の構成に加えて、移動距離フィールド及び移動速度フィールドが新たに設けられている。位置記憶ファイル156は位置履歴DBとして機能するものである。実施の形態1で述べた如く、携帯電話機2のCPU21は公開情報、送信日時及び位置情報をサーバコンピュータ1へ送信し、サーバコンピュータ1のCPU11は、送信日時及び位置情報を受信する。距離フィールドは送信日時を最初に受信した時点における携帯電話機2の位置情報と、単位時間(本例では10分)経過後の位置情報との距離を、送信された位置情報に対応づけて記憶している。
実施の形態7は異なる階級に属する複数の時を示す単語または場所を示す単語が存在する場合、最も高い階級に属する単語以外の単語について、最も高い階級にあわせて単語を変換する形態に関する。図35は公開情報の表示イメージを示す説明図である。図35(a)は限定ユーザが閲覧することのできる表示イメージを示す説明図であり、図35(b)は一般ユーザが閲覧することのできる表示イメージを示す説明図である。図35の文例を用いて本実施の形態における処理を説明する。
実施の形態8は閾距離以上でない場合及び閾時間以上でない場合に、より強度の高い曖昧化処理を行った上で、一般ユーザに変換後の公開情報を送信する形態に関する。図38は本実施形態の処理内容を説明するためのグラフである。図38(a)は実施の形態1に係る一般ユーザに対する公開情報の曖昧化強度の変化を示すグラフであり、図38(b)は本実施形態に係る一般ユーザに対する公開情報の曖昧化強度の変化を示すグラフである。横軸は距離を示し、Tsは閾距離である。また縦軸は曖昧化処理の強度を示す。図38(a)及び(b)ともに距離の変化に伴う曖昧化強度の変化を示している。
図43は実施の形態9に係るサーバコンピュータ1の構成を示すブロック図である。実施の形態9に係るサーバコンピュータ1を動作させるためのプログラムは、本実施の形態9のように、CD-ROM等の可搬型記録媒体1Aで提供することも可能である。さらに、プログラムを、通信網Nを介して図示しない他のサーバコンピュータからダウンロードすることも可能である。以下に、その内容を説明する。
Claims (18)
- 携帯情報端末から第3者に公開すべく中央装置へ送信された公開情報を、前記中央装置から情報処理端末へ送信する公開情報送信方法において、
前記携帯情報端末から送信される位置情報を前記中央装置が受信する受信ステップと、
場所を示す単語を複数の階級に応じて分類した場所データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる場所を示す単語を、上位の階級に属する場所を示す単語に変換する変換ステップと、
前記受信ステップにより受信した前記携帯情報端末の位置情報及び前記公開情報を送信した時点の前記携帯情報端末の位置情報に基づく距離が、記憶部に記憶した閾距離以上の場合に、前記変換ステップにより変換された後の公開情報を前記中央装置から前記情報処理端末へ送信する送信ステップと
を備えることを特徴とする公開情報送信方法。 - 携帯情報端末、情報処理装置及び中央装置が通信網を介して接続された公開情報送信システムにおいて、
前記携帯情報端末は、前記中央装置へ第3者に公開する公開情報を前記中央装置へ送信する手段を備え、
前記中央装置は、
前記送信する手段により送信された公開情報を受信する手段と、
前記携帯情報端末から送信される位置情報を受信する受信手段と、
場所を示す単語を複数の階級に応じて分類した場所データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる場所を示す単語を、上位の階級に属する場所を示す単語に変換する変換手段と、
前記受信手段により受信した前記携帯情報端末の位置情報及び前記公開情報を送信した時点の前記携帯情報端末の位置情報に基づく距離が、記憶部に記憶した閾距離以上の場合に、前記変換手段により変換された後の公開情報を前記情報処理端末へ送信する送信手段と
を備えることを特徴とする公開情報送信システム。 - 携帯情報端末から第3者に公開すべく送信された公開情報を外部へ送信する中央装置において、
前記携帯情報端末から送信される位置情報を受信する受信手段と、
場所を示す単語を複数の階級に応じて分類した場所データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる場所を示す単語を、上位の階級に属する場所を示す単語に変換する変換手段と、
前記受信手段により受信した前記携帯情報端末の位置情報及び前記公開情報を送信した時点の前記携帯情報端末の位置情報に基づく距離が、記憶部に記憶した閾距離以上の場合に、前記変換手段により変換された後の公開情報を外部へ送信する送信手段と
を備えることを特徴とする中央装置。 - 前記携帯情報端末により前記公開情報が送信された送信日時を記憶する日時記憶手段と、
時を示す単語を複数の階級に応じて分類した時データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる時を示す単語を、上位の階級に属する時を示す単語に変換する時変換手段とを備え、
前記送信手段は、
前記受信手段により受信した前記携帯情報端末の位置情報及び前記公開情報を送信した時点の前記携帯情報端末の位置情報に基づく距離が、記憶部に記憶した閾距離以上であり、かつ、時計部により出力される日時及び前記日時記憶手段に記憶した送信日時の差分が、前記記憶部に記憶した閾時間以上の場合に、前記変換手段及び前記時変換手段により変換された後の公開情報を外部へ送信するよう構成してある
ことを特徴とする請求項3に記載の中央装置。 - 前記携帯情報端末から送信された公開情報中に場所を示す単語が存在する場合、前記記憶部に記憶した閾距離を増加する閾距離増加手段
を備えることを特徴とする請求項4に記載の中央装置。 - 前記携帯情報端末から送信された公開情報中に時を示す単語が存在する場合、前記記憶部に記憶した閾時間を増加する閾時間増加手段
を備えることを特徴とする請求項4または5に記載の中央装置。 - 前記場所を示す単語は、指示代名詞を含み、
前記閾距離増加手段は、
前記携帯情報端末から送信された公開情報中に指示代名詞が存在する場合、前記記憶部に記憶した閾距離を増加するよう構成してある
ことを特徴とする請求項5に記載の中央装置。 - 前記時を示す単語は、過去、現在または未来を示す単語を含み、
前記閾時間増加手段は、
前記携帯情報端末から送信された公開情報中に過去、現在または未来を示す単語が存在する場合、前記記憶部に記憶した閾時間を増加するよう構成してある
ことを特徴とする請求項6に記載の中央装置。 - ユーザの識別情報を記憶した識別情報記憶部を備え、
前記送信手段は、
前記情報処理装置から識別情報が送信された場合に、該送信された識別情報が前記識別情報記憶部に存在せず、かつ、前記受信手段により受信した前記携帯情報端末の位置情報及び前記公開情報を送信した時点の前記携帯情報端末の位置情報に基づく距離が、記憶部に記憶した閾距離以上の場合に、前記変換手段により変換された後の公開情報を外部へ送信するよう構成してある
ことを特徴とする請求項3に記載の中央装置。 - 前記日時記憶手段により記憶した複数の公開情報の送信日時に基づき、送信頻度を算出する算出手段と、
前記携帯情報端末を使用するユーザの本拠地位置情報を記憶部に記憶する本拠地記憶手段と、
前記算出手段により算出した送信頻度が、記憶部に記憶した閾頻度以上であり、かつ、前記受信手段により受信した位置情報及び前記本拠地記憶手段に記憶した本拠地位置情報に基づく距離が記憶部に記憶した閾値以上の場合に、前記記憶部に記憶した閾距離または閾時間を短縮する短縮手段と
を備えることを特徴とする請求項4に記載の中央装置。 - 前記受信手段により前記携帯情報端末から送信される位置情報を最後に受信してから所定時間を経過したと判断した場合、前記記憶部に記憶した閾時間を増加する手段
を備えることを特徴とする請求項4に記載の中央装置。 - 前記受信手段により受信した位置情報を位置履歴データベースに記憶する位置履歴記憶手段と、
前記位置履歴データベースに記憶した位置情報に基づき、移動速度を算出する速度算出手段と、
該移動速度算出手段により算出した移動速度が、前記記憶部に記憶した閾移動速度以上の場合、前記記憶部に記憶した閾距離または閾時間を短縮する手段と
を備えることを特徴とする請求項4に記載の中央装置。 - 前記変換手段は、
場所を示す単語を複数の階級に応じて分類した場所データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる場所を示す複数の単語を抽出する抽出手段と、
該抽出手段により抽出した各単語を階級別に分類する分類手段と、
該分類手段により分類された階級の内、最も高い階級に属する単語以外の単語を、前記場所データベースを参照して前記最も高い階級に属する単語に変換する手段と
を含むことを特徴とする請求項3に記載の中央装置。 - 前記時変換手段は、
時を示す単語を複数の階級に応じて分類した時データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる時を示す複数の単語を抽出する抽出手段と、
該抽出手段により抽出した各単語を階級別に分類する分類手段と、
該分類手段により分類された階級の内、最も高い階級に属する単語以外の単語を、前記時データベースを参照して前記最も高い階級に属する単語に変換する手段と
を含むことを特徴とする請求項4に記載の中央装置。 - 場所を示す単語を複数の階級に応じて分類した場所データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる場所を示す単語を、前記変換手段により変換する単語よりもさらに上位の階級に属する場所を示す単語に変換する補助変換手段と、
前記受信手段により受信した前記携帯情報端末の位置情報及び前記公開情報を送信した時点の前記携帯情報端末の位置情報に基づく距離が、記憶部に記憶した閾距離よりも小さい場合に、前記補助変換手段により変換された後の公開情報を外部へ送信する補助送信手段と
を備えることを特徴とする請求項3に記載の中央装置。 - 時を示す単語を複数の階級に応じて分類した時データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる時を示す単語を、前記時変換手段により変換する単語よりもさらに上位の階級に属する時を示す単語に変換する補助時変換手段と、
時計部により出力される日時及び前記日時記憶手段に記憶した送信日時の差分が、前記記憶部に記憶した閾時間よりも小さい場合に、前記補助時変換手段により変換された後の公開情報を外部へ送信する補助送信手段と
を備えることを特徴とする請求項4に記載の中央装置。 - 携帯情報端末から第3者に公開すべく送信された公開情報を外部へ送信する中央装置において、
前記携帯情報端末により前記公開情報が送信された送信日時を記憶する日時記憶手段と、
時を示す単語を複数の階級に応じて分類した時データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる時を示す単語を、上位の階級に属する位置を示す単語に変換する時変換手段と、
時計部により出力される日時及び前記日時記憶手段に記憶した送信日時の差分が、記憶部に記憶した閾時間よりも大きい場合に、前記変換手段により変換された後の公開情報を外部へ送信する送信手段と
を備えることを特徴とする中央装置。 - 携帯情報端末から第3者に公開すべくコンピュータへ送信された公開情報を、前記コンピュータから外部へ送信するためのプログラムにおいて、
コンピュータに、
前記携帯情報端末から送信される位置情報を受信する受信ステップと、
場所を示す単語を複数の階級に応じて分類した場所データベースを参照して、前記携帯情報端末から送信された公開情報中に含まれる場所を示す単語を、上位の階級に属する場所を示す単語に変換する変換ステップと、
前記受信ステップにより受信した前記携帯情報端末の位置情報及び前記公開情報を送信した時点の前記携帯情報端末の位置情報に基づく距離が、記憶部に記憶した閾距離以上の場合に、前記変換ステップにより変換された後の公開情報を外部へ送信する送信ステップと
を実行させるプログラム。
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JP2017224312A (ja) * | 2017-07-13 | 2017-12-21 | アルパイン株式会社 | 端末装置、投稿情報送信方法、投稿情報送信プログラムおよび投稿情報表示システム |
JP2022518136A (ja) * | 2019-01-03 | 2022-03-14 | サイトリックス システムズ,インコーポレイテッド | 作業空間におけるポリシベースの通知保護サービス |
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JP7454890B1 (ja) | 2023-06-02 | 2024-03-25 | Vlightup株式会社 | 承認システム、ネットワークサービス提供システム、利用者判定システム、承認方法、ネットワークサービスの提供方法、利用者判定方法、及び、プログラム |
Also Published As
Publication number | Publication date |
---|---|
CN101933026B (zh) | 2013-01-30 |
CN101933026A (zh) | 2010-12-29 |
JPWO2009096015A1 (ja) | 2011-05-26 |
US20100293255A1 (en) | 2010-11-18 |
JP4549433B2 (ja) | 2010-09-22 |
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