JP2010211000A - Bidirectional information distribution system, server, and information provision terminal device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bidirectional information provision system for improving optimum display and operability of a map on a guide plate by reducing operation frequency up to desired information acquisition. <P>SOLUTION: Map information and area information around an information provision terminal device are displayed on a touch panel display of the information provision terminal device of the bidirectional information provision system. Since a user obtains information of a direction of a desired destination, movement operation (S1302) of a map display area is performed. On the basis of the movement operation, the bidirectional information provision system analyzes action history DB of a user action history server (S1306), measures a visit frequency of a visit place located in a direction of the movement operation, and determines a movement amount to the map display area of high visit frequency density (S1307). Map display area groups obtaining necessary map DB information P(Xn, Yn) are determined in scale, and relating map information and area information are obtained (S1308). An information provision terminal device displays the map information and the area information corresponding to the operation of the user on a display on the basis of the information. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a bidirectional information distribution system, and more particularly to an information distribution technique for optimally displaying information in response to a request from a user on an information providing terminal device.

  In recent years, as interactive information providing systems, interactive information distribution systems such as interactive electronic presentation systems that electronically present maps and associated information through dialogue with users have been proposed ( Patent Document 1).

  Also, a guidance information provision system has been proposed that uses stationary terminals installed in stations and streets to provide users with route information from their current location to their destination, or guidance information such as a shopping street guidance map. (See Patent Documents 2 and 3).

JP 2009-009129 A JP 2001-209705 A JP 2002-125052

  In the above-described conventional interactive information distribution system, when an item or position on the displayed map area is selected, it is enlarged and displayed on the designated display area, or the designated position is moved and displayed on the map. Has been proposed. However, it is merely disclosed to display an enlarged display of a designated position and continuous position movement, and no investigation is made on how quickly and efficiently the information that a user really needs is provided. Similarly, in the conventional guidance information providing system, no consideration is given to how to reduce the number of user operations until obtaining information desired by the user.

  An object of the present invention is to provide an interactive information providing system, a server, and an information providing terminal device capable of improving the optimum display and operability of a map as a guide board by a user's input operation. .

  In order to achieve the above object, the present invention includes an information providing terminal device that displays map information and area information distributed via a network on a display screen in response to a user information request operation. The interactive information distribution system includes a processing unit and a storage unit, and includes a user behavior history server connected to a network. The processing unit includes a user operation log in the information providing terminal device, and an information providing terminal. Based on the map information and area information distributed to the device, the user's behavior history is obtained, stored in the behavior history database (DB) of the storage unit, and in response to an information request operation from the information providing terminal device, The behavior history DB accumulated in the storage unit is analyzed, and the movement amount of the map information displayed on the display screen is determined based on the analysis result and the information request operation.

  In order to achieve the above object, the display is a touch panel display, and the processing unit determines a moving direction requested by the user on the displayed map information based on an information request operation on the touch panel display. The moving amount of the map information is determined based on the determined moving direction and the action history DB.

  Furthermore, in order to achieve the above purpose, the processing unit accumulates the destination specified by the user in the map information and the number of visits to the destination in the action history DB, and stores them in the action history DB. The map information to be displayed on the display screen is determined based on the number of visits to the destination and the information requesting operation.

  Still preferably, the interactive information distribution system is connected to a network and stores a map information server that stores a database of map information, an area information server that stores a database of area information, and map information in an information providing terminal device. And an information distribution server for distributing area information, the information distribution server responding to the information request operation of the information providing terminal device based on the provision information request transmitted from the user behavior history server, Information obtained by requesting the map information and area information from the server and the area information server is returned to the information providing terminal device, and the processing unit receives processing histories from the information distribution server, the map information server, and the area information server, The structure which performs the process reflected in action history DB is taken.

  Similarly, in order to achieve the above object, in the present invention, in response to a user's information request operation, an information providing terminal that displays and provides map information distributed over a network on the screen of a touch panel display A user behavior history server used in a bidirectional information distribution system provided with a device includes a processing unit, a storage unit, and a communication control unit connected via an internal bus, and the processing unit includes a communication control unit. Based on the user's operation log in the information providing terminal device and the history of map information distributed to the information providing terminal device received via the user's behavior history database (DB ) And the processing unit analyzes the action history DB accumulated in the storage unit in response to the information requesting operation from the touch panel display of the information providing terminal device. And based on the information request operation, a configuration that determines the map information to be displayed on the screen of the touch panel display.

  Similarly, an information providing terminal device in an interactive information distribution system capable of displaying map information and area information received via a network in response to a user's information request operation is provided. And a touch panel display for displaying the received map information and area information, and a processing unit for processing to send an information request to the network based on the information requesting operation, the processing unit responding to the information request, When displaying a map on the touch panel display based on the map information and area information received via the mobile phone, the current location indicating the position of the information providing terminal device and the destination intended by the user are positioned at both ends of the touch panel display. It has the structure which controls to display.

  According to the present invention, it is possible to quickly and easily acquire map information and area information related to a destination desired by a user or a visited place such as a store to be visited, and provide an interactive information providing system with high operability. can do.

It is a figure which shows one structure of the bidirectional | two-way information delivery system concerning a 1st Example. It is a block diagram which shows one structure of the information provision terminal device concerning a 1st Example. It is a block diagram which shows one structure of the user action history server concerning a 1st Example. It is a figure which shows an example of user action history DB classified by user concerning a 1st Example. It is a figure which shows an example of user action log | history DB classified by destination and visited place concerning a 1st Example. It is a figure which shows an example of user action history DB classified by information provision terminal device concerning a 1st Example. It is a figure for demonstrating construction of action history DB concerning the 1st example. It is a figure which shows an example of the map display explaining the relationship between action history DB and map DB concerning a 1st Example. It is a figure which shows the other example of the map display concerning a 1st Example. It is a figure which shows the other example of the map display concerning a 1st Example. It is a figure which shows an example of the processing flow in the information provision system concerning a 1st Example. It is a figure which shows an example of the action history DB analysis processing flow concerning a 1st Example. It is a figure which shows an example of the action history DB conversion processing flow concerning a 1st Example. It is a figure for demonstrating optimization of the display area movement amount of a map according to a user visit frequency concerning a 2nd Example. It is a figure which shows an example of the map display area movement operation flow by an action history concerning the 2nd Example. It is a figure for demonstrating the relationship between acquisition of map information DB, and a display area concerning a 3rd Example.

  DESCRIPTION OF EMBODIMENTS Hereinafter, a mode for carrying out the present invention will be described in detail by illustrating a plurality of examples.

  A 1st Example is a figure which shows one structural example of the bidirectional | two-way information delivery system which can deliver map data based on a user (user) request | requirement.

  FIG. 1 shows the overall configuration of a bidirectional information distribution system according to this embodiment. FIG. 2 is a diagram showing a specific configuration of the information providing terminal device in FIG. FIG. 3 is a diagram showing a specific configuration of the user behavior history server in FIG.

  In FIG. 1, 100a to 100n are information providing terminal devices installed in one or a plurality of station buildings, for example, 101 is an information distribution server that distributes various information in response to a request from a user (user), and 102 is A map information server of a center that provides map information, 103 is an area information server that provides area information, 104 is a user action history server that accumulates information on which operation history has been collectively uploaded from each user, and 105 is various devices The Internet, which is a communication network for connecting In addition, you may comprise the information delivery server 101 and the user action history server 104 with the same server apparatus. In that case, a server device that builds a user behavior history database (hereinafter referred to as DB) also functions as a server device that distributes information that matches a request from the user.

  FIG. 2 is a system block diagram illustrating a configuration example of the information providing terminal device 100. As is apparent from the figure, it has the configuration of a normal computer such as a personal computer (PC) equipped with a touch panel display. 201 is a central processing unit (CPU), 202 is a main memory, 203 is a system control unit, 203 is a system bus, 204 is a system bus, and 205 is an internal bus. An output (hereinafter referred to as I / O) bus, 206 is an input / output control unit, 207 is a touch panel display, 208 is an input such as an IC card reader having a function of reading information such as a railway IC card, a railway credit card, and a commuter pass card. An output device 209 is a hard disk drive (hereinafter referred to as HDD), which is another storage unit, and 210 is a communication control unit.

  The information providing terminal device 100 sequentially stores the action history of the user in the HDD 209. The action history includes an operation log of the touch panel display 207, a mobile phone incorporating an IC card or an IC chip, input / output history information of a homepage accessed by a mobile phone browser, and the like. Processing of display data on the touch panel display 207 can be realized by the CPU 201 executing a program stored in the storage unit.

  FIG. 3 is a system block diagram illustrating a specific configuration of the user behavior history server 104 as an example of various servers, and includes a normal computer configuration. In the figure, 301 is a CPU as a processing unit, 302 is a main memory as a storage unit, 303 is a system control unit, 304 is a system bus, 305 is an I / O bus, 306 is an input / output control unit, and 307 is an input / output. 308 is a communication control unit, and 309 is an action history DB stored in a storage unit such as an HDD. The communication control unit 308 is connected to the Internet 105. Since other servers are also configured in the same manner, detailed description is omitted here, but it goes without saying that the action history DB 309 is a storage unit that stores information corresponding to its function.

  4, 5 </ b> A, and 5 </ b> B are based on various information collected by the user behavior history server 104 from the information providing terminal devices 100 a to 100 n, the information distribution server 101, the map information server 102, and the area information server 103, respectively. It is a figure which shows the specific example of constructed | assembled user action history DB309.

  FIG. 4 shows an action history DB table 400 in which an action history for each user is accumulated based on user management information. In the figure, columns 401, 402, 403, 404, and 405 of the DB table 400 are respectively user management information, date and time information, destination information, map DB information, and operation vector distance information V (Xn, Xn + 1: Yn, Yn + 1).

  The user management information UDI 401 is given to each user who uses the information providing terminal device 100. This user management information 401 can also be managed by ID based on information of a mobile phone, IC card such as Suica, Pasmo and the like. Date information 402 indicates the date and time of use, and destination information 403 indicates the latitude, longitude, and name of the destination requested by the user. The map DB information 404 represents the map DB information related to the destination information 403. The operation vector distance information 405 is calculated from the current location (SL) and the destination (GL), and indicates the value calculated by the sum of the path provided in the map DB, the road information plot position, and its line segment, It is not a linear distance between the current location (SL) and the destination (GL).

  FIG. 5A shows a user behavior history DB table 500-1 accumulated based on destination / visit location management information for each destination / visit location. In the figure, reference numeral 501 is destination / visit destination management information, 502 is date / time information, and 503 is destination information, indicating the latitude and longitude of the destination (GL) and its name. Reference numeral 504 indicates the number of visits, and 505 indicates plot points Rn (Xn, Yn) and line segment information as route information which is the distance from the current location (X0, Y0) when the destination is requested.

  FIG. 5B shows a user behavior history DB 500-2 for each information provision terminal device 100. Reference numeral 506 represents an information providing terminal device, and 507 represents installation location information (latitude and longitude), which also corresponds to current location (SL) information. 508 is the number of users, 509 is the information distribution history from the terminal, 510 is the area information access history representing the area information content (EAn) such as the accessed URL (Uniform Resource Locator), and 511 is accessed. The map information element R (Xn, Yn), the distance to the destination, and the number of accesses are shown.

  The above-described user behavior history DB 309 is for creating a DB stored in the storage unit such as the main memory 302 by the CPU 301 based on each log information collected from the information providing terminal devices 100a to 100n via the Internet 105. By executing the program, it is created and accumulated in the storage unit.

  The action history DB creation and accumulation process in this embodiment will be described in more detail with reference to FIG. The action history DB 309 collects the operation history (001-n) 601 of the information providing terminal devices 100a to 100n, the information distribution history 602 of the information distribution server 101, and the access history 603 to the map information server 102 and the area information server 103. After that, the information is organized and various DBs shown in FIGS. 4, 5A, and 5B are constructed. The dotted arrows extending from the user behavior history server 104 to the map information server 102 and the area information server 103 indicate that the user behavior history server 104 accesses the servers 102 and 103 via the Internet 105 and collects information. ing. An arrow from the information distribution server 101 to the user behavior history server 104 indicates that the information distribution server 101 transmits a distribution history such as operation information and advertisement information to the user behavior history server 104.

  Subsequently, the operation of the system of the present embodiment will be described using a specific example.

  FIG. 7 is a diagram schematically showing the display screen of the touch panel display 207 of the information providing terminal device 100 of FIG. 1, for explaining the relationship between the action history DB 309 and the map information from the map information server 102. It is. In the figure, 700 is the map display A, 701, 702, 703, 704, and 705 are the current location (X0, Y0), destination B03, map DB information P (Xn, Yn), visit on the map display A700, respectively. The location B06 and the visited location A01 are shown. In the system of this embodiment, the visited places 704 and 705 indicate places and places on the road from the current location 701 to the destination 702 or a certain distance from the road, such as buildings that can be recommended for visiting. As for the star mark shown in each visited place, (☆) and (★) indicate that the number of visits is 5 or more and less than 5 respectively.

  In addition, on the display screen of the map display A in FIG. 7, time, weather information, and other additional information are displayed on the right side as shown in the figure, and an input unit for inputting the enlargement / reduction of the map size is displayed on the lower side. It is displayed.

  FIG. 8A is a diagram for explaining map display when the destination requested by the user is clear. A transition of the route display from the current location where the user is present to the destination is shown on the display screen of the touch panel display 207.

  8A, the current location 701 where the information providing terminal device 100 is installed and the desired destination 702 are displayed as a map display B801. In this system, as shown in the middle part of FIG. 8A, information on user visit locations in the vicinity of the route area is based on various user action history DBs 309 stored in the user action history server 104. The visited places 704 and 705 are displayed as a map display C802. Finally, as the lower-level map display D803, the route display 804 and the visited places 704 and 705, which are information of recommended locations, are displayed in an enlarged manner.

  Further, in the map display D in the lower part of FIG. 8A, a display area indicating which of the normal route and the barrier-free route is displayed is added on the left side. By adopting such a configuration, for example, a barrier-free route (using an elevator or an escalator) is displayed based on data of the user behavior history DB 309 from several routes that can be selected when going out from an underground station to the ground. Is possible.

  Subsequently, in FIG. 8B, the location desired by the user is not specifically known, but when the destination of action and the store type of the desired destination of the visit are clear, the destination of action and the desired destination from the user's current location. The case where the display suitable for is performed is demonstrated. In this example, the system of the present embodiment can clearly determine the action destination by inputting the moving direction of the user and the type of store to be used by the user.

  8B shows a map display E805 when the user operates the touch panel 207 in the operation direction 806 on the touch panel display 207 and selects a convenience store as the type of store to be used. Since the user operates the touch panel in the direction opposite to the direction in which the area movement is desired, the map display area moving direction 807 is displayed by an arrow in the direction opposite to the touch panel operating direction 806. In the map display E805, a selection button for the user to select a convenience store as the store type is shown at the lower right position.

  Subsequently, in the system of this embodiment, as shown in the lower part of FIG. 8B, the convenience stores A and B existing in the direction of the map display area moving direction 807 are displayed and the map display F808 is displayed. Convenience store A 809 indicates a convenience store with a visit history in the past, and convenience store B 810 indicates a convenience store with no visit history in the past.

  Next, processing of the entire bidirectional information distribution system in the present embodiment will be described using the flow of FIG. This figure shows the flow of information among the information providing terminal device 100, the information distribution server 101, the map information server 102, the area information server 103, and the user behavior history server 104 shown in FIG.

  First, when the user starts an operation on the information providing terminal device 100 and requests information, the operation transmission (circle 1) is sent to the user action history server 104. The user behavior history server 104 performs processing for analyzing the accumulated behavior history DB 309 based on the received request (circle 2). Then, a necessary provision information request is transmitted to the information distribution server 101 (circle 3).

  Based on this information provision request, the information distribution server 101 transmits a map information request (circle 4) and an area information request (circle 5) to the map information server 102 and the area information server 13 as necessary. Each server 102, 103 responds with a map information reply (circle 6) and an area information reply (circle 7) correspondingly. The information distribution server 101 returns the map information and area information received from each server as provision information to the information provision terminal device 100 that is the request source (circle 8). The information terminal device 100 that has received the provision information transmits the operation log to the user behavior history server 104 (circle 9. This completes the processing related to the current information provision request.

  On the other hand, the user behavior history server 104 that has received the operation log from the information providing terminal device 100 receives the provided information history (circle 10) and the map information access history from the information distribution server 101, the map information server 102, and the area information server 103, respectively. (Circle 11), the area information access history (circle 12) is received, and action history analysis processing and action history DB conversion processing are executed (circle 13). Normally, the information distribution server 101 is programmed to transmit the provided information history to the user behavior history server 104 by itself.

  Next, an example of the action history DB analysis process and the action history DB conversion process in the user action history server 103 will be described with reference to the flowcharts of FIGS.

  In the action history DB analysis process flow of FIG. 10, when the process starts (S1001), an operation log accompanying operation transmission (circle 1) is first acquired (S1002). Then, it is determined whether this operation is a selection operation or a movement operation (S1003). Different analysis is performed depending on whether the operation is a selection operation or a movement operation. In any case, information filtering based on the date and time or the installation location of the information providing terminal device is performed from the action history pattern (S1004). Since this action history pattern is obtained in S1110 of FIG. 11, detailed description will be given later.

  In the case of a moving operation, operation vector direction vector determination (S1007) is executed. This operation vector direction can be detected by calculating latitude and longitude based on the touch panel operation direction 806 on the touch panel display 207 described above. When the direction vector determination is completed, an action history DB analysis is executed based on the result (S1008). In this analysis, the location information of the visited place in the direction indicated by the determined direction vector and the visit history of the user are analyzed. Subsequently, it is determined whether or not the movement amount and the scale are changed based on the presence or absence of the visit history (S1009). If there is, the movement amount and the scale value based on the visit history are set (S1010). On the other hand, if there is none, the movement value / scale value by the initial setting is set (S1011).

  On the other hand, if it is determined in S1003 that the operation is a selection operation, information filtering is performed from the above-described behavior history pattern, and then behavior history DB analysis is performed (S1005). In this action history DB analysis, the distance, route, user visit history, area information access history, etc. corresponding to the selected destination are analyzed. The analysis result of S1005 is also reflected in the action history DB analysis (S1008).

  Subsequently, the map DB acquisition range is determined, and necessary map information and route information are acquired from the map information server 102 and area information is acquired from the area information server (S1006). Based on the result, the action history DB conversion process is executed (S1012), and the action history DB analysis process flow ends (S1013).

  FIG. 11 is a diagram showing a processing flow of the action history DB (circle 13) executed by the user action history server 104 in FIG. First, the action history DB is created for each of the information providing terminal devices 100a to 100n. In FIG. 11, for simplicity of illustration, the processing flow for the information providing terminal devices 1001 and 100n is shown, but the same processing is executed for other information providing terminal devices. When the flow starts (S1101, S1101n), operation log and input / output device access log acquisition is executed (S1102, S1102n).

  Subsequently, the presence / absence of an operation error is determined (S1103, S1103n). If there is an operation error, an operation error filtering process (S1104, S1104n) is executed, and this operation is excluded from the DB. More specifically, the “return” process and the continuity of the operation pattern are determined, an operation error of the process repeated a plurality of times is determined, and the count of the number of operations is optimized. Alternatively, a usability improvement, an optimization effect based on human behavior of the screen design, and a halfway operation are regarded as a timeout error, and the user USID is renumbered.

  On the other hand, if it is determined that there is no operation error, the action history DB is created (S1105, S1105n), and the previously described USID, date, time, GL (Xn, Yn), distance, number of times of use, route information R ( Based on Xn, Yn) and map DB information P (Xn, Yn), a database is created.

  Thereafter, whether or not the map information and area information are updated is checked (S1106, S1106n), and update information for deleting information such as closed stores is checked in accordance with the update of the map information and area information. This process is executed at a rate of about once every three months, for example, in accordance with the update of the map information. When there is an update, the action history DB is updated (S1108). For example, when there is a closed store, the action history DB is updated 309 correspondingly.

  If there is no update, the presence / absence of duplicate data is checked (S1107). This is performed in order to determine duplicate data among the n information providing terminal devices 100a to 100n and optimize the action history DB. As a result, it is possible to unify the DB of the area information and the map information of the boundary portion of the adjacent information providing terminal devices. If there is duplicate data, the action history DB is updated. If there is no duplicate data, the number of uses is updated (S1109).

  Thereafter, action history patterning is executed (S1110). Here, the user action pattern based on time and place is converted into a DB, and the process ends (S1111). Specifically, user behavior patterning sets or changes information provided as area information by a light meal restaurant at lunchtime, a restaurant at night, or a tavern.

  Subsequently, a bidirectional information distribution system according to the second embodiment will be described. The second embodiment is an embodiment in which the amount of movement of the map display area is optimized according to the user visit frequency that is the user's action history.

  In FIG. 12, the upper, middle, and lower stages respectively show the display screen of the touch panel display 207 of FIG. 2 as in FIGS. 8A and 8B, and are diagrams for explaining the operation of moving the map display area from the current location to the destination direction. It is. As shown in the upper row, the map display area moves in the direction 708 by the movement operation in the operation direction 707. When the user performs the first movement operation, as shown in the middle of the figure, on the display screen, based on the accumulated data in the action history DB 309 in addition to the map of the corresponding area, the distance in the movement direction is around 100 m. A convenience store is displayed. The lower part of the figure shows a display screen when the same user performs the second movement operation. In this example, a convenience store having a movement distance of about 300 m is displayed.

  Since the destinations are scattered, when the same user performs a map display area movement operation a plurality of times, the first movement is 100 m, as shown in the middle row, and the second is an additional 200 m (a total of 300 m). The display area of the map display area and the amount of movement of the map can be made variable based on the accumulated data in the action history DB 309 in accordance with the location of the visited site. The default value is not always 100m, but based on the location of visits and the number of visits, the second time is set to 200m to display convenience stores used by many users and favorite convenience stores. I can do it.

  FIG. 13 is a diagram showing a map display area moving operation flow based on an action history in the interactive information distribution system of the second embodiment. In the figure, when the operation flow is started (S1301), first, when it is detected that the user has moved the map display area on the touch panel display 207 of the information providing terminal device 100 (S1302), the use is started. The CPU of the person behavior history server 104 determines whether or not the moving operation is a continuous operation of the same user (S1303). In this determination, a determination based on a UID (user identifier) such as a mobile IC card and a determination based on presence / absence of operation for a certain period of time are performed. As a result, if it is determined that the operation is not a continuous operation, filtering processing of information to be displayed from the action history pattern is executed (S1305). If it is determined that the moving operation is a continuous operation, it is determined whether or not the moving operation is in the same direction as the previous moving operation (S1304). If they are not in the same direction, information filtering processing (S1305) is performed. In this information filtering process (S1305), unnecessary information such as usage time information is filtered based on the behavior history pattern. This action history pattern is formed by the process (S1110) of FIG. 11 as described above.

  If it is determined in S1304 that the directions are the same, information filtering based on an action history pattern in the operation vector direction is performed, and thus related information is obtained from the action history DB 309.

  In the action history DB analysis (S1306), position information, user visit history, map DB information P (Xn, Yn), etc. are analyzed. Based on the analysis result, the CPU of the user behavior history server 104 determines a map display area to be displayed and a movement amount (distance) (S1307). Here, the display area of the map and the movement value are determined based on the result of the operation vector and the action history DB analysis (S1306). In this case, the movement value up to the area where the number of times of use is large can be determined with the highest priority. Thereby, map DB information P (Xn, Yn) group with high visit frequency density, and area information contained in these map elements are determined.

  By acquiring information such as the determined area information and movement value, the CPU 201 of the information providing terminal device 100 determines the display display scale by a predetermined program process as described above and requires it. The actual content information in the acquisition area of the map DB information P (Xn, Yn) is acquired (S1308). In this case, the information terminal device 100 predicts a continuous operation and also acquires the map DB information P (Xn, Yn) that is frequently used in the next operation vector direction, and area information corresponding to the map information within the expected range. Is stored in the storage unit in the information providing terminal device 100 in advance, thereby improving information presentation performance by reducing the frequency of access to the map information server 102 and the area information server 103 via a network such as the Internet 105. Can be achieved.

  Further, by determining the scale in S1308 by the program processing of the CPU 201, by controlling the scale so that the current location and the destination are located at both ends of the map area of the touch panel display 207 in the vertical direction, the diagonal direction, and the horizontal direction, respectively. Map information from the current location to the destination can be displayed on the display of the information providing terminal device 100 in the maximum size.

  Subsequently, the information providing terminal device 100 extracts a display area to be displayed based on the map display DB and the area information acquired in a wide range in step S1308, and displays the extracted display area on the touch panel display 207. (S1309), the process ends (S1310).

  According to the present embodiment, it is possible to provide information with high operability by acquiring map information and area information predicted from action history information in advance.

  Subsequently, a third embodiment will be described with reference to FIG. A present Example is an Example regarding the map DB information P (Xn, Yn) acquired from map information DB, and the association method of a display area.

  Based on the current location where the user is present, the map DB information P (X0, Y0), which is the central map DB, and the eight adjacent map DBs are the map display area as initial values. In this state, when the user performs a single movement operation, the map DB information P (X1, Y1) having a large number of visits to the user and the map DB information expected in the future according to the operation vector. Prior acquisition of the map DB according to the range of P (X3, Y3) and a certain operation vector is performed.

  That is, as shown in FIG. 14, the central map DB information P (X0, Y0) 1401 based on the current position (X0, Y0) 701 where the user is located and the eight adjacent map DBs 1402 are the initial map display area. is there. When there is a single movement operation in this state, the center map DB information P (X1, Y1) 1403 of the operation direction vector and the map DB of the eight adjacent map display areas 1404 are acquired. Further, the map DB information P (X3, Y3) 1405 that is expected to be the center of the second moving operation ahead, and the map DB information P (X0, Y3) having a high visit destination density although the moving direction is different. By acquiring in advance the map DB of 1406 and the eight map display areas adjacent thereto, it is possible to improve the performance such as high-speed display during map movement. In the latter case, the distance to the map DB information P (X0, Y3) is set as the movement scale value during the movement operation process.

  As described above, in this embodiment, the set of map DB information P (Xn, Yn) acquired by the first movement operation based on the information of the action history DB 309 becomes the hatched area data of FIG. In the above description, eight map DB information adjacent to each other is acquired simultaneously. Needless to say, however, two or 24 adjacent maps may be used depending on the display resolution of the information providing terminal device. Yes.

  INDUSTRIAL APPLICABILITY The present invention is useful as a bidirectional information distribution system, particularly a display data distribution method and system for optimal display of a map or the like requested by a user.

DESCRIPTION OF SYMBOLS 100 ... Information provision terminal device 101 ... Information distribution server 102 ... Map information server 103 ... Area information server 104 ... User action history server 201, 301 ... CPU
202, 302 ... main memory 206, 306 ... input / output control unit 207 ... touch panel display 208, 307 ... input / output device 209 ... HDD
309 ... Action history DB
700, 801-808, 1201-1203 ... Map display 701 ... Current location 702 ... Destination 703 ... Map DB information P (Xn, Yn)
704, 705 ... Visited place.

Claims (17)

A bidirectional information distribution system including an information providing terminal device that displays map information and area information distributed via a network in response to a user's information request operation,
A processing unit and a storage unit, further comprising a user behavior history server connected to the network;
The processing unit obtains an action history of the user based on the operation log of the user in the information providing terminal device, the map information and the area information distributed to the information providing terminal device, Accumulate in the action history database (DB) of the storage unit,
In response to the information request operation from the information providing terminal device, the processing unit analyzes the action history DB stored in the storage unit, and based on the analysis result and the information request operation, the display Determining the amount of movement of the map information to be displayed on the screen of
An interactive information distribution system characterized by this. The interactive information distribution system according to claim 1,
The display is a touch panel display;
The processing unit determines a moving direction requested by the user on the displayed map information based on the information request operation on the touch panel display of the user,
Based on the determined moving direction and the action history DB, a moving amount of the map information is determined.
An interactive information distribution system characterized by this. The interactive information distribution system according to claim 1,
The processing unit accumulates the destination specified by the user in the map information and the number of visits to the destination in the action history DB.
An interactive information distribution system characterized by this. The interactive information distribution system according to claim 1,
The processing unit accumulates in the behavior history DB, the user information, the destination specified by the user in the map information, and map DB information including the destination.
An interactive information distribution system characterized by this. The interactive information distribution system according to claim 1,
The processing unit includes, in the action history DB, information for identifying the information providing terminal device, the number of users using the information providing terminal device, and information indicating the information delivery content delivered to the user. accumulate,
An interactive information distribution system characterized by this. The interactive information distribution system according to claim 1,
An information distribution server connected to the network and distributing the map information and the area information to the information providing terminal device;
The information distribution server receives a provision information request transmitted from the user behavior history server in response to the information request operation of the information provision terminal device.
An interactive information distribution system characterized by this. The interactive information distribution system according to claim 6,
A map information server connected to the network for storing the map information database; and an area information server for storing the area information database;
The information distribution server requests information obtained by requesting the map information server and the area information server for the map information and the area information, respectively, based on the provision information request received from the user behavior history server. Reply to the providing terminal device,
An interactive information distribution system characterized by this. The interactive information distribution system according to claim 6,
The information distribution server and the user behavior history server are composed of the same server device.
An interactive information distribution system characterized by this. The interactive information distribution system according to claim 3,
The processing unit determines the map information to be displayed on the display screen based on the number of visits to the destination stored in the action history DB and the information request operation.
An interactive information distribution system characterized by this. The interactive information distribution system according to claim 7,
The processing unit receives a processing history from each of the information distribution server, the map information server, and the area information server, and performs a process of reflecting the processing history in the action history DB.
An interactive information distribution system characterized by this. A user behavior history server used in an information distribution system including an information providing terminal device that displays and provides map information distributed via a network on a screen of a touch panel display in response to a user's information request operation Because
A processing unit, a storage unit, and a communication control unit connected via an internal bus;
The processing unit uses the operation log of the user in the information providing terminal device received via the communication control unit and the history of the map information distributed to the information providing terminal device. An action history database (DB) of the storage unit is stored.
In response to the information request operation from the touch panel display of the information providing terminal device, the processing unit analyzes the action history DB accumulated in the storage unit, and analyzes the analysis result and the information request operation. Based on the map information to be displayed on the screen of the touch panel display,
A user behavior history server characterized by that. The user behavior history server according to claim 11,
The processing unit determines a moving direction requested by the user on the displayed map information based on the information request operation on the touch panel display of the user,
Based on the determined moving direction and the action history DB, a moving amount of the map information is determined.
A user behavior history server characterized by that. The user behavior history server according to claim 11,
The processing unit accumulates the destination specified by the user in the map information and the number of visits to the destination in the action history DB.
A user behavior history server characterized by that. The user behavior history server according to claim 13,
The processing unit determines the map information to be displayed on the screen of the touch panel display based on the number of visits to the destination stored in the action history DB and the information request operation.
A user behavior history server characterized by that. The user behavior history server according to claim 11,
The processing unit receives the map information distributed to the information terminal device and the provision history of the area information by the information request operation of the information providing terminal device, and performs a process of reflecting in the action history DB,
User behavior history server. An information providing terminal device in a bidirectional information distribution system capable of displaying map information and area information received via a network in response to a user information request operation,
A touch panel display for performing the information request operation and displaying the received map information and the area information;
A processing unit for processing to send an information request to the network based on the information request operation;
In response to the information request, the processing unit displays a map on the touch panel display based on the map information and the area information received via the network, and a current location indicating a position of the information providing terminal device; And controlling the destination corresponding to the information request operation of the user so as to be positioned at both ends of the touch panel display.
An information providing terminal device. The information providing terminal device according to claim 16, wherein
The touch panel display can input a moving direction of the user on the map information and a type of a desired visited place.
An information providing terminal device.

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