JP2004350006A - Guide information providing method, server, guide information display, guide information providing program, and guide information display control program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a guide information having a format changeable in form depending on the type of a user's terminal in which the user can recognize an objective space even for a terminal of a low network communication rate. <P>SOLUTION: In a space guide processing, a guide information display sets guide information generating parameters being transmitted to a guide information generator. Upon receiving the guide information generating parameters, a guide information providing server generates course information, extracts the ID of space information, and retrieves the profile information and attribute information of the space information. On the other hand, guide information generation processing parameters are retrieved. Guide information is then generated using the guide information generation processing parameters and transmitted to the guide information display. Upon receiving the guide information, the guide information display displays a guide screen based on the guide information. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides a guide information providing method, a guide information providing server, a guide information display device, a guide information providing program, and a guide information display for generating and providing guide information for performing route guidance via a communication network such as the Internet. Related to control program.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, various types of guidance information providing systems have been proposed in which guidance information is provided to a terminal device that moves with a user, and a map or a scene is displayed on a display screen of the terminal device to provide route guidance to a destination. .
[0003]
Such a guide information providing system includes, for example, a geospatial guide device that uses information specific to each position as guide information (for example, see Patent Document 1). The geospatial guidance device described in Patent Literature 1 includes a file holding unit, a distribution unit, an extraction unit, and a comparison unit, and is connected to a user terminal via a communication network.
[0004]
The file holding unit holds a map, an arbitrary viewpoint on the map, a landscape still image created based on a certain direction at the viewpoint, and a selection identifier of an object in the landscape still image. The distribution unit searches for a map stored in the file holding unit and a landscape still image that matches the viewpoint and the view specified by the user, cuts out the image, and distributes it. The extraction means extracts an object within the field of view according to the viewpoint, azimuth, and distance specified by the user. The comparing unit compares the object extracted by the extracting unit with a search condition specified by the user.
[0005]
The user terminal includes input means and display means. The input means responds to data received from the geospatial guidance device and issues an instruction. The display means is for displaying information received from the geospatial guidance device, and displays a map or a landscape still image.
[0006]
The user terminal accesses the geospatial guidance apparatus according to the operation of the user, acquires the map and information on the registered viewpoint in the map, and displays the information on the display unit. A user's operation selects a viewpoint and a field of view on the user terminal, and the selected information is transmitted to the geospatial guidance device.
[0007]
The geospatial guidance apparatus searches for a landscape still image corresponding to a viewpoint and a field of view specified by a user, and transmits the still image to a user terminal. The landscape still image transmitted by the geospatial guidance device is displayed on the display means of the user terminal. In this way, route guidance is provided to the user using the user terminal.
[0008]
[Patent Document 1]
JP-A-2002-251396 (FIGS. 1 to 3)
[0009]
[Problems to be solved by the invention]
However, the above-mentioned geospatial guidance device has the following problems.
First, since the data amount of the guide information including a still image indicating a landscape is large, it generally takes a long time to transmit the guide information to a mobile terminal such as a mobile phone. . That is, at the communication speed between the mobile terminal and the server, it is possible to quickly transmit and receive guidance information having a very large data amount including a landscape image when the target space is viewed from a specific viewpoint and a specific field of view. could not.
[0010]
Second, the landscape still images stored in the file holding means of the geospatial guidance apparatus described above were previously photographed or created at a certain viewpoint and field of view. Since it is difficult to create and hold the respective landscape images in advance, there is a problem that the landscape images when viewed from any viewpoint and field of view cannot be displayed.
[0011]
Third, a terminal such as a mobile phone has a reduced display screen size for maintaining its portability, and a display area of a displayed landscape image is reduced. There is a problem that it is difficult to recognize a place or space such as a self-position. If the display area of the landscape image is small, a wall of a building with surrounding features used for recognizing the self position is displayed small, and it is difficult to correspond the screen with the actual field of view.
[0012]
Fourth, in the above-described geospatial guidance apparatus, the server is configured to search for a landscape image and generate guidance information every time a user requests generation of guidance information. Therefore, there is a problem that it takes time for the user to browse the guide information.
[0013]
The present invention solves the above-described problem, and can change the form of guidance information to be provided according to the type of terminal used by a user. For example, for a terminal with a low network communication speed such as a mobile phone, It is another object of the present invention to generate and provide guidance information that allows a user to recognize a target space.
[0014]
Another object of the present invention is to provide guidance information at an arbitrary viewpoint or view without preparing guide information for each viewpoint or view in advance.
[0015]
Another object of the present invention is to enable even a terminal having a small display screen, such as a mobile phone, to generate and provide guidance information that allows a user to recognize a space such as a self-position.
[0016]
Still another object of the present invention is to shorten the response time to a request for providing guidance information from a user.
[0017]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, a guide information providing method according to the present invention provides guide information for transmitting route guide information via a communication network to a mobile user terminal connected to the communication network. A providing method, wherein a user terminal transmits a guidance information generation request, and in response to the guidance information generation request, generates guidance information for causing the user terminal to display a guidance image indicating a landscape using spatial information. And a step of transmitting the generated guidance information to the user terminal, wherein the characteristic information of the user terminal (the user's situation (current position, destination, etc.), the user terminal's situation ( This is information indicating characteristics on the user side such as the type of terminal and the status of the communication network of the user terminal (for example, the communication speed of the network). , For example, based on.) Containing various information set by the guidance information generation parameters, characterized in that it comprises a step of generating guidance information that matches the characteristics of the user terminal.
[0018]
Extracting, in accordance with the characteristic information included in the guidance information generation request, display method specifying information stored in advance to specify a display method of spatial information according to the characteristic information of the user terminal; Generating guide information in which spatial information is displayed by the display method specified by the display method specifying information.
[0019]
Storing, as cache data, guidance information generation request from the user terminal and guidance information generated in response to the guidance information generation request; and receiving guidance information generation request from the user terminal, generating new guidance information. And a step of using the cache data in preference to the generation processing of the cache data.
[0020]
Further, the guide information providing server of the present invention is a guide information providing server for transmitting guide information for route guidance via a communication network to a mobile user terminal connected to a communication network, Guide information generating means for generating guide information for displaying a guide image showing a landscape using spatial information on a user terminal in response to a guide information generation request from a terminal, and guide information generated by the guide information generating means Guide information transmitting means for transmitting the information to the user terminal, wherein the guide information generating means generates guide information matching the characteristics of the user terminal based on the characteristic information of the user terminal included in the guide information generation request. It is characterized by the following.
[0021]
It may be configured to include a route search unit that searches for a movement route from the current location specified by the guidance information generation request to the destination.
[0022]
The guidance information generating means may be configured to generate guidance information for displaying a moving route searched by the route searching means on a user terminal to guide the route.
[0023]
The guidance information generation request may include route information indicating a route from the current location to the destination, and the route search unit may be configured to search for a moving route passing through the route indicated by the route information. .
[0024]
Specific information storage means for storing display method specifying information for specifying a display method of spatial information according to the characteristic information of the user terminal, and display from the specific information storage means according to the characteristic information included in the guide information generation request Specific information extracting means for extracting method specifying information, wherein the guide information generating means generates guide information in which spatial information is displayed by a display method specified by the display method specifying information extracted by the specific information extracting means. It may be configured.
[0025]
The guide information generation request includes view information for specifying the view of the guide image, and the guide information generation unit is configured to generate the guide information based on the view information included in the guide information generation request. You may.
[0026]
A guide information generating unit configured to generate guide information including attribute information indicating an attribute of the spatial information, and to display a guide image including the attribute information on the user terminal based on the guide information transmitted by the guide information transmitting unit; It may be.
[0027]
The feature information of the user terminal may be configured to include terminal type information indicating the type of the user terminal.
[0028]
The feature information of the user terminal may be configured to include screen size information indicating a display screen size of a display unit provided in the user terminal.
[0029]
Identification information storage means for storing display method identification information for identifying a display method of spatial information according to the data communication speed of the user terminal, and identification according to the data communication speed of the user terminal included in the guidance information generation request Specific information extracting means for extracting display method specifying information from the information storage means, wherein the guidance information generating means displays the spatial information according to the display method specified by the display method specifying information extracted by the specific information extracting means. It may be configured to generate guidance information.
[0030]
The spatial information may include information indicating a building, and the guide information generating unit may be configured to generate guide information in which the spatial information including the building is displayed.
[0031]
A display area ratio calculating unit that calculates a display area ratio of the displayed building in the guidance screen; and a display method storage unit that stores a display method according to the display area ratio of the building in the guidance screen. The information generating means may be configured to generate guide information for displaying the building in a display method according to a display area ratio of the building.
[0032]
A distance calculation unit that calculates a distance of the building from the viewpoint on the guidance screen; and a display method storage unit that stores a display method according to the distance. May be configured to generate guidance information for displaying a building in a display method according to the above.
[0033]
A height calculating means for calculating the height of the building to be displayed; and a display method storing means for storing a display method according to the height of the building. May be configured to generate guidance information for displaying a building in a display method according to the above.
[0034]
A volume calculating unit that calculates a volume of the building to be displayed; and a display method storing unit that stores a display method according to the volume of the building. The method may be configured to generate guidance information in which a building is displayed.
[0035]
The guide information generating means is a guide information for displaying a building by a display method which is one of display by an image, display by a text, display by a point, a line, a polygon, display by a three-dimensional CG, and a combination thereof. May be configured to be generated.
[0036]
Storage means for storing, as cache data, a guidance information generation request from a user terminal and guidance information generated in response to the guidance information generation request, and generating guidance information when receiving a guidance information generation request from the user terminal. Guidance information caching means for using cache data in preference to guidance information generation processing by the means.
[0037]
Storage means for storing, as cache data, a guidance information generation request from a user terminal and guidance information generated in response to the guidance information generation request, and guidance information generation similar to a guidance information generation request received in the past from the user terminal When a request is received, the guidance information generated and stored in response to the guidance information generation request received in the past is deleted, and the guidance information generated by the guidance information generating means is deleted in response to a new guidance information generation request. A cache data updating means for storing may be provided.
[0038]
The guidance information caching means may be configured to determine whether or not the guidance information generation request received in the past and the new guidance information generation request are identical by using a spatial positional relationship.
[0039]
The guidance information caching means determines whether the previously received guidance information generation request is identical to the new guidance information generation request by determining the time between the previously received guidance information generation request and the new guidance information generation request. May be configured to be determined by the following.
[0040]
The guidance information caching means determines whether the previously received guidance information generation request is identical to the new guidance information generation request by determining the time between the previously received guidance information generation request and the new guidance information generation request. May be configured to be determined by the following.
[0041]
The guidance information caching means determines whether the previously received guidance information generation request is identical to the new guidance information generation request by determining whether the previously received guidance information generation request and the new guidance information generation request are identical. The determination may be made based on the type of the terminal.
[0042]
In addition, the guide information display device of the present invention receives the guide information from a guide information providing server that provides guide information for route guidance via a communication network, and uses space information based on the received guide information. A movable guidance information display device for displaying a guidance image indicating a landscape, comprising: a guidance information generation request execution unit for making a guidance information generation request to a guidance information providing server; and providing guidance information in response to the guidance information generation request. A guide information receiving unit that receives the guide information generated by the server via a communication network; and a guide image display unit that displays a guide image based on the received guide information. A request for generating guidance information including the characteristic information of (1), and a request for generating guidance information matching the characteristics of the user.
[0043]
The guide information generation request execution means may be configured to make a guide information generation request including the current location and the destination, and to request generation of guide information including a search result of a travel route from the current location to the destination. .
[0044]
It may be configured to include a current position deriving unit that receives positioning signals from a plurality of satellites and derives a current position, and derives a current position used when making a guide information generation request by the current position deriving unit. .
[0045]
Map display means for displaying a map of the designated area, and coordinate acquisition means for acquiring the coordinates of the point on the specified map, guidance information generation request execution means, the coordinates acquired by the coordinate acquisition means, The guide information generation request may be made as the current location or the destination used when the guide information generation request is made.
[0046]
The guide image display means may be configured to execute the display processing of the already received information even if the guide information receiving processing by the guide information receiving means is not completed.
[0047]
Further, the guide information providing program of the present invention performs a process of transmitting guide information for route guidance to a guide information providing server via a communication network to a mobile user terminal connected to a communication network. A guide information providing program to be executed by a providing server, wherein the guide information providing server causes a user terminal to display a guide image indicating a landscape using spatial information in response to a guide information generation request from a user terminal. And a transmission process of transmitting the generated guidance information to the user terminal. Further, in the generation process, the characteristic information of the user terminal included in the guidance information generation request is generated. Based on the feature, a process for generating guidance information matching the characteristics of the user terminal is performed.
[0048]
Further, the guidance information display control program of the present invention receives the guidance information from a guidance information providing server for providing guidance information for route guidance via a communication network, and generates spatial information based on the received guidance information. A guidance information display control program for causing a movable guidance information display device to execute a process of displaying a guidance image indicating a landscape according to a request execution process of issuing a guidance information generation request to a guidance information providing server; Receiving guidance information generated by the guidance information providing server in response to the guidance information generation request via a communication network, and executing a display process of displaying a guidance image based on the received guidance information, In the request execution process, a request for generating guide information including own feature information is made, and a process for requesting generation of guide information matching the own feature is performed. Characterized in that to execute.
[0049]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
Embodiment 1 FIG.
FIG. 1 is a block diagram illustrating an example of a configuration of a guide information providing system 10 according to the first embodiment of the present invention. The guidance information providing system 10 includes a guidance information display device 100 and a guidance information providing server 200. The guidance information display device 100 and the guidance information providing server 200 (more specifically, the guidance information generation device 210) are connected by a communication network such as the Internet or a general public network.
[0050]
Communication performed between the guidance information display apparatus 100 and the guidance information generation apparatus 210 is performed according to a widely used communication protocol such as TCP / IP (Transmission Control Protocol / Internet Protocol).
[0051]
The guide information providing system 10 of the present example provides a “guide service” to a user who uses the guide information display device 100.
[0052]
"Guidance service" refers to a search for a travel route from the current location to the destination according to information such as the user's current location and the destination specified by the user, and presents image and voice information based on the search results. Means a service for guiding the user to the next direction. As a specific example of the “guidance service”, for example, in a car navigation system, a display device mounted on the vehicle displays a landscape around the current location, a traveling direction, and the like, thereby performing route guidance and guiding the vehicle to the destination. There is a service.
[0053]
For example, in the guidance service, the user operates a mobile terminal (for example, the guidance information display device 100) managed by the user to input a current position and a destination and select a desired display screen display method from a plurality of options. Choose from
[0054]
The current position and destination are determined by, for example, inputting an address or designating a location on a map. The display method of the display screen includes, for example, a display method using a panoramic image that looks around 360 degrees around a certain point, a display method using an image displaying a specific field of view, and a method of looking down from a specific height in a forward direction. A plurality of types of display methods using images are prepared in advance. The user may use the mobile terminal to select a desired display method from the plurality of types of display screen display methods.
[0055]
A server device managed by the guide service provider (for example, the guide information providing server 200) transmits a guide information generation request including a user's current position, a destination, a selection result of a display screen display method, and the like from the mobile terminal to the communication network. When the information is received via the mobile terminal, the mobile terminal generates guide information, which will be described later, and transmits the generated guide information to the movable terminal.
[0056]
Although details will be described later, when the guide service generates guide information, it is necessary to generate guide information of an appropriate data amount according to the communication capability and display capability of the mobile terminal to which the information is provided. I have to. Therefore, the process of screen display based on the guidance information in the movable terminal is quickly performed. Therefore, it is possible to smoothly and appropriately update the display image according to the movement of the movable terminal.
[0057]
Here, the terms used in the present embodiment will be described.
The “spatial information” is information indicating an object existing in a certain space or information related to the object, and a polygon, a line, a point, a polygon, which can reproduce the space on a computer by a three-dimensional CG (Computer Graphics) technique. It includes shape information composed of an image and the like, and attribute information on the individual shape information. Note that the three-dimensional CG data itself may be used as the shape information.
[0058]
For example, if the target space is a city, among the spatial information, polygon data and texture data that can represent on a computer buildings, signboards, traffic lights, streets, trees, terrain, etc. are shape information, and building names, signboard names, A URI (Uniform Resource Identifier) of a Web page published on the Internet introducing the building is attribute information (see FIG. 6).
[0059]
An ID (identifier) is assigned to each of the space information, and the shape information and the attribute information relating to the shape information are associated by the ID. Also, it is assumed that the coordinate system indicating the display position of the spatial information is determined in correspondence with the actual coordinate system or is derived by performing coordinate transformation based on the actual coordinate system.
[0060]
Note that a description method and a processing method of spatial information on a computer include well-known two-dimensional and three-dimensional graphics such as OpenGL (registered trademark of SGI Japan) and DirectX (“DIRECTX” is a registered trademark of Microsoft Corporation). A general method using an application API (Application Programming Interface) is used.
[0061]
FIG. 2 is a schematic diagram illustrating an example of spatial information. With the shape information included in the spatial information, a three-dimensional image as shown in FIG. 2 is obtained. In FIG. 2, for the sake of simplicity, only the outline of a stereoscopic image indicating spatial information is shown. FIG. 2 illustrates a building ID (building A to building H) assigned to each building and a terrain ID (terrain I) assigned to the terrain of the displayed space.
[0062]
The “guidance information generation parameter” (see FIG. 5B) includes terminal information on the type, performance, screen resolution, and the like of the guidance information display device 100, position information such as a current position, a destination, and a transit point, and a display image. This is a parameter that specifies the display method of the display screen determined by the type of image and the horizontal viewing angle.
[0063]
The display method of the display screen specified by the guidance information generation parameter includes information such as whether to display a panoramic image as if looking around 360 degrees or an image representing a specific visual field.
[0064]
The information specified by the guide information generation parameters is input by the user using the input means of the guide information display device 100, or the information is automatically set and updated by the guide information display device 100 depending on the parameters. . For example, the current position may be automatically set by a GPS (Global Positioning System). Further, a parameter that is a fixed value such as a screen resolution may be stored in the guidance information display device 100 and automatically set when the guidance information generation parameter is generated.
[0065]
The “guidance information” refers to information for notifying the user of the surrounding environment at a certain point (the current position of the user), information for guiding a route to a destination, or a three-dimensional virtual space. (See FIG. 2) means information for performing route guidance. Note that the three-dimensional space is represented by, for example, a still image or a panoramic image representing a view of a predetermined range at a certain point.
[0066]
Specifically, the “guidance information” includes, for example, space information indicating a three-dimensional virtual space, vector information including lines and points indicating the outline or structure of a building or the like indicated by the space information, and space information. This includes character information that is information related to the name of the building or road to be shown or the spatial information thereof, and path instruction information such as an arrow or a character string that indicates the direction to go next to reach the destination.
[0067]
FIG. 3 is an explanatory diagram for explaining a display state of a display screen of the guidance information display device 100 based on “guidance information”. In this example, the display image based on the “guidance information” includes not only a still image representing a predetermined range of view at a certain point as shown in FIG. 3A, but also a display image as shown in FIG. An image including various information such as a character string representing a building name, vector information representing the shape of a display object, an image representing the appearance of the building, and an arrow or a character string indicating a direction to proceed to next is displayed.
[0068]
The “effective guidance information” is generated by a display method (a display method of spatial information displayed on a display screen) selected in consideration of the following conditions (1) to (3). Refers to guidance information.
(1) User's terminal: screen resolution, etc.
(2) Relationship between current position and display target spatial information in three-dimensional space: distance, etc.
(3) State of information indicating a target space in a still image representing a view at a certain point in a three-dimensional space: display area, etc.
[0069]
Types of display methods include a display method of displaying spatial information as a video, a display method of displaying a vector representing an external shape and a structure, and a display method of displaying a character string such as a building name, a store name, and a URI. In this example, the data amount of the data to be displayed differs depending on the display method. In this example, the parameter for specifying the type of display method of the display target such as the spatial information is referred to as “guidance information generation processing parameter”.
[0070]
In this example, the service provider or administrator providing the guidance service determines in advance the optimal guidance information generation processing parameters in consideration of the user terminal to which the service is to be provided and the environment of the communication network used. And is set in the guidance information providing server 200.
[0071]
Next, the configuration of the guidance information providing system 10 will be described in detail.
The guidance information display device 100 is a client terminal managed by a user who is provided with a guidance service. For example, a mobile information processing device such as a PDA (Personal Digital Assistants) or a mobile phone terminal is used. The guidance information display apparatus 100 has a communication function of transmitting and receiving various information via a communication network, and a browser function for performing screen display of hypertext data created by hypertext such as HTML (HyperText Markup Language). have. The various functions of the guidance information display device 100 are realized by, for example, implementing a control program for causing a microcomputer mounted on the device 100 to execute various processes.
[0072]
The guide information display device 100 is a device that provides a user with a guide service by displaying guide information on a screen. The guidance information display device 100 includes a parameter setting unit 110 and a guidance information display unit 120.
[0073]
The parameter setting unit 110 has a function of generating a guidance information generation parameter and transmitting it to the guidance information providing server 200. The guidance information display unit 120 is configured by, for example, a liquid crystal display device, and has a function of displaying a screen for route guidance based on the guidance information received from the guidance information providing server 200.
[0074]
In the guidance information display unit 120, guidance information is provided in accordance with an instruction (for example, an instruction for scroll display, enlargement / reduction display, screen switching, or the like) by a user's operation of an input unit (for example, an operation of specifying an area using a keyboard, a mouse, or a button). A guidance screen based on the information is displayed.
[0075]
Specifically, when the entire screen based on the guide information cannot be completely displayed in the display area of the guide information display unit 120, for example, when there is an instruction by a user's button operation, scroll display or reduced display is performed. Further, when a building is selected by a button operation of the user while an image of the building is displayed in the display area of the guidance information display unit 120, information on the building (for example, the name of the building) and information on the building are displayed. The URI of a Web site on which relevant information is posted is displayed, and when the URI is selected by a user's button operation, the user is connected to a Web site on the Internet specified by the URI.
[0076]
The guide information providing server 200 is managed by an operator of the present system, and includes, for example, a WWW (World Wide Web) server accessed from a plurality of guide information display devices 100 through a communication network such as the Internet. The guidance information providing server 200 includes a guidance information generation device 210, a spatial information storage device 220, and a processing method storage device 230. The various functions of the guidance information providing server 200 are realized by, for example, implementing a control program for causing a microcomputer mounted on the server 200 to execute various processes.
[0077]
The guidance information generation device 210 includes a space information extraction unit 211, a guidance information generation unit 212, and a route search unit 213. The guidance information generation device 210 receives a request for guidance information generation (specifically, guidance information generation parameters) from the guidance information display device 100, and receives the spatial information stored in the spatial information storage device 220 and the processing method storage device 230. Has various functions such as a function of generating guidance information from the guidance information generation processing parameters stored in the information processing apparatus and a function of transmitting the generated guidance information to the guidance information display device 100.
[0078]
The route search unit 213 has a route search function for searching for a travel route from a starting point to a destination. The route search unit 213 has route data indicating information on a route, and has a route calculation function of executing an operation for deriving a moving distance. The route search function is equivalent to, for example, a function used when searching for a travel route to a destination by a widely known car navigation system.
[0079]
The route search unit 213 generates route instruction information based on the searched travel route and the current position indicated by the guide information generation parameter set and transmitted by the parameter setting unit 110. The “route instruction information” is, for example, an arrow (for example, an arrow in FIG. 3B) or a character string (for example, FIG. 3 (B) "here"), point information, vector information, and text information.
[0080]
The spatial information extraction unit 211 stores the spatial information stored in the spatial information storage device 220 based on the guidance information generation parameters set and transmitted by the parameter setting unit 110 and the travel route searched by the route search unit 213. Among them, spatial information necessary for generating guidance information is extracted. Specifically, an ID (identifier) of the spatial information, two-dimensional information of the spatial information, and three-dimensional information of the spatial information are extracted.
[0081]
For example, the spatial information extraction unit 211 determines the current position (viewpoint position) of the position information specified by the guide information generation parameter and the position in a space configured by the spatial information stored in the spatial information storage device 220. The user turns his or her gaze in the direction to go to the next, and according to the field of view according to the display method specified by the guide information generation parameter, the ID of the spatial information to be displayed and the screen resolution of the terminal information specified by the guide information generation parameter The display area of the spatial information in the screen to be determined, the distance between each spatial information and the viewpoint position, and the volume of each spatial information are acquired.
[0082]
The information may be obtained based on a point other than the current position designated by the user on the guidance information display device 100, the line of sight, or the like, or may be designated in advance by the guidance information display device 100 or the guidance information generation device 210. The information may be obtained based on the position, the line of sight, and the like.
[0083]
The guide information generation unit 212 represents, as guide information, not only a still image or a panoramic image representing a view at a certain point in a three-dimensional space formed of spatial information, but also individual space information in a view at a certain point. Vector information consisting of images and lines and points representing the contours and structures of spatial information such as buildings, character information representing the names of spatial information and roads and information related to the spatial information, and route instruction information , And generates information including an arrow, a character string, and the like indicating a direction to go next in order to reach the destination.
[0084]
The guide information generating unit 212 includes a guide information generating parameter set and transmitted by the parameter setting unit 110, a spatial information ID acquired by the spatial information extracting unit 211, two-dimensional information of spatial information, and three-dimensional information of spatial information, The route information obtained by the route search unit 213, the shape information and attribute information of the spatial information obtained by searching the spatial information storage device 220 using the spatial information ID as a key, the guidance information generation parameters from the processing method storage device 230, Guidance information is generated using guidance information generation processing parameters obtained by searching using two-dimensional information of spatial information, three-dimensional information of spatial information, and attribute information of spatial information as keys, and the guidance information display unit 120 Send.
[0085]
The spatial information storage device 220 is configured by, for example, a hard disk, a database device, or the like, and is a device that stores spatial information used for providing a guidance service.
[0086]
The spatial information storage device 220 is implemented on a server-type computer using, for example, well-known database software.
[0087]
The processing method storage device 230 includes, for example, a hard disk or a database device, and stores guidance information generation processing parameters. The guidance information generation processing parameter is a parameter for generating optimal guidance information according to the guidance information display device 100 or the situation of the user.
[0088]
The processing method storage device 230 stores a display method for effectively providing route guidance to the user for each of the spatial information (the guide information including image information displayed by this display method is “effective guide information”). A table is stored in which guidance information generation processing parameters for selecting (a) are stored.
[0089]
The processing method storage device 230 is implemented on a server-type computer by well-known database software.
[0090]
Note that the guidance information generation device 210, the spatial information storage device 220, and the processing method storage device 230 may be present on the same computer, or may be present on different computers, and may communicate over a high-speed network. It does not assume a particular physical configuration.
[0091]
Next, the operation of the first exemplary embodiment of the present invention will be described with reference to the drawings.
FIG. 4 is a flowchart illustrating an example of the space guidance process executed by the guidance information providing system 10 and the timing of the process. Note that, here, the space guidance server 210 and the guidance information display device 100 execute a client / server process through a communication network.
[0092]
In the space guidance process, the parameter setting unit 110 of the guidance information display device 100 sets a guidance information generation parameter for requesting provision of guidance information according to a user operation (step S101).
[0093]
When the guidance information generation parameters are set, the guidance information display device 100 transmits the set guidance information generation parameters to the guidance information generation device 210 via the communication network (step S102).
[0094]
Upon receiving the guide information generation parameter, the route search unit 213 included in the guide information providing server 200 performs a route search from the current position to the destination, and searches for a next direction to head from the current position to the destination. Then, route information including the moving route and the traveling direction is generated (step S103).
[0095]
Next, using the received guidance information generation parameter and the generated route information, the spatial information extraction unit 211 outputs, from among the spatial information stored in the spatial information storage device 220, the ID of the spatial information to be processed, The two-dimensional information of the spatial information on the display screen and the three-dimensional information of the spatial information in the three-dimensional space are obtained (step S104).
[0096]
The guidance information generation unit 212 searches the spatial information storage device 220 for the shape information and attribute information of the spatial information using the ID of the spatial information acquired in step S104 as a key (step S105).
[0097]
Further, the guide information generating unit 212 receives the guide information generating parameter, the route information generated in step S103, the spatial information ID acquired in step S104, the two-dimensional information of spatial information, and the three-dimensional information of spatial information. Using the shape information and the attribute information of the spatial information acquired in step S105 as a key, the processing method storage device 230 is searched for guidance information generation processing parameters (step S106).
[0098]
Further, the guide information generating unit 212 includes a guide information generation parameter acquired from the guide information display device 100, the route information generated in step S103, the spatial information ID extracted in step S104, the two-dimensional information of the spatial information, and the space. Guidance information is generated using the three-dimensional information of the information, the shape information and attribute information of the spatial information acquired in step S105, and the guidance information generation processing parameter acquired in step S106 (step S107).
[0099]
Then, when the guide information generating unit 212 generates the guide information, the guide information generating unit 212 transmits the generated guide information to the guide information display unit 120 of the guide information display device 100 via the communication network (step S108).
[0100]
Upon receiving the guide information, the guide information display device 100 displays a guide screen based on the guide information on the guide information display unit 120 (step S109). Then, the guide information display device 100 scrolls the display screen of the guide information display unit 120, performs detailed display of guide information, and the like according to the operation of the user (step S109).
[0101]
Next, an example of the above-described first embodiment will be described with reference to the drawings.
Here, when the current location and the destination are specified by an operation of a mobile phone (an example of the guidance information display device 100) carried by the user, the direction in which the user should go next to go from the current location to the destination is determined. The guidance information providing server 200 generates guidance information for providing guidance, and a guidance service for transmitting the generated guidance information to the mobile phone is performed. Hereinafter, the space guidance processing in the present embodiment will be described with reference to the above-described flowchart of FIG.
[0102]
In this embodiment, a mobile phone terminal on which a control program for a mobile phone terminal developed in Java (registered trademark) such as i-appli (registered trademark) operates, for example, is used as the guidance information display device 100.
[0103]
In this embodiment, a server-type computer that can execute a control program such as a Web server connected to the Internet or a CGI (Common Gateway Interface) is used as the guidance information providing server 200.
[0104]
The guidance information providing server 200 has a temporary storage device accessed via a communication network. The guidance information providing server 200 includes a database (for example, a space information storage device 220) that stores three-dimensional geometric information necessary for reproducing a three-dimensional space (for example, see FIG. 2). It has a function to reproduce the three-dimensional space on the above.
[0105]
Further, the guidance information providing server 200 has a function of performing processing according to a database program for realizing processing relating to the database. Further, the guidance information providing server 200 includes a road network used for searching for a route passing through a plurality of points when the plurality of points are designated, and has a route search engine for executing a route search using the road network. ing.
[0106]
In the space guidance process, first, the guidance information display device 100 is a software (road guidance software) for executing a screen display or a screen operation based on the guidance information stored in the guidance information display device 100 in accordance with a user operation. Is started, and a screen such as that shown in FIG. 5A is displayed on the display screen 300 of the display device of the guidance information display apparatus 100.
[0107]
In the present embodiment, as shown in FIG. 5A, the coordinates of the display screen 300 of the display device included in the guide information display device 100 are represented by X [pixels] and Y [pixels]. The size of the display screen 300 is assumed to be 300 [pixels] in width and 400 [pixels] in height.
[0108]
The display screen 300 includes a current location input area 301 for inputting the longitude and latitude of the current location, a destination input area 302 for inputting the longitude and latitude of the destination, a guidance creation button 303 for instructing execution of guidance information generation processing, and a Is displayed. In the present location input area 301, longitude and latitude derived by a GPS receiver mounted on the guidance information display device 100 are input.
[0109]
In this embodiment, for the sake of simplicity, the destination is specified by the user in latitude and longitude. For example, a map is displayed on the screen of the guidance information display device 100, and the process of the location specified by the user as the destination is performed. The degree may be obtained, or an address may be input, and the parameter setting unit 110 or the guidance information providing server 200 may obtain the longitude and latitude corresponding to the address.
[0110]
After the current location and the destination are specified, when the guide creation button 303 is pressed by a user operation, the parameter setting unit 110 of the guide information display device 100 creates a guide information generation parameter (step S101).
[0111]
FIG. 5B is an explanatory diagram illustrating an example of the guide information generation parameter 304 created in step S101. In the present embodiment, as shown in FIG. 5B, the guidance information generation parameter 304 includes items of “terminal information”, “display method”, “current location”, and “destination”.
[0112]
In this example, the “terminal information” item in the guide information generation parameter 304 includes “type” indicating the type of the guide information display device 100 and the size of the display screen of the guide information display device 100 as more detailed parameters. "Screen size" is provided. In the present embodiment, as shown in FIG. 5B, a mobile phone is set as a terminal type in an item of “terminal information”, and a width 300, which is a screen size of the mobile phone, is set in an item of “image size”. [Pixel] and a height of 400 [pixel] are set.
[0113]
Further, in the item of “display method” in the guide information generation parameter 304, “type”, “horizontal viewing angle”, and “coincidence of line of sight and course” are provided as more detailed parameters. In the present embodiment, as shown in FIG. 5B, a still image (for example, a panoramic image that looks around 360 degrees, etc.) is not used as the display method of the guide information in the item of “type”, Is set in the item of “horizontal viewing angle”, and the horizontal viewing angle is set to 40 [deg] in the item of “horizontal viewing angle”, and is set in the item of “coincidence of line of sight and course”. "YES", which means that the line of sight for which the guidance information is to be created matches the course.
[0114]
Further, in the items of “current location” and “destination” in the guide information generation parameter 304, “LAT” and “LON” are provided as more detailed parameters, respectively. In the present embodiment, as shown in FIG. 5B, the item “LAT” of “current location” is set to 35,000 [deg], which is the latitude of the current location, and the item “LON” of “current location” is set. Is set to 135,000 [deg], which is the longitude of the current location. In addition, 35.100 [deg], which is the latitude of the destination, is set in the “LAT” item of “Destination B”, and the longitude of the destination is set in the “LON” item of “Destination B”. 135.100 [deg] is set.
[0115]
The values set in the items “LAT” and “LON” of “current location” are the latitude and longitude of the current location input by the parameter setting unit 110 shown in FIG. The values set in the “LAT” and “LON” items of “Destination B” are the latitude and longitude of the destination input by the parameter setting means 100 shown in FIG.
[0116]
The “type” and “image size” of “terminal information” in the guide information generation parameter 304 are information on the guide information display device 100 and are stored in the guide information display device 100 in advance. In the present example, the “type”, “horizontal viewing angle”, and “coincidence of line of sight and course” of the “display method” in the guide information generation parameter 304 are determined in advance by, for example, the user in this example. 100 is assumed to be stored.
[0117]
After generating the guide information generation parameter 304, the guide information display device 100 transmits the generated guide information generation parameter 304 to the guide information generation device 210 included in the guide information providing server 200 (step S102).
[0118]
Upon receiving the guide information generation parameter 304, the guide information providing server 200 generates guide information by the following operation and transmits the guide information to the guide information display device 100 (steps S103 to S108).
[0119]
In this embodiment, for the sake of simplicity, the spatial information stored in the spatial information storage device 220 is reproduced in a three-dimensional space by a known method using OpenGL (registered trademark), DirectX, or the like. It is assumed that the information is shape information on a possible building or terrain and attribute information corresponding to each shape information.
[0120]
The “shape information” is information indicating a shape of a building or a terrain that appears in a space, for example, as illustrated in FIG. That is, in this example, a shape such as a building or terrain is drawn using the shape information. The coordinates of the spatial information stored in the spatial information storage device 220 can be represented by latitude [deg], longitude [deg], and altitude [m]. In this example, as shown in FIG. 2, it is assumed that a specific position is specified by latitude, longitude, and altitude. Note that “terrain I” and “building A” to “building H” shown in FIG. 2 represent IDs of respective spatial information.
[0121]
FIG. 6 is an explanatory diagram illustrating an example of attribute information of spatial information. The attribute information shown in FIG. 6 is the attribute information of the spatial information shown in FIG. Note that the shape information of the spatial information and the attribute information of the spatial information are associated by a spatial information ID.
[0122]
Route search processing (step S103):
In the present embodiment, when the guide information generation parameter 304 is received, the route search unit 213 of the guide information generation device 210 makes the “LON” and “LAT” of the “current location” and “destination” items in the guide information generation parameter 304. , The current location and the destination are set, a route search is performed, and a moving route from the current location to the destination is searched.
[0123]
FIG. 7 is an explanatory diagram illustrating an example of a state in which a current location and a destination are set in a three-dimensional space based on spatial information. The current location and the destination specified by the guidance information generation parameter 304 are specified by latitude and longitude, respectively. Therefore, for example, the current location and the destination are set at a point specified by the latitude and longitude in the three-dimensional space illustrated in FIG. Then, as shown in FIG. 7, the current location A and the destination B are set at the respective locations specified by “LON” and “LAT” of the “current location” and “destination” items in the guide information generation parameter 304. Is set.
[0124]
However, in the present embodiment, the elevation values of the current location A and the destination B at the latitude and longitude on the terrain I are respectively used.
[0125]
The route search unit 213 searches for a route from the current location A to the destination B using the route search engine based on the current location A and the destination B specified by the guidance information generation parameter 304.
[0126]
FIG. 8 is an explanatory diagram illustrating an example of a route search result. In this embodiment, it is assumed that the result of the route search is obtained as shown in FIG. The route search result shown in FIG. 8 is a route that reaches the destination B from the current location A via the route D, via the waypoint C, and via the route E.
[0127]
From the route search result by the route search unit 213, it can be seen that in order for the user to proceed from the current location A to the destination B, the user should proceed in the direction of the waypoint C (the direction of the route D).
[0128]
Spatial information extraction processing (step S104):
When the route search is completed, the guidance information generation unit 212 executes a process of extracting spatial information based on the received guidance information generation parameter 304.
[0129]
In this example, the viewpoint is set at the current position A in the three-dimensional space shown in FIG. In addition, since “coincidence of line of sight and course” of [display method] of guidance information generation parameter 304 is “YES”, the image is directed to the line of sight to the next direction obtained from the route search result. Furthermore, since the “horizontal viewing angle” of the “display method” is 40, the horizontal viewing angle is set to 40 [deg]. Then, since the “type” of the “display method” is a still image, the scenery image is a still image. Accordingly, in this example, spatial information indicating an image as shown in FIG. 9A, for example, is extracted, instead of an image overlooking 360 degrees around.
[0130]
Note that the size of the acquired three-dimensional space image is 300 [pixel] and 400 [pixel] in height from the "screen size" of [terminal information] in the guide information generation parameter 304.
[0131]
The acquired spatial information includes the buildings A, B, C, E, F, G and the terrain I. Therefore, the image based on the acquired spatial information includes an image indicating buildings A, B, C, E, F, and G and an image indicating terrain I, as shown in FIG. .
[0132]
OpenGL (registered trademark) and DirectX have a function of acquiring which spatial information is displayed in an image and a display area of the spatial information. Using such a function, an area in which each piece of spatial information is displayed in FIG. 9A is acquired, for example, as shown in FIG. 9B.
[0133]
Note that FIG. 9B shows the operation of the guide information generation unit 212 and does not need to be actually displayed on the display device of the server 200. It suffices if the information display area can be recognized. Note that regions A, B, C, E, F, G, and I in FIG. 9B indicate display regions of buildings A, B, C, E, F, G, and terrain I, respectively.
[0134]
In this embodiment, for the sake of simplicity, the description will be made by replacing the display area of each spatial information with a rectangle circumscribing the display area. In this case, the display area of each space is represented, for example, as shown in FIG. Note that in FIG. 9C, the display areas in the screen on which each piece of spatial information is displayed are distinguished by different line types.
[0135]
From FIG. 9C, for example, “upper left coordinate”, “lower right coordinate”, “area”, and “display area ratio in screen” as shown in FIG. get.
[0136]
For example, in the case of the area A, looking at the record in which the “building ID” is “building A” in FIG. 10, the “upper left coordinate of the display area” is the upper left coordinate PA6 (0 [pixel], 250 [pixel]), the “lower right coordinate of the display area” is the lower right coordinate PA7 (120 [pixel], 300 [pixel]) in FIG. 9C, and the “area” is the area 600 of the area A. [Pixel × pixel], and the “display area ratio on the screen” is 5 [%]. The “display area ratio in the screen” means that the screen area is 120,000 [pixel × pixel] because the screen width is 300 [pixel] and the screen height is 400 [pixel]. Since the area of A is 600 [pixel × pixel], it is 5 [%].
[0137]
Each value shown in FIG. 10 is an example for explaining the present embodiment, and does not necessarily require accuracy.
[0138]
Attribute information acquisition processing (step S105):
The attribute information of the building in FIG. 6A stored in the spatial information storage device 220 is obtained.
[0139]
Guidance information generation method acquisition processing (step S106):
In this embodiment, for the sake of simplicity, the guidance information generation processing parameters stored in the processing method storage device 230 include “display area ratio on screen” of each piece of spatial information shown in FIG. 10 and FIG. It is assumed that a search is performed using the "category" shown in A) as a key.
[0140]
Further, in the present embodiment, the guide information of the terrain I is assumed to be composed only of line information that indicates the shape of the terrain, and specifically, the information shown in the item of [terrain I] in FIG. And
[0141]
In this embodiment, the guidance information generation processing parameters stored in the processing method storage device 230 indicate whether to generate building name information, generate polygons as building outline information for each building, or display the building. This is an option to decide whether to generate images or combine them.
[0142]
FIG. 12 is an explanatory diagram showing a table (table for determining guidance information generation processing parameters) including a record of “display area ratio on screen” of a building and a field of “building category”.
[0143]
In the present embodiment, it is assumed that the administrator of the guidance information server generates a table for determining the guidance information generation processing parameters as shown in FIG. 12 in advance and stores the table in the processing method storage device 230.
[0144]
As shown in FIG. 12, "display area ratio on screen" is 0-10 [%], 10-20 [%], 20-40 [%], 40-70 [%], 70-100 [%]. The "building category" is divided into "department store", "hospital", "multi-tenant building", and "hotel".
[0145]
FIG. 12 describes “non-display”, “character”, “polygon”, “image”, and a combination thereof as guidance information generation processing parameters.
[0146]
“Non-display” means that the guidance information generation processing of the building is not performed. "Character" means that building name information is generated as guidance information generation processing for the building. “Polygon” means generating a polygon as outline information of a building as guidance information generation processing of the building. “Image” means generating an image displaying a building as guidance information generation processing for the building.
[0147]
As shown in FIG. 12, for example, when the “display area ratio on the screen” of a building is 0% or more and less than 10%, and the “building category” is a hotel, the item of “character” is selected. Then, the display method of the building is determined to display the name of the building.
[0148]
The guidance information generation processing parameters for each building are stored in the spatial information storage device 220, the building attribute information in FIG. 6A, the processing method storage device 230 in FIG. 10 (hereinafter, this processing is referred to as “guidance information generation processing parameter obtaining processing”).
[0149]
Here, the guide information generation processing parameter acquisition processing will be described using the building A as an example. In FIG. 6A, focusing on the record whose “ID” is “building A”, the “category” of building A is “miscellaneous building”.
[0150]
In FIG. 10, when focusing on the record having the “building ID” of “building A”, the “display area ratio on the screen” of building A is 5 [%].
[0151]
In FIG. 12, focusing on the records in which the “display area ratio on the screen” is 0-10 [%] from FIG. 10 and looking at the field in which the category of the building A is “multi-tenant building” in FIG. The guidance information generation processing parameter is “polygon”.
[0152]
When guidance information generation processing parameter acquisition processing is performed on each building as described above, building A generates a polygon, building B generates an image and a character string, building C generates a character string, and building F generates a polygon. A character string is generated, and an image of the building G is generated.
[0153]
Guide information generation processing (step S107):
Since the guide information generation processing parameter of the building D is “non-display”, the guide information of the building D is not generated in the present embodiment.
[0154]
The guidance information generation unit 212 acquires guidance information generation processing parameters by guidance information generation processing parameter acquisition processing based on FIGS. 6, 10, and 12 to generate guidance information.
[0155]
In the present embodiment, the guide information generated by the guide information generating unit 212 is described as shown in FIG.
[0156]
The guide information is described for each building and each terrain, and each building and each terrain is described with an ID as an item such as [building A] or [terrain I]. For example, the guidance information on building A includes display information, a building name, a category, and related information.
[0157]
Here, each item of the guide information generated for each building and terrain shown in FIG. 12 will be described in detail using the building A as an example.
[0158]
By the above-described guidance information generation processing parameter acquisition processing, the guidance information generation processing parameter of the building A becomes “polygon”.
[0159]
Therefore, for example, in FIG. 9A, a polygon consisting of vertices PA1, PA4, PA5, and PA2 and a polygon consisting of vertices PA2, PA5, PA6, and PA3 are obtained, and the obtained two polygons are shown in FIG. Is the display information of the building A.
[0160]
Note that the process of acquiring the vertices of the polygon may be performed by a known method using, for example, OpenGL (registered trademark) or DirectX.
[0161]
The "display information" is described for each polygon, and describes that guide information is generated by a polygon and the coordinates (X coordinate, Y coordinate) of the polygon.
[0162]
The “building name” of the building A acquires the name of the building A from the extracted attribute information (see FIG. 6A) and is described as “OO building”.
[0163]
The “category” of the building A acquires the category of the building A from the extracted attribute information (see FIG. 6A) and is described as “miscellaneous building”.
[0164]
The “related information” of the building A acquires the related information of the building A from the extracted attribute information (see FIG. 6A), and obtains a URI “http://OO.co.jp/”. Is described.
[0165]
Similarly, each item of the guide information generated for each building and terrain shown in FIG. 11 will be described in detail using the building B as an example.
[0166]
By the above-described guidance information generation processing parameter acquisition processing, the guidance information generation processing parameter of the building B is such that the display area ratio of the building B is 13% (see FIG. 10) and the category is “department store” (see FIG. 6A). ), “Character + image” is set according to the table in FIG.
[0167]
In the present embodiment, as shown in FIG. 9 (D), the character string displays the name of the building and indicates the building with an arrow.
[0168]
The display information in the upper part of the building B in FIG. 11 is an arrow pointing to the center of the upper bottom of the building B. The starting point is (80, 380) of PB2 in FIG. 9D and the ending point is PB3 in FIG. 9D. The coordinates of the arrow and the character string of (80, 350) mean that the display is centered on PB2 (80, 380), which is the starting point of the arrow.
[0169]
In addition, the display information of the lower part of the building B in FIG. 11 (A) indicates that the building B is displayed as an image and that the URI indicating the storage area in the temporary storage device in which the data of the image indicating the building B is stored. "Http: //www.@.co.jp/buildB.rgb" and that the upper left coordinate PB1 of the image on the screen (see FIG. 9D) is (50, 50). Means.
[0170]
In this example, in the image within the circumscribed rectangle of the display area of the building B, the area other than the building B is filled with a color (transparent color in FIG. 11B) that specifies that the area other than the building B is transparent or transparent. The image (image B in FIG. 11B) is stored in the temporary storage device of the guidance information providing server 200.
[0171]
Guidance information transmission processing (step S108):
When the guide information as shown in FIG. 11A is generated as described above, the guide information generating unit 212 transmits the generated guide information to the guide information display device 100.
[0172]
Guidance information display processing (step S109): When the guidance information is received, the guidance information display unit 120 of the guidance information display means 100 displays the guidance information based on the received guidance information (see FIG. 11A), for example, as shown in FIG. A guidance screen as shown in is displayed.
[0173]
In this embodiment, the URI is described in the “display information” only for the image data. The URI may be stored in the temporary storage device and the URI may be described in the “display information”.
[0174]
As described above, in the first embodiment, the configuration of the guide information generated according to the type of the terminal used by the user is changed, so that the capability of the user terminal, the speed of the communication network, According to the preference or the like, it is possible to generate not only the image but also the guide information to the extent that the user can associate the guide information with the real space.
[0175]
For this reason, even a terminal having a low processing function, such as a mobile phone, or a terminal having a low communication speed on a communication network can receive information necessary for space guidance without a user feeling stress.
[0176]
In addition, even a terminal having a small display screen such as a mobile phone can generate and provide guidance information that allows a user to recognize a space such as a self-position.
[0177]
In addition, as described above, a guide information acquisition request is made by designating a viewpoint and a field of view, and guidance information of the viewpoint and the field of view in accordance with the request is provided. Guidance information at an arbitrary viewpoint or field of view can be provided without preparing other guidance information.
[0178]
In the above-described first embodiment, a space composed of buildings and terrain has been described. However, a space that includes spatial information such as trees and signals, or a space that constitutes a virtual space represented by a computer game or the like Information can be similarly processed.
[0179]
Further, in the above-described first embodiment, the configuration is such that the display area ratio on the screen and the category are used for selecting the guidance information generation processing parameter, but other attributes may be used.
[0180]
In the first embodiment, the guidance information generation processing parameter is selected according to the guidance information generation processing parameter selection method designated by the service provider. However, the guidance information generation processing parameter is selected in consideration of information from the user. You may. For example, a building of a category designated by the user may be preferentially selected.
[0181]
In order to further reduce the data amount, the guide information providing server 200 may compress and transmit the guide information by a widely known compression / decompression method, and may decompress the received guide information by the mobile phone terminal.
[0182]
In the first embodiment described above, since the line-of-sight direction for acquiring the video is the same as the direction in which the vehicle should proceed, the guide information does not describe viewpoint information, line-of-sight information, and route information. It may be added about the information of the viewpoint, the viewpoint, the course information, and the like.
[0183]
Further, in the first embodiment described above, the URI is described in the "display information" only for the image data. However, for example, even in the case of a polygon or a character string, coordinate data or character string information constituting the polygon is stored in a file or a database. Then, the information may be stored in the temporary storage device of the guidance information generation server, and the URI may be described in “display information”.
[0184]
In the first embodiment described above, the guide image based on the guide information is displayed after the guide information display device 100 has received all the guide information, but the guide information includes data having a relatively large size such as an image. Is included, information having a relatively small size, such as polygon information or character string information, may be displayed first, and may be sequentially displayed as soon as each image is downloaded. For example, the image data may be downloaded from the image data in the course direction and sequentially displayed. Even polygon information and character string information may be displayed sequentially as soon as they have been downloaded.
[0185]
Embodiment 2 FIG.
FIG. 13 is a block diagram illustrating an example of a configuration of the guide information providing system 10a according to the second embodiment of the present invention. In the following description, portions that perform the same configuration and processing as the guidance information providing system 10 according to the above-described first embodiment are given the same reference numerals, and detailed descriptions thereof are omitted.
[0186]
The guide information providing system 10 according to the first embodiment described above generally operates as follows.
Operation 1 (Steps S101 and S102): The guidance information display device 100 requests the guidance information generation device 210 to provide guidance information.
Operation 2 (Steps S103 to S108): In response to a request from the guidance information display device 100, the guidance information generation device 210 generates guidance information and transmits it to the guidance information display device 100.
Operation 3 (Step S109): Based on the guidance information generated in Operation 2, the guidance information display device 100 performs a screen display based on the guidance information, and notifies the user of the guidance information.
[0187]
However, the processing of the operation 2 in the guidance information generation device 210 is generally a heavy load processing, and there is a problem that the response speed to the user on the guidance information display device 100 becomes slow.
[0188]
In order to solve the above problem, in the second embodiment, a guide information cache unit 240 that caches information transmitted and received between the guide information display device 100 and the guide information generation device 210 is added to the configuration.
[0189]
That is, the guidance information calculated by the guidance information generation device 210 is temporarily stored in the guidance information cache unit 240 (this is called a cache), and when the same request is made to the guidance information generation device 210, this cache is stored in the cache. Guide information is generated with priority.
[0190]
This makes it possible to reduce the processing of “Operation 2” described above, and as a result, the response speed of the guidance information display device 100 can be increased.
[0191]
It is common practice in a WWW server or the like to cache information and preferentially use the cache to reduce the load on the server.
[0192]
The basic operation of the cache processing in the WWW server is to return data in the cache if the requested URL (Uniform Resource Locator) is the same as the previous request.
[0193]
However, such a cache process cannot be used as it is in the guide information generating device 210 described above.
[0194]
This is because, in the system of the present invention, since the guide information generation parameter serving as a request includes a very large number of items, the cache does not work effectively.
[0195]
However, for example, even if the present location is not exactly the same, it is considered that there is no problem even if the generated guidance information is the same at the same intersection.
[0196]
Even if the destinations are completely different, it is considered that there is no problem even if the generated guidance information is the same as long as the next traveling direction is the same.
[0197]
As described above, in order to implement the cache unit in the present invention, it is necessary to determine whether the guide information generation parameters that are requests are the same.
[0198]
Hereinafter, the configuration of the second exemplary embodiment of the present invention will be described.
As shown in FIG. 13, the guide information providing system 10a includes a guide information display device 100 and a guide information providing server 200a. The guidance information providing server 200a includes a guidance information generation device 210, a spatial information storage device 220, a processing method storage device 230, and a guidance information cache unit. That is, the guide information providing server 200a has a configuration obtained by adding the guide information cache unit 240 to the configuration of the guide information providing server 200 in the first embodiment described above.
[0199]
The guidance information cache unit 240 receives the guidance information generation parameter transmitted from the guidance information display device 100, stores the guidance information generation parameter using the received guidance information generation parameter in association with the guidance information generated by the guidance information generation device 210, and stores the guidance information. And a function of searching for guidance information using the guidance information generation parameter as a key.
[0200]
The guidance information cache unit 240 performs a search using the guidance information generation parameter from the guidance information display device 100 as a key, and there is a guidance information generation parameter considered to be the same as the guidance information generation parameter stored in the guidance information cache unit 240. In this case, the guide information associated with the guide information generation parameter is transmitted to the guide information display device 100.
[0201]
For example, the current position and destination indicated by the guidance information generation parameters (for example, see FIG. 5B) received from the guidance information display device 100, and the current position indicated by the guidance information generation parameters stored in the guidance information cache unit 240 When the destination and the destination are within a predetermined threshold, if the terminal information and the display method indicated by the two guide information generation parameters to be compared are the same, the two It is assumed that two guidance information generation parameters are the same.
[0202]
If none of the guidance information generation parameters stored in the guidance information cache unit 240 can be handled as being the same as the guidance information generation parameter received from the guidance information display device 100, the guidance information cache unit 240 The guide information generation parameter received from the guide information display device 100 is transmitted to the guide information generation device 210, stored in association with the guide information generated by the guide information generation device 210, and the guidance generated by the guide information generation device 210 is stored. The information is transmitted to the guidance information display device 100.
[0203]
If any of the guidance information generation parameters stored in the guidance information cache unit 240 can be handled as being the same as the guidance information generation parameter received from the guidance information display device 100, the guidance information The cache unit 240 may check whether or not the guidance information generation parameter stored in the guidance information cache unit 240 has been stored before a certain period of time. If the old guidance information generation parameter is stored earlier than the predetermined time, the guidance information cache unit 240 stores the old guidance information generation parameter and the guidance associated with the old guidance information generation parameter. What is necessary is just to delete information. In this case, the guidance information cache unit 240 transmits the guidance information generation parameter received from the guidance information display device 100 to the guidance information generation device 210, stores the information in association with the guidance information generated by the guidance information generation device 210, and stores the guidance information. The guidance information generated by the information generation device 210 is transmitted to the guidance information display device 100.
[0204]
The guidance information generation parameter and the guidance information stored in the guidance information cache unit 240 may be initialized, updated, or changed by the service provider of the guidance service, or the user may initialize and update from the parameter setting unit 110. Update and change instructions may be given.
[0205]
When the storage capacity of the guidance information cache unit 240 is exceeded, the oldest information may be deleted, or the information with the least number of searches may be deleted.
[0206]
The guidance information cache unit 240 is a database that stores guidance information generation parameters and spatial information in association with each other, and may be implemented on a server-type computer using widely known database software.
[0207]
The guidance information cache unit 240 and the guidance information generation device 210 may be present on the same computer, or may be present on different computers, and may communicate with each other via a high-speed network. Not necessarily.
[0208]
Next, the operation of the guidance information providing system 10a according to the second embodiment will be described in detail. FIG. 14 is a flowchart illustrating an example of guidance information provision processing and processing timing in the guidance information provision system 10a.
[0209]
In each step shown in FIG. 14, the same reference numerals are given to portions that execute the same processes as the processes described in FIG. 4 described above, and detailed description thereof will be omitted.
[0210]
In the guidance information providing process, the guidance information display device 100 transmits the set guidance information generation parameter to the guidance information cache unit 240 of the guidance information providing server 200a via the communication network (step S102).
[0211]
Upon receiving the guidance information generation parameter, the guidance information cache unit 240 includes, in the guidance information generation parameters stored in the database managed by itself, guidance information that can be handled in the same manner as the received guidance information generation parameter. A search is performed to determine whether or not the generation parameters (including completely the same parameters) are stored (step S201).
[0212]
As a result of the search in step S201, when it is confirmed that the guidance information generation parameter that can be handled as the same as the guidance information generation parameter received from the parameter setting unit 110 is stored, the guidance information cache unit 240 The guidance information stored in association with the guidance information generation parameter is extracted and transmitted to the guidance information display unit 120 (Step S202, Step S108).
[0213]
As a result of the search in step S201, when it is not confirmed that the guidance information generation parameter that can be handled as the same as the guidance information generation parameter received from the parameter setting unit 110 is stored, the guidance information cache unit 240 The guidance information generation parameter received from the parameter setting unit 110 is transmitted to the guidance information generation device 210 (Step S202).
[0214]
In the above-described second embodiment, the guidance information generation parameters and the guidance information generated in the past are stored, and the guidance information is not generated when the guidance information generation parameters are regarded as the same, but the stored guidance information is stored. , The guide information can be transmitted to the user at a higher speed.
[0215]
Therefore, even when many users access the same server at the same time, guidance information can be generated without imposing a load on the server, and the user can receive information necessary for space guidance without feeling stress.
[0216]
Although the present invention has been described using an example in which an existing city (a town, an underground shopping mall, or the like) is created on a computer as a virtual space, the present invention is not necessarily based on a virtual space that is compatible with an existing city. . For example, a virtual space used in a computer game or the like may be used.
[0219]
Next, an example of the second embodiment will be described with reference to the drawings.
Note that detailed description of portions performing the same processing as in the example of the first embodiment described above is omitted.
[0218]
The guidance information cache unit 240 is operated by well-known database software, and includes a storage device that stores various information such as guidance information parameters and guidance information.
[0219]
In the guidance service implemented in the present embodiment, it is assumed that the user uses the same mobile phone and the display method on the terminal is the same, but the current position and the destination are different.
[0220]
That is, among the items of the guidance information generation parameter (FIG. 5B) transmitted from the guidance information display device 100 to the guidance information cache unit 240 and from the guidance information cache unit 240 to the guidance information generation device 210, “terminal information” The “display method” is common to all users, and “current location A” and “destination B” are different for each user.
[0221]
First, a description will be given of a process in an initial state in which the guidance information generation parameter and the guidance information are not yet stored in the storage device provided in the guidance information cache unit 240.
[0222]
Note that a set of the guide information generation parameter stored in the guide information cache unit 240 and the guide information generated by the guide information generation device 210 based on the parameter will be referred to as a “cache”.
[0223]
It is assumed that the parameter setting unit 110 has transmitted the parameter A shown in FIG. 15C to the guidance information cache unit 240 as a guidance information generation parameter in response to a user operation.
[0224]
In the initial state, the cache is not stored in the storage device included in the guide information cache unit 240, so the guide information cache unit 240 transmits the parameter A to the guide information generation device 210.
[0225]
The guidance information generation device 210 generates guidance information based on the parameter A received from the guidance information cache unit 240. Here, the guide information generating device 210 generates guide information as shown in FIG. 11 (hereinafter, referred to as “guide information A”).
[0226]
In the present embodiment, details of the guide information itself will not be described in detail, and the generated guide information will be referred to as “guide information A”, “guide information B”, and the like.
[0227]
The guidance information A generated by the guidance information generation device 210 is transmitted to the guidance information cache unit 240.
[0228]
The guide information cache unit 240 stores the guide information generation parameters and the guide information in a table including fields of “guide information generation parameters” and “guide information” as shown in FIG. In this embodiment, FIG. 15A is called a “cache table”.
[0229]
The content of the "guidance information generation parameter" field of the cache table may be information that can access the guidance information generation parameter, and all of the content of the guidance information generation parameter may be described. One file may be stored in the storage device of the guidance information cache unit 240, and a URI to the file may be described.
[0230]
The contents of the "guidance information" field of the cache table need only be information that can access the guidance information, and all the contents of the guidance information may be described, or the guidance information may be stored in the storage device of the guidance information cache unit 240. May be stored as one file, and a URI for the file may be described.
[0231]
The guidance information cache unit 240 adds the parameter A and the guidance information A to the cache table (FIG. 15A).
[0232]
As shown in FIG. 15A, one record is added to the cache table, "parameter A" is set in the "guidance information parameter" field, and "guidance information A" is set in the "guidance information" field.
[0233]
Specifically, the “parameter A” set in the “guidance information parameter” field describes not the guidance information generation parameter A itself but the guidance information generation parameter A stored in the storage device included in the guidance information cache unit 240. The URI for accessing the file.
[0234]
The “guidance information A” is not the guidance information A itself but a URI for accessing a file describing the guidance information A stored in the storage device provided in the guidance information cache unit 240.
[0235]
Next, the same user or another user generates guidance information generation parameters such as parameter B in FIG. Shall be transmitted.
[0236]
The guidance information cache unit 240 determines whether the guidance information generation parameter B and the guidance information generation parameter B stored in the cache table are the same.
[0237]
In the present embodiment, as a criterion for determining whether two guide information generation parameters are the same, the absolute value of the difference between “LON” and the absolute value of the difference between “LAT” and “Destination” The sum of the absolute value of the difference between “LON” and the absolute value of the difference between “LAT” is used (hereinafter referred to as “parameter difference”). If the parameter difference is smaller than a threshold, the two guide information generation parameters are the same. And if the parameter difference is greater than the threshold, it is determined that the two guide information generation parameters are different.
[0238]
The threshold is set in advance by the service manager of the service, and is set to 1.0 in the present embodiment.
[0239]
The guidance information cache unit 240 determines whether the guidance information parameter A and the guidance information parameter B currently stored in the cache table are the same.
[0240]
When the parameter difference between the guidance information parameter A and the guidance information parameter B is calculated, it is 2.0, which is larger than the threshold value 1.0, so that the guidance information cache unit 240 stores the guidance information A stored in the guidance information cache unit 240. Instead, the guidance information B newly generated by the guidance information generation device 210 using the guidance information generation parameter B is used.
[0241]
The guidance information cache unit 240 transmits the guidance information generation parameter B to the guidance information generation device 210, and generates the guidance information B.
[0242]
The guidance information generation device 210 transmits the generated guidance information B to the guidance information cache unit 240.
[0243]
The guide information cache unit 240 registers the guide information generation parameter B and the guide information B in the cache table as shown in FIG.
[0244]
The guidance information cache unit 240 adds one record to the cache table, sets “parameter B” in the “guidance information parameter” field illustrated in FIG. 15B, and sets the “guidance information” field illustrated in FIG. Is set to "guidance information B".
[0245]
“Parameter B” is a URI to a file describing the guide information generation parameter B stored in the storage device of the guide information cache unit 240.
[0246]
“Guidance information B” is a URI to a file describing the guidance information B stored in the storage device of the guidance information cache unit 240.
[0247]
Next, the same user or another user generates guidance information generation parameters such as the parameter C of FIG. Shall be transmitted.
[0248]
The guidance information cache unit 240 determines whether the guidance information generation parameter stored in the cache table and the guidance information generation parameter C are the same.
[0249]
The guide information cache unit 240 calculates the parameter difference between the guide information parameter A and the guide information parameter C, which is 0.2, which is smaller than the threshold value 1.0. It is determined that A and the guide information parameter C are the same.
[0250]
The guide information cache unit 240 determines that the guide information corresponding to the guide information parameter C is the guide information A, and transmits the guide information A to the guide information display unit 120.
[0251]
In the above-described second embodiment, the guide information is provided using the guide information generated in the past, so that the response time to the guide information provision request from the user can be reduced. it can.
[0252]
In the above-described second embodiment, the difference between the current location and the destination is used to determine the parameter difference between the guide information generation parameters. However, other items of the guide information generation parameters may be used.
[0253]
Further, a cache table may be created according to the items of the guide information generation parameters. For example, a cache table for a mobile phone, a cache table for a personal computer, and a cache table for a PDA may be created according to the type of terminal used by the user.
[0254]
Further, the guide information cache unit 240 stores the time when the guide information cache unit 240 is used by the user or the time when the guide information is created, and uses the time difference to determine whether the guide information generation parameters are the same. You may. For example, if the time difference is small, it can be considered that there is no problem even if the guide information generation parameters are treated as the same.
[0255]
Embodiment 3 FIG.
FIG. 16 is a block diagram illustrating an example of the configuration of the guide information providing system 10b according to the third embodiment of the present invention. In the following description, portions that perform the same configuration and processing as the guidance information providing system 10 according to the above-described first embodiment are given the same reference numerals, and detailed descriptions thereof are omitted.
[0256]
As shown in FIG. 16, the guide information providing system 10b includes a guide information display device 100b and a guide information providing server 200. The guidance information display device 100b includes a parameter setting unit 110, a guidance information display unit 120, and a communication status acquisition unit 130. That is, in this example, the configuration is such that the communication status acquisition unit 130 is added to the guide information display device 100 of the guide information providing system 10 according to the first embodiment described above.
[0257]
When the parameter setting unit 110 sets the guidance information generation parameter, the communication status acquisition unit 130 acquires the communication status on the communication network between the guidance information display device 100 and the guidance information generation device 210.
[0258]
As the communication status on the communication network (hereinafter, sometimes simply referred to as “communication status”), for example, information on the radio wave state of a mobile phone (an example of the device 100b) may be used or a wireless LAN (Local Area Network) may be used. ) May be used.
[0259]
When setting the guidance information generation parameter, the parameter setting unit 110 also sets the communication status acquired by the communication status acquisition unit 130 as the guidance information generation parameter.
[0260]
The guide information generating unit 212 includes a guide information generating parameter including the communication status set by the parameter setting unit 110, an ID of the spatial information acquired by the spatial information extracting unit 211, two-dimensional information of the spatial information, and three-dimensional information of the spatial information. Information, the route information acquired by the route search unit 213, the shape information and attribute information of the spatial information acquired by searching the spatial information storage device 220 using the ID of the spatial information as a key, and the guidance in the processing method storage device 230. Using the information generation parameter, the two-dimensional information of the spatial information, the three-dimensional information of the spatial information, and the attribute information of the spatial information as a key, the guide information is generated using the guide information generation processing parameter, and the guide information is generated. It is transmitted to the display unit 120.
[0261]
Next, the operation of the guidance information providing system 10b according to the third embodiment will be described in detail. FIG. 17 is a flowchart illustrating an example of guidance information provision processing and processing timing in the guidance information provision system 10b.
[0262]
Note that, in each step shown in FIG. 17, the same reference numerals are given to portions performing the same processes as those described above with reference to FIG. 4, and detailed descriptions thereof will be omitted.
[0263]
In the guidance information providing process, the communication status acquisition unit 130 acquires a communication status between the guidance information display device 100 and the guidance information generation device 210 (Step S301).
[0264]
The parameter setting unit 110 sets guidance information generation parameters necessary for generating guidance information, including the communication status acquired in step S301 (step S101).
[0265]
In addition, the guide information generation unit 212 includes a guide information generation parameter including the communication status set in step S101, the spatial information ID and the two-dimensional information of the spatial information and the three-dimensional information of the spatial information acquired in step S103, and step S104. The guide information is generated using the route information acquired in step S1, the shape information and attribute information of the spatial information acquired in step S105, and the guidance information generation processing parameter acquired in step S106 (step S107).
[0266]
In this embodiment, since the communication status at the time of generating the guide information generation parameter is obtained, even in an environment where the communication status frequently changes, such as inside or outside a building or an underground mall, the guide information according to the communication status is obtained. Can be generated, and the user can receive information necessary for space guidance without feeling stress.
[0267]
In the present embodiment, the communication status acquisition unit 130 is added to the guidance information providing system 10 in the first embodiment. However, the communication information acquisition system 130 is added to the guidance information providing system 10a in the second embodiment. The configuration in which the unit 130 is added may be adopted.
[0268]
Next, an example of the third embodiment will be described with reference to the drawings.
Note that detailed description of portions performing the same processing as in the example of the first embodiment described above is omitted.
[0269]
In the present embodiment, the communication status acquisition unit 130 can acquire the communication speed of the communication network between the guidance information display device 100 and the guidance information generation device 210.
[0270]
In addition, for simplicity of description, the communication speed is set to two stages of 64 [kbps] or lower and higher than 64 [kbps], and the communication speed is set to low speed and high speed, respectively. Note that the communication speed is not necessarily required to be two steps, and the communication speed may be measured more finely.
[0271]
Further, here, the communication speed is used as the communication status on the communication network, but another communication status such as a radio wave state obtained by a mobile phone or the like may be used. For example, the radio wave state may be evaluated in 10 steps, and the value may be used as the communication status on the communication network.
[0272]
In this example, the communication speed of the communication network is used as the communication status, and the communication status acquisition unit 130 sets the communication speed of the communication network between the guide information display device 100 and the guide information generation device 210 to high speed (128 [kbps]). It shall be acquired.
[0273]
For example, as shown in FIG. 18, the parameter setting unit 110 sets the guidance information generation parameter (here, the guidance information generation parameter shown in FIG. An item “communication speed = high speed” is added as information.
[0274]
In this example, as shown in FIG. 19, it is assumed that guidance information generation processing parameters set in tables prepared for each communication speed are stored in the processing method storage device 230. Therefore, in this example, the configuration is such that the guidance information generation processing parameter differs depending on the communication speed.
[0275]
That is, a table used for the guidance information generation processing parameter acquisition processing when the communication speed is low as shown in FIG. 19A, and the guidance information generation processing when the communication speed is high as shown in FIG. It is assumed that a table used for parameter acquisition processing is stored in the processing method storage device 230.
[0276]
In this embodiment, since the value of the communication speed shown in FIG. 18 is high, the guide information generation unit 212 selects the table shown in FIG. 19B in step S106. In the subsequent processing, the same processing as in the first embodiment described above is executed using the selected table.
[0277]
As described above, according to the third embodiment, it is possible to generate and provide guidance information that allows a user to recognize a target space even to a terminal having a low network communication speed such as a mobile phone. it can.
[0278]
Embodiment 4 FIG.
FIG. 20 is a block diagram illustrating an example of a configuration of the guide information providing system 10c according to the fourth embodiment of the present invention. In the following description, portions that perform the same configuration and processing as the guidance information providing system 10 according to the above-described first embodiment are given the same reference numerals, and detailed descriptions thereof are omitted.
[0279]
As shown in FIG. 20, the guide information providing system 10c includes a guide information display device 100 and a guide information providing server 200c. The guidance information providing server 200c includes a guidance information generation device 210, a spatial information storage device 220, a processing method storage device 230, and a communication status acquisition unit 250. That is, the guide information providing server 200c of the guide information providing system 10c has a configuration in which the communication status acquisition unit 250 is added to the guide information providing server 200 in the above-described first embodiment.
[0280]
The communication status acquisition unit 250 acquires a communication speed between the guidance information display device 100 and the guidance information generation device 210 when the guidance information generation unit 230 generates the guidance information.
[0281]
The guide information generating unit 212 includes a guide information generating parameter set by the parameter setting unit 110, an ID of spatial information acquired by the spatial information extracting unit 211, two-dimensional information of spatial information, three-dimensional information of spatial information, and a route. The route information acquired by the search unit 213, the communication speed acquired by the communication status acquisition unit 250, and the shape information and attribute information of the spatial information acquired by searching the spatial information storage device 220 using the ID of the spatial information as a key In the processing method storage device 230, the guidance information generation parameter, the two-dimensional information of the spatial information, the three-dimensional information of the spatial information, the attribute information of the spatial information, and the guidance information generation processing parameter obtained by searching with the communication speed as keys are used. By using the information, guidance information is generated and transmitted to the guidance information display unit 120.
[0282]
Next, the operation of the guidance information providing system 10c according to the fourth embodiment will be described in detail. FIG. 21 is a flowchart illustrating an example of guidance information provision processing and processing timing in the guidance information provision system 10c.
[0283]
In each step shown in FIG. 21, the same reference numerals are given to portions that execute the same processes as those described above with reference to FIG. 4, and detailed descriptions thereof will be omitted.
[0284]
The communication status acquisition unit 250 acquires the communication status of the communication network between the guidance information display device 100 and the guidance information generation device 210 (Step S401).
[0285]
The guide information generation unit 212 searches the spatial information storage device 220 for the shape information and attribute information of the spatial information using the ID of the spatial information acquired in step S103 as a key (step S105).
[0286]
The guidance information generation unit 212 also generates the guidance information generation parameters set in step S101, the spatial information ID acquired in step S103, the two-dimensional information of spatial information and the three-dimensional information of spatial information, and the route acquired in step S104. Using the information, the shape information and attribute information of the spatial information acquired in step S105, and the communication status of the communication network acquired in step S401 as keys, the processing method storage device 230 searches for a guidance information generation processing parameter. (Step S106).
[0287]
The guidance information generation unit 212 also generates the guidance information generation parameters set in step S101, the spatial information ID acquired in step S103, the two-dimensional information of spatial information and the three-dimensional information of spatial information, and the route acquired in step S104. The guidance information is generated using the information, the shape information and the attribute information of the spatial information acquired in step S105, and the guidance information generation processing parameter acquired in step S106 (step S107).
[0288]
Next, an example of the fourth embodiment will be described with reference to the drawings.
Note that detailed description of portions performing the same processing as in the example of the first embodiment described above is omitted.
[0289]
In the present embodiment, the communication status acquisition unit 240 can acquire the communication speed of the communication network between the guidance information display device 100 and the guidance information generation device 210.
[0290]
In the present embodiment, the communication speed of the communication network is used as the communication status, and the communication status acquisition unit 240 sets the communication speed of the communication network between the guidance information display device 100 and the guidance information generation device 210 to high speed (128 [kbps]). It shall be acquired.
[0291]
In this example, it is assumed that the guidance information generation processing parameters set for each communication speed as shown in FIG. 19 described above are stored in the processing method storage device 230.
[0292]
In this embodiment, since the communication speed acquired by the communication status acquisition unit 240 is high, the guidance information generation unit 212 selects the table shown in FIG. After that, the same processing as in the first embodiment described above is executed using the selected table.
[0293]
In the fourth embodiment described above, since the communication status of the communication network at the time when the guidance information generation parameter is received is acquired, even in an environment where the communication status frequently changes, such as inside or outside a building or an underground mall, Guidance information according to the communication status can be generated, and the user can receive information necessary for space guidance without feeling stress.
[0294]
Embodiment 5 FIG.
FIG. 22 is a block diagram illustrating an example of a configuration of the guide information providing system 10d according to the fifth embodiment of the present invention. In the following description, portions that perform the same configuration and processing as the guidance information providing system 10a according to the above-described second embodiment will be given the same reference numerals, and detailed descriptions thereof will be omitted.
[0295]
As shown in FIG. 22, the guide information providing system 10d includes a guide information display device 100 and a guide information providing server 200d. The guidance information providing server 200d includes a guidance information generation device 210, a spatial information storage device 220, a processing method storage device 230, a guidance information cache unit 240, and a communication status acquisition unit 250d. That is, the guide information providing server 200d of the guide information providing system 10d has a configuration in which the communication status acquisition unit 250d is added to the guide information providing server 200a in the above-described second embodiment.
[0296]
The communication status acquisition unit 250d is configured to control the communication status of the communication network between the guidance information display device 100 and the guidance information cache unit 240, and the communication status of the communication network between the guidance information cache unit 240 and the guidance information generation device 210. To get one or both.
[0297]
The guidance information cache unit 240 adds the information on the communication status of the communication network acquired by the communication status acquisition unit 250d to the guidance information generation parameter set by the parameter setting unit 110.
[0298]
The guidance information generation parameter to which the information on the communication status of the communication network is added operates in the same manner as the guidance information generation parameter in the second embodiment.
[0299]
Next, the operation of the guidance information providing system 10d according to the fifth embodiment will be described in detail. FIG. 23 is a flowchart illustrating an example of guidance information provision processing and processing timing in the guidance information provision system 10d.
[0300]
In each of the steps shown in FIG. 23, the same reference numerals are given to portions that execute the same processes as those described above with reference to FIG. 14, and detailed descriptions thereof will be omitted.
[0301]
The communication status acquisition unit 250d is configured to determine the communication status of the communication network between the guide information display device 100 and the guide information cache unit 240 and the communication status of the communication network between the guide information cache unit 240 and the guide information generation device 210. Either or both are acquired (step S501).
[0302]
The guidance information cache unit 240 adds the information on the communication status of the communication network acquired by the communication status acquisition unit 250d to the guidance information generation parameter set by the parameter setting unit 110 (step S502).
[0303]
In the present embodiment, since the communication status of the communication network at the time of generating the guidance information generation parameter is acquired, even in an environment where the communication status frequently changes, such as inside or outside a building or an underground shopping mall, the communication status is determined according to the communication status. Guide information can be generated, and the user can receive information necessary for space guidance without feeling stress.
[0304]
Next, an example of the fifth embodiment will be described with reference to the drawings.
Note that a detailed description of portions performing the same processing as in the example of the above-described second embodiment will be omitted.
[0305]
In this embodiment, the communication status acquisition unit 250d acquires the communication speed of the communication network between the guidance information display device 100 and the guidance information generation device 210.
[0306]
In this embodiment, the communication speed of the communication network is used as the communication status, and the guidance information cache unit 240 adds the communication speed information acquired by the communication status acquisition unit 250d to the guidance information generation parameter.
[0307]
Here, for example, it is assumed that the communication status acquisition unit 250d has acquired a high speed (128 [kbps]) as the communication speed.
[0308]
When high speed is acquired as the communication speed, the guidance information cache unit 240 adds an item “communication speed = high speed” to the guidance information generation parameter (see FIG. 18).
[0309]
In the present embodiment, unlike the second embodiment, the difference between the absolute value of the difference between “LON” in the item “current location”, the absolute value of the difference between “LAT” and the difference between “LON” in the item of “destination” is different. If the sum of the absolute value and the absolute value of the difference of "LAT" is smaller than the threshold value and the item of "communication speed" is the same, it is determined that the two guide information generation parameters are the same, and if not. Determines that the two guide information generation parameters are different (hereinafter, this process is referred to as guide information generation parameter determination process). Note that the above threshold value is 1.0 here.
[0310]
The parameter setting unit 110 transmits the guidance information generation parameter to the guidance information cache unit 240, acquires the communication speed by the communication status acquisition unit 250d, and adds it to the item of the communication speed. It is assumed that the guidance information generation parameter indicated by the parameter A in (C) has been acquired.
[0311]
At first, since the guidance information cache unit 240 does not store a cache, the guidance information cache unit 240 transmits the parameter A of FIG. 24C to the guidance information generation device 210 to generate guidance information.
[0312]
The guidance information generation device 210 generates guidance information A and transmits it to the guidance information cache unit 240.
[0313]
The guidance information cache unit 240 adds the parameter A and the guidance information A to the cache table (FIG. 24A).
[0314]
Next, the parameter setting unit 110 transmits the guidance information generation parameter to the guidance information cache unit 240, the communication status acquisition unit 250d acquires the communication speed, and the guidance information cache unit 240 indicates the parameter B in FIG. It is assumed that the guidance information generation parameters have been obtained.
[0315]
The guidance information cache unit 240 determines whether the guidance information generation parameter stored in the cache table and the guidance information generation parameter B are the same.
[0316]
When the guidance information generation parameter determination process is performed on the parameters A and B, the two guidance information generation parameters are determined to be different. Is transmitted to generate guidance information B.
[0317]
The guidance information generation device 210 transmits the generated guidance information B to the guidance information cache unit 240.
[0318]
The guidance information cache unit 240 registers the parameter B and the guidance information B in the cache table as shown in FIG.
[0319]
Next, the parameter setting unit 110 transmits the guidance information generation parameter to the guidance information cache unit 240, the communication status acquisition unit 250d acquires the communication speed, and the guidance information cache unit 240 sets the parameter C in FIG. It is assumed that the guidance information generation parameter shown is acquired.
[0320]
The guidance information cache unit 240 performs a guidance information parameter determination process on the guidance information generation parameters and the parameters C stored in the cache table (FIG. 24A), and determines that the parameters A and C are the same.
[0321]
The guide information cache unit 240 determines that the guide information corresponding to the parameter C is the guide information A, and transmits the guide information A to the guide information display unit 120.
[0322]
In the fifth embodiment described above, the guidance information generation parameters and the guidance information generated in the past are stored, and the guidance information is not generated when the guidance information generation parameters are considered to be the same, and the stored guidance information is stored. , The guide information can be transmitted to the user at a higher speed.
[0323]
Therefore, even when many users access the same server at the same time, guidance information can be generated without imposing a load on the server, and the user can receive information necessary for space guidance without feeling stress.
[0324]
In the above-described fifth embodiment, the difference between the current location and the destination and the difference in communication are used in the guide information generation parameter determination processing, but other items of the guide information generation parameter may be used.
[0325]
Embodiment 6 FIG.
FIG. 25 is a block diagram illustrating an example of a configuration of the guide information providing system 10e according to the sixth embodiment of the present invention. In the following description, portions that perform the same configuration and processing as the guidance information providing system 10 according to the above-described first embodiment are given the same reference numerals, and detailed descriptions thereof are omitted.
[0326]
As shown in FIG. 25, the guide information providing system 10e includes a guide information display device 100, a guide information providing server 200, a storage device 300, and a storage device 400. The storage device 300 stores a parameter generation program and a guidance information display program. The storage device 400 stores a guidance information generation program.
[0327]
Each of the storage devices 300 and 400 may be a database device, a magnetic disk, a semiconductor memory, a CD-ROM, or another recording medium.
[0328]
Further, the storage devices 300 and 400 may be configured as one storage device. In this case, for example, the storage device 300 and the storage device 400 may be on the same server as the guide information generation device 210, for example, and the program used by the guide information display device 100 may be downloaded from the server.
[0329]
The parameter generation program and the guidance information display program are read from the storage device 300 into the guidance information display device 100, control the operation of the guidance information display device 100, generate guidance information generation parameters, and generate guidance information with the guidance information display device 100. The communication status of the communication network with the information generation device 210 is obtained, the guidance information generation parameter is transmitted to the guidance information generation device 210, the guidance information generated by the guidance information generation device 210 is received, View and manipulate information.
[0330]
The guidance information generation program is read from the storage device 400 into the guidance information generation device 210, controls the operation of the guidance information generation device 210, and sets the communication status of the communication network between the guidance information display device 100 and the guidance information generation device 210. Or the guidance information generation parameters sent from the guidance information display device 100, the spatial information stored in the spatial information storage device 220, the communication status, and the guidance stored in the processing method storage device 230. The guide information is generated from the information generation processing parameters and transmitted to the guide information display device 100.
[0331]
Embodiment 7 FIG.
FIG. 26 is a block diagram illustrating an example of a configuration of a guide information providing system 10f according to the seventh embodiment of the present invention. In the following description, portions that perform the same configuration and processing as the guidance information providing system 10 according to the above-described first embodiment are given the same reference numerals, and detailed descriptions thereof are omitted.
[0332]
As shown in FIG. 26, the guidance information providing system 10f includes a guidance information display device 100, a guidance information generation device 210, a processing method storage device 230, a spatial information storage device 220, and a guidance information cache device 500. The storage device 300 further includes a storage device 300 that stores a parameter generation program and a guidance information display program, a storage device 400 that stores a guidance information generation program, and a storage device 600 that stores a guidance information cache program.
[0333]
Each of the storage devices 300, 400, and 600 may be a database device, or may be a magnetic disk, a semiconductor memory, a CD-ROM, or another recording medium.
[0334]
Further, the storage devices 300, 400, and 600 may be configured as one storage device. In this case, for example, the storage device 300, the storage device 400, and the storage device 600 are located on the same server as the guide information generation device 210, for example, the program used by the guide information display device 100 is downloaded from the server, or the guide information cache device is used. 500 may download the guidance information cache program.
[0335]
The guidance information cache device 500 executes the same processing as the processing by the guidance information cache unit 240 in the second embodiment and the processing by the communication status acquisition unit 250d in the fifth embodiment under the control of the guidance information cache program. I do.
[0336]
The parameter generation program and the guidance information display program are read from the storage device 300 into the guidance information display device 100, control the operation of the guidance information display device 100, generate guidance information generation parameters, and It transmits to the cache device 500, receives the guide information transmitted from the guide information cache device 500, displays and operates the guide information.
[0337]
The guidance information generation program is read from the storage device 400 into the guidance information generation device 210, controls the operation of the guidance information generation device 210, and generates a guidance information generation parameter transmitted from the guidance information cache device 500 and a spatial information storage device. The guide information is generated from the space information stored in 220 and the guide information generation processing parameter stored in the processing method storage device 230, and transmitted to the guide information cache device 500.
[0338]
The guide information cache program is read from the storage device 600 into the guide information cache device 500, controls the operation of the guide information cache device 500, and guides the guide information display device 100 and the guide information cache device 500 or the guide information cache device 500 and the guide. The communication status of the communication network with the information generation device 210 is acquired, and information on the communication status is added to the guidance status generation parameter sent from the guidance information display device 100, or the guidance information generation parameter or the guidance The guidance information generation parameter transmitted by the information display device 100 is compared with the guidance information generation parameter stored in the guidance information cache device 500 to determine whether it is the same.
[0339]
As a result of the comparison, if they are the same, the guide information corresponding to the stored guide information generation parameter is transmitted to the guide information display device 100.
[0340]
If the result of the comparison is not the same, the guidance information generation parameter is transmitted to the guidance information generation device 210, and the guidance information generated by the guidance information generation device 210 is stored in the guidance information cache device 500 in association with the guidance information generation parameter, The guidance information is transmitted to the guidance information display device 100.
[0341]
【The invention's effect】
As described above, according to the present invention, the form of guidance information to be provided can be changed according to the type of terminal used by a user. For example, a terminal having a low network communication speed such as a mobile phone can be used. Also, it is possible to generate and provide guidance information that allows the user to recognize the target space.
[0342]
Further, according to the present invention, it is possible to provide guidance information at an arbitrary viewpoint or view without preparing guide information for each viewpoint or view in advance.
[0343]
Further, according to the present invention, even a terminal having a small display screen such as a mobile phone can generate and provide guidance information that allows a user to recognize a space such as a self-position.
[0344]
Further, according to the present invention, it is possible to reduce a response time to a request for providing guidance information from a user.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of a guidance information providing system according to a first embodiment of the present invention.
FIG. 2 is a schematic diagram showing spatial information.
FIG. 3 is an explanatory diagram showing an example of a display state of a display screen of the guidance information display device and the like.
FIG. 4 is a flowchart illustrating an example of guidance information providing processing and processing timing according to the first embodiment of the present invention.
FIG. 5 is an explanatory diagram showing a display state of a display screen of the guidance information display device and the like.
FIG. 6 is an explanatory diagram showing an example of attribute information of spatial information.
FIG. 7 is an explanatory diagram showing an example of a state in which a current location and a destination are set in space information.
FIG. 8 is an explanatory diagram showing an example of a state in which a route search result is set in spatial information.
FIG. 9 is an explanatory diagram showing an example of a guidance screen based on guidance information.
FIG. 10 is an explanatory diagram illustrating an example of information regarding a display area of spatial information.
FIG. 11 is an explanatory diagram showing an example of guidance information.
FIG. 12 is an explanatory diagram illustrating an example of a selection table for guide information generation processing parameters.
FIG. 13 is a block diagram illustrating a configuration example of a guidance information providing system according to a second embodiment of the present invention.
FIG. 14 is a flowchart illustrating an example of guidance information providing processing and processing timing according to the second embodiment of the present invention.
FIG. 15 is an explanatory diagram showing an example of association between guidance information generation parameters stored in a cache table and guidance information;
FIG. 16 is a block diagram illustrating a configuration example of a guidance information providing system according to a third embodiment of the present invention.
FIG. 17 is a flowchart illustrating an example of guidance information providing processing and processing timing according to the third embodiment of the present invention.
FIG. 18 is an explanatory diagram illustrating an example of guidance information generation parameters.
FIG. 19 is an explanatory diagram illustrating an example of a selection table for guide information generation processing parameters.
FIG. 20 is a block diagram illustrating a configuration example of a guidance information providing system according to a fourth embodiment of the present invention.
FIG. 21 is a flowchart illustrating an example of guidance information providing processing and processing timing according to a fourth embodiment of the present invention.
FIG. 22 is a block diagram illustrating a configuration example of a guidance information providing system according to a fifth embodiment of the present invention.
FIG. 23 is a flowchart illustrating an example of guidance information providing processing and processing timing according to the fifth embodiment of the present invention.
FIG. 24 is an explanatory diagram showing an example of correspondence between guidance information generation parameters stored in a cache table and guidance information;
FIG. 25 is a block diagram illustrating a configuration example of a guidance information providing system according to a sixth embodiment of the present invention.
FIG. 26 is a block diagram illustrating a configuration example of a guidance information providing system according to a seventh embodiment of the present invention.
[Explanation of symbols]
10. Guidance information providing system
100 guide information display device
110 Parameter setting section
120 Guidance information display
200 guide information providing server
210 Guide information generation device
211 Spatial information extraction unit
212 guidance information generation unit
213 Route Search Unit
220 Spatial information storage device
230 Processing method storage device

Claims (31)

A guidance information providing method for transmitting guidance information for route guidance to a mobile user terminal connected to a communication network via a communication network,
The user terminal transmits a guide information generation request including the feature information of the own terminal in the guide information generation request,
In response to the guide information generation request, a step of generating guide information for displaying a guide image indicating a landscape using spatial information on the user terminal,
Transmitting the generated guidance information to the user terminal,
A guidance information providing method, comprising: generating guidance information matching characteristics of the user terminal based on characteristic information of the user terminal included in the guidance information generation request. Extracting the display method specifying information stored in advance to specify the display method of the spatial information according to the characteristic information of the user terminal according to the characteristic information included in the guidance information generation request;
Generating guide information in which spatial information is displayed by a display method specified by the extracted display method specifying information. Storing guidance information generation request from the user terminal and guidance information generated in response to the guidance information generation request as cache data; 3. The guidance information providing method according to claim 1, further comprising: using the cache data in preference to the guidance information generation processing. A guidance information providing server for transmitting guidance information for route guidance to a mobile user terminal connected to a communication network via a communication network,
Guidance information generating means for generating guidance information for displaying a guidance image indicating a landscape using spatial information on the user terminal in response to a guidance information generation request including characteristic information of the own terminal from the user terminal; and ,
Guidance information transmission means for transmitting guidance information generated by the guidance information generation means to the user terminal,
The guide information providing server, wherein the guide information generating means generates guide information matching characteristics of the user terminal based on characteristic information of the user terminal included in the guide information generation request. 5. The guidance information providing server according to claim 4, further comprising a route search unit that searches for a movement route from the current position specified by the guidance information generation request to the destination. 6. The guidance information providing server according to claim 5, wherein the guidance information generating means generates guidance information for displaying a moving route searched by the route searching means on a user terminal and performing route guidance. The guidance information generation request includes stopover information indicating a stopover from the current position to the destination,
7. The guidance information providing server according to claim 5, wherein the route search unit searches for a moving route passing through the route point indicated by the route point information. Specific information storage means for storing display method specifying information for specifying a display method of spatial information according to the characteristic information of the user terminal;
Specific information extracting means for extracting display method specifying information from the specific information storage means according to the characteristic information included in the guidance information generation request,
8. The guide information generating unit according to claim 4, wherein the guide information generating unit generates guide information in which spatial information is displayed by a display method specified by the display method specifying information extracted by the specific information extracting unit. Guide information providing server. The guide information generation request includes view information for specifying the view of the guide image,
The guidance information providing server according to any one of claims 4 to 8, wherein the guidance information generating means generates guidance information based on the view information included in the guidance information generation request. The guidance information generating means generates guidance information including attribute information indicating an attribute of the spatial information,
10. The guidance information providing server according to claim 4, wherein a guidance image including the attribute information is displayed on the user terminal based on the guidance information transmitted by the guidance information transmitting means. The guidance information providing server according to any one of claims 4 to 10, wherein the characteristic information of the user terminal includes terminal type information indicating a type of the user terminal. The guidance information providing server according to any one of claims 4 to 11, wherein the characteristic information of the user terminal includes screen size information indicating a display screen size of a display unit provided in the user terminal. Specific information storage means for storing display method specifying information for specifying a display method of spatial information according to a data communication speed of the user terminal;
Specific information extracting means for extracting display method specific information from the specific information storage means according to the data communication speed of the user terminal included in the guidance information generation request,
13. The guide information generating unit according to claim 4, wherein the guide information generating unit generates guide information in which spatial information is displayed by a display method specified by the display method specifying information extracted by the specific information extracting unit. Guide information providing server. The spatial information includes information indicating a building,
The guidance information providing server according to any one of claims 1 to 13, wherein the guidance information generating means generates guidance information in which spatial information including the building is displayed. Display area ratio calculation means for calculating a display area ratio in a guide screen of a displayed building;
Display method storage means for storing a display method according to the display area ratio of the building in the guidance screen,
15. The guidance information providing server according to claim 14, wherein the guidance information generating means generates guidance information for displaying the building by a display method according to a display area ratio of the building. Distance calculating means for calculating the distance of the building from the viewpoint on the guidance screen;
Display method storage means that stores a display method according to the distance,
16. The guidance information providing server according to claim 14, wherein the guidance information generating means generates guidance information for displaying the building in a display method according to a distance from the viewpoint of the building to be displayed. Height calculating means for calculating the height of the displayed building;
Display method storage means for storing a display method according to the height of the building,
The guidance information providing server according to any one of claims 14 to 16, wherein the guidance information generating means generates guidance information for displaying the building in a display method according to the height of the building to be displayed. Volume calculation means for calculating the volume of the displayed building;
Display method storage means for storing a display method according to the volume of the building,
The guidance information providing server according to any one of claims 15 to 17, wherein the guidance information generating means generates guidance information for displaying the building in a display method according to a volume of the building to be displayed. The guide information generating means displays the building by a display method which is one of display by image, display by text, display by point, line, polygon, display by three-dimensional CG, and a combination thereof. The guidance information providing server according to any one of claims 15 to 18, which generates the guidance information. Storage means for storing guidance information generation request from the user terminal and guidance information generated in response to the guidance information generation request as cache data;
5. A guidance information caching means for using the cache data in preference to a guidance information generation processing by a guidance information generation means when receiving a guidance information generation request from the user terminal. 19. The guidance information providing server according to any one of 19. Storage means for storing guidance information generation request from the user terminal and guidance information generated in response to the guidance information generation request as cache data;
When a guidance information generation request similar to the guidance information generation request received in the past is received from the user terminal, the guidance information generated and stored in response to the guidance information generation request received in the past is deleted, and a new 21. The guide information providing server according to claim 20, further comprising a cache data updating unit that stores the guide information generated by the guide information generating unit in response to the guide information generation request. 22. The guide information cache unit according to claim 20, wherein the guide information caching unit determines whether or not the guide information generation request received in the past and the new guide information generation request are identical by using a spatial positional relationship. Guidance information providing server. The guidance information caching means determines whether or not the previously received guidance information generation request is identical to the new guidance information generation request by determining the time between the previously received guidance information generation request and the new guidance information generation request. 23. The guidance information providing server according to claim 22, which is determined by: The guidance information caching means determines whether the previously received guidance information generation request is identical to the new guidance information generation request by determining whether the previously received guidance information generation request and the new guidance information generation request are the same. 23. The guidance information providing server according to claim 22, wherein the determination is performed based on a type of the terminal. Receives the guide information from a guide information providing server that provides guide information for route guidance via a communication network, and displays a guide image showing a landscape by spatial information based on the received guide information. A guidance information display device,
Guidance information generation request execution means for making a guidance information generation request to the guidance information providing server;
Guide information receiving means for receiving, via a communication network, guide information generated by the guide information providing server in response to the guide information generation request,
Guidance image display means for displaying a guidance image based on the received guidance information,
The guide information display device, wherein the guide information generation request execution unit issues a guide information generation request including its own characteristic information, and makes a request for generating guide information that matches its own characteristics. 26. The guidance information according to claim 25, wherein the guidance information generation request execution unit issues a guidance information generation request including a current location and a destination, and issues a guidance information generation request including a search result of a travel route from the current location to the destination. Display device. A current position deriving means for receiving positioning signals from a plurality of satellites and deriving a current position,
27. The guide information display device according to claim 26, wherein the current position deriving unit derives a current position used when making a guide information generation request. Map display means for displaying a map of a specified area,
Coordinate acquisition means for acquiring coordinates of a point on the specified map,
27. The guidance information display device according to claim 26, wherein the guidance information generation request execution unit issues a guidance information generation request using the coordinates acquired by the coordinate acquisition unit as a current location or a destination used when issuing the guidance information generation request. The guide information according to any one of claims 25 to 28, wherein the guide image display means executes display processing of already received information even if reception processing of the guide information by the guide information receiving means has not been completed. Display device. A guide information providing program for causing a guide information providing server to execute a process of transmitting guide information for route guidance to a guide information providing server via a communication network to a mobile user terminal connected to a communication network And
In the guidance information providing server,
In response to a guide information generation request including the feature information of the own terminal from the user terminal, a generation process of generating guide information for displaying a guide image indicating a landscape using spatial information on the user terminal,
And transmitting the generated guidance information to the user terminal.
Further, in the generation process, a process of generating guide information matching the characteristics of the user terminal based on the characteristic information of the user terminal included in the guide information generation request is performed. Guide information provision program. Receives the guidance information from a guidance information providing server that provides guidance information for route guidance via a communication network, and moves a process of displaying a guidance image indicating a landscape based on spatial information based on the received guidance information. A guidance information display control program to be executed by a possible guidance information display device,
Request execution processing for making a guidance information generation request that is a guidance information generation request including its own characteristic information to the guidance information providing server, which is a request for generating guidance information that matches its own characteristics,
A reception process of receiving, via a communication network, guidance information generated by the guidance information providing server in response to the guidance information generation request,
A display process for displaying a guide image based on the received guide information.

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