JP6290314B2 - Information processing system, information processing method, and information processing program - Google Patents

Description

The present invention relates to an information processing system, information processing method, and an information processing program.

  Conventionally, various information is stored and used in a medium such as an IC tag capable of near field communication.

  For example, in the guidance system described in Patent Document 1, when an IC tag installed on a route to a destination stores guide map information in the vicinity of the installation location and is read by a mobile terminal. It is disclosed to display the guide map and the like.

JP 2005-180967 A

  However, conventionally, there has been a problem in that complicated input is required when performing a route search with a terminal device.

  In particular, the guidance system described in Patent Document 1 can display a guidance map in the vicinity of the installation location, but cannot be applied when the user wants to go to any destination. Had.

The present invention has been made in view of the above problems, it is possible to simplify the input for performing a route search, the information processing system, information processing method, and aims to provide an information processing program And

  In order to achieve such an object, the terminal device of the present invention is a terminal device including at least a short-range wireless communication unit, a storage unit, and a control unit, the control unit via the short-range wireless communication unit, Point information acquisition means for acquiring point information transmitted from a medium capable of short-range wireless communication, and point information for storing the point information acquired by the point information acquisition means in the storage unit and storing it for a predetermined time It is characterized by comprising storage means and route search condition setting means for setting one or a plurality of the spot information stored in the storage unit by the spot information storage means as route search conditions.

  Further, the terminal device according to the present invention is the terminal device described above, wherein the route search condition setting unit sets the position based on the point information based on the number of the point information stored in the storage unit. The route search condition is set as a transit point and / or destination.

  The terminal device according to the present invention is the terminal device described above, wherein the route search condition setting means sets the position based on the point information based on the order of the point information stored in the storage unit. The route search condition is set as a transit point and / or destination.

  The terminal device according to the present invention further includes a current position information acquisition unit that acquires current position information in the terminal device described above, wherein the route search condition setting unit is the current position information acquired by the current position information acquisition unit. The route search condition is set with a current position based on the position information as a departure point and a position based on the point information as a destination and / or a transit point.

  The terminal device according to the present invention further includes an input unit in the terminal device described above, and the route search condition setting unit has a position based on the point information stored in the storage unit and / or a current position. The user may be specified via the input unit so as to be set as a starting point, a destination, and / or a waypoint of the route search condition.

  The terminal device according to the present invention further includes an input unit in the terminal device described above, and the point information storage unit is configured to notify a user when a plurality of the point information is simultaneously acquired by the point information acquisition unit. The point information is designated through the input unit, and the designated point information is stored in the storage unit.

  Moreover, the terminal device of the present invention further includes an output unit in the terminal device described above, the point information further includes coupon information, and the control unit is set by the route search condition setting unit. It further comprises output control means for outputting the coupon information stored in the storage unit to the output unit after route guidance of the route based on the route search condition.

  The terminal device according to the present invention is the terminal device described above, wherein the point information includes schedule information including position information and time information, and the route search condition setting unit is configured to store the storage unit by the point information storage unit. The time based on the time information is set as the route search condition based on the number and / or order of the point information together with the position based on the position information based on the schedule information stored in To do.

  The terminal device of the present invention further includes an output unit in the terminal device described above, the point information includes a mesh ID, and the control unit includes facility information belonging to the mesh ID via a network. And a facility information acquiring means for acquiring the information and outputting it to the output unit.

  The terminal device according to the present invention is a search condition execution method that is executed in a terminal device including at least a short-range wireless communication unit, a storage unit, and a control unit in the terminal device described above, and is executed in the control unit. The point information acquisition step for acquiring point information transmitted from the medium capable of short-range wireless communication via the short-range wireless communication unit, and the point information acquired in the point information acquisition step A point information storage step that is stored in the storage unit and is stored for a predetermined time, and a route search condition that sets one or a plurality of the point information stored in the storage unit in the point information storage step as a route search condition And a setting step.

  A terminal device according to the present invention is a program for causing a terminal device including at least a short-range wireless communication unit, a storage unit, and a control unit to execute the program in the terminal device described above. The point information acquisition step for acquiring point information, which is transmitted from a medium capable of short-range wireless communication via the distance wireless communication unit, and the point information acquired in the point information acquisition step are stored in the storage unit Then, a point information storage step for storing for a predetermined time, and a route search condition setting step for setting one or a plurality of the point information stored in the storage unit in the point information storage step as a route search condition, It is made to perform.

  According to this invention, via the short-range wireless communication unit, the point information transmitted from the medium capable of short-range wireless communication is acquired, the acquired point information is stored in the storage unit, and stored for a predetermined time, One or more pieces of point information stored in the storage unit are set as route search conditions. Thereby, this invention has an effect that the input for performing a route search can be simplified. In particular, conventionally, it is complicated to input route search conditions such as a destination, and since the hit rate of the input word affects the result, there is a problem that an accurate position or the like may not be grasped. there were. The present invention solves the problem and acquires point information from a medium capable of short-range wireless communication, so that an input operation is simplified and an accurate position or the like can be set.

  Although it is conceivable that the spot information is read by a two-dimensional code such as a QR code (registered trademark) instead of the short-range wireless communication, the following problems occur. (1) Since the camera needs to be activated for reading, it takes time and effort. (2) Information cannot be given continuity because simultaneous reading is impossible. (3) Data cannot be written because it is printed matter. (4) It cannot be displayed on the map because of reading. (5) It becomes impossible to read at night or when the barcode is dirty. According to the present invention, since the point information is acquired by short-range wireless communication, these various problems can be solved.

  Further, according to the present invention, in the above, based on the number of pieces of point information stored in the storage unit, the route search condition is set with the position based on the point information as a departure point, a transit point, and / or a destination, respectively. Therefore, there is an effect that it is possible to set the route search condition accurately based on the number of pieces of point information without requiring a complicated operation.

  Further, according to the present invention, in the above, based on the order of the spot information stored in the storage unit, the route search condition is set with the position based on the spot information as the departure point, the waypoint, and / or the destination, respectively. Therefore, there is an effect that it is possible to set the route search condition accurately based on the order of the point information without requiring a complicated operation.

  Further, according to the present invention, in the above, the current position information is acquired, the current position based on the current position information is set as the departure point, the position based on the point information is set as the destination and / or the waypoint, and the route search condition is set. Since the setting is performed, there is an effect that the route search condition can be accurately set without requiring a complicated operation.

  In addition, according to the present invention, in the above, further provided with an input unit, the position and / or the current position based on the spot information stored in the storage unit is the starting point, the destination, and / or the route search condition. Since the user is designated via the input unit so as to be set as the waypoint, there is an effect that the route search condition can be set at a position desired by the user.

  Further, according to the present invention, in the above, further comprising an input unit, and when a plurality of pieces of spot information are acquired at the same time, the user is allowed to designate the spot information via the input unit, and the designated spot information is stored. Therefore, the route search condition can be accurately set without requiring a complicated operation.

  Further, according to the present invention, in the above, further comprising an output unit, the point information further includes coupon information, and after the route guidance of the route based on the set route search condition, the coupon information stored in the storage unit is displayed. Since it outputs to an output part, there exists an effect that purchase can be invited to a user in relation with positions, such as a destination.

  According to the present invention, in the above, the point information includes schedule information including position information and time information, and is based on the time information together with the position based on the position information based on the schedule information stored in the storage unit. The time is set as a route search condition based on the number and / or order of the point information. Thereby, the present invention has an effect that not only the position of the destination or the waypoint but also the input of the time such as the arrival time and the waypoint can be simplified.

  Further, according to the present invention, in the above, further provided with an output unit, the point information includes the mesh ID, acquires the facility information belonging to the mesh ID via the network, and outputs it to the output unit. There is an effect that the facility in the mesh range can be input accurately and simply by the user.

  In the above description, the effect of the terminal device of the present invention has been described as an example, but the same effect can be achieved in the search condition setting method and the program.

FIG. 1 is a block diagram illustrating an example of a configuration of a terminal device according to the present embodiment. FIG. 2 is a diagram illustrating an installation example of the IC tag 200. FIG. 3 is a diagram schematically showing a point information acquisition method for the IC tag 200 installed on the back side of the printed matter of the map. FIG. 4 is a flowchart showing an example of processing of the terminal device 100 in the present embodiment. FIG. 5 is a diagram illustrating an example of setting route search conditions when there is one piece of point information stored in the point information temporary file 106a. FIG. 6 is a diagram illustrating an example of setting route search conditions when there are two pieces of point information stored in the point information temporary file 106a. FIG. 7 is a diagram illustrating a setting example of route search conditions when there are three pieces of point information stored in the point information temporary file 106a. FIG. 8 is a diagram illustrating an example in which a user specifies a route search condition via the input unit 116. FIG. 9 is a flowchart illustrating an example of a specific process of the terminal 100 according to the present embodiment.

  Embodiments of a terminal device, a search condition setting method, and a program according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

  An embodiment of the present invention will be described below with reference to FIGS. However, the embodiment shown below exemplifies a route search system for embodying the technical idea of the present invention, and is not intended to specify the present invention as this route search system. It is equally applicable to other embodiments that fall within the scope of the claims. For example, the form of function distribution on the server side and the terminal device side of the external device or the like in the route search system exemplified in the present embodiment is not limited to the following, and is functional in arbitrary units as long as similar effects and functions can be achieved. Or it can be physically distributed and integrated.

[Configuration of this embodiment]
First, an example of a configuration of a terminal device and a route search system including the terminal device according to the present embodiment will be described below with reference to FIG. Here, FIG. 1 is a block diagram showing an example of the configuration of the terminal device in the present embodiment, and conceptually shows only the portion related to the present invention in the configuration. In this embodiment, a stand-alone type route search system may be described as a specific example. However, the present invention is not limited to this, and is applicable to a route search system that provides communication-type navigation. It is.

  As shown in FIG. 1, the route search system of this embodiment is generally configured by connecting an IC tag 200, a terminal device 100, and an external device 600 so that they can communicate with each other. Here, as shown in FIG. 1, the IC tag 200 and the terminal device 100 are communicably connected by short-range wireless communication when the distance between them is short. In the present embodiment, “short-range wireless communication” refers to wireless communication having a relatively short reach. For example, as near field communication, a communication method such as NFC (Near Field Communication) capable of bidirectional communication at a distance of about 10 centimeters may be used.

  In addition, the communication may be, for example, remote communication such as wired / wireless communication via the network 300 or the like. Here, the network 300 has a function of mutually connecting the terminal device 100 and the external device 600, for example, the Internet, a telephone line network (such as a mobile terminal line network and a general telephone line network), an intranet, or Power line communication (PLC) or the like may be used.

  As shown in FIG. 1, in the route search system of the present embodiment, the terminal device 100 includes a position acquisition unit 112, an output unit 114, an input unit 116, a control unit 102, and a storage unit 106. Each part of the route search system is communicably connected via an arbitrary communication path.

  As shown in FIG. 1, the IC tag 200 is a medium capable of short-range wireless communication with the terminal device 100. Here, the IC tag 200 has a function of storing at least point information and transmitting the point information to the terminal device 100 by short-range wireless communication. Here, in the present embodiment, the spot information includes at least information (position information) that can specify the position. For example, the position information may be a mesh ID (for example, an ID in the first to third regional division meshes of JIS standard). Note that the position information includes not only information such as a facility ID, latitude / longitude, and address that can directly specify the position, but also information that can specify the position by some method. For example, the position information may be identification information (identifier) of the IC tag 200. That is, the terminal device 100 can specify a position corresponding to the identification information by making an inquiry to the database of the storage unit 106 or the external device 600 using the identification information as a query. The point information may include not only position information but also coupon information and time information.

  Here, the IC tag 200 may be a card-type information storage medium such as a non-contact type IC card (RFID card or the like). Further, the non-contact type IC card has a coil and an IC chip that function as an antenna inside the card. When the user holds the terminal device 100 over the IC tag 200, wireless communication data is generated by electromagnetic induction by a magnetic field generated from a sense coil (detection coil) or the like constituting the communication control interface unit 104 of the terminal device 100. (Point information etc.) can be exchanged without contact. As an example of a non-contact type IC card, out of three general communication methods, Type A has an IC telephone card of NTT (company name), Type B has a Basic Resident Registration Number Card (Juki Card), and Felica has a Sucia (Registered trademark) and Edy (registered trademark). In the present embodiment, the point information providing medium is described as the IC tag 200. However, the present invention is not limited to this, and a medium capable of short-range wireless communication other than the IC tag may be used. Here, an installation example of a medium such as the IC tag 200 will be described with reference to FIG. FIG. 2 is a diagram illustrating an installation example of the IC tag 200.

  As shown in FIG. 2, the IC tag 200 is installed on the back side of a printed matter of a map (a material that does not interfere with short-range wireless communication such as paper) as an example. For this reason, the IC tag 200 cannot be directly viewed from the user, but when the user brings the terminal device 100 close to a target location on the map, the IC tag 200 installed on the back side of the position is removed. The point information is configured to be transmitted. That is, in the example of FIG. 2, the IC tag 200-1 stores point information A that specifies the position on the map of the surface of the installation location. Similarly, IC tag 200-2 memorize | stores the point information B which pinpoints the position on the map of the surface of the installation location. Similarly, the IC tag 200-3 stores point information C that specifies the position on the map of the surface of the installation location. As described above, the IC tag 200 stores the point information for specifying the position on the map corresponding to the installation location, and transmits it to the terminal device 100. The map may be a signboard (such as a map board), a poster, or a magazine.

[Configuration of Terminal Device 100]
Returning again to FIG. 1, in FIG. 1, the terminal device 100 acquires point information transmitted from a medium such as an IC tag 200 capable of short-range wireless communication via a short-range wireless communication unit (not shown). The acquired point information is stored in the storage unit 106 and stored for a predetermined time, and one or a plurality of point information stored in the storage unit 106 is set as a route search condition. The terminal device 100 is, for example, a commercially available information processing device such as a desktop or notebook personal computer, a mobile terminal device such as a mobile phone, PHS, or PDA, and a navigation terminal that performs travel route guidance or the like. . Here, the terminal device 100 may be equipped with an Internet browser or the like, or may be equipped with a route guidance application or a transfer guidance application. Further, the terminal device 100 includes a position acquisition unit 112 having a GPS function, an IMES function, and the like so that the current position can be acquired in real time. Further, the terminal device 100 includes an output unit 114, an input unit 116, a storage unit 106, and a control unit 102. Here, the output unit 114 displays a route search result received from the external device 600, in addition to display means for displaying a display screen such as display guidance data (for example, a display or a monitor including a liquid crystal or an organic EL). Voice output means (for example, a speaker or the like) that outputs the guidance data as voice may be used. The input unit 116 may be, for example, a key input unit, a touch panel, a keyboard, a microphone, or the like. The input / output control interface unit 108 controls the position acquisition unit 112, the output unit 114, the input unit 116, and the like.

  Here, the position acquisition unit 112 may be, for example, a position acquisition unit that receives a position information signal transmitted from the position transmission device 500. Here, the position transmitting device 500 may be a GPS device that transmits a position information signal (GPS signal), and IMES that enables indoor positioning using a position information signal having characteristics similar to those of the GPS signal. It may be an IMES device that implements (Indoor Message System) technology. The IMES technology is a system developed from the framework of the quasi-zenith satellite, which is a positioning satellite system. Further, the position transmission device 500 may be a GPS repeater that transmits a GPS signal received outdoors indoors. Further, the position transmission device 500 may be a small transmission device that is arbitrarily installed on each floor of a building (for example, a multilevel parking lot) or an underground structure (for example, a tunnel, an underground parking lot). Good. In addition, self-position information (position ID etc.) according to an installation place is allocated to this small transmitter. When the terminal device 100 enters the communicable range, the terminal device 100 receives the self-position information transmitted from the small transmitter as a position information signal. The communication method at this time may be, for example, various short-range wireless methods such as an RFID (Radio Frequency Identification) tag system and Bluetooth (registered trademark), an infrared communication method, and the like. Further, the position transmission device 500 may be a wireless LAN access point. In the present embodiment, the location acquisition unit 112 may receive wireless LAN signals and acquire access point identification information. Then, the control unit 102 may acquire the position information by specifying the position of the access point from the identification information unique to the access point acquired by the position acquisition unit 112. In the present embodiment, the control unit 102 may calculate position information including latitude, longitude, and height information from the position information signal acquired by the position acquisition unit 112. Here, the position information may indicate a relative position from a reference position in addition to the absolute position specified by the latitude and longitude.

  Further, the position acquisition unit 112 detects, for example, the acceleration information of the terminal device 100 detected by the acceleration sensor of the position acquisition unit 112, the direction information such as the traveling direction of the terminal device 100 detected by the direction sensor, and the distance sensor. Position information indicating the current position of the user of the terminal device 100 may be acquired based on the distance information and the map data. Here, a geomagnetic sensor that detects the absolute traveling direction of the terminal device 100 and an optical gyro that detects the relative traveling direction of the terminal device 100 may be used as the direction sensor. In addition, the direction sensor may be an electronic compass that can acquire information on the direction and inclination by combining a geomagnetic sensor and an acceleration sensor.

  The communication control interface unit 104 is an interface connected to a communication device (not shown) such as an antenna or a router connected to a communication line, a telephone line, etc., and between the terminal device 100 and the IC tag 200 or It has a function of performing communication control between the terminal device 100 and the network 300. That is, the communication control interface unit 104 has a function of communicating data with the external device 600 or the like via a communication line. Note that the communication control interface unit 104 may control a near field communication by controlling a near field communication unit (not shown). That is, the communication control interface unit 104 has a function of communicating data (such as point information) with the IC tag 200 or the like via a communication line.

  The storage unit 106 is a storage unit such as a fixed disk device such as an HDD (Hard Disk Drive) or an SSD (Solid State Drive), and various databases and tables (point information temporary file 106a, network database 106b, and Map database 106c and the like).

  Among these components of the storage unit 106, the spot information temporary file 106a is a spot information temporary storage unit that temporarily stores spot information. For example, the spot information temporary file 106a may store spot information for a predetermined time. Note that a point information storage unit 102b, which will be described later, may control temporary storage. For example, a predetermined time elapses after the point information storage unit 102b stores the point information in the point information temporary file 106a. After that, the point information may be deleted from the point information temporary file 106a.

  The network database 106b is network data storage means for storing network data that defines the traffic network. For example, the network data stored in the network database 106b may be road network data defining a road network, route network network data defining a route network, or in-facility network data. Good. Here, the network data stored in the network database 106b is stored in advance in the network database 106b, and the control unit 102 of the terminal device 100 periodically and / or according to processing by the control unit 102 ( For example, when the control unit 102 needs data, the latest data is downloaded from the external device 600 (for example, a network data server that provides network data) via the network 300, and stored in the network database 106b. The updated network data may be updated.

  As an example, the road network data stored in the network database 106b is network data that defines a road network. For example, node data of a node that is a node on a road network expression such as a station or an intersection, and between nodes It is network data expressed by a combination with link data of road links that are road sections. The node data may include a node number, position coordinates such as latitude and longitude, a node type, the number of links to be connected, a connection node number, and an intersection name. The link data includes the link number (link ID), the type of road to be connected, the route number of national roads, prefectural roads, city roads, etc., important route information, attribute information of administrative districts where road links exist, link length, Road service conditions, abnormal weather traffic restriction sections, vehicle weight restrictions, vehicle height restrictions, width, road width classification, number of lanes, speed restrictions, in-link attributes such as overpasses, tunnels and bridges, required time, and , Name, etc. may be included. In addition, the use fare data may be information representing bridge tolls, tolls on toll roads such as national highways for automobiles and automobiles, etc. necessary for traveling by bicycle, car, motorcycle, etc. . Further, the road network data may store location information such as latitude and longitude information of points such as facilities existing on a route when traveling by bicycle, walking, motorcycle, car, or the like. Further, the network data stored in the network database 106b may include the link cost of the link in association with the link ID. For example, the time required to pass through the link by a certain moving means, , Data on charges such as distance and fare charge data used may be included.

  Further, the route network data included in the network data is network data that defines a route network of each transportation facility (for example, public transportation facility) such as a railway, an airplane, a bus, and a ship. Node data of nodes (for example, stations, stops, stops, stops, airports, ports, and terminals, etc., which are transportation stops), railway lines connecting between nodes, and airlines This is network data expressed by a combination with link data of links such as routes, navigation routes, and bus routes. Here, the route may be a line connecting a starting point and a destination through which a transportation facility passes. A railroad is a transportation system that travels by being guided by fixed guideways (rails, guide rails, etc.) installed on the route, and transports passengers, cargo, etc. A ropeway, a monorail, a cable car, a linear motor car, or the like may be used. The node data includes a node number (for example, a node ID), a node name (for example, a station name, a stop name, a stop name, a stop name, an airport name, a port name, And a terminal name, etc.) and information such as position coordinates such as latitude and longitude altitude may be included. The link data includes a link number (for example, link ID), start node ID, end node ID, type, link length (for example, distance), in-link attributes such as overpass, tunnel and bridge, and name Information (such as a route name) may be included. In addition, the route network data further includes the type of transportation (for example, limited express, express, semi-express, express, rapid express, commuter express, commute express, commuter express, section express, section semi-express, section rapid, each station stop, and Node data corresponding to nodes (for example, express stop stations, semi-stop stations, and rapid stop stations), and link data of links such as railway lines and bus routes connecting the nodes. Network data expressed by a combination of and may be included in association with the type. The route network data may include timetable data such as departure time and arrival time at each node (station, etc.).

  In addition, route network data includes location information (for example, latitude and longitude altitudes), shape information, and location information (for example, island platforms and relative platforms, etc.) , And entry / exit location information including attribute information (for example, the name and identification number of an entry / exit location such as a platform number) may be included. Further, the route network data may include transportation fare data. Here, the use fare fee data may be information representing a use fee (fare) generated when using each transportation such as a railroad, an airplane, a bus, and a ship, for example. The route network data may include boarding position data. Here, the boarding position data is, for example, a boarding position of a transportation facility in which a plurality of vehicles such as a train, a tram, a monorail, a cable car, and a linear motor car are connected (for example, a vehicle near a ticket gate, It may be information representing a vehicle at a convenient position, a vehicle with a low congestion rate, a female-only vehicle, or the like.

  The in-facility network data included in the network data is network data that defines a route network in the facility. Here, in-facility network data includes, for example, entrances and exits of stores, companies, offices, and toilets in buildings, entrances and exits of elevators and escalators, entrances and exits of stairs, entrances and exits of airplanes, and station platforms Node data of nodes that are nodes that connect passages, such as train locations and ticket gates of stations, and passages that connect nodes, stairs, moving walkways, escalators, and elevators This is network data expressed by a combination of link data and link data. Here, the node data includes a node number (for example, node ID, etc.), a node name (entrance / exit name, entrance / exit name, etc.), position coordinates such as latitude and longitude altitude, and node type (for example, entrance / exit / exit / exit, passage) And the like, the number of links to be connected, the connection node number, and the like may be included. The link data includes a link number (for example, link ID, etc.), a start node ID, an end node ID, a link length, a width, a link type (for example, a passage connecting steps between nodes, a stairs, a slope, an escalator, an elevator, And a moving walkway), and information on barrier-free. Here, the facility may be an indoor building such as a station, an office building, a hotel, a department store, a supermarket, a museum, a museum, a school, an aquarium, an underground passage, a multistory parking lot, an underground parking lot, and an underground mall. . The facility may be a bus terminal, a park, an amusement park, a campsite, a communication path, an outdoor parking lot, and an outdoor structure such as a zoo.

  The map database 106c is map data storage means for storing map data. In the present embodiment, the map data stored in the map database 106c may be map data such as national and local road maps. For example, the map data stored in the map database 106c includes features displayed on the map (for example, buildings such as buildings, houses, and stations, roads, railroads, bridges, tunnels, contour lines, coast lines, lake shore lines, etc. Shape data on the shape of water lines, seas, rivers, lakes, ponds, swamps, places such as parks and outdoor facilities, administrative boundaries, administrative districts, and city blocks, etc., and notes displayed on the map (for example, place names) , Address, telephone number, facility name of shops, parks, stations, etc., names including landmarks, historic sites, rivers, lakes, bays, mountains, forests, etc., names of roads, bridges, tunnels, route names, point information , And word-of-mouth information, etc., and symbols displayed on the map (for example, map symbols such as mountains, historic sites, temples, schools, hospitals, factories and cemeteries, gas stations, convenience stores, supermarkets, restaurants) Store symbols such as banks and post offices, road signals, toll road entrances, toll gates, service areas, parking areas and interchange symbols, parking lots, station, hotel, museum and facility symbols, and It may include data such as symbol data of a review point symbol). Here, the map data may be map data meshed according to a scale (for example, JIS standard first to third region division mesh data, 100 m mesh data, etc.) and the like. Each mesh may be given a mesh ID. Further, the map data may be map drawing image data such as a raster format or a vector format. These map data are stored in advance in the map database 106c, and the control unit 102 of the terminal device 100 periodically and / or according to processing by the control unit 102 (for example, data is required in the control unit 102). The latest data is downloaded from the external device 600 (external device such as a map providing server that provides map data) via the network 300, and the map data stored in the map database 106c is updated. May be.

  In addition, the storage unit 106 may store guidance data. The guidance data stored in the storage unit 106 is data such as voice guidance data and display guidance data output on the guidance route. Here, the voice guidance data is associated with “turning to the left at the next intersection” associated with the direction of travel at the branching point on the guidance route, or when the current position approaches the destination, The voice guidance data may be used when the route guidance unit 102e of the terminal device 100 performs route guidance such as voice guidance according to the guidance route. May be used. The display guidance data is data for display guidance such as a turn-by-turn (TBT) associated with the traveling direction at a branch point on the guidance route or a guidance that the current position is close to the selected facility. The display guidance data may be used when the route guidance unit 102e of the terminal device 100 executes the display guidance. Here, the TBT is an arrow navigation that displays guidance such as a right or left turn on the screen. The guidance data may be stored in advance in the storage unit 106, and the control unit 102 of the terminal device 100 may periodically and / or respond to processing by the control unit 102 (for example, the data is stored in the control unit 102). The latest guidance data is downloaded from the external device 600 (for example, a guidance data providing server that provides guidance data) via the network 300, and the guidance data stored in the storage unit 106 is updated. May be.

  The control unit 102 also has an internal memory for storing a control program such as an OS (Operating System), a program defining various processing procedures, and necessary data. And the control part 102 performs the information processing for performing various processes by these programs. The control unit 102 is functionally conceptually a point information acquisition unit 102a, a point information storage unit 102b, a route search condition setting unit 102c, a route search unit 102d, a route guidance unit 102e, an output control unit 102f, a facility information acquisition unit 102g, And the present location information acquisition part 102h is provided.

  Among these, the spot information acquisition unit 102a is a spot information acquisition unit that acquires spot information transmitted from a medium (such as the IC tag 200) capable of short-range wireless communication via the short-range wireless communication unit. For example, the point information acquisition unit 102a controls the short-range wireless communication unit such as an antenna via the communication control interface unit 104 to transmit a radio wave and give electric energy to the IC tag 200, and the reflected wave from the IC tag 200 You may receive point information as.

  The spot information storage unit 102b is spot information storage means for storing the spot information acquired by the spot information acquisition unit 102a in the spot information temporary file 106a and storing it for a predetermined time (for example, several tens of seconds). As a function of the point information temporary file 106a, the stored point information may be deleted after a predetermined time has elapsed. After the point information storage unit 102b stores the point information in the point information temporary file 106a, The point information may be deleted from the point information temporary file 106a after a predetermined time has elapsed based on the clock. Here, the point information storage unit 102b may store the acquisition order, the acquisition date and time, etc. in association with the point information. Here, when a plurality of pieces of spot information are simultaneously acquired by the spot information acquisition unit 102a, the spot information storage unit 102b causes the user to specify the spot information via the input unit 116, and the specified spot information is used as the spot information. You may store in the temporary file 106a.

  The route search condition setting unit 102c is route search condition setting means for setting one or more pieces of point information stored in the point information temporary file 106a by the point information storage unit 102b as route search conditions. For example, the route search condition setting unit 102c uses the number of pieces of point information stored in the point information temporary file 106a as a starting point, a waypoint, and / or a destination based on the number of pieces of point information stored in the point information temporary file 106a. Search conditions may be set. Further, the route search condition setting unit 102c uses the position based on the point information stored in the point information temporary file 106a as a starting point, a waypoint, and / or a destination as a route. Search conditions may be set. As an example, the route search condition setting unit 102c may set a combination of route search conditions based on the number of pieces of point information stored in the point information temporary file 106a, and the points stored in the point information temporary file 106a. A permutation of route search conditions may be set based on the number of information. Further, the route search condition setting unit 102c uses the current position based on the current position information acquired by the current position information acquisition unit 102h as a departure point, and sets the position based on the point information stored in the point information temporary file 106a as the destination and A route search condition may be set as a waypoint. As an example, when there are two pieces of point information stored in the point information temporary file 106a, the route search condition setting unit 102c uses the position based on the first stored point information as a departure point, and stores the next stored point. A route search condition may be set using the position based on the information as the destination. As an example, when there are two pieces of spot information stored in the spot information temporary file 106a, the route search condition setting unit 102c uses the current position based on the current position information acquired by the current position information acquisition unit 102h as a departure place. Alternatively, the route search condition may be set with the position based on the first stored point information as a transit point and the position based on the next stored point information as a destination. In addition, when there are three pieces of point information stored in the point information temporary file 106a, the route search condition setting unit 102c uses the position based on the first stored point information as a departure point and is based on the next stored point information. The route search condition may be set by using the position as a transit point and the position based on the last stored point information as the destination. The route search condition setting unit 102c may determine the storage order based on the acquisition order, acquisition date and the like stored in the point information temporary file 106a in association with the point information by the point information storage unit 102b.

  Here, the route search condition setting unit 102c sets the position and / or the current position based on the point information stored in the point information temporary file 106a as the starting point, the destination, and / or the transit point of the route search condition. The user may be designated via the input unit 116. That is, as described above, when the route search conditions are automatically set in the acquisition order, there may be cases where the route search condition setting unit 102c does not meet the user's wish. By specifying via 116, a route search condition can be set at a position desired by the user. In addition, the processing of the terminal device 100 may be given a degree of freedom so that the user can set in advance the touch and the control to be given in that order. This makes it possible to search for a route without unnecessary operations.

  Here, the route search condition setting unit 102c is based on the time information together with the position based on the position information when schedule information including the position information and the time information is stored as the point information in the point information temporary file 106a. The time may be set as a route search condition based on the number and / or order of the point information. For example, as described above, when the position based on the position information is set as the departure point, the waypoint, or the destination according to the acquisition order, the route search condition setting unit 102c similarly uses the time information according to the acquisition order. May be set as departure time, transit time, or arrival time. The departure time may be the current time. Further, the route search condition setting unit 102c may control the user to input the route search condition that has not been set based on the point information or the current position information via the input unit 116. The unit 102c may set route search conditions stored in the storage unit 106 in advance.

  The route search unit 102d is route search means for searching for a route that satisfies the route search condition set by the route search condition setting unit 102c based on the network data stored in the network database 106b. For example, the route search unit 102d may acquire an appropriate route while integrating the link cost of the searched route by a route search method such as the Dijkstra method. In addition, the route searched by the route search unit 102d may be expressed by a combination of link data indicating the searched route, and includes position information of the route, image data indicating the route (for example, a polyline), and the like. You may go out. Here, the route search unit 102d transmits the route search condition set by the route search condition setting unit 102c to the external device 600 (for example, a route search server that provides the route search result), and the route search result (guidance) Data may be included).

The route guidance unit 102e is route guidance means for outputting the route searched by the route search unit 102d to the output unit 114. Here, the route guidance unit 102e may cause the user to select one of the plurality of routes searched by the route search unit 102d as the guidance route via the input unit 116. Further, the route guide unit 102e acquires guide data (display guide data, voice guide data, etc.) from the storage unit 106 or the external device 600 (a guide data providing server that provides guide data) based on the guide route. You may output to an output part (a display means, an audio | voice output means, etc.). That is, the route guidance unit 102e may perform voice guidance and display guidance for the guidance route. When performing route guidance by display output, the route guidance unit 102e displays a guidance route, a current location, display guidance information such as TBT included in the guidance data, etc. on a map around the current location acquired from the map database 106c. Alternatively, it may be displayed in a superimposed manner.
In addition, the route guidance unit 102e may output voice guidance data or the like associated with the traveling direction at a guidance point (branch point) or the like on the guidance route according to the update of the current position information.

  The current position information acquisition unit 102h is current position information acquisition means for acquiring the current position information of the user of the terminal device 100. Here, the current position information acquisition unit 102h may acquire the current position information of the user of the terminal device 100 every predetermined period (for example, every second). The current position information acquisition unit 102h may acquire the position information calculated from the position information signal received from the position transmission device 500 by the position acquisition unit 112 as the current position information of the user of the terminal device 100. Furthermore, the orientation information such as the traveling direction of the terminal device 100 detected by the orientation sensor of the position acquisition unit 112 and the acceleration information of the terminal device 100 detected by the acceleration sensor of the position acquisition unit 112 are used. May be acquired as the current position information of the person. Further, the current position information acquisition unit 102h may acquire the position coordinates and the like of the current position input by the user via the input unit 116 as the current position information of the user of the terminal device 100. Here, the current position input by the user via the input unit 116 may be a position where the user actually exists, and a virtual current position arbitrarily selected by the user (for example, Tokyo It may be an arbitrary point such as a station or an airport in Osaka selected by a user in the area. Specifically, the current position information acquisition unit 102h designates on the display screen of the map data displayed on the output unit 114 to the user via the input unit 116 (for example, designation operation on the touch panel type display unit, etc. ) Coordinates may be acquired as the current position information of the user of the terminal device 100. Furthermore, the orientation information specified on the display screen of the map data displayed on the output unit 114 by the user via the input unit 116 may be acquired as the current position information of the user of the terminal device 100. Here, the current position information acquisition unit 102h may acquire the date and time information of acquiring the current position information together with the current position information of the user. Here, the current position information acquisition unit 102h may transmit the acquired current position information to the external device 600 periodically or every update.

  Above, description of an example of a structure of the terminal device 100 in this embodiment is finished.

[Processing of Terminal Device 100]
Next, an example of processing of the terminal device 100 configured as described above according to the present embodiment will be described in detail with reference to FIGS. 3 to 9 below. Here, FIG. 3 is a diagram schematically showing a method for acquiring point information for the IC tag 200 installed on the back side of the printed matter of the map, and FIG. 4 is a diagram of processing of the terminal device 100 in the present embodiment. It is a flowchart which shows an example.

  As shown in FIG. 4, first, the spot information acquisition unit 102a of the terminal device 100 acquires spot information transmitted from the IC tag 200 via the short-range wireless communication unit (step SA-1). Here, the point information may include coupon information, time information, and the like in addition to position information (mesh ID, identification information of the IC tag 200, latitude and longitude, etc.) that can specify the position. Here, FIG. 3 is a diagram of an example of reading point information from the IC tag 200-1 as seen from the side of the map.

  As shown in FIG. 2 described above, when the user holds the terminal device 100 over a location on an arbitrary map to be set as a route search condition, the terminal device 100 is connected to the IC tag 200 installed on the back side of the location. Performs short-range wireless communication to acquire point information. More specifically, the point information acquisition unit 102a of the terminal device 100 transmits a radio wave by controlling a short-range wireless communication unit such as an antenna via the communication control interface unit 104, and transmits the radio wave to the IC tag 200-1. Electric energy is applied and the point information A is received as a reflected wave from the IC tag 200. The short-range wireless communication method is not limited to this, and a known short-range wireless unit such as an electromagnetic induction method may be used.

  Returning to FIG. 4 again, the spot information storage unit 102b stores the spot information acquired by the spot information acquisition unit 102a in the spot information temporary file 106a and stores it for a predetermined time (for example, several tens of seconds) (step SA-2). ). As a function of the point information temporary file 106a, the stored point information may be deleted after a predetermined time has elapsed. After the point information storage unit 102b stores the point information in the point information temporary file 106a, The point information may be deleted from the point information temporary file 106a after a predetermined time has elapsed based on the clock. Here, the point information storage unit 102b may store the acquisition order, the acquisition date and time, etc. in association with the point information. Here, when a plurality of pieces of spot information are simultaneously acquired by the spot information acquisition unit 102a, the spot information storage unit 102b causes the user to specify the spot information via the input unit 116, and the specified spot information is used as the spot information. You may store in the temporary file 106a.

  Then, the route search condition setting unit 102c determines whether or not the acquisition of the spot information satisfies the end condition (Step SA-3). For example, the route search condition setting unit 102c may determine to end when a predetermined time has elapsed since the acquisition of the first point information, or may determine to end when a predetermined number of point information has been acquired. . In addition, the route search condition setting unit 102c may determine that the end condition is satisfied when the user inputs via the input unit 116 to end the acquisition of the spot information.

  When the route search condition setting unit 102c determines that the end condition is not satisfied (No at Step SA-3), the terminal device 100 repeats the processes at Steps SA-1 to SA-3 described above.

  On the other hand, when it determines with satisfy | filling completion | finish conditions (step SA-3, Yes), the route search condition setting part 102c sets the one or several point information memorize | stored in the point information temporary file 106a as route search conditions. (Step SA-4). For example, the route search condition setting unit 102c determines the position based on the point information based on the number and / or order of the point information stored in the point information temporary file 106a, respectively. A route search condition may be set as the ground. Here, FIG. 5 is a diagram illustrating a setting example of the route search condition when the point information stored in the point information temporary file 106a is one.

  As shown in FIG. 5, when there is one piece of point information stored in the point information temporary file 106a, the route search condition setting unit 102c determines the current location based on the current location information acquired by the current location information acquisition unit 102h as the departure location. As another example, the route search condition may be set with the point A based on the point information as a destination. As shown in FIG. 5, the route search condition setting unit 102c may set the current date and time (07/15 11:20) as the departure time (the same applies to the following examples). Here, FIG. 6 is a diagram illustrating a setting example of route search conditions in the case where there are two pieces of spot information stored in the spot information temporary file 106a.

  As shown in FIG. 6, when there are two pieces of spot information stored in the spot information temporary file 106a, the route search condition setting unit 102c stores the spot A based on the spot information stored first as the departure place and then stores it. The route search condition may be set with the point B based on the set point information as the destination. However, the present invention is not limited to this, and when there are two pieces of spot information stored in the spot information temporary file 106a, the route search condition setting unit 102c leaves the current position based on the current position information acquired by the current position information acquisition unit 102h. A route search condition may be set by using a position based on the first stored point information as a route and a position based on the next stored point information as a destination. Here, FIG. 7 is a diagram illustrating a setting example of route search conditions in the case where there are three pieces of spot information stored in the spot information temporary file 106a.

  As shown in FIG. 7, when there are three pieces of point information stored in the point information temporary file 106a, the route search condition setting unit 102c stores the point A based on the point information stored first as the departure place, and then stores it. The route search condition may be set with the point B based on the stored point information as the transit point and the point C based on the last stored point information as the destination. The route search condition setting unit 102c may determine the above-described storage order based on the acquisition order, the acquisition date and the like stored in the point information temporary file 106a in association with the point information by the point information storage unit 102b. Good. The above is an example in which the route search condition setting unit 102c automatically determines the route search condition based on the storage order and sets the route search condition. However, the terminal device 100 asks the user which point is the departure point of the route search condition. , The destination or the waypoint may be specified. Here, FIG. 8 is a diagram illustrating an example in which the user specifies a route search condition via the input unit 116.

  As illustrated in FIG. 8, the route search condition setting unit 102c may provide a pull-down menu as a graphic user interface (GUI) by controlling the output unit 114 and the input unit 116. For example, as shown in FIG. 8, when the user clicks the down arrow of the “(G) Destination” field via the input unit 116, the point based on the point information stored in the point information temporary file 106a and A list of current locations may be displayed, and a user may designate a point to be set as a destination from the list by clicking or the like. As described above, the route search condition setting unit 102c sets the starting point, the destination, and the waypoint of the route search condition from the point and the current location based on the point information stored in the point information temporary file 106a. May be specified by the user via the input unit 116. Thereby, route search conditions can be set at a user's desired point.

  In the above example, the example in which the route search condition setting unit 102c sets the current time as the departure time has been described. However, the present invention is not limited to this. For example, the location information and time information as point information in the point information temporary file 106a. When schedule information consisting of: is stored, the time based on the time information together with the position based on the position information may be set as the route search condition based on the number and / or order of the point information. For example, as in the example described above, when the position based on the position information is set as the departure point, the waypoint, or the destination according to the acquisition order, the route search condition setting unit 102c similarly follows the acquisition order. The time based on the time information may be set as a departure time, a transit time, or an arrival time.

  The above is an example of the process of the terminal device 100 in this embodiment. When the route search condition is set as described above, the terminal device 100 performs a route search based on the route search condition by the process of the route search unit 102d, and according to the route search result by the process of the route guide unit 102e. Route guidance may be executed.

[Implementation process]
Next, a specific example in which the above-described processing of the terminal device 100 in the present embodiment is more specific will be described below with reference to FIG. In this materialization process, an example of acquiring point information including facility information will be described. Here, FIG. 9 is a flowchart illustrating an example of a specific process of the terminal device 100 according to the present embodiment.

As illustrated in FIG. 9, first, the spot information acquisition unit 102a of the terminal device 100 acquires spot information including facility information transmitted from the IC tag 200 via the short-range wireless communication unit, and stores the spot information. The unit 102b stores the acquired spot information in the spot information temporary file 106a (step SB-1). For example, as the point information, examples of facility information stored in the IC tag 200 include the following.
a) In the case of general facility information Facility ID, location information (latitude / longitude or address), site URL, coupon b) Movie theater facility ID, location information (latitude / longitude or address), site URL, screening time (schedule information) Example of time information)
c) Tourist facility ID, location information (latitude / longitude or address), image d) peripheral facility mesh ID only

  Then, the route search condition setting unit 102c determines whether or not the acquisition of the spot information satisfies the end condition (Step SB-2). When the route search condition setting unit 102c determines that the end condition is not satisfied (No at Step SB-2), the terminal device 100 repeats the processes at Steps SB-1 and SB-2 described above.

  On the other hand, when it determines with satisfy | filling completion | finish conditions (step SB-2, Yes), the route search condition setting part 102c determines whether a point can be decided with the point information containing the acquired facility information (step). SB-3). For example, when position information such as latitude and longitude or an address is obtained, it is determined that the point can be determined. On the other hand, if the area or range is not indicated and the point is not indicated as in the mesh ID or the map ID, it is determined that the point cannot be determined. As described above, an identifier is obtained from the IC tag 200 installed on the back side of the map, and the location on the map is determined by making an inquiry to the database of the storage unit 106 or the external device 600 using the identifier as a query. If it can be determined, it is determined that the point can be determined. In addition, when it determines with a point being determinable (step SB-3, Yes), it transfers to the process of step SB-6, without performing the process of subsequent step SB-4 and SB-5.

  When it is determined that the point cannot be determined (No at Step SB-3), the route search condition setting unit 102c displays the candidate point on the output unit 114 based on the obtained point information (Step SB-4). For example, the facility information acquisition unit 102g may search for a facility from the map database 106c based on the mesh ID or the map ID, and the route search condition setting unit 102c may display the searched facility list as a candidate point. The facility information acquisition unit 102g may make an inquiry using a mesh ID, a map ID, or the like as a query, acquire facility information from the external device 600, and display it as a candidate point.

  Then, the route search condition setting unit 102c controls the user to select a point from the candidate points via the input unit 116 (step SB-5).

  Then, the route search condition setting unit 102c selects a point based on one or more pieces of point information stored in the point information temporary file 106a (or a point when a point is selected) in the same manner as in step SA-4 described above. The route search condition is set (step SB-6).

  The above is an example of the specific processing of the terminal device 100 in the present embodiment. When the route search condition is set as described above, the terminal device 100 performs a route search based on the route search condition by the process of the route search unit 102d, and according to the route search result by the process of the route guide unit 102e. Route guidance may be executed. Here, the output control unit 102f of the terminal device 100 may display the coupon information of the facility on the output unit 114 after route guidance by the processing of the route guidance unit 102e. In addition, the output control unit 102f may cause the output unit 114 to display the site URL, the image, and the like acquired in step SB-1. Further, the terminal device 100 acquires more detailed information on the facility information from the external device 600 (route search server or facility information server) via the network 300 for the facility information such as the facility ID acquired from the IC tag 200. May be displayed on the output unit 114.

  Above, description of the process of the terminal device 100 in this embodiment is finished. As described above, according to the present embodiment, by simplifying the input of route search conditions, it is possible to remove the hurdles of route search and improve service and use frequency. In addition, it is possible to realize cooperation with an IC card type ticket and effective coupon distribution by cooperation with NFC technology. In addition, it is possible to reduce the labor of inputting in the multilingual area, and for example, it is possible to save labor of inputting Korean characters at a domestic terminal or inputting a POI name including phonetic symbols.

  Moreover, by including coupon information in addition to position information such as latitude and longitude in the IC tag, it is possible to realize an affiliate business by returning profits from the facility notifier to the IC tag installer. In addition, by installing it in a facility such as a museum or a specific sightseeing spot area, it is possible to realize a guide service in which an explanation of arts and tourist attractions is included in an IC tag. In addition, it is possible to realize a stamp rally by including points or the like in the IC tag.

  In addition, as an application example, in addition to position information such as latitude and longitude, images and URLs can be handed over to the terminal device together, and information about where the visitors from the coupons obtained the information can be collected. Can be diverted to marketing. As another application example, in the case of a movie poster, seminar, symposium, etc., a route search result from the current position according to the schedule can be presented.

[Other embodiments]
Although the embodiments of the present invention have been described so far, the present invention is not limited to the above-described embodiments, but can be applied to various different embodiments within the scope of the technical idea described in the claims. It may be implemented.

  For example, although the case where the terminal device 100 performs processing in a stand-alone form has been described as an example, the terminal device 100 performs processing in response to a request from a client terminal (which is a separate housing from the terminal device 100). The processing result may be returned to the client terminal.

  In addition, among the processes described in the embodiment, all or part of the processes described as being automatically performed can be performed manually, or the processes described as being performed manually can be performed. All or a part can be automatically performed by a known method.

  In addition, unless otherwise specified, the processing procedures, control procedures, specific names, information including registration data for each processing, parameters such as search conditions, screen examples, and database configurations shown in the above documents and drawings Can be changed arbitrarily.

  In addition, regarding the terminal device 100, each illustrated component is functionally conceptual and does not necessarily need to be physically configured as illustrated.

  For example, all or some of the processing functions provided in each device of the terminal device 100, particularly the processing functions performed by the control unit 102, are interpreted and executed by a CPU (Central Processing Unit) and the CPU. It may be realized by a program or hardware based on wired logic. Note that the program is recorded on a non-transitory computer-readable recording medium including a programmed instruction for causing a computer to execute the method according to the present invention, which will be described later. Read mechanically. That is, in the storage unit 106 such as a ROM or an HDD (Hard Disk Drive), a computer program for giving instructions to the CPU and performing various processes in cooperation with the OS (Operating System) is recorded. This computer program is executed by being loaded into the RAM, and constitutes a control unit in cooperation with the CPU.

  The computer program may be stored in an application program server connected to the terminal device 100 via an arbitrary network 300, and may be downloaded in whole or in part as necessary. is there.

  In addition, the program according to the present invention may be stored in a computer-readable recording medium, and may be configured as a program product. Here, the “recording medium” means a memory card, USB memory, SD card, flexible disk, magneto-optical disk, ROM, EPROM, EEPROM, CD-ROM, MO, DVD, and Blu-ray (registered trademark). It includes any “portable physical medium” such as Disc.

  The “program” is a data processing method described in an arbitrary language or description method, and may be in any format such as source code or binary code. The “program” is not necessarily limited to a single configuration, but is distributed in the form of a plurality of modules and libraries, or in cooperation with a separate program represented by an OS (Operating System). Including those that achieve the function. Note that a well-known configuration and procedure can be used for a specific configuration for reading a recording medium, a reading procedure, an installation procedure after reading, and the like in each device described in the embodiment.

  Various databases (point information temporary file 106a to map database 106c) stored in the storage unit 106 are storage means such as a memory device such as RAM and ROM, a fixed disk device such as a hard disk, a flexible disk, and an optical disk. Yes, it stores various programs, tables, databases, web page files, etc. used for various processes and website provision.

  The terminal apparatus 100 may be configured as an information processing apparatus such as a known personal computer or workstation, or may be configured by connecting an arbitrary peripheral device to the information processing apparatus. Further, the terminal device 100 may be realized by installing software (including programs, data, and the like) that causes the information processing apparatus to realize the method of the present invention.

  Furthermore, the specific form of distribution / integration of the devices is not limited to that shown in the figure, and all or a part of them may be functional or physical in arbitrary units according to various additions or according to functional loads. Can be distributed and integrated. That is, the above-described embodiments may be arbitrarily combined and may be selectively implemented.

  As described above in detail, according to the present invention, it is possible to provide a terminal device, a search condition setting method, a program, and a recording medium that can simplify input for performing a route search. Can do.

DESCRIPTION OF SYMBOLS 100 Terminal apparatus 102 Control part 102a Point information acquisition part 102b Point information storage part 102c Route search condition setting part 102d Route search part 102e Route guidance part 102f Output control part 102g Facility information acquisition part 102h Current position information acquisition part 104 Communication control interface part 106 storage unit 106a point information temporary file 106b network database 106c map database 108 input / output control interface unit 112 position acquisition unit 114 output unit 116 input unit 200 IC tag 300 network 500 position transmitter 600 external device

Claims (9)

Near the feature on the printed map or around the feature, a medium capable of short-range wireless communication storing position information and time information about the feature is arranged,
Position information acquisition means for acquiring the position information and time information from the medium by bringing a terminal device close to the printed map feature or the feature periphery;
Route search condition setting means for setting the acquired position information and time information as route search conditions;
An information processing system comprising: In the information processing system according to claim 1,
  The route search condition setting means further sets a route search condition based on the current date and time. The information processing system according to claim 1,
Furthermore, the position information storage means for storing the position information acquired by the position information acquisition means in a storage unit and storing it for a predetermined time,
The route search condition setting means, based on the order of the position information stored in the storage unit, sets the position based on the position information as a starting point, a transit point, and / or a destination, respectively. An information processing system, characterized in that 4. The information processing system according to claim 3 , further comprising current position information acquisition means for acquiring current position information, wherein the route search condition setting means is based on the current position information acquired by the current position information acquisition means. An information processing system, wherein the route search condition is set with a current position as a departure point and a position based on the position information as a destination and / or a transit point. 5. The information processing system according to claim 3 , further comprising an input unit, wherein the route search condition setting unit is configured such that a position based on the position information stored in the storage unit and / or a current position is the route. An information processing system, which is specified via the input unit so as to be set as a starting point, a destination, and / or a waypoint of a search condition. 6. The information processing system according to claim 3 , further comprising an input unit, wherein the position information storage means is used when a plurality of the position information is simultaneously acquired by the position information acquisition means. An information processing system characterized by allowing a person to designate the position information via the input unit and storing the designated position information in the storage unit. The information processing system according to claim 1 , further comprising an output unit, wherein the position information includes a mesh ID, and acquires facility information belonging to the mesh ID via a network. The information processing system further comprises facility information acquisition means for outputting to the output unit. Computer
Near the feature on the printed map or around the feature, a medium capable of short-range wireless communication storing position information and time information on the feature is arranged, and the feature on the printed map or Position information acquisition means for acquiring the position information and time information from the medium by bringing a terminal device in the vicinity of the feature;
Route search condition setting means for setting the acquired position information and time information as route search conditions;
Information processing program to function as An information processing method executed by a computer,
The position information acquisition means has a short-range wireless communication medium storing position information and time information related to the feature on or around the feature on the printed map, and the printed Obtaining the position information and time information from the medium by bringing a terminal device close to the feature on the map or around the feature; and
A route search condition setting means for setting the acquired position information and time information as a route search condition;
An information processing method comprising:

Images