JP2012242370A - Navigation system, terminal, navigation server, navigation device, navigation method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a navigation system, terminal, navigation server, navigation device, navigation method and program capable of setting a get-on/get-off spot used for a gathering spot, a dismissal spot, or the like at an optimal position on a route to the destination of each user.SOLUTION: A route search condition including one destination and a plurality of departure places or a route search condition including one departure place and a plurality of destinations is set, network data is used to search for a plurality of guide routes satisfying the route search condition, a plurality of guide route data corresponding to each guide route is generated, at least one get-on/get-off spot for a user is set at a position previous to a destination on each guide route on the basis of the plurality of guide route data, route guide information including at least get-on/get-off spot information about the get-on/get-off spot is generated, and at least a portion of the route guide information is outputted through an outputting part.

Description

  The present invention relates to a navigation system, a terminal device, a navigation server, a navigation device, a navigation method, and a program.

  Conventionally, a technique for determining a meeting place has been developed.

  For example, Patent Document 1 discloses a technique for extracting a common position such as an intersection or a station from each user's movement history and determining the common position as a meeting place.

  Patent Document 2 discloses a technology for determining a meeting place from each user's movement history in consideration of the required time to the meeting station and transportation costs so that each user has a similar movement load. Has been.

  Patent Document 3 discloses a technique for setting a place with a small moving load for a vehicle user to gather as a boarding / exiting point when the vehicle picks up the user and heads for the destination based on the movement time. ing.

Japanese Patent No. 4114881 JP 2008-190899 A JP 2008-268080 A

  However, the prior art (Patent Documents 1 to 3 etc.) has a problem that it is not possible to set a boarding / alighting point used for a meeting place at an optimal position on the route to each user's destination. It was.

  For example, in the technologies described in Patent Document 1 and Patent Document 2, since the route to the destination is not necessarily included in the usage history, a waiting place that is not related to the destination is determined from the usage history. It had the problem that the situation that decided would arise.

  Further, in the technique described in Patent Document 3, since a boarding / alighting point is determined so as to reduce the overall movement load based only on the movement time, the direction opposite to the destination for some users is determined. However, there is a problem that a situation occurs in which they are gathered in a relatively remote place.

  That is, in the prior art (Patent Documents 1 to 3, etc.), since the optimum route from each user's departure point to the destination is not searched, the gathering place when the destination is determined is the destination to the destination. Although it is desirable to set the route in the middle of the route, there is a problem that the meeting place cannot be set at an optimum position on the route to the destination of each user.

  The present invention has been made in view of the above problems, a navigation system capable of setting a boarding / exiting point used for a meeting place or a dissolution place at an optimal position on a route to each user's destination, It is an object to provide a terminal device, a navigation server, a navigation device, a navigation method, and a program.

  In order to achieve such an object, the navigation system of the present invention connects a navigation server having at least a control unit and a storage unit, and a terminal device having at least a control unit and an output unit so that they can communicate with each other. In the navigation system, the storage unit includes network data storage means for storing network data defining a traffic network, and the control unit of the navigation server transmits one destination transmitted from the terminal device. And a route search condition receiving means for receiving a route search condition including at least a plurality of departure places, or a route search condition including at least one of the departure places and the plurality of destinations, and received by the route search condition reception means. A plurality of points from the plurality of departure points to the one destination satisfying the route search condition A guide route or a plurality of the guide routes from the one departure point to the plurality of destinations are searched using the network data stored in the network data storage means, and each of the guide routes corresponds to the guide route. A guide route search means for generating a plurality of guide route data, and the terminal at a position before the destination on each guide route based on the plurality of guide route data generated by the guide route search means. A boarding point setting unit for setting at least one boarding point for the user of the apparatus; a route guidance information generating unit for generating route guidance information including at least the boarding point information for the boarding point set by the boarding point setting unit; Route guidance information transmitting means for transmitting the route guidance information generated by the route guidance information generating means to the terminal device. The control unit of the terminal device includes a route search condition transmission unit that transmits the route search condition to the navigation server, a route guidance information reception unit that receives the route guidance information transmitted from the navigation server, Route guidance information output means for outputting at least a part of the route guidance information received by the route guidance information receiving means via the output unit.

  In the navigation system according to the present invention, in the navigation system described above, the getting-on / off point setting means is included in each of the guide route data based on the plurality of guide route data generated by the guide route search means. The degree of coincidence that nodes other than the above destinations match is calculated for each node, and is set as the above-mentioned getting-on / off point at a position before each destination on each guide route from the calculated node with a high degree of coincidence. It is characterized by.

  The navigation system according to the present invention is the navigation system described above, wherein the getting-on / off point setting means includes a plurality of the guide routes based on the plurality of guide route data generated by the guide route search means. If it is a public transport route that uses, the match point that matches the node corresponding to the stop point of the public transport existing on each public transport route is set as the getting-on / off point, It is characterized by.

  The navigation system according to the present invention is characterized in that, in the navigation system described above, the getting-on / off point setting means further sets the inside of the public transportation that stops at the matching point as the getting-on / off point.

  The navigation system according to the present invention is the navigation system described above, wherein the boarding / alighting point setting means includes the public transportation on the plurality of guide routes based on the plurality of guide route data generated by the guide route search means. When one vehicle usage route that uses a vehicle other than the engine is included, it is determined whether the vehicle usage route passes within a predetermined range from the matching point on the public transportation usage route, and the vehicle When it is determined that the usage route passes within the predetermined range, the matching point within the predetermined range is set as the getting-on / off point of the user getting on and off the vehicle.

  In the navigation system according to the present invention, the predetermined range is a range indicating a service area from the match point.

  In the navigation system according to the present invention, in the navigation system described above, the route search condition further includes information on the number of people who can board the vehicle, and the boarding point setting means further includes the route search. Based on the information on the number of people that can be boarded included in the route search condition received by the condition receiving means, the user gets on and off the vehicle so that the number of users who are boarding the vehicle does not exceed the number of people who can board the vehicle. Setting the boarding / alighting point of the user.

  The navigation system according to the present invention is the navigation system described above, wherein the boarding / alighting point setting means is configured such that when the number of users to be boarded by the vehicle exceeds the number of people who can board the vehicle, The vehicle is preferentially placed on the vehicle over the long user, and the boarding / alighting point of the user who gets on and off the vehicle is set.

  In the navigation system according to the present invention, in the navigation system described above, the boarding / alighting point setting means includes the vehicle use route on the plurality of guide routes based on the plurality of guide route data generated by the guide route search means. And when the plurality of vehicle use routes pass within a predetermined range from the matching point on the public transport use route, the user who can get on the plurality of vehicles. The user who can get on only one of the vehicles is given priority as a boarding target for the vehicle, and the boarding / alighting point of the user who gets on and off the vehicle is set.

  In the navigation system according to the present invention, in the navigation system described above, the boarding / alighting point setting means includes the vehicle use route on the plurality of guide routes based on the plurality of guide route data generated by the guide route search means. And when the plurality of vehicle use routes pass within a predetermined range from the matching point on the public transport use route, the use of the vehicle to be boarded It is set as the said boarding / alighting point of the said user who gets on and off the said vehicle preferentially from the said matching point near a person's said departure place.

  In the navigation system according to the present invention, in the navigation system described above, the boarding / alighting point setting means includes the vehicle use route on the plurality of guide routes based on the plurality of guide route data generated by the guide route search means. If the plurality of vehicle use routes pass within a predetermined range from the match point on the public transport use route, further movement from the vehicle to the match point It is set as the said boarding / alighting point of the said user who gets on and off the said vehicle preferentially from the said matching point with a shorter distance.

  The navigation system according to the present invention is characterized in that, in the navigation system described above, the boarding / alighting point setting means sets the boarding / alighting point with priority from the matching point far from the destination.

  In addition, the navigation system of the present invention includes a network data storage means for storing network data defining a traffic network, a route search condition including at least one destination and a plurality of departure points, or one of the above departure points and a plurality of departure points. Route search condition setting means for setting a route search condition including at least the destination, and the route search condition set by the route search condition setting means from the plurality of departure points to the one destination A plurality of guide routes or a plurality of guide routes from the one departure place to the plurality of destinations are searched using the network data stored in the network data storage means, and each guide route is searched. Generated by a guide route search means for generating a plurality of corresponding guide route data and the guide route search means. A boarding / alighting point setting means for setting at least one boarding / alighting point for the user of the terminal device at a position before the destination on each of the guidance routes based on the plurality of guidance route data, and the boarding / alighting point setting means A route guidance information generating unit that generates route guidance information including at least the getting-on / off point information about the getting-on / off point set by the control unit, and at least a part of the route guidance information generated by the route guidance information generating unit. Route guidance information output means for outputting via a route.

  The terminal device of the present invention is a terminal device including at least a control unit and an output unit that are communicably connected to a navigation server, and the control unit has one destination and a plurality of departure points. Route search condition transmitting means for transmitting to the navigation server a route search condition including at least one route search condition including at least one departure place and a plurality of destinations, and route guidance information transmitted from the navigation server. Route guidance information receiving means for receiving, route guidance information output means for outputting at least a part of the route guidance information received by the route guidance information receiving means via the output unit, and The information is transmitted from the plurality of departure points to the one destination satisfying the route search condition in the navigation server. The plurality of guide routes or a plurality of the guide routes from the one departure point to the plurality of destinations are searched using network data defining a traffic network, and a plurality of guide routes corresponding to the respective guide routes are searched. Guide route data is generated, and at least one boarding / alighting point of the user of the terminal device is set at a position before the destination on each of the guide routes based on the generated plurality of guide route data. It is information generated so as to include at least the getting-on / off point information on the set getting-on / off point.

  The navigation server according to the present invention is a navigation server including at least a control unit and a storage unit that are communicably connected to a terminal device, and the storage unit stores network data that defines a traffic network. Network data storage means, and the control unit transmits a route search condition including at least one destination and a plurality of departure points transmitted from the terminal device, or the one departure point and the plurality of destinations. A route search condition receiving means for receiving a route search condition including at least a route search condition, and a plurality of guide routes from the plurality of departure points to the one destination that satisfy the route search condition received by the route search condition reception means. Or a plurality of the guide routes from the one departure point to the plurality of destinations in the network data storage means. Search using the stored network data, and generate a plurality of guide route data corresponding to each guide route, and based on the plurality of guide route data generated by the guide route search means A boarding / alighting point setting means for setting at least one boarding / alighting point for the user of the terminal device at a position before the destination on each of the guidance routes, and the boarding / alighting point set by the boarding / alighting point setting means. Route guidance information generating means for generating route guidance information including at least boarding / alighting point information, and route guidance information transmitting means for transmitting the route guidance information generated by the route guidance information generating means to the terminal device. It is characterized by that.

  The navigation server of the present invention is a navigation server including at least a control unit and a storage unit that are communicably connected to a terminal device including at least an output unit, and the storage unit defines a traffic network. Network data storage means for storing network data to be transmitted, and the control unit transmits a route search condition including at least one destination and a plurality of departure points transmitted from the terminal device, or the one departure point. And a route search condition receiving means for receiving a route search condition including at least the plurality of destinations, and the one destination from the plurality of departure points satisfying the route search condition received by the route search condition receiving means. A plurality of guide routes up to the plurality of guide routes from the one departure point to the plurality of destinations. Search using the network data stored in the work data storage means, and generate a plurality of guide route data corresponding to each of the guide routes, and the plurality of guide routes generated by the guide route search means Based on the guide route data, set by the boarding / alighting point setting means for setting at least one boarding / alighting point for the user of the terminal device at a position before the destination on each of the guidance routes, and the boarding / alighting point setting means Route guidance information generating means for generating route guidance information including at least boarding / departing point information relating to the boarding / departing point, and route guidance for generating a route guidance screen based on the route guidance information generated by the route guidance information generating means Output control information including the route guidance screen generated by the screen generation unit and the route guidance screen generation unit is output to the terminal device. And transmitted, characterized in that and an output control means for outputting the output control information through the output unit of the terminal device.

  The navigation device of the present invention is a navigation device including at least a control unit, a storage unit, and an output unit, and the storage unit includes network data storage means for storing network data defining a traffic network. The control unit includes route search condition setting means for setting a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one of the departure points and the plurality of destinations. , A plurality of guide routes from the plurality of departure points to the one destination, or from the one departure point to the plurality of destinations satisfying the route search condition set by the route search condition setting means The plurality of guide routes are searched using the network data stored in the network data storage means, A guide route search means for generating a plurality of guide route data corresponding to the route, and a position before the destination on each of the guide routes based on the plurality of guide route data generated by the guide route search means. Route guidance information for generating route guidance information including at least one boarding / alighting point setting means for setting a boarding / alighting point for a user of the navigation device and at least a boarding / alighting point information for the boarding / alighting point set by the boarding / alighting point setting means. It is characterized by comprising information generation means and route guidance information output means for outputting at least a part of the route guidance information generated by the route guidance information generation means via the output unit.

  Further, the navigation method of the present invention is a navigation executed in a navigation system in which a navigation server having at least a control unit and a storage unit and a terminal device having at least a control unit and an output unit are communicably connected. The storage unit includes network data storage means for storing network data defining a traffic network, and includes one destination and a plurality of departure points that are executed in the control unit of the terminal device. A route search condition transmitting step of transmitting to the navigation server a route search condition including at least one route search condition or a route search condition including at least one departure place and a plurality of destinations, and executed in the control unit of the navigation server The terminal device is transmitted in the route search condition transmitting step. The route search condition receiving step for receiving the route search condition transmitted from the above and the route search condition received in the route search condition receiving step executed in the control unit of the navigation server, The network in which a plurality of guide routes from a plurality of departure points to the one destination or a plurality of guide routes from the one departure point to the plurality of destinations are stored in the network data storage means A search is performed using data, and a guide route search step for generating a plurality of guide route data corresponding to each guide route, and a guide route search step executed in the control unit of the navigation server. Based on the plurality of guide route data, the terminal is located at a position before the destination on each guide route. A boarding / alighting point setting step for setting at least one boarding / alighting point for a user of the vehicle; A route guidance information generation step for generating route guidance information including the route guidance information generated in the route guidance information generation step executed in the control unit of the navigation server and transmitted to the terminal device. An information transmission step, a route guidance information reception step for receiving the route guidance information transmitted from the navigation server in the route guidance information transmission step, which is executed in the control unit of the terminal device; The route guidance information receiving step executed in the control unit And a route guidance information output step of outputting at least a part of the route guidance information received at the step through the output unit.

  The navigation method of the present invention is a navigation method executed in a navigation system, and the navigation system stores network data that stores network data that defines a traffic network, route search condition setting means, and guidance. A route search means, a boarding / alighting point setting means, a route guidance information generating means, and a route guidance information output means, wherein the route search condition setting means includes at least one destination and a plurality of departure places. A route search condition setting step for setting a condition or a route search condition including at least one departure place and a plurality of destinations, and the guidance route search means is set in the route search condition setting step. A plurality from the plurality of departure points to the one destination satisfying the route search condition A guide route or a plurality of the guide routes from the one departure point to the plurality of destinations are searched using the network data stored in the network data storage means, and each of the guide routes corresponds to the guide route. A guide route search step for generating a plurality of guide route data, and the boarding / alighting point setting means, based on the plurality of guide route data generated in the guide route search step, for the destinations on the guide routes. A boarding / alighting point setting step for setting at least one boarding / alighting point for the user of the terminal device at a previous position, and a boarding / alighting point relating to the boarding / alighting point set in the boarding / alighting point setting step A route guidance information generating step for generating route guidance information including at least information, and the route guidance information output means includes the route guidance information At least a part of the route guidance information generated in forming step, characterized in that it comprises a, and the route guidance information output step of outputting through the output unit.

  The navigation method of the present invention is a navigation method that is executed in a terminal device that is connected to a navigation server so as to be communicable and includes at least a control unit and an output unit, and is executed in the control unit. A route search condition transmitting step of transmitting to the navigation server a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one of the departure points and the plurality of destinations, and the navigation Route guidance information receiving step for receiving route guidance information transmitted from the server, and route guidance information for outputting at least a part of the route guidance information received in the route guidance information receiving step via the output unit An output step, wherein the route guidance information is the navigation server. The plurality of guide routes from the plurality of departure points to the one destination or the plurality of guide routes from the one departure point to the plurality of destinations satisfying the route search condition. Search using network data defining a network, generate a plurality of guide route data corresponding to each guide route, and based on the generated guide route data, the destination on each guide route At least one boarding / departing point of the user of the terminal device is set at an earlier position, and the information is generated so as to include at least boarding / departing point information regarding the set boarding / exiting point.

  The navigation method of the present invention is a navigation method that is executed in a navigation server that is connected to a terminal device in a communicable manner and includes at least a control unit and a storage unit. The storage unit defines a traffic network. Network data storage means for storing network data to be transmitted, and executed by the control unit, transmitted from the terminal device, including route search conditions including at least one destination and a plurality of departure points, or one The route search condition receiving step for receiving a route search condition including at least the departure place and the plurality of destinations, and the route search condition received in the route search condition receiving step, from the plurality of departure places Multiple guide routes to one destination, or from the one departure point to the multiple destinations A guide route search step of searching for a plurality of guide routes using the network data stored in the network data storage means, and generating a plurality of guide route data corresponding to the guide routes, and the guide route search A boarding / alighting point setting step for setting at least one boarding / alighting point for the user of the terminal device at a position before the destination on each of the guidance paths based on the plurality of guidance path data generated in the step. A route guidance information generating step for generating route guidance information including at least the getting-on / off point information related to the getting-on / off point set in the getting-on / off point setting step, and the route guidance information generated in the route guidance information generating step Route information transmission step for transmitting to the terminal device.

  The navigation method of the present invention is a navigation method executed in a navigation server having at least a control unit and a storage unit, which is communicably connected to a terminal device having at least an output unit. Includes a network data storage means for storing network data defining a traffic network, and is transmitted from the terminal device and executed in the control unit, and includes a route search including at least one destination and a plurality of departure points A route search condition receiving step for receiving a condition or a route search condition including at least one departure place and a plurality of destinations, and the route search condition received in the route search condition receiving step, Multiple guide routes from multiple departure points to the one destination, or one departure point The plurality of guide routes to the plurality of destinations are searched using the network data stored in the network data storage means, and a plurality of guide route data corresponding to the respective guide routes are generated. Based on the plurality of guide route data generated in the search step and the guide route search step, at least a boarding / exiting point of the user of the terminal device at a position before the destination on each guide route A route guidance information generating step for generating route guidance information including at least a boarding / alighting point information set at the boarding / alighting point setting step; A route guidance screen generating step for generating a route guidance screen based on the route guidance information generated by An output control step of transmitting output control information including the route guidance screen generated in the screen generation step to the terminal device and outputting the output control information via the output unit of the terminal device. It is characterized by that.

  The navigation method of the present invention is a navigation method executed in a navigation device having at least a control unit, a storage unit, and an output unit, wherein the storage unit stores network data defining a traffic network. A route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one of the departure points and the plurality of destinations. A plurality of guide routes from the plurality of departure points to the one destination that satisfy the route search condition set in the route search condition setting step, or A plurality of the guide routes from one departure point to the plurality of destinations, the network data storage means; A search using the stored network data to generate a plurality of guide route data corresponding to each guide route, and the plurality of guide route data generated in the guide route search step. Based on the boarding point setting step for setting at least one boarding point for the user of the navigation device at a position before the destination on each guide route, and the boarding point setting step. A route guidance information generating step for generating route guidance information including at least boarding / departing point information on the boarding / departing point, and at least a part of the route guidance information generated in the route guidance information generating step are output via the output unit. A route guidance information output step.

  A program of the present invention is a program for causing a terminal device, which is connected to a navigation server so as to be communicable, to include at least a control unit and an output unit, and in the control unit, A route search condition transmitting step for transmitting a route search condition including at least a plurality of departure points, or a route search condition including at least one of the departure points and the plurality of destinations to the navigation server; and transmitted from the navigation server. A route guidance information receiving step for receiving the route guidance information; a route guidance information output step for outputting at least a part of the route guidance information received in the route guidance information receiving step via the output unit; And the route guidance information is obtained from the route search in the navigation server. A network that defines a traffic network that satisfies a plurality of guide routes from the plurality of departure points to the one destination or a plurality of guide routes from the one departure point to the plurality of destinations that satisfy a condition Search using data, generate a plurality of guide route data corresponding to each of the guide routes, and based on the generated plurality of guide route data, at a position before the destination on each of the guide routes The terminal device is information generated by setting at least one getting-on / off point of the user of the terminal device and including at least getting-on / off point information on the set getting-on / off point.

  The program of the present invention is a program for causing a navigation server connected to a terminal device to be communicable and having at least a control unit and a storage unit. The storage unit defines a traffic network. Network data storage means for storing network data, and in the control unit, a route search condition including at least one destination and a plurality of departure points transmitted from the terminal device, or one of the departure points and A route search condition receiving step for receiving a route search condition including at least a plurality of the destinations, and the one destination from the plurality of departure points satisfying the route search condition received in the route search condition receiving step Up to a plurality of guide routes up to a plurality of guide routes from one departure point to a plurality of destinations. A search using the network data stored in the network data storage means to generate a plurality of guide route data corresponding to each of the guide routes, and the plurality of pieces generated in the guide route search step Based on the guide route data, a boarding point setting step for setting at least one boarding point for the user of the terminal device at a position before the destination on each guide route, A route guidance information generating step for generating route guidance information including at least the getting-on / off point information about the getting-on / off point set in the step, and a route for transmitting the route guidance information generated in the route guidance information generating step to the terminal device And a guide information transmitting step.

  Further, the program of the present invention is a program for causing a navigation server having at least a control unit and a storage unit, which is connected to a terminal device having at least an output unit to be communicable, the storage unit having A network data storage means for storing network data defining a traffic network, and a route search condition including at least one destination and a plurality of departure points transmitted from the terminal device in the control unit, or A route search condition receiving step for receiving a route search condition including at least one of the departure point and the plurality of destinations, and the plurality of departure points satisfying the route search condition received in the route search condition receiving step To a plurality of guide routes from the one destination to the plurality of destinations A plurality of guide routes using the network data stored in the network data storage means to generate a plurality of guide route data corresponding to each guide route, and the guide route search A boarding / alighting point setting step for setting at least one boarding / alighting point for the user of the terminal device at a position before the destination on each of the guidance paths based on the plurality of guidance path data generated in the step. A route guidance information generating step for generating route guidance information including at least the getting-on / off point information related to the getting-on / off point set in the getting-on / off point setting step, and the route guidance information generated in the route guidance information generating step The route guidance screen is generated based on the route guidance screen generation step and the above route guidance screen generation step. Output control information including the route guidance screen is transmitted to the terminal device, and the output control step of outputting the output control information via the output unit of the terminal device is executed. .

  Further, the program of the present invention is a program for causing a navigation device including at least a control unit, a storage unit, and an output unit to execute, and the storage unit stores network data that defines a traffic network. A route for setting a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one of the departure points and the plurality of destinations in the control unit. From a plurality of guide routes from the plurality of departure points to the one destination, or from the one departure point satisfying the route search conditions set in the search condition setting step and the route search condition setting step A plurality of the guidance routes to the plurality of destinations are stored in the network data storage means. Search using data, a guide route search step for generating a plurality of guide route data corresponding to each guide route, and each of the above-mentioned guide route data generated in the guide route search step, A boarding / alighting point setting step for setting at least one boarding / alighting point for the user of the navigation device at a position before the destination on the guide route, and a boarding / alighting point for the boarding / alighting point set in the boarding / alighting point setting step A route guidance information generation step for generating route guidance information including at least information, and route guidance information output for outputting at least a part of the route guidance information generated in the route guidance information generation step via the output unit And executing the step.

  According to this invention, in the navigation server, a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one departure point and a plurality of destinations, transmitted from the terminal device. A plurality of guide routes from a plurality of departure points to one destination satisfying the received route search condition or a plurality of guide routes from one departure point to a plurality of destinations are stored in the storage unit. Search using the stored network data, generate a plurality of guide route data corresponding to each guide route, and based on the generated plurality of guide route data, a position before the destination on each guide route In addition, at least one boarding / departing point of the user of the terminal device is set, and route guidance information including at least boarding / departing point information regarding the set boarding / departing point is generated and generated. The route guidance information is transmitted to the terminal device, the route search condition is transmitted to the navigation server in the terminal device, the route guidance information transmitted is received, and at least a part of the received route guidance information is transmitted via the output unit. Therefore, it is possible to set a boarding / alighting point used for a meeting place or a dissolution place at an optimal position on the route to the destination of each user. Thus, according to the present invention, for example, when a plurality of people gather and try to reach the destination, the optimum gathering place based on the route from each departure place to the destination is determined based on the number of people and the departure place. Multiple users can be provided depending on the variation of the ground. In addition, each user has their own guidance route, the position of the boarding / exiting point (for example, a meeting place or a boarding place), the boarding time (for example, the meeting time or the boarding time), etc. The effect that can be notified is produced.

  Further, according to the present invention, in the setting of the getting-on / off point, based on a plurality of generated guide route data, the degree of coincidence that nodes other than the destination included in each guide route data match each other for each node. It is calculated and set as a boarding point from a node with a high degree of match at a position before the destination on each guidance route, so the boarding point is set at the optimal position where the route to each user's destination overlaps There is an effect that can be done.

  Further, according to the present invention, when setting a boarding / alighting point, when a guide route based on a plurality of generated guide route data is a public transport use route using public transport, each public transport use route Since the matching point where the node corresponding to the stop point of public transport existing above matches is set as the getting-on / off point, the public transport route (for example, train route) to each user's destination overlaps There is an effect that an optimal stop point (for example, a station) can be set as a boarding / exiting point.

  Further, according to the present invention, in setting the boarding / exiting point, since the inside of the public transportation that stops at the matching point is set as the boarding / exiting point, the user is gathered in the transportation (for example, a specific vehicle in the train). It is possible to reduce the number of useless disembarking.

  Further, according to the present invention, when setting a boarding / alighting point, when a plurality of guide routes based on a plurality of generated guide route data includes one vehicle use route that uses a vehicle other than public transportation, When it is determined whether the vehicle usage route passes within a predetermined range from the matching point on the public transportation usage route, and it is determined that the vehicle usage route passes within the predetermined range, the matching point within the predetermined range is Since it is set as a boarding / alighting point for users who get on and off the vehicle, there is an effect that the boarding / alighting point can be set at an optimum position where the movement load of the vehicle user and the vehicle driver is reduced.

  Further, according to the present invention, since the predetermined range is a range indicating the service area from the match point, the boarding / exiting point is more accurately located at the optimal position where the movement load of the vehicle user and the vehicle driver is reduced. There is an effect that it can be set.

  Further, according to the present invention, the route search condition further includes information on the number of people who can board the vehicle, and information on the number of people who can board the vehicle included in the route search condition received in the setting of the boarding / alighting point. Based on this, the boarding point of the user who gets on and off the vehicle is set so that the number of users who can get on the vehicle does not exceed the number of people who can board the vehicle. There is an effect that a person's boarding / exiting point can be set.

  Further, according to the present invention, when setting the boarding / exiting points, if the number of users who are eligible for boarding the vehicle exceeds the number of people who can board the vehicle, the user is given priority as a boarding target for the user having a long travel time. Since the boarding / exiting point of the user who gets on and off the vehicle is set, even if there is a user who can not get on the vehicle, the moving load is considered after considering the moving load of each user who gets on the vehicle There is an effect that it is possible to set a boarding / exiting point of a vehicle user from a large user.

  Further, according to the present invention, in setting the getting-on / off point, a plurality of vehicle use routes are included in a plurality of guide routes based on a plurality of generated guide route data, and the plurality of vehicle use routes are public. When passing within a predetermined range from a matching point on a transportation route, priority is given to a user who can ride only one vehicle over a user who can ride a plurality of vehicles. Since the boarding / exiting points of the users who get on and off are set, each user who is going to board the vehicle assigns the vehicle appropriately so that the car can be used as much as possible, and then sets the boarding / exiting point of the vehicle user There is an effect that can be.

  Further, according to the present invention, in setting the getting-on / off point, a plurality of vehicle use routes are included in a plurality of guide routes based on a plurality of generated guide route data, and the plurality of vehicle use routes are public. When passing within a predetermined range from a matching point on the route of transportation use, as a boarding point for a user who gets on and off the vehicle in preference to a matching point near the departure point of the user who is the target of the vehicle Since it is set, even if the vehicle can not be properly allocated only by the number of people who can board, further considering the movement burden of each user who is the target of the vehicle, from the user with a large movement burden, There is an effect that the vehicle user's boarding / exiting point can be set at a more optimal position.

  Further, according to the present invention, in setting the getting-on / off point, a plurality of vehicle use routes are included in a plurality of guide routes based on a plurality of generated guide route data, and the plurality of vehicle use routes are public. When passing within a specified range from a match point on the transportation route, it is set as a boarding / exiting point for users who get on and off the vehicle, giving priority to the matching point with the shorter travel distance from the vehicle to the matching point. Therefore, even if the vehicle cannot be allocated appropriately based on the number of passengers that can be boarded and the travel burden of each user who is to ride the vehicle, further consider the travel burden of each user who drives the vehicle. Thus, there is an effect that it is possible to set the boarding / alighting point of the user who gets on and off the vehicle at a more optimal position.

  Further, according to the present invention, in setting the getting-on / off point, since the getting-on / off point is set with priority from the matching point far from the destination, even if there are a plurality of getting-on / off points, the burden of movement of each user There is an effect that it is possible to set the boarding / exiting point at an optimal position where the above is reduced.

  As described above, according to the present invention, the optimum gathering place derived from the optimum route search, not the gathering place that depends on the route that is routinely taken according to the usage history as in the prior art (Patent Documents 1 and 2, etc.). As a result, it is possible to notify each user of a boarding / exiting point. In addition, in the prior art (Patent Documents 1 to 3, etc.), the optimum route from each user's departure point to the destination is not searched. However, according to the present invention, after searching for the optimum route from the departure point of each user to the destination, the user can reach the destination. It is possible to set up multiple boarding / exiting points that are used at the optimal location on the route, such as a meeting place (carpooling point) or dissolution place, so that some people can reach the destination without going through a useless route It has the effect of becoming.

  In the above description, the navigation system of the present invention has been described as an example. However, the same effect can be achieved in a terminal device, a navigation server, a navigation device, a navigation method, and a program.

FIG. 1 is a conceptual diagram illustrating an example of a schematic configuration of a navigation system according to the first embodiment. FIG. 2 is a block diagram illustrating an example of a configuration of the navigation system according to the first embodiment. FIG. 3A is a diagram illustrating an example of input / output until a terminal device possessed by each user acquires boarding / exiting point information in the present embodiment. FIG. 3B is a diagram illustrating an example of input / output until the terminal device possessed by each user acquires the getting-on / off point information in the present embodiment. FIG. 3C is a diagram illustrating an example of input / output until a terminal device possessed by each user acquires boarding / exiting point information in the present embodiment. FIG. 3D is a diagram illustrating an example of input / output until a terminal device possessed by each user acquires boarding / exiting point information in the present embodiment. FIG. 4 is a flowchart illustrating an example of basic processing of the navigation system according to the first embodiment. FIG. 5 is a flowchart illustrating an example of a boarding / alighting point setting process when public transportation is used in the present embodiment. FIG. 6 is a diagram illustrating an example of a boarding / alighting point set on a public transportation use route in the present embodiment. FIG. 7 is a diagram showing an example of a route list used in the boarding / alighting point setting process when public transportation is used in the present embodiment. FIG. 8 is a flowchart showing an example of a boarding / alighting point setting process when a vehicle is used in the present embodiment. FIG. 9 is a flowchart illustrating an example of a boarding vehicle selection process in the present embodiment. FIG. 10 is a diagram illustrating an example of a boarding / alighting point set on the vehicle usage route in the present embodiment. FIG. 11 is a block diagram illustrating an example of a configuration of the navigation server according to the second embodiment. FIG. 12 is a flowchart illustrating an example of basic processing of the navigation server in the second embodiment. FIG. 13 is a block diagram illustrating an example of a configuration of a navigation device according to the third embodiment. FIG. 14 is a flowchart illustrating an example of basic processing of the navigation device according to the third embodiment.

  Hereinafter, embodiments of a navigation system, a terminal device, a navigation server, a navigation device, a navigation method, and a program according to the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.

  Hereinafter, with regard to the configuration and processing of the present invention, the first embodiment (navigation system), the second embodiment (navigation server (server-driven type)), and the third embodiment (navigation device (stand-alone type)). Details will be described in order.

[First Embodiment]
First, a first embodiment (navigation system) of the present invention will be described below with reference to FIGS. However, the following first embodiment exemplifies a navigation system for embodying the technical idea of the present invention, and is not intended to specify the present invention in this navigation system. It is equally applicable to the navigation systems of other embodiments that fall within the scope of the claims. For example, the form of function distribution on the server side and the terminal side in the navigation system exemplified in the first embodiment is not limited to the following, and functionally or physically in arbitrary units as long as similar effects and functions can be achieved It can be configured to be distributed and integrated.

[Navigation system configuration]
First, an example of the configuration of the navigation system in the first embodiment will be described below with reference to FIGS. 1 and 2. Here, FIG. 1 is a conceptual diagram illustrating an example of a schematic configuration of the navigation system according to the first embodiment. FIG. 2 is a block diagram showing an example of the configuration of the navigation system in the first embodiment, and conceptually shows only the portion related to the present invention in the configuration. In the present embodiment, a navigation system that provides communication-type navigation will be described as a specific example. However, the present invention is not limited to this and can be applied to a stand-alone navigation system.

  As shown in FIG. 1, the navigation system according to the first embodiment schematically includes a navigation server 200 that performs route search, getting on / off point setting, and the like, and a route guidance application, a transfer guidance application, an information search application, and the like. One or a plurality of terminal devices 100-1 and 100-2 are connected to be communicable. Here, as shown in FIG. 1, the communication includes, for example, remote communication such as wired / wireless communication via the network 300. Each part of these navigation systems is communicably connected via an arbitrary communication path. Note that the second embodiment may be configured similarly to the system configuration in FIG.

  As shown in FIG. 2, in the navigation system of the first embodiment, the navigation server 200 schematically includes at least a control unit 202 and a storage unit 206. Further, the terminal device 100 includes at least a position acquisition unit 112, an output unit (display unit 114 and audio output unit 116), an input unit 118, a control unit 102, and a storage unit 106.

[Configuration of Navigation Server 200]
Here, in FIG. 2, the navigation server 200 includes a route search condition that is transmitted from the terminal device 100 and includes at least one destination and a plurality of departure points, or at least one departure point and a plurality of destinations. Receiving a route search condition, a plurality of guide routes from a plurality of departure points to one destination satisfying the received route search condition, or a plurality of guide routes from one departure point to a plurality of destinations, A search is performed using the network data stored in the storage unit 206, a plurality of guide route data corresponding to each guide route is generated, and a destination on each guide route is generated based on the generated plurality of guide route data. Route guidance including at least one boarding / exiting point of the user of the terminal device 100 at an earlier position and including at least boarding / exiting point information regarding the set boarding / exiting point It generates a broadcast, the generated route guidance information with a function such as sending to the terminal apparatus 100. The navigation server 200 is connected to the terminal device 100 through the communication control interface unit 204 via the network 300 so as to be able to communicate with each other, and includes a control unit 202 and a storage unit 206. The control unit 202 is a control unit that performs various processes. The communication control interface unit 204 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 performs communication control between the navigation server 200 and the network 300. Has the function to perform. That is, the communication control interface unit 204 has a function of communicating data with the terminal device 100 or the like via a communication line.

  In FIG. 2, a storage unit 206 is a fixed disk device such as an HDD (Hard Disk Drive) and storage means such as an SSD (Solid State Drive), and various databases and tables (network database 206a, map database 206b, guidance database) 206c and route guidance information database 206d).

  Among these components of the storage unit 206, the network database 206a is a network data storage unit that stores network data that defines a traffic network. Here, the network data stored in the network database 206a may include road network data, route network data, and in-facility network data. These network data are stored in advance in the network database 206a, and the control unit 202 of the navigation server 200 periodically and / or according to processing by the control unit 202 (for example, data is required in the control unit 202). Update the network data stored in the network database 206a by downloading the latest data from the external device (for example, a network data server that provides traffic network data, etc.) via the network 300, etc. Also good.

  Here, the road network data stored in the network database 206a is network data that defines a road network. For example, node data of nodes that are nodes on the road network expression such as intersections, and road sections between nodes. It is network data expressed by the combination with the link data of a link. Here, the node data includes information such as a node number (for example, node ID), a node name, position coordinates such as latitude and longitude altitude, a node type, the number of links to be connected, a connection node number, and an intersection name. May be included. The link data includes a link number (for example, a link ID), a start node ID, an end node ID, a road type, a route number such as a national road, a prefectural road, and a city road, heavily used route information, and a government with a link Area attribute information, link length (eg distance, etc.), road service status, abnormal weather traffic restriction section, vehicle weight restriction, vehicle height restriction, width, road width classification, lane information (eg number of lanes, route bus Dedicated lanes, two-wheel lanes, dedicated lanes for motorcycles and light vehicles, preferential lanes such as route buses, vehicle lane classifications, and vehicle zoning information for each direction of travel, etc.) In addition, information such as speed limit, lane change regulation, elevated attributes, in-link attributes such as tunnels and bridges, and names may be included. Further, the road network data may include use fare data. Here, the use fare data may be information indicating fuel charges consumed when traveling by car, motorcycle, etc., and tolls on toll roads such as highway automobile national roads and automobile exclusive roads. Further, the road network data may store location information such as latitude and longitude information of facilities existing on a route when moving by car, motorcycle, bicycle, and on foot.

  The road network data may include road traffic information. Here, the road traffic information may include traffic jam information such as a traffic jam occurrence point, a traffic jam distance, and a transit time between two locations on the road (that is, travel time, etc.). Further, the road traffic information may include traffic obstacle information, traffic regulation information, and the like. Here, the traffic regulation information is data defining various traffic regulations.For example, traffic regulation during abnormal weather such as precipitation regulation, snow cover / freezing regulation, ultrasonic regulation, wind speed regulation, visibility regulation, etc., height Vehicle traffic regulations such as regulations and weight regulations, road construction and work, regulations during construction around roads, traffic zones that regulate traffic zones that can pass by time zone and vehicle type, and vehicle traffic due to road damage, etc. It may also include information such as a general vehicle entry prohibition by a community zone or the like installed to ensure traffic safety, and a general vehicle entry prohibition due to a connection path to private land. The road traffic information is stored in advance in the network database 206a, and the control unit 202 of the navigation server 200 periodically (for example, every 5 minutes) sends the latest data via the network 300 to an external system (for example, Download from VICS (registered trademark) (Vehicle Information and Communication System), ATIS (registered trademark) (Advanced Traffic Information Service), Japan Road Traffic Information Center (registered trademark) (JARTIC (registered trademark)), etc. The road traffic information stored in the network database 206a may be updated.

  The route network data stored in the network database 206a is network data that defines the 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, terminals, etc., which are stops of transportation facilities) that are nodes on the route network expression, and railway lines that connect the nodes Network data expressed by a combination of link data of links such as air 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.

  The route network data may include transportation timetable data. Here, the timetable data is information representing a timetable of each transportation facility such as a railway, an airplane, a bus, and a ship. The timetable data further includes destination information (for example, final destination information) of the transportation facility, and the type of transportation (for example, limited express, express, semi-express, rapid, rapid express, commuter express, commuter express, commute Information including express, section express, section semi-express, section rapid, each station stop, and normal). In addition, the timetable data further includes transportation departure and arrival times (for example, scheduled departure, transit and arrival times) at nodes on the route (that is, transportation stop points), transportation route names, Information including attribute information such as the name of a node on a route of transportation (that is, a stop point of transportation) may be used. Further, the timetable data includes transportation attribute information (for example, type and destination information) associated with each section (for example, one or a plurality of links) connecting nodes on the transportation route. You may go out.

  Further, the route network data may include transportation fare data. Here, the use fare charge data may be, for example, information representing a use fare charge or the like generated when each transportation means such as a railway, an airplane, a bus, and a ship is used. 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. Further, the route network data may include operation information of each transportation such as railway operation information, air operation information, ship operation information, and bus operation information. The operation information of each transportation facility is stored in advance in the network database 206a, and the control unit 202 of the navigation server 200 periodically and / or according to processing by the control unit 202 (for example, the control unit 202). The latest data is downloaded from an external system or the like via the network 300, and the operation information of each transportation facility stored in the network database 206a may be updated.

  The in-facility network data stored in the network database 206a is network data that defines a route network in the facility. Here, the in-facility network data stored in the network database 206a includes, for example, stores, companies, offices, and toilets in buildings, entrances and exits of elevators and escalators, entrances and exits of stairs, and boarding of airplanes, etc. Nodes of nodes that are nodes connecting passages, such as exits, train platforms on station platforms, and ticket gates of stations, and passages, stairs, moving walkways, escalators connecting nodes , And network data expressed by a combination with link data of an elevator or the like.

  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 206b is map data storage means for storing map map data. Here, the map data stored in the map database 206b is, for example, map data meshed according to a scale (for example, JIS standard first to third region division mesh data, 100m mesh data, etc.) and the like. It may be map data. The map database 206b may store outdoor map data such as road maps and route maps in the whole country and each region. Further, the map database 206b may further store indoor map data such as a floor guide map related to a building having height information (for example, a multilevel parking lot, a station, a department store, and a school).

  Further, the map data stored in the map database 206b includes features displayed on the map (for example, buildings, houses, and structures such as stations, roads, railroads, bridges, tunnels, contour lines, coastlines, and Waterline such as lake shore line, sea, river, lake, pond, swamp, park, and places such as outdoor facilities, administrative boundaries, administrative districts, and city blocks) shape data, displayed on the map Notes (for example, place names, addresses, telephone numbers, names of facilities such as stores, parks, and stations, sights, historic sites, rivers, lakes, bays, mountains, and names including roads, bridges, Tunnel name, route name, point information, word-of-mouth information, facility opening hours, store handling products, URL, photo data, coupon information, etc.) and note data, and displayed on the map Symbol (example Map symbols such as mountains, historic sites, temples, shrines, government offices, police stations, police boxes, fire stations, stations, medical institutions, museums, museums, schools, factories, and cemeteries, restaurants, grocery stores, liquor stores, tobacco stores, Department stores, shopping centers, supermarkets, convenience stores, gas stations, financial institutions, post offices and other store signs, road signals, toll road entrances, toll gates, service areas, parking areas, and interchange signs , A parking lot, a station, a hotel, a museum, a facility symbol such as a museum, and a review point symbol).

  In addition, the indoor map data stored in the map database 206b may include local route data for indoor routes in a facility such as a facility. Here, the premise route data may be data based at least on travel route data in a premise such as a station and map data of a map (facility guide map) including the travel route. For example, the campus route data may be an image in which a moving route is drawn on the facility guide map. In addition, for example, the campus route data may further include message data explaining the travel route. Here, the travel route based on the travel route data may be an optimal route (for example, a shortest route or a barrier-free route) that connects ticket gates or the like when transferring a plurality of transportation facilities within a facility.

  Further, the outdoor map data and the indoor map data may be a plurality of scale-raster map drawing images, vector-format map drawing images, or the like. The outdoor map data and the indoor map data are stored in advance in the map database 206b, and the control unit 202 of the navigation server 200 periodically and / or according to processing by the control unit 202 (for example, the control unit 202), and the latest map data is downloaded from an external device (for example, a map providing server that provides map data, etc.) via the network 300 and stored in the map database 206b. And indoor map data may be updated.

  The guidance database 206c may include guidance data storage means for storing guidance data output at the guidance target point. Here, the guidance target point may be set at an arbitrary position on the guidance route including nodes and links. For example, the guidance target point may be set on a node that is a nodal point corresponding to a branch point such as an intersection, or may be set on a link indicating a road section or the like between nodes. The guidance data stored in the guidance database 206c may include at least one of character data, voice data, and display data. These guidance data are stored in advance in the guidance database 206c, and the control unit 202 of the navigation server 200 periodically and / or according to processing by the control unit 202 (for example, data is required in the control unit 202). The latest data may be downloaded from an external device or the like via the network 300, and the guide data stored in the guide database 206c may be updated.

  In addition, the character data among the guidance data stored in the guidance database 206c is a message that is associated with the traveling direction at the guidance target point (branch point, etc.) and that informs the user that the current position is approaching the target and the traveling direction. Character data that constitutes (for example, “I will soon be around my destination”, “Turn left at the next intersection”, “Turn right at the next intersection”, “Go straight ahead”, Name of intersection, etc. Character data), and is used, for example, when the control unit 102 of the terminal device 100 executes route guidance using character guidance. The voice data among the guidance data stored in the guidance database 206c includes a message notifying that the current position associated with the traveling direction at the guidance target point (branch point, etc.) has approached the target and the traveling direction. Voice data converted by text-to-speech (TTS) system etc. from the character data that composes (for example, “turns to the left at the next intersection”) or when the current position approaches the destination For example, it is used when the control unit 102 of the terminal device 100 performs route guidance by voice guidance. In addition, the display data among the guidance data stored in the guidance database 206c is a turn that is an arrow navigation that displays a guidance such as a right or left turn on the screen, which is associated with a traveling direction at a guidance target point (branch point, etc.). Bi-turn (TBT) (for example, icons such as left turn arrows, right turn arrows, straight arrows, etc.), road signs (for example, intersection names, road closures, vehicle entry prohibition, one-way signs, etc.) and direction signs (for example, For example, the control unit 102 of the terminal device 100 performs route guidance based on display guidance, such as a signboard displaying “direction A” together with a left-pointing arrow and a signboard displaying “direction B” together with a right-pointing arrow. Used when.

  The route guidance information database 206d is route guidance information storage means for storing route guidance information. Here, the route guidance information stored in the route guidance information database 206d may be route guidance information generated by the control unit 202 and including at least boarding / exiting point information described later. The route guidance information may include guidance route data. The route guidance information may include map data of a map including the guidance route stored in the map database 206b. The route guidance information may include guidance data that is stored in the guidance database 206c and that is output at a guidance target point included in the guidance route.

  The storage unit 206 may further store facility information (POI information) of the facility (POI). Here, the facility information stored in the storage unit 206 is information including a plurality of items indicating attributes about the facility. Here, the attributes include, for example, facility name, genre and type (facility category), address, telephone number, URL, business hours, products handled, average price (for example, average usage fee), reputation, ranking, and soaring , Ease of visiting, recommendation score, photo data, coupon information, word-of-mouth information (eg, word-of-mouth evaluation and user comments), usage conditions, availability, facility scale, latitude and longitude altitude indicating facility coordinate position (facility location information) Locations where facilities exist (city areas, suburbs, harbors, stations, etc.), usage restrictions, facility IDs, reference rates such as the number of times or frequency of access to the facility information, and update of the facility information The date may be used. Here, the recommendation score may be a value in which a recommendation degree is automatically calculated from user information, history information, and the like.

  Here, POI is an abbreviation for point of interest, for example, a specific point or facility perceived by a person as a convenient place or an interesting place, such as a store, company, office, public facility, etc. It may be a recreational facility and an outdoor facility. Here, the stores include, for example, restaurants, grocery stores, liquor stores, tobacco stores, department stores, shopping centers, supermarkets, convenience stores, gas stations, financial institutions, post offices, multi-storey parking lots, hotels and inns, etc. It may be an accommodation facility. The public facility may be, for example, a government office, a police station, a police box, a fire station, a station, a medical institution, a museum, a museum, a school, and the like. The entertainment facility may be, for example, a movie theater, a theater, an amusement park, a pachinko parlor, a casino, a racetrack or the like. The outdoor facility may be a bus terminal, a park, an amusement park, a campsite, a communication passage, an outdoor parking lot, a zoo, or the like. The storage unit 206 may store an icon (facility icon) corresponding to the facility. The facility information is stored in advance in the storage unit 206, and the control unit 202 of the navigation server 200 periodically and / or according to processing by the control unit 202 (for example, data is required in the control unit 202). The latest information is downloaded from an external device (for example, a facility information providing server that provides facility information) via the network 300, and the facility information stored in the storage unit 206 is updated. Good.

  The control unit 202 has an internal memory for storing a control program such as an OS (Operating System), a program that defines various processing procedures, and necessary data. And the control part 202 performs the information processing for performing various processes with these programs. The control unit 202 includes a route search condition reception unit 202a, a guidance route search unit 202b, a boarding / alighting point setting unit 202c, a route guidance information generation unit 202d, and a route guidance information transmission unit 202e in terms of functional concept.

  Among these, the route search condition receiving unit 202a is a route search condition that is transmitted from the terminal device 100 and includes at least one destination and a plurality of departure points, or a route that includes at least one departure point and a plurality of destinations. A route search condition receiving means for receiving a search condition. Here, the departure place may be the current position of the user of the terminal device 100. The route search condition may further include a departure time or an arrival time. Here, the departure time may be the current time. The route search condition may further include a waypoint. Further, the route search condition may further include a transit time. The route search condition may be input by the user of the terminal device 100 through the input unit 118 of the terminal device 100. In the present embodiment, the route search condition may further include vehicle availability information indicating that the vehicle can be launched. The route search condition may further include information on the number of passengers that can be boarded.

  The guide route searching unit 202b also satisfies a plurality of guide routes from a plurality of departure points to one destination satisfying the route search conditions received by the route search condition receiving unit 202a, or a plurality of guide routes from one departure point. It is a guide route search means for searching a plurality of guide routes to a destination using network data stored in the network database 206a and generating a plurality of guide route data corresponding to each guide route. Here, the guidance route search unit 202b may search for a guidance route from the current position to the destination based on the current position information of the terminal device 100 transmitted from the terminal device 100. Further, when the route search condition further includes a departure time or arrival time, the guidance route search unit 202b is a guide that is a route from the departure point to the destination that satisfies the route search condition that further includes the departure time or arrival time. The route may be searched using network data stored in the network database 206a. Here, the departure time may be the current time. Further, the guide route search unit 202b may search for a guide route that passes through the waypoint when the route search condition further includes a waypoint. In addition, when the route search condition further includes a transit point and a transit time, the guidance route search unit 202b starts from the departure point that satisfies the route search condition including the departure point, the destination, the transit point, and the transit time. You may search for the guidance route which is a route via the waypoint to.

  In addition, the boarding / alighting point setting unit 202c sets the boarding / alighting point of the user of the terminal device 100 at a position before the destination on each guidance route based on the plurality of guidance route data generated by the guidance route search unit 202b. It is a boarding / alighting point setting means for setting at least one. In this embodiment, a boarding / alighting point is a point where people get on and off public transportation and / or vehicles other than public transportation. It means a point used as a dissolution place when returning from the ground to the departure place of each user.

  Here, the boarding / alighting point setting unit 202c determines, based on the plurality of guide route data generated by the guide route search unit 202b, the matching degree that nodes other than the destination included in each guide route data match. It may be calculated for each, and may be set as a boarding / exiting point from a node having a high degree of coincidence at a position before the destination on each guide route. In addition, when the plurality of guide routes based on the plurality of guide route data generated by the guide route searching unit 202b are public transport use routes using public transport, the boarding / alighting point setting unit 202c A match point where a node corresponding to a stop point of public transportation existing on the engine use route matches may be set as a boarding / exiting point. Moreover, the boarding / alighting point setting unit 202c may further set the inside of public transportation that stops at the matching point as a boarding / alighting point. In the present embodiment, the public transportation use route may include a walking route.

  Moreover, when the boarding / alighting point setting unit 202c includes one vehicle use route that uses a vehicle other than public transportation, the plurality of guide routes based on the plurality of guide route data generated by the guide route search unit 202b, If it is determined whether the vehicle usage route passes within a predetermined range from a matching point on the public transportation usage route, and if it is determined that the vehicle usage route passes within the predetermined range, the matching point within the predetermined range May be set as a boarding / exiting point for a user getting on and off the vehicle. Here, the predetermined range may be a range indicating a service area from the match point. Moreover, the boarding / alighting point setting unit 202c further determines the number of users who can board the vehicle based on the information on the number of passengers included in the route search condition received by the route search condition receiving unit 202a. A boarding / alighting point of a user who gets on and off the vehicle may be set so as not to exceed. In addition, when the number of users who can get on the vehicle exceeds the number of people who can get on the vehicle, the boarding / exiting point setting unit 202c gets on and off the vehicle with priority given to the user who has a long travel time as the vehicle boarding target. A user boarding / exiting point may be set. Moreover, the boarding / alighting point setting unit 202c is a case where a plurality of vehicle use routes are included in a plurality of guide routes based on a plurality of guide route data generated by the guide route search unit 202b, and the plurality of vehicle use routes are included. When passing within a predetermined range from a match point on the public transport route, priority is given to users who can ride only one vehicle rather than users who can ride multiple vehicles, You may set the boarding / alighting point of the user who gets on and off the vehicle. Moreover, the boarding / alighting point setting unit 202c is a case where a plurality of vehicle use routes are included in a plurality of guide routes based on a plurality of guide route data generated by the guide route search unit 202b, and the plurality of vehicle use routes are included. When passing within a specified range from a match point on the public transport route, the boarding point of the user who gets on and off the vehicle is given priority from the match point near the departure point of the user who is going to board the vehicle. May be set as Moreover, the boarding / alighting point setting unit 202c is a case where a plurality of vehicle use routes are included in a plurality of guide routes based on a plurality of guide route data generated by the guide route search unit 202b, and the plurality of vehicle use routes are included. When passing within a predetermined range from a match point on the public transport route, give priority to the match point with the shorter travel distance from the vehicle to the match point as a boarding / exiting point for users who get on and off the vehicle. It may be set. Moreover, the boarding / alighting point setting part 202c may set a boarding / alighting point preferentially from the matching point far from the destination.

  The route guidance information generating unit 202d is route guidance information generating means for generating route guidance information including at least the getting-on / off point information on the getting-on / off point set by the getting-on / off point setting unit 202c. In the present embodiment, the getting-on / off point information may be information including the getting-on / off time of each user and / or the position of the getting-on / off point, for example. Here, the route guidance information generation unit 202d may further generate route guidance information including the guidance route data generated by the guidance route search unit 202b. The route guidance information generation unit 202d may further generate route guidance information including map data of a map including the guidance route stored in the map database 206b. The route guidance information generation unit 202d may further generate route guidance information including guidance data stored on the guidance database 206c and output on the guidance route.

  The route guidance information transmitting unit 202e is route guidance information transmitting means for transmitting the route guidance information generated by the route guidance information generating unit 202d to the terminal device 100. Here, the route guidance information transmission unit 202e may store the route guidance information generated by the route guidance information generation unit 202d in the route guidance information database 206d.

[Configuration of Terminal Device 100]
In FIG. 2, the terminal device 100 transmits route search conditions to the navigation server 200, receives route guidance information transmitted from the navigation server 200, and outputs at least part of the received route guidance information to an output unit And the like.

  Here, the terminal device 100 is, for example, a commercially available information processing device such as a desktop or laptop personal computer, a mobile terminal device such as a mobile phone, a smartphone, a PHS, and a PDA, and a travel route guide. A navigation terminal (for example, a car navigation device) to be performed. Here, the terminal device 100 may be equipped with an Internet browser or the like, or may be equipped with a route guidance application, a transfer guidance application, an information search application, or the like. Further, the terminal device 100 may include a position acquisition unit 112 having a GPS function, an IMES function, or the like so that the current position can be measured in real time. Further, the terminal device 100 may include an output unit including at least the display unit 114 and the audio output unit 116. The terminal device 100 may include an input unit 118 that performs data input and the like. Although not shown, the terminal device 100 may include a photographing unit such as a camera capable of photographing a still image and a moving image.

  Here, the display unit 114 may be display means for displaying a display screen of an application or the like (for example, a display and a monitor configured with liquid crystal or organic EL). The audio output unit 116 may be an audio output unit (for example, a speaker) that outputs audio information as audio. The input unit 118 may be, for example, a key input unit, a touch panel, a keyboard, and a microphone. The input / output control interface unit 108 controls the position acquisition unit 112, the display unit 114, the audio output unit 116, the input unit 118, and the imaging unit (not shown).

  Here, the position acquisition unit 112 may be a signal receiving unit that receives a position information signal transmitted from the position transmitting device 500. Here, the position transmitting device 500 may be a GPS device that transmits a position information signal (GPS signal). Further, the position transmission device 500 may be a base station (for example, a mobile phone, a car phone, a PHS base station, or the like) that is a device for performing wireless communication with the terminal device 100. Further, the position transmission device 500 may be an IMES device that realizes an IMES (Indoor Message System) technology that enables indoor positioning using a position information signal having characteristics similar to those of a GPS signal. The IMES technology is a system developed from the framework of the quasi-zenith satellite, which is a positioning satellite system. Further, the position acquisition unit 112 may separately receive another sanitary signal (for example, a Galileo satellite signal).

  Further, the position transmission device 500 may be a GPS repeater that transmits a GPS signal received outdoors indoors. Further, the position transmitting device 500 is arbitrarily installed on each floor of a building (for example, a multilevel parking lot) or an underground structure (for example, a subway station, an underground shopping area, an underground communication passage, and an underground parking lot). A small transmitter may be used. 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.

  Here, the position acquisition unit 112 may include a speed sensor, an acceleration sensor, an orientation sensor, a distance sensor, and the like that detect a change amount (for example, a vector amount) of the terminal device 100. Here, the position acquisition unit 112 may detect the speed with a speed sensor. The position acquisition unit 112 may detect acceleration with an acceleration sensor. Further, the position acquisition unit 112 may detect the azimuth (for example, east, west, south, north, heaven, ground, etc.) and inclination with an azimuth sensor. Further, the position acquisition unit 112 may detect the movement distance (displacement) with a distance sensor. Here, the speed sensor may be a laser Doppler vibrometer or the like, and may detect the speed of the terminal device 100 from a difference in frequency caused by the detected Doppler effect. The acceleration sensor may be a mechanical acceleration sensor, an optical acceleration sensor such as an FBG optical fiber type, and a semiconductor acceleration sensor such as a MEMS (Micro Electro Mechanical Systems) acceleration sensor. In addition, 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 orientation sensor may be an electronic compass or the like that can acquire information related to orientation and inclination by combining a geomagnetic sensor and an acceleration sensor. Further, when the terminal device 100 is an information processing terminal for a vehicle, the distance sensor may generate a pulse signal in proportion to the number of rotations of the axle and detect a movement distance in proportion to the number of pulse signals.

  In addition, the position acquisition unit 112 may further include a communication device. When the terminal device 100 is an information processing terminal for a vehicle, the position of the vehicle is determined from the inter-vehicle communication of the communication device mounted on each vehicle. You may acquire the positional information which shows. Further, the position acquisition unit 112 may acquire position information indicating the current position of the user of the terminal device 100 based on the map data.

  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 communication between the terminal device 100 and the network 300 It has a function to perform control. That is, the communication control interface unit 104 has a function of communicating data with the navigation server 200 or the like via a communication line. The network 300 has a function of interconnecting the terminal device 100 and the navigation server 200 with an external device such as an external map providing server or an external system, and includes, for example, the Internet, a telephone line network (portable terminal line network) And a general telephone line network), an intranet, or power line communication (PLC).

  The storage unit 106 is a storage unit such as a large-capacity storage unit such as an HDD or an SSD and / or a small-capacity high-speed memory (for example, a cache memory) configured using an SRAM (Static Random Access Memory) or the like. Various databases, files, and tables (route guidance information file 106a and the like) may be stored. Here, the storage unit 106 may temporarily store various files and the like.

  The route guidance information file 106a is route guidance information storage means for storing route guidance information.

  The control unit 102 includes an internal memory for storing a control program such as an OS, 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 includes a current position information acquisition unit 102a, a route search condition transmission unit 102b, a route guidance information reception unit 102c, and a route guidance information output unit 102d in terms of functional concept.

  Among these, the current position information acquisition unit 102a 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 102a may acquire the current position information of the user of the terminal device 100 every predetermined time (predetermined period) (for example, every 1 second or every 3 minutes). In addition, the current position information acquisition unit 102a 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.

  Further, the current position information acquisition unit 102a may acquire position information such as position coordinates about the current position input by the user via the input unit 118 as the current position information of the user of the terminal device 100. Here, the current position based on the current position information input by the user via the input unit 118 may be a position where the user actually exists, or a virtual current position arbitrarily selected by the user. (As an example, it may be an arbitrary point such as an Osaka station or airport selected by a user in Tokyo). For example, the current position information acquisition unit 102a is designated on the display screen based on the map data displayed on the display unit 114 by the user via the input unit 118 (for example, designation operation on the touch panel type display unit 114). The coordinates obtained may be acquired as the current position information of the user of the terminal device 100.

  The route search condition transmission unit 102b transmits a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one departure point and a plurality of destinations to the navigation server 200. It is a route search condition transmission means. Here, the departure place may be the current position of the user of the terminal device 100. The route search condition may further include a departure time or an arrival time. Here, the departure time may be the current time. The route search condition may further include a waypoint. Further, the route search condition may further include a transit time. The route search condition may be input by the user of the terminal device 100 through the input unit 118 of the terminal device 100. In the present embodiment, the route search condition may further include vehicle availability information indicating that the vehicle can be launched. The route search condition may further include information on the number of passengers that can be boarded.

  The route guidance information receiving unit 102 c is route guidance information receiving means for receiving route guidance information transmitted from the navigation server 200. Here, the route guidance information receiving unit 102c may further store the received route guidance information in the route guidance information file 106a. In addition, when the existing route guidance information is stored in the route guidance information file 106a, the route guidance information receiving unit 102c stores the newly set route guidance information by overwriting the existing route guidance information. Also good.

  The route guidance information output unit 102d is route guidance information output means for outputting at least part of the route guidance information received by the route guidance information receiving unit 102c via the output unit. Here, the route guidance information output unit 102d receives the current position information acquired by the current position information acquisition unit 102a and at least a part of the route guidance information received by the route guidance information reception unit 102c via the output unit. May be output and route guidance may be executed. In addition, the route guidance information output unit 102d displays, for example, the guidance route data included in the route guidance information and the current position information of the user of the terminal device 100 superimposed on the map data included in the route guidance information. A screen may be displayed on the display unit 114.

  The route guidance information output unit 102d may cause the display unit 114 to display a display screen based on the route guidance information. For example, the route guidance information output unit 102d includes boarding point information (for example, names and position information of boarding points such as railway stations and bus stops, boarding position information of transportation facilities, boarding times, etc.) included in the route guidance information. ), Guidance route data, transportation boarding / departure times, transportation destination information, transportation route type, transportation route name, station exit information, initial departure, walking route, weather information, traffic Display based on the number of transfers of the institution, time required for the guide route, toll data when using the guide route, local route data, timetable data, map data, and / or display guide data such as TBT included in the guide data A screen may be displayed on the display unit 114. In addition, the route guidance information output unit 102d may output the route guidance information via the voice output unit 116. For example, the route guidance information output unit 102d may output the voice guidance data associated with the traveling direction or the like at a branch point on the guidance route included in the route guidance information via the voice output unit 116.

  Above, description of an example of a structure of the navigation system in 1st Embodiment is finished.

[Navigation system processing]
Next, an example of the processing of the navigation system according to the first embodiment configured as described above will be described in detail with reference to FIGS. In this embodiment, as an example, when a plurality of users try to reach a destination, the navigation system uses the guidance route from each user's departure point to the destination as a meeting place, etc. The case where the optimal boarding / alighting point is set is demonstrated.

  First, an outline of processing of the navigation system will be described with reference to FIGS. 3A to 3D. Hereinafter, as an example, in FIGS. 3A to 3D, a case where a plurality of departure points go to one destination will be described. However, the present invention is not limited to this, and a case where one departure point goes to a plurality of destinations. Is also applicable.

  Here, FIGS. 3A to 3D are diagrams illustrating an example of input and output until the terminal devices 100-1 to 6 possessed by each user acquire the getting-on / off point information. 3A to 3D, among the plurality of terminal devices 100-1 to 100-6 possessed by the respective users A to F, the terminal device 100-1 sets a destination and sets other users B to F. The terminal device 100-2 to 6 is assumed to be possessed by a user A (hereinafter referred to as “parent” for the sake of explanation). It is assumed that users B to F (hereinafter referred to as “children” for the sake of explanation) possess. Here, the terminal device 100-1 may set a departure place.

  First, as illustrated in FIG. 3A, the terminal device 100-1 possessed by the parent transmits a route search condition including the destination to the navigation server 200, and a URL for registering the departure place with respect to the navigation server 200. Attached mail transmission request is made (step S-1). Here, in step S-1, the terminal device 100-1 transmits a route search condition including a departure point to the navigation server 200, and also sends a URL-added mail transmission request for registering the destination to the navigation server 200. May be performed.

  Then, the navigation server 200 registers one destination included in the route search condition received from the terminal device 100-1, and sets a departure place for each terminal device 100-1 to 6 possessed by the parent and the child. An e-mail with a URL for registration is transmitted, and a departure location registration request is made (step S-2). Here, in step S-2, the navigation server 200 registers one departure place included in the route search condition received from the terminal device 100-1, and each terminal device 100-1 to 6 possessed by the parent and the child. On the other hand, a destination registration request may be made by transmitting a mail with a URL for registering the destination.

  Then, as shown in FIG. 3B, each of the terminal devices 100-1 to 100-6 inputs the departure place of each user A to F according to the URL-added mail for registering the departure place received from the navigation server 200. The route search conditions including the departure points of the users A to F are transmitted to the navigation server 200 (step S-3). Here, each of the terminal devices 100-1 to 100-6 may specify a predetermined point (such as a home) that has been registered in advance as a departure place. Moreover, each terminal device 100-1-6 may transmit the route search conditions further including the vehicle removal possible information which shows that it is possible to take out a vehicle to the navigation server 200. Each terminal device 100-1 to 6 may transmit a route search condition that further includes information on the number of passengers that can be boarded to the navigation server 200. Then, the navigation server 200 registers a plurality of departure places of each user included in the route search conditions received from the terminal devices 100-1 to 100-6. Here, in step S-3, the terminal devices 100-1 to 100-6 input the destinations of the users A to F according to the URL-added mail for registering the destination received from the navigation server 200, respectively. The route search conditions including the destinations of the users A to F may be transmitted to the navigation server 200.

  Then, as shown in FIG. 3C, the terminal device 100-1 possessed by the parent confirms the registration status of the departure place of each terminal device 100-1 to 6 from the navigation server 200 (step S-4), and then navigates. A route search condition including detailed conditions (for example, the number of transfers, required time, set allowable time, etc.) is transmitted to the server 200, and a search request for a boarding / alighting point is made (step S-5). In step S-5, the terminal device 100-1 confirms the registration status of the destinations of the terminal devices 100-1 to 6 from the navigation server 200. The route search conditions including the number of transfers, the required time, the set allowable time, etc.) may be transmitted to make a search request for a boarding / exiting point.

  Then, as shown in FIG. 3D, the navigation server 200 is registered by the terminal device 100-1 possessed by the parent from a plurality of departure locations registered by the respective terminal devices 100-1 to 6 possessed by the parent and the child. A guide route to one destination is searched for each user, and a boarding / alighting point is set at an optimum position based on the guide route. In the present embodiment, the navigation server 200 may search for a predetermined number of guide routes (for example, five candidate routes) for each of the users A to F (however, a plurality of guide routes per person is not necessarily required). You do n’t have to explore). Then, the navigation server 200 transmits route search information including at least the getting-on / off point information on the set getting-on / off point to each of the terminal devices 100-1 to 100-6 (step S-6). Here, in step S-6, the navigation server 200 is registered by each terminal device 100-1 to 6 possessed by the parent and child from one departure place registered by the terminal device 100-1 possessed by the parent. Alternatively, it is possible to search for guidance routes to a plurality of destinations for each user, and set a boarding / exiting point at an optimal position based on the guidance routes.

  This is the end of the overview of the navigation system processing.

  Next, an example of basic processing of the navigation system will be described with reference to FIG.

  Here, FIG. 4 is a flowchart showing an example of the basic processing of the navigation system in the first embodiment. In FIG. 4, the processes in steps SA-1 and SA-2 correspond to the processes in steps S-1 to S-5 in FIGS. 3A to 3C described above, and steps SA-3 to SA-8. This processing corresponds to the processing in step S-6 in FIG. 3D described above.

  First, as illustrated in FIG. 4, the route search condition transmission unit 102b of the terminal device 100 includes at least a route search condition including at least one destination and a plurality of departure points, or at least one departure point and a plurality of destinations. The route search condition including the information is transmitted to the navigation server 200 (step SA-1). For example, as illustrated in FIGS. 3A to 3C described above, the route search condition transmission unit 102b of the parent terminal device 100-1 transmits a route search condition including one destination to the navigation server 200. The route search condition transmitting unit 102b of each of the terminal devices 100-1 to 100-6 may transmit the route search condition including the departure points of the users A to F to the navigation server 200, respectively. Further, the route search condition transmission unit 102b of the parent terminal device 100-1 transmits a route search condition including one departure place to the navigation server 200, and each of the parent and child terminal devices 100-1 to 100-6. The route search condition transmission unit 102b may transmit route search conditions including the destinations of the users A to F to the navigation server 200, respectively.

  Here, the departure place may be the current position of the user of the terminal device 100. The route search condition may further include a departure time or an arrival time. Here, the departure time may be the current time. The route search condition may further include a waypoint. Further, the route search condition may further include a transit time. The route search condition may be input by the user of the terminal device 100 through the input unit 118 of the terminal device 100. In the present embodiment, the route search condition may further include vehicle availability information indicating that the vehicle can be launched. The route search condition may further include information on the number of passengers that can be boarded.

  Then, the route search condition receiving unit 202a of the navigation server 200 transmits a route search including at least one destination and a plurality of departure points transmitted from the terminal device 100 by the process of the route search condition transmitting unit 102b in step SA-1. A route search condition including at least a condition or one departure place and a plurality of destinations is received (step SA-2). For example, as shown in FIGS. 3A to 3C described above, the route search condition receiving unit 202a of the navigation server 200 transmits one destination transmitted by the process of the route search condition transmitting unit 102b of the parent terminal device 100-1. Including the departure points of the users A to F, which are individually transmitted by the processing of the route search condition transmission unit 102b of each of the parent and child terminal devices 100-1 to 100-6. A route search condition may be received. In addition, the route search condition receiving unit 202a of the navigation server 200 receives the route search condition including one departure point transmitted by the processing of the route search condition transmitting unit 102b of the parent terminal device 100-1, Alternatively, the route search conditions including the destinations of the users A to F, which are individually transmitted by the processing of the route search condition transmission unit 102b of each of the child terminal devices 100-1 to 100-6, may be received.

  The guide route search unit 202b of the navigation server 200 then includes a plurality of guide routes from a plurality of departure points to one destination that satisfy the route search conditions received by the processing of the route search condition reception unit 202a in step SA-2. Alternatively, a plurality of guide routes from one departure point to a plurality of destinations are searched using network data stored in the network database 206a, and a plurality of guide route data corresponding to the respective guide routes are generated. (Step SA-3). For example, as shown in FIG. 3D described above, the guidance route search unit 202b of the navigation server 200 is individually transmitted by the processing of the route search condition transmission unit 102b of each terminal device 100-1 to 6 possessed by the parent and the child. The network data stored in the network database 206a includes a plurality of guide routes from a plurality of departure points to one destination transmitted by the processing of the route search condition transmission unit 102b of the terminal device 100-1 possessed by the parent. And a plurality of guide route data corresponding to each guide route may be generated. In addition, the guidance route search unit 202b of the navigation server 200 has each terminal device possessed by the parent and child from one departure point transmitted by the processing of the route search condition transmission unit 102b of the terminal device 100-1 possessed by the parent. A plurality of guidance routes to a plurality of destinations individually transmitted by the processing of the route search condition transmission unit 102b of 100-1 to 100-6 are searched using network data stored in the network database 206a, and each of the guidances A plurality of guide route data corresponding to the route may be generated.

  Here, the guidance route search unit 202b may search for a guidance route from the current position to the destination based on the current position information of the terminal device 100 transmitted from the terminal device 100. Further, when the route search condition further includes a departure time or arrival time, the guidance route search unit 202b is a guide that is a route from the departure point to the destination that satisfies the route search condition that further includes the departure time or arrival time. The route may be searched using network data stored in the network database 206a. Here, the departure time may be the current time. Further, the guide route search unit 202b may search for a guide route that passes through the waypoint when the route search condition further includes a waypoint. In addition, when the route search condition further includes a transit point and a transit time, the guidance route search unit 202b starts from the departure point that satisfies the route search condition including the departure point, the destination, the transit point, and the transit time. You may search for the guidance route which is a route via the waypoint to.

  Then, the boarding / alighting point setting unit 202c of the navigation server 200 moves to a position before the destination on each guide route based on the plurality of guide route data generated by the process of the guide route search unit 202b in step SA-3. At least one boarding / alighting point for the user of the terminal device 100 is set (step SA-4). In this embodiment, a boarding / alighting point is a point where people get on / off a vehicle other than public transportation and / or public transportation, and a meeting place when a user goes from a plurality of departure points to a single destination. Or, it means a dissolution location when returning from one destination to a plurality of departure points of each user, or a dissolution location when going from one departure location to a plurality of destinations.

  Here, the detail of the boarding / alighting point setting process performed by the process of the boarding / alighting point setting part 202c in step SA-4 is further demonstrated below with reference to FIGS.

  First, details of the boarding / alighting point setting process when public transportation is used in step SA-4 will be described below with reference to FIGS.

  Here, FIG. 5 is a flowchart showing an example of a boarding / alighting point setting process when public transportation is used in the present embodiment. Moreover, FIG. 6 is a figure which shows an example of the boarding / alighting point set on a public transport use route in this embodiment. FIG. 7 is a diagram showing an example of a route list used in the boarding / alighting point setting process when using public transportation in the present embodiment.

  As shown in FIG. 6, the boarding / alighting point setting unit 202c includes a predetermined number of guide routes (for example, each of the users A to F searched for each terminal device 100-1 to 6 by the processing of the guide route search unit 202b. In FIG. 6 assuming an example of a stop node (for example, from a plurality of departure points to one destination) from a user's top five candidate route), in the case of user A, destination “H” is not included. , “Stopping nodes corresponding to“ I bag, S hotel, M field, H tree, Ohara ”) are listed. That is, the getting-on / off point setting unit 202c generates a stop node list from the departure point to the destination of each user A to F of each terminal device 100-1 to 6 for each user A to F (step SB-1). ).

  And the boarding / alighting point setting part 202c produces | generates the via list which put together the stop node list | wrist of each user AF produced | generated in step SB-1 (step SB-2). Specifically, in step SB-2, the boarding / alighting point setting unit 202c collects the stop node list generated for each user A to F in step SB-1 into one user AF. When the same node (that is, the matching point) is present (for example, as shown in FIG. 6, the stop node “I bag” of the user A is changed to the stop node “I bag” of the user C). ”And the node counter corresponding to that node (that is, the matching point) is counted up (for example, as shown in FIG. 7, the node counter of the stop node corresponding to“ I bag ”is set to“ 2 ”). ”), The stop node“ I bag, S hotel, F town, N door, M field, H, which does not include the destination “H” as shown in FIG. `` Thu, Y beach, O ship, Ohara '' For stop node, generates a via list) of the node counter has counted up if the same node at each user to F.

  And the boarding / alighting point setting part 202c determines an undecided boarding / alighting point in order with many node counters based on the route list produced | generated in step SB-2 (step SB-3). Specifically, the boarding / alighting point setting unit 202c has the largest node (for example, the node counter is “6” in FIG. 7) among nodes having a node counter of at least two or more (that is, matching points) in the route list. “O original”) is set as the boarding / exiting point 1 (see FIG. 6).

  Here, in step SB-3, the boarding / alighting point setting unit 202c has the longest time required from the destination when there are a plurality of nodes having the largest node counters in order for each user to gather as soon as possible. A node may be selected. In addition, the boarding / exiting point setting unit 202c, for users who do not need to get off from public transportation at the boarding / exiting point corresponding to the nodes to be gathered or need to exit the ticket gate, It may be a meeting place. In this case, when the public transportation is a train, for example, the boarding / alighting point setting unit 202c may specify the boarding / alighting point by specifying the vehicle and set the boarding / alighting point as a meeting place. Moreover, when the train vehicle is a meeting place, the boarding / alighting point setting unit 202c may set a vehicle optimal for arrival at the destination by calculating backward from the destination.

  Then, after the process of step SB-3, the boarding / alighting point setting unit 202c determines whether there is no matching point that matches the stop node or all the boarding / alighting points are determined (step SB-4).

  When the boarding / alighting point setting unit 202c determines in step SB-4 that there is no matching point that matches the stop node or that all the boarding / alighting points have been confirmed (step SB-4: Yes), the boarding / alighting point setting process. Exit. That is, the boarding / exiting point setting unit 202c determines whether the boarding / exiting points of all the members have been determined or there are no nodes satisfying the conditions of boarding / exiting points (that is, matching points where two or more of the same stop nodes exist between users). The setting process ends. Note that in the present embodiment, the control unit 202 of the navigation server 200 may gather the users whose boarding points have not been determined at the destination.

  On the other hand, when the boarding / alighting point setting unit 202c determines in step SB-4 that there is a matching point that matches the stop node or that all boarding / alighting points are not fixed (step SB-4: No), the above step Returning to the process before SB-2, until it is determined in step SB-4 that there is no matching point where the stop node matches or all the getting-on / off points are determined, the above steps SB-2 and SB-3 are performed. Repeat the process.

  For example, the boarding / alighting point setting unit 202c may have a matching point between users who do not gather at the boarding / alighting point 1 (for example, “O original” in FIG. 6) (in the case of “Step SB-4: No”). Alternatively, only the user who does not use the boarding / unloading point 1 may repeat the processes of steps SB-2 and SB-3 to determine other boarding / unloading points 2, 3, 4 and the like.

  In addition, the boarding / alighting point setting unit 202c is configured when there is a matching point that can be a boarding / alighting point in front of the boarding / alighting point 1 (for example, “O original” in FIG. 6) (in the case of “Step SB-4: No”). , With the determined boarding / exiting point 1 as a temporary destination, targeting users (for example, a group of users A to D and a group of users E to F in FIG. 6), and the above step SB- 2 and SB-3 are repeated, and a boarding / exiting point 1-1 (for example, “M field” where users A to D can gather in FIG. 6) and a boarding / exiting point 1-1-1 (for example, FIG. 6). In FIG. 6, “I bag” where users A and B can gather), boarding point 1-1-2 (for example, “N door” where users B and D can gather in FIG. 6), and boarding point 1-2 (for example, in FIG. 6, users E and F It may determine a set that can be "O ship"), and the like.

  Here, with reference to FIG. 6 and FIG. 7 again, an example of the boarding / alighting point set on the public transportation use route by the processing of the boarding / alighting point setting unit 202c described above will be described using the flowchart of FIG.

  As shown in FIG. 7, since the node with the largest node counter in the route list (“6” in FIG. 7) is “O original”, the boarding / alighting point setting unit 202c, as shown in FIG. “O-hara” is set as a boarding point 1. Next, the nodes having the largest node counter (“4” in FIG. 7) are “M field” and “H tree”. As shown in FIG. 6, “M field” is more than “H tree”. Since it is far from the destination, the getting-on / off point setting unit 202c sets “M field” as the getting-on / off point 1-1. Also, as shown in FIG. 6, the node counter is maximum and far from the destination before “M field” among the users (users A to D in FIG. 6) who gather at “M field”. Since the node is “I bag” for the users A and C and “N door” for the users B and D, the getting-on / off point setting unit 202c changes the “I bag” to the getting-on / off points 1-1-1, 1-1. “N door” is set as the boarding point 1-1-2. In this case, for example, when the users A and C get on the express train from “S hotel”, the boarding / exiting point setting unit 202c sets the boarding / exiting points so that the users B and D can get on the same vehicle from “M field”. (For example, in the case of a reserved seat, the boarding / alighting point may be set so as to get on the vehicle in the reserved seat). Also, as shown in FIG. 7, in the case of users E and F, the node where the node counter is the maximum (“2” in FIG. 7) is “Ship O”. As shown in FIG. 6, “Ship O” is set as a boarding point 1-2. In this case, for example, the boarding / alighting point setting unit 202c may set a boarding / alighting point so that the user F can get on the same vehicle as the user E from “Ship O” (for example, in the case of a designated seat, A boarding / exiting point may be set to get on the vehicle).

  Thus, in this embodiment, in step SB-1 to SB-4 in FIG. 5 described above (that is, step SA-4 in FIG. 4 described above), the getting-on / off point setting unit 202c is the guide route searching unit 202b. From the plurality of guide route data generated by the process (for example, in FIG. 6, from the plurality of departure points “O Miya, S Tsu, M Hara, S Mae, O town, K mountain” of users A to F, 1 Based on a plurality of guide route data up to one destination “H”) (for example, “I bag, S hotel, F town, N units, M fields, H trees, Y beaches, O ships, O originals)), the degree of coincidence (that is, the node counter) is calculated for each node, and the position before the destination on each guide route is calculated. , A node having a high degree of matching (for example, “O original” in FIG. It is set as the entry and exit point from. Moreover, the boarding / alighting point setting unit 202c uses a public transportation route (for example, a plurality of guidance route data generated by the processing of the guidance route search unit 202b) using public transportation (for example, a train in FIG. 6). In FIG. 6, a plurality of public transportations from a plurality of departure places “O Miya, S Tsu, M Hara, S Mae, O town, K mountain” of users A to F to one destination “H book” Use route), a match point (for example, “in FIG. 6,” a node corresponding to a stop point (for example, a station in FIG. 6) of the public transport that exists on each public transport route is matched. "O-hara, M-field, I-bag, N-unit, O-ship"), for example, in FIG. 6, "O-hara, M-field, I-bag, N-door, O-boat" 1, boarding point 1-1, boarding point 1-1-1, boarding point 1-1-2 Getting on and off point 1-2 ") may be set as. Moreover, the boarding / alighting point setting unit 202c may further set a public transportation facility (for example, a train in FIG. 6) that stops at the matching point as a boarding / alighting point. Moreover, the boarding / alighting point setting part 202c may set a boarding / alighting point preferentially from the matching point far from the destination.

  Above, the description about the detail of the boarding / alighting point setting process at the time of using public transport in step SA-4 is finished.

  Next, details of the boarding / alighting point setting process when a vehicle other than public transportation is used in step SA-4 will be described below with reference to FIGS.

  Here, FIG. 8 is a flowchart showing an example of a boarding / alighting point setting process when a vehicle is used in the present embodiment. FIG. 9 is a flowchart showing an example of a boarding vehicle selection process in the present embodiment. Moreover, FIG. 10 is a figure which shows an example of the boarding / alighting point set on a vehicle utilization path | route in this embodiment.

  In FIG. 8, as an example, the terminal device 100-possessed by the user C among the terminal devices 100-1 to 100-4 possessed by the users A to D in step SA- 1 of FIG. 4 described above. It is possible to take out the vehicle indicating that it is possible to take out a vehicle in addition to a plurality of departure points and one destination or one departure point and a plurality of destinations by processing in the route search condition transmission unit 102b of No. 3 The route search condition further including information and the number of people who can board the vehicle indicating the number of people who can board the vehicle is transmitted. In step SA-2 of FIG. 4 described above, the route search condition reception unit 202a of the navigation server 200 performs processing. Thus, it is assumed that this route search condition has already been received. Further, in FIG. 8, in step SA-3 of FIG. 4 described above, by the processing of the guidance route search unit 202b of the navigation server 200, the public transportation use route is searched for each user A to D, and the vehicle is taken out. It is assumed that the user C who is capable of searching for a vehicle use route using a vehicle other than public transportation is further searched.

  As shown in FIG. 8, the boarding / alighting point setting unit 202c assumes an example in which each user terminal AD of each of the terminal devices 100-1 to 100D starts from one departure point (for example, from a plurality of departure points to one destination). In FIG. 10, a stop node list from “O Miya, S Tsu, I bag, S before”) to a destination (for example, “H” in FIG. 10) is generated for each of users A to D (steps). SC-1). Here, in step SC-1, the boarding / alighting point setting unit 202c displays stop node lists from one departure point to the destinations of the users A to D of the terminal devices 100-1 to 100-4. It may be generated every time.

  And whether the boarding / alighting point setting unit 202c includes a vehicle usage route in the plurality of guidance routes searched for each of the users A to D of the terminal devices 100-1 to 100-4 after the process of step SC-1. It is determined whether or not (step SC-2). In the present embodiment, as an example, as shown in FIG. 10, a route search condition that further includes user C starting from “M-original” (that is, information on vehicle availability and information on the number of passengers) is transmitted. The user of the terminal device 100-3) has obtained a vehicle use route (for example, “reference vehicle use route” in FIG. 10) by the processing of the guide route search unit 202b in step SA-3 of FIG. 4 described above. Suppose that it was searched.

  If the boarding / alighting point setting unit 202c determines in step SC-2 that the vehicle usage route is not included in the plurality of guidance routes (step SC-2: No), the process proceeds to the next step SC-7. move on.

  On the other hand, when the boarding / alighting point setting unit 202c determines in step SC-2 that the vehicle usage route is included in the plurality of guidance routes (step SC-2: Yes), the process proceeds to the next step SC-3. In addition, in the process after step SC-3, as an example, when the user C uses a vehicle, the process of setting the boarding / exiting points of the users A, B, and D to be boarded by the vehicle. explain.

  Then, the boarding / alighting point setting unit 202c is arranged in order of decreasing distance from the departure place among the stop nodes of the users A, B, and D (for example, in the case of the user A in FIG. ”), A service area search is performed with respect to the vehicle usage route of the user C (for example, the reference vehicle usage route in FIG. 10) (step SC-3).

  Then, the boarding / alighting point setting unit 202c performs a service area search from the stop node in order from the departure point in step SC-3. As a result, whether or not the vehicle use route of the user C from the stop node is within a predetermined range. Is determined (step SC-4). Specifically, the boarding / alighting point setting unit 202c determines whether or not there is a vehicle usage route within a threshold range such as a predetermined distance, time, and cost from the stop node of the user.

  In step SC-4, the boarding / alighting point setting unit 202c has a vehicle usage route of the user C that is outside the predetermined range from the stop node (for example, in the case of the user A in FIG. If it is determined that the vehicle is out of the predetermined range from the vehicle use route that is the reference for the person C (step SC-4: No), the process returns to step SC-3 and the next stop node (for example, use in FIG. 10) In the case of A, a service area search is performed for “I bag”).

  On the other hand, in step SC-4, the boarding / alighting point setting unit 202c has the vehicle usage route of the user C within the predetermined range from the stop node (for example, the vehicle usage route serving as the reference for the user C in FIG. 10 is used). If it is determined that it is within the predetermined range of the stop node “I bag” of the person A (step SC-4: Yes), the process proceeds to the next step SC-5, and the stop node that is within the predetermined range (for example, FIG. 10 "I bag") is set as a boarding / alighting point (step SC-5).

  And the boarding / alighting point setting part 202c determines whether the determination of the boarding / alighting point was complete | finished about all the users (step SC-6).

  If the boarding / alighting point setting unit 202c determines in step SC-6 that the determination of boarding / alighting points has not been completed for all users (step SC-6: No), the process returns to step SC-3. For example, after the boarding / alighting point of the user A is determined, the processes of steps SC-3 to SC-5 are performed for the users B and D.

  On the other hand, when the boarding / alighting point setting unit 202c determines in step SC-6 that the determination of the boarding / alighting point has been completed for all users (step SC-6: Yes), the boarding / alighting point setting process ends.

  Thus, in this embodiment, in step SC-2 to SC-6 of FIG. 8 described above, the boarding / alighting point setting unit 202c is based on a plurality of guide route data generated by the processing of the guide route searching unit 202b. When one of the plurality of guide routes includes one vehicle use route (for example, the vehicle use route of the user C in FIG. 10) using a vehicle other than public transport (for example, “Step SC-5: "Yes"), whether or not the vehicle use route passes within a predetermined range from a matching point on the public transport use route (for example, in the case of user A in FIG. 10, "I bag"). The vehicle usage route passes within a predetermined range (for example, in FIG. 10, the “standard vehicle usage route” of user C passes through the predetermined range from the stop node “I bag” of user A in FIG. 10. ) In the case (for example, in the case of “Step SC-7: Yes” described above), a matching point within the predetermined range (for example, “I bag” in FIG. 10) is used as a boarding / alighting point for a user getting on and off the vehicle. Set. That is, in the above-described steps SC-2 to SC-6 in FIG. Here, the predetermined range may be a range indicating a service area from the match point.

  Furthermore, in this embodiment, the boarding vehicle selection process shown in FIG. 9 may be performed after the process of step SC-6.

  As shown in FIG. 9, the boarding / alighting point setting unit 202c determines whether or not the total number of people is greater than the number of people who can board (step SD-1).

  And in step SD-1, when the boarding / alighting point setting unit 202c has a larger total number of persons (for example, four persons corresponding to users A to D in FIG. 10) than the number of persons who can board (for example, three persons). If it is determined (step SD-1: Yes), the process proceeds to the next step SD-2.

  And the boarding / alighting point setting part 202c makes only the number of people who can board from the descending order of boarding time in each user's boarding / alighting point as a vehicle user (step SD-2). Thereafter, the process proceeds to the next step SD-3. In this embodiment, the boarding / alighting point setting unit 202c may perform the boarding / alighting point setting process only with a user who has not been able to board in Step SD-2.

  On the other hand, when the boarding / alighting point setting unit 202c has less total number of people (for example, four people corresponding to the users A to D in FIG. 10) than the number of people who can board (for example, five people) in step SD-1. When it determines (step SD-1: No), it progresses to the process of the next step SD-3 as it is.

  And the boarding / alighting point setting part 202c determines whether there exists any user who can board a some vehicle (step SD-3).

  And when boarding / alighting point setting part 202c determines with there being a user who can board a plurality of vehicles in Step SD-3 (Step SD-3: Yes), about a user who can board a plurality of vehicles, , Decreasing the priority for deciding which vehicle to ride (however, the rank is changed to the extent that any vehicle can be boarded) or assigning to a vehicle with a lot of remainder (step SD-4) . That is, the boarding / alighting point setting unit 202c selects a vehicle so that as many users as possible can get on the vehicle.

  On the other hand, when it is determined in step SD-3 that there is no user who can board a plurality of vehicles (step SD-3: No), the boarding / alighting point setting unit 202c ends the boarding / alighting point setting process.

  And the boarding / alighting point setting part 202c determines whether the allocation of all the vehicles has not been determined after the process of step SD-4 (step SD-5).

  And the boarding / alighting point setting part 202c determines in step SD-5 that allocation of all the vehicles is not determined (step SD-5: Yes), that is, which vehicle is boarded among a plurality of vehicles. When there is a user who has not been determined, a vehicle whose vehicle boarding position is closer to the departure place of the user is selected (step SD-6).

  On the other hand, when it is determined in step SD-5 that the assignment of all the vehicles has been determined (step SD-5: No), the boarding / alighting point setting unit 202c ends the boarding / alighting point setting process.

  And the boarding / alighting point setting part 202c determines whether the allocation of all the vehicles has not been determined after the process of step SD-6 (step SD-7).

  And when the boarding / alighting point setting part 202c determines in step SD-7 that allocation of all the vehicles is not determined (step SD-7: Yes), the vehicle with the shorter distance from the vehicle to the boarding / alighting point is used. The vehicle is selected so that the user gets on (step SD-8). Thereafter, the boarding / alighting point setting process is terminated.

  On the other hand, when it is determined in step SD-7 that the assignment of all the vehicles has been determined (step SD-7: No), the boarding / alighting point setting unit 202c ends the boarding / alighting point setting process.

  As described above, in the present embodiment, in “Step SD-1: No” and “Step SD-3: No” in FIG. 9 described above, the getting-on / off point setting unit 202c further includes the route search condition receiving unit 202a. The boarding target of the vehicle based on the information on the number of passengers included in the route search condition received by the processing (for example, the number of people who can board in FIG. 10 transmitted from the terminal device 100-3 possessed by the user C). The number of users getting on and off the vehicle (for example, four people corresponding to the users A to D in FIG. 10) does not exceed the number of people who can get on (for example, five people). For example, in FIG. 10, a boarding point “I bag” where user A gets on and off the vehicle, a boarding point “before S” where user D gets on and off the vehicle, and a boarding point “N” where user B gets on and off the vehicle. Etc.) To.

  In addition, in “Step SD-1: Yes”, “Step SD-2”, and “Step SD-3: No” in FIG. 9 described above, the boarding / exiting point setting unit 202c determines the number of users to be boarded by the vehicle. Is greater than the number of people who can board the vehicle (for example, in the case of “Step SD-1: Yes” described above), the user who takes a long time to travel is prioritized for boarding the vehicle and Set the boarding / exiting point.

  Further, in “Step SD-1: Yes” to “Step SD-3: Yes” and “Step SD-4” in FIG. 9 described above, the boarding / alighting point setting unit 202c is generated by the processing of the guidance route search unit 202b. When a plurality of use routes are included in a plurality of guide routes based on a plurality of guide route data, and the plurality of use routes of the vehicles pass within a predetermined range from a matching point on a use route of public transportation (For example, in the case of “Step SD-3: Yes” described above), a user who can ride only one vehicle is prioritized as a boarding target of the vehicle over a user who can board a plurality of vehicles. Set the boarding / exiting points of users who get on / off.

  Further, in “Step SD-1: Yes” to “Step SD-5: Yes” and “Step SD-6” in FIG. 9 described above, the boarding / alighting point setting unit 202c is generated by the processing of the guidance route search unit 202b. When a plurality of use routes are included in a plurality of guide routes based on a plurality of guide route data, and the plurality of use routes of the vehicles pass within a predetermined range from a matching point on a use route of public transportation (For example, in the case of “Step SD-5: Yes” described above), as a boarding point for a user who gets on and off the vehicle with priority from a matching point that is close to the departure point of the user to be boarded by the vehicle. Set.

  Further, in “Step SD-1: Yes” to “Step SD-7: Yes” and “Step SD-8” in FIG. 9 described above, the boarding / alighting point setting unit 202c is generated by the processing of the guidance route search unit 202b. When a plurality of use routes are included in a plurality of guide routes based on a plurality of guide route data, and the plurality of use routes of the vehicles pass within a predetermined range from a matching point on a use route of public transportation (For example, in the case of “Step SD-7: Yes” described above) is further set as a boarding / exiting point for a user who gets on and off the vehicle in preference to a matching point with a shorter moving distance from the vehicle to the matching point. To do. Moreover, the boarding / alighting point setting part 202c may set a boarding / alighting point preferentially from the matching point far from the destination.

  Returning to FIG. 8 again, after the process of step SC-6, only the remaining users who have not been able to get on the vehicle and the process of determining the meeting place to be obtained from public transportation (ie, the remaining users only Other than the above, a process for determining a place to gather is performed.

  First, the boarding / alighting point setting unit 202c generates a route list in which the stop node lists of the users are combined into one (step SC-7).

  And the boarding / alighting point setting unit 202c, based on the route list generated in step SC-7, in the descending order of the node counter (that is, when using only public transportation without using a vehicle, A boarding / alighting point set on the public transportation route is determined (step SC-8).

  Then, after the process of step SC-8, the boarding / alighting point setting unit 202c determines whether there is no matching point that matches the stop node or all the boarding / alighting points have been determined (step SC-9).

  When the boarding / alighting point setting unit 202c determines in step SC-9 that there is no matching point matching the stop node or that all boarding / alighting points have been determined (step SC-9: Yes), the next step SC Proceed to step −10.

  On the other hand, when the boarding / alighting point setting unit 202c determines in step SC-9 that there is a matching point that matches the stop node or that all boarding / alighting points have not been determined (step SC-9: No), the above step Returning to the process before SC-7, in step SC-9, until it is determined that there is no matching point where the stop node coincides or all the getting-on / off points are determined, the above steps SC-7 and SC-8 are performed. Repeat the process.

  And as demonstrated with reference to FIGS. 8-10, when performing the boarding / alighting point setting process at the time of using vehicles other than public transport (namely, after the process of step SC-9), a navigation server The guide route searching unit 202b of 200 uses a vehicle use route (for example, FIG. 10) via a vehicle user's getting on / off point (for example, in FIG. The vehicle usage route via the boarding / alighting point is re-searched by, for example, a cyclic route search to determine the vehicle usage route (step SC-10). Thereby, the guidance route search part 202b can also calculate boarding / alighting time based on the vehicle usage route which passes a boarding / alighting point of a vehicle user. Moreover, when only the boarding / alighting point is presented, the guidance route searching unit 202b may not search for the vehicle usage route that passes through the vehicle user's boarding / alighting point.

  Above, the description about the detail of the boarding / alighting point setting process corresponding to the process of step SA-4 of FIG. 4 is finished.

  Here, returning to FIG. 4 again, the route guidance information generation unit 202d of the navigation server 200 obtains the route guidance information including at least the getting-on / off point information regarding the getting-on / off point set by the process of the getting-on / off point setting unit 202c in step SA-4. Generate (step SA-5). In the present embodiment, the getting-on / off point information may be information including the getting-on / off time of each user and / or the position of the getting-on / off point, for example. Here, in step SA-5, the route guidance information generation unit 202d may further generate route guidance information including the guidance route data generated by the processing of the guidance route search unit 202b. In step SA-5, the route guidance information generation unit 202d may further generate route guidance information including map data of a map including the guidance route stored in the map database 206b. In step SA-5, the route guidance information generation unit 202d may further generate route guidance information including guidance data stored on the guidance database 206c and output on the guidance route.

  Then, the route guidance information transmission unit 202e of the navigation server 200 transmits the route guidance information generated by the processing of the route guidance information generation unit 202d in step SA-5 to the terminal device 100 (step SA-6). Here, in step SA-6, the route guidance information transmitting unit 202e may store the route guidance information generated by the processing of the route guidance information generating unit 202d in step SA-5 in the route guidance information database 206d.

  And the route guidance information receiving part 102c of the terminal device 100 receives the route guidance information transmitted from the navigation server 200 by the process of the route guidance information transmission part 202e in step SA-6 (step SA-7). Here, in step SA-7, the route guidance information receiving unit 102c may further store the received route guidance information in the route guidance information file 106a. In step SA-7, when the existing route guidance information is stored in the route guidance information file 106a, the route guidance information receiving unit 102c converts the newly set route guidance information into the existing route guidance information. It may be overwritten and stored.

  Then, the route guidance information output unit 102d of the terminal device 100 outputs at least part of the route guidance information received by the processing of the route guidance information reception unit 102c in step SA-7 via the output unit (step SA). -8). Here, in step SA-8, the route guidance information output unit 102d receives the current location information acquired by the processing of the current location information acquisition unit 102a and the processing of the route guidance information reception unit 102c in step SA-7. The route guidance may be executed by outputting at least a part of the route guidance information output via the output unit. Further, in step SA-8, the route guidance information output unit 102d, for example, on the map data included in the route guidance information, the guidance route data included in the route guidance information, and the current position of the user of the terminal device 100 A display screen on which information is superimposed may be displayed on the display unit 114.

  In Step SA-8, the route guidance information output unit 102d may cause the display unit 114 to display a display screen based on the route guidance information. For example, the route guidance information output unit 102d includes boarding point information (for example, names and position information of boarding points such as railway stations and bus stops, boarding position information of transportation facilities, boarding times, etc.) included in the route guidance information. ), Guidance route data, transportation boarding / departure times, transportation destination information, transportation route type, transportation route name, station exit information, initial departure, walking route, weather information, traffic Display based on the number of transfers of the institution, time required for the guide route, toll data when using the guide route, local route data, timetable data, map data, and / or display guide data such as TBT included in the guide data A screen may be displayed on the display unit 114. In Step SA-8, the route guidance information output unit 102d may output the route guidance information via the voice output unit 116. For example, the route guidance information output unit 102d may output the voice guidance data associated with the traveling direction or the like at a branch point on the guidance route included in the route guidance information via the voice output unit 116.

  Above, description of an example of the process of the navigation system in 1st Embodiment is finished.

[Second Embodiment]
Subsequently, a second embodiment (navigation server 200 (server-driven type)) of the present invention will be described below with reference to FIGS. 11 and 12. Here, FIG. 11 is a block diagram showing an example of the configuration of the navigation server 200 in the second embodiment, and conceptually shows only the portion related to the present invention in the configuration.

  In the second embodiment, the navigation server 200 generates data to be output to the output unit (display unit 114 and audio output unit 116) of the terminal device 100, and transmits these data to the terminal device 100. Thus, the output unit of the terminal device 100 is made to function. As described above, the second embodiment is different from the other embodiments in that the navigation server 200 performs server-driven processing.

[Configuration of the navigation server 200 (server-driven type)]
First, an example of the configuration of the navigation server 200 (server-driven type) in the second embodiment will be described below with reference to FIG.

  As illustrated in FIG. 11, the navigation server 200 according to the second embodiment of the present invention includes a position acquisition unit 112, an output unit (display unit 114 and audio output unit 116), an input unit 118, a control unit 102, and a storage unit 106. Are connected to a terminal device 100 having at least communication. Here, the navigation server 200 includes at least a control unit 202 and a storage unit 206. Although not shown, the terminal device 100 may include a photographing unit such as a camera capable of photographing a still image and a moving image. As an example, the communication includes remote communication such as wired / wireless communication via the network 300. The navigation server 200 and the terminal device 100 are communicably connected via an arbitrary communication path.

  In FIG. 11, the navigation server 200 stores network data defining a traffic network in the storage unit 206 and is transmitted from the terminal device 100 and includes a route search condition including at least one destination and a plurality of departure points, or A route search condition including at least one departure point and a plurality of destinations is received, and a plurality of guide routes from a plurality of departure points to one destination satisfying the received route search condition, or from one departure point A plurality of guide routes to a plurality of destinations are searched using network data stored in the storage unit 206, a plurality of guide route data corresponding to the respective guide routes are generated, and the generated plurality of guide routes Based on the data, at least one boarding / departing point of the user of the terminal device 100 is set at a position before the destination on each guide route, and set Route guidance information including at least boarding / departure point information regarding the departure point is generated, a route guidance screen is generated based on the generated route guidance information, and output control information including the generated route guidance screen is transmitted to the terminal device 100. The output control information is output via the output unit of the terminal device 100.

  Note that the functions of the communication control interface unit 204 and the storage unit 206 (the network database 206a, the map database 206b, the guidance database 206c, the route guidance information database 206d, etc.) in the navigation server 200, the position acquisition unit 112, and the display unit 114 in the terminal device 100. Since the functions of the audio output unit 116 and the input unit 118 are the same as those in the first embodiment, description thereof will be omitted.

  In FIG. 11, the control unit 202 includes an internal memory for storing a control program such as an OS, a program defining various processing procedures, and necessary data. And the control part 202 performs the information processing for performing various processes with these programs. The control unit 202 functionally conceptually includes a route search condition reception unit 202a, a guidance route search unit 202b, a boarding / alighting point setting unit 202c, a route guidance information generation unit 202d, a route guidance screen generation unit 202f, an output control unit 202g, and A current position information acquisition unit 202h is provided. Note that the functions of the route search condition receiving unit 202a, the guide route search unit 202b, the boarding / alighting point setting unit 202c, and the route guide information generation unit 202d are the same as those in the first embodiment, and thus description thereof is omitted.

  Among these, the route guidance screen generation unit 202f is a route guidance screen generation unit that generates a route guidance screen based on the route guidance information generated by the route guidance information generation unit 202d. Here, the route guidance screen generation unit 202f is based on the current position information acquired by the current position information acquisition unit 202h and at least a part of the route guidance information generated by the route guidance information generation unit 202d. A screen may be generated. In addition, the route guidance screen generation unit 202f, for example, a route in which the guidance route data included in the route guidance information and the current position information of the user of the terminal device 100 are superimposed on the map data included in the route guidance information. A guidance screen may be generated.

  In addition, the route guidance screen generation unit 202f includes, for example, boarding / departure point information (for example, names and position information of boarding / exiting points such as railway stations and bus stops, transportation boarding location information, boarding / exiting). Time), guide route data, transportation boarding / departure time, transportation destination information, transportation route type, transportation route name, station exit information, first departure, walking route, weather information , The number of transits, the time required for the guide route, toll data when using the guide route, local route data, timetable data, map data, and / or display guide data such as TBT included in the guide data A route guidance screen may be generated. In addition, the route guidance screen generation unit 202f may generate a route guidance screen in which voice guidance data is embedded so that route guidance information is output via the voice output unit 116. For example, the route guidance screen generation unit 202f is configured to output the voice guidance data associated with the traveling direction or the like at a branch point on the guidance route included in the route guidance information via the voice output unit 116. A route guidance screen in which data is embedded may be generated.

  Further, the output control unit 202g transmits output control information including the route guidance screen generated by the route guidance screen generation unit 202f to the terminal device 100, and the output control information is transmitted via the output unit of the terminal device 100. Output control means for outputting.

  The current position information acquisition unit 202h is current position information acquisition means for acquiring the current position information of the user of the terminal device 100. Here, the current location information acquisition unit 202h receives the location information signal received from the location transmission device 500 by the location acquisition unit 112 of the terminal device 100 from the terminal device 100, and uses the location information calculated from the location information signal as the terminal. It may be acquired as the current position information of the user of the device 100. The current position information acquisition unit 202h receives position information such as position coordinates about the current position input by the user via the input unit 118 of the terminal apparatus 100, and uses the position information as a user of the terminal apparatus 100. May be acquired as current position information.

  Above, description of an example of a structure of the navigation server 200 in 2nd Embodiment is finished.

[Processing of navigation server 200 (server-driven type)]
Next, an example of processing of the navigation server 200 according to the second embodiment configured as described above will be described in detail below with reference to FIG. Here, FIG. 12 is a flowchart illustrating an example of a basic process of the navigation server 200 according to the second embodiment.

  In FIG. 12, the processing from step SE-1 to step SE-5 is the same as the processing of step SA-1 and step SA-5 of FIG. Omitted.

  As shown in FIG. 12, after performing the processing from step SE-1 to step SE-5, the route guidance screen generation unit 202f of the navigation server 200 performs the processing of the route guidance information generation unit 202d in step SE-5. A route guidance screen is generated based on the generated route guidance information (step SE-6). Here, in step SE-6, the route guidance screen generation unit 202f generates the current position information acquired by the processing of the current position information acquisition unit 202h and the processing of the route guidance information generation unit 202d in step SE-5. A route guidance screen may be generated on the basis of at least a part of the route guidance information. In step SE-6, the route guidance screen generation unit 202f, for example, on the map data included in the route guidance information, the guidance route data included in the route guidance information, and the current location of the user of the terminal device 100 A route guidance screen on which information is superimposed may be generated.

  In step SE-5, the route guidance screen generation unit 202f includes, for example, boarding point information (for example, names and position information of boarding points such as railway stations and bus stops, transportation information) included in the route guidance information. Boarding location information, boarding / departure time, etc.), guidance route data, transportation boarding / departure time, transportation destination information, transportation route type, transportation route name, station exit information, first route, walking route TBT included in weather information, number of transits of transportation, time required for guide route, toll data when using guide route, on-site route data, timetable data, map data, and / or guide data A route guidance screen based on display guidance data such as the above may be generated. In step SE-5, the route guidance screen generation unit 202f may generate a route guidance screen in which voice guidance data is embedded so that the route guidance information is output via the voice output unit 116. For example, the route guidance screen generation unit 202f is configured to output the voice guidance data associated with the traveling direction or the like at a branch point on the guidance route included in the route guidance information via the voice output unit 116. A route guidance screen in which data is embedded may be generated.

  Then, the output control unit 202g of the navigation server 200 transmits output control information including the route guidance screen generated by the processing of the route guidance screen generation unit 202f in Step SE-5 to the terminal device 100 (Step SE-7). ), The output control information is output via the output unit of the terminal device 100 (step SE-8).

  Above, description of an example of the process of the navigation server 200 in 2nd Embodiment is finished.

[Third Embodiment]
Next, a third embodiment (navigation device 400 (stand-alone type)) of the present invention will be described below with reference to FIGS. 13 and 14. Here, FIG. 13 is a block diagram showing an example of the configuration of the navigation device 400 according to the third embodiment, and conceptually shows only the portion related to the present invention in the configuration.

  In the third embodiment, the functions of the terminal device 100 and the navigation server 200 described in the other embodiments are aggregated in the navigation device 400, and network data defining a traffic network is stored in the storage unit 406. A route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one departure point and a plurality of destinations are set, and a plurality of departure points satisfying the set route search condition are set. A plurality of guide routes to one destination or a plurality of guide routes from one departure point to a plurality of destinations are searched using network data stored in the storage unit 406, and each guide route is searched. A plurality of corresponding guide route data is generated, and a position before the destination on each guide route is generated based on the generated plurality of guide route data. At least one boarding point for the user of the navigation device 400 is set, route guidance information including at least boarding point information regarding the set boarding point is generated, and at least a part of the generated route guidance information is output to an output unit. And the like. Thus, the third embodiment is different from the other embodiments in that the navigation device 400 is configured as a stand-alone type and performs processing alone.

[Configuration of the navigation device 400 (stand-alone type)]
First, an example of the configuration of the navigation device 400 (stand-alone type) in the third embodiment will be described below with reference to FIG.

  As illustrated in FIG. 13, the navigation device 400 according to the third embodiment of the present invention includes a position acquisition unit 412, an output unit (display unit 414 and audio output unit 416), an input unit 418, a control unit 402, and a storage unit 406. And at least. Although not shown, the navigation device 400 may include a photographing unit such as a camera that can photograph a still image and a moving image. Further, the navigation device 400 may include a communication control interface unit (not shown), and is communicably connected to an external device (for example, a terminal device of each user) via the communication control interface unit. May be. As an example, the communication includes remote communication such as wired / wireless communication via the network 300. Moreover, each part of these navigation apparatuses 400 may be connected so that communication is possible via arbitrary communication paths. The navigation device 400 may be, for example, various navigation terminals such as a PND (Portable Navigation Device), various information processing devices such as a notebook personal computer, or a mobile terminal device such as a mobile phone, PHS, or PDA. .

  In FIG. 13, the functions of the communication control interface unit (not shown), the input / output control interface unit 408, the position acquisition unit 412, the display unit 414, the audio output unit 416, and the input unit 418 in the navigation device 400 are as follows. Since it is the same as that of 1 embodiment, description is abbreviate | omitted. In addition, each unit (network database 406a, map database 406b, guidance database 406c, route guidance information database 406d, etc.) of the storage unit 406 is also used in the terminal device 100 described above in the first embodiment and the second embodiment. Since the functions are the same as those of the first embodiment except that the navigation device 400 is provided instead of the navigation server 200, the description thereof is omitted.

  As for each part of the control unit 402 (current position information acquisition unit 402a to route guidance information output unit 402f and the like), the navigation device 400 of the present embodiment is a stand-alone type, and the control unit 402 is the other embodiment. Each function is basically the same as that of the first embodiment except that each transmission / reception unit for the navigation server 200 described above is not provided.

  In FIG. 13, the control unit 402 includes an internal memory for storing a control program such as an OS, a program defining various processing procedures, and necessary data. And the control part 402 performs the information processing for performing various processes with these programs. The control unit 402 has a functional concept in terms of a current position information acquisition unit 402a, a route search condition setting unit 402b, a guidance route search unit 402c, a boarding / alighting point setting unit 402d, a route guidance information generation unit 402e, and a route guidance information output unit. 402f.

  Among these, the current position information acquisition unit 402a is current position information acquisition means for acquiring the current position information of the user of the navigation device 400. Here, the current position information acquisition unit 402a may acquire the current position information of the user of the navigation device 400 every predetermined time (predetermined period) (for example, every 1 second or every 3 minutes). Further, the current position information acquisition unit 402a may acquire the position information calculated from the position information signal received from the position transmission device 500 by the position acquisition unit 412 as the current position information of the user of the navigation device 400. Further, the current position information acquisition unit 402a may also acquire azimuth information such as the traveling direction of the navigation device 400 detected by the azimuth sensor of the position acquisition unit 412 as current position information of the user of the navigation device 400. Good.

  Further, the route search condition setting unit 402b sets a route search condition for setting a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one departure point and a plurality of destinations. Means. Here, the departure point may be the current position of the user of the navigation device 400 or the current position of another terminal device (not shown) that is communicably connected to the navigation device 400. The route search condition may further include a departure time or an arrival time. Here, the departure time may be the current time. The route search condition may further include a waypoint. Further, the route search condition may further include a transit time. The route search condition may be input by the user of the navigation device 400 via the input unit 418 of the navigation device 400. In the present embodiment, the route search condition may further include vehicle availability information indicating that the vehicle can be launched. The route search condition may further include information on the number of passengers that can be boarded.

  The guide route search unit 402c also has a plurality of guide routes from a plurality of departure points to one destination satisfying the route search conditions set by the route search condition setting unit 402b, or a plurality of destinations from one departure point. It is a guide route search means for searching a plurality of guide routes to the ground using network data stored in the network database 406a and generating a plurality of guide route data corresponding to each guide route. Here, the guide route search unit 402c finds a guide route from the current position based on the current position information of the navigation device 400 or the current position based on the current position information transmitted from another terminal device (not shown) to the destination. You may search. Further, when the route search condition further includes a departure time or arrival time, the guidance route search unit 402c is a guide that is a route from the departure point to the destination that satisfies the route search condition that further includes the departure time or arrival time. The route may be searched using network data stored in the network database 406a. Here, the departure time may be the current time. In addition, the guidance route search unit 402c may search for a guidance route that passes through the waypoint when the route search condition further includes a waypoint. In addition, when the route search condition further includes a transit point and a transit time, the guide route search unit 402c determines whether the route search condition includes a departure point, a destination, a transit point, and a transit time that satisfy the route search condition. You may search for the guidance route which is a route via the waypoint to.

  Also, the boarding / alighting point setting unit 402d, based on the plurality of guide route data generated by the guide route searching unit 402c, at a position before the destination on each guide route, the user of the navigation device 400 and other terminals It is a boarding / alighting point setting means for setting at least one boarding / alighting point for a user of a device (not shown). In this embodiment, a boarding / alighting point is a point where people get on and off public transportation and / or vehicles other than public transportation. It means a point used as a dissolution place when returning from the ground to the departure place of each user.

  Here, the boarding / alighting point setting unit 402d determines, based on the plurality of guide route data generated by the guide route search unit 402c, the matching degree that nodes other than the destination included in each guide route data match. It may be calculated for each, and may be set as a boarding / exiting point from a node having a high degree of coincidence at a position before the destination on each guide route. In addition, when the plurality of guide routes based on the plurality of guide route data generated by the guide route search unit 402c are public transport use routes using public transport, the boarding / alighting point setting unit 402d A match point where a node corresponding to a stop point of public transportation existing on the engine use route matches may be set as a boarding / exiting point. Moreover, the boarding / alighting point setting unit 402d may further set the inside of public transportation that stops at the matching point as a boarding / alighting point. In the present embodiment, the public transportation use route may include a walking route.

  Moreover, when the boarding / alighting point setting unit 402d includes one vehicle use route that uses a vehicle other than public transportation, the plurality of guide routes based on the plurality of guide route data generated by the guide route search unit 402c, If it is determined whether the vehicle usage route passes within a predetermined range from a matching point on the public transportation usage route, and if it is determined that the vehicle usage route passes within the predetermined range, the matching point within the predetermined range May be set as a boarding / exiting point for a user getting on and off the vehicle. Here, the predetermined range may be a range indicating a service area from the match point. Further, the boarding / alighting point setting unit 402d further determines the number of users who can board the vehicle based on the information on the number of people who can board the vehicle based on the information on the number of people who can board the vehicle, based on the route search conditions set by the route search condition setting unit 402b. A boarding / alighting point of a user who gets on and off the vehicle may be set so as not to exceed. In addition, when the number of users to be boarded by the vehicle exceeds the number of people that can board the vehicle, the boarding / alighting point setting unit 402d sets the vehicle as a boarding target in preference to the user having a long travel time, and gets on and off the vehicle. A user boarding / exiting point may be set. Moreover, the boarding / alighting point setting unit 402d is a case where a plurality of vehicle use routes are included in a plurality of guide routes based on a plurality of guide route data generated by the guide route search unit 402c, and the plurality of vehicle use routes are included. When passing within a predetermined range from a match point on the public transport route, priority is given to users who can ride only one vehicle rather than users who can ride multiple vehicles, You may set the boarding / alighting point of the user who gets on and off the vehicle. Moreover, the boarding / alighting point setting unit 402d is a case where a plurality of vehicle use routes are included in a plurality of guide routes based on a plurality of guide route data generated by the guide route search unit 402c, and the plurality of vehicle use routes are included. When passing within a specified range from a match point on the public transport route, the boarding point of the user who gets on and off the vehicle is given priority from the match point near the departure point of the user who is going to board the vehicle. May be set as Moreover, the boarding / alighting point setting unit 402d is a case where a plurality of vehicle use routes are included in a plurality of guide routes based on a plurality of guide route data generated by the guide route search unit 402c, and the plurality of vehicle use routes are included. When passing within a predetermined range from a match point on the public transport route, give priority to the match point with the shorter travel distance from the vehicle to the match point as a boarding / exiting point for users who get on and off the vehicle. It may be set. Moreover, the boarding / alighting point setting unit 402d may set a boarding / alighting point with priority from a matching point far from the destination.

  The route guidance information generation unit 402e is route guidance information generation means for generating route guidance information including at least the getting-on / off point information related to the getting-on / off point set by the getting-on / off point setting unit 402d. In the present embodiment, the getting-on / off point information may be information including the getting-on / off time of each user and / or the position of the getting-on / off point, for example. Here, the route guidance information generation unit 402e may further generate route guidance information including the guidance route data generated by the guidance route search unit 402c. Further, the route guidance information generation unit 402e may further generate route guidance information including map data of a map including the guidance route stored in the map database 406b. Further, the route guidance information generation unit 402e may further generate route guidance information including guidance data stored in the guidance database 406c and output on the guidance route.

  The route guidance information output unit 402f is route guidance information output means for outputting at least part of the route guidance information generated by the route guidance information generation unit 402e via the output unit. Here, the route guidance information output unit 402f receives at least a part of the current position information acquired by the current position information acquisition unit 402a and the route guidance information generated by the route guidance information generation unit 402e via the output unit. May be output and route guidance may be executed. Further, the route guidance information output unit 402f, for example, on the map data included in the route guidance information, the guidance route data included in the route guidance information, the current position information of the user of the navigation device 400, and other terminal devices A display screen on which the current position information of the user (not shown) is superimposed may be displayed on the display unit 414.

  Further, the route guidance information output unit 402f may cause the display unit 414 to display a display screen based on the route guidance information. For example, the route guidance information output unit 402f includes boarding / exiting point information (for example, names and position information of boarding / exiting points such as railway stations and bus stops, boarding location information of transportation facilities, boarding / exiting time, etc.) ), Guidance route data, transportation boarding / departure times, transportation destination information, transportation route type, transportation route name, station exit information, initial departure, walking route, weather information, traffic Display based on the number of transfers of the institution, time required for the guide route, toll data when using the guide route, local route data, timetable data, map data, and / or display guide data such as TBT included in the guide data A screen may be displayed on the display unit 414. Further, the route guidance information output unit 402f may output the route guidance information via the voice output unit 416. For example, the route guidance information output unit 402f may output, via the voice output unit 416, voice guidance data associated with a traveling direction or the like at a branch point on the guidance route included in the route guidance information.

  Above, description of an example of a structure of the navigation apparatus 400 in 3rd Embodiment is finished.

[Processing of navigation device 400 (stand-alone type)]
Next, an example of the process of the navigation device 400 according to the third embodiment configured as described above will be described in detail below with reference to FIG. Here, FIG. 14 is a flowchart illustrating an example of a basic process of the navigation device 400 according to the third embodiment.

  As illustrated in FIG. 14, first, the route search condition setting unit 402b includes a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one departure point and a plurality of destinations. Is set (step SF-1). Here, the departure point may be the current position of the user of the navigation device 400 or the current position of another terminal device (not shown) that is communicably connected to the navigation device 400. The route search condition may further include a departure time or an arrival time. Here, the departure time may be the current time. The route search condition may further include a waypoint. Further, the route search condition may further include a transit time. The route search condition may be input by the user of the navigation device 400 via the input unit 418 of the navigation device 400. In the present embodiment, the route search condition may further include vehicle availability information indicating that the vehicle can be launched. The route search condition may further include information on the number of passengers that can be boarded.

  In this embodiment, in step SF-1, the route search condition setting unit 402b allows the user of the navigation device 400 to use one destination (for example, destination “H” in FIG. 6 described above). , And a plurality of departure points (for example, in FIG. 6 described above, user A's departure place “O Miya”, user B's departure place “S Tsu”, user C's departure place “M Hara”, use The departure point “S” of the user D, the departure point “O town” of the user E, the departure point “F mountain” of the user F, etc.) may all be set as the route search conditions. Further, the route search condition setting unit 402b receives a departure place in advance from each user of another terminal device (not shown) connected to be communicable via a communication control interface unit (not shown). A plurality of departure points may be set. Here, the route search condition setting unit 402b may be set by the user of the navigation device 400 as one route and a plurality of destinations as route search conditions. Further, the route search condition setting unit 402b receives in advance destinations from users of other terminal devices (not shown) connected to be communicable via a communication control interface unit (not shown), A plurality of destinations may be set.

  Then, the guide route search unit 402c has a plurality of guide routes from a plurality of departure points to one destination satisfying the route search conditions set by the processing of the route search condition setting unit 402b in step SF-1, or 1 A plurality of guide routes from one departure point to a plurality of destinations are searched using network data stored in the network database 406a, and a plurality of guide route data corresponding to the respective guide routes are generated (step SF- 2). Here, in step SF-2, the guide route searching unit 402c determines the purpose from the current position based on the current position information of the navigation device 400 or the current position based on the current position information transmitted from another terminal device (not shown). You may search for the guidance route to the ground. In step SF-2, when the route search condition further includes a departure time or arrival time, the guidance route search unit 402c determines from the departure point that satisfies the route search condition further including the departure time or arrival time to the destination. A guide route that is a route to the destination may be searched using network data stored in the network database 406a. Here, the departure time may be the current time. In step SF-2, the guidance route search unit 402c may search for a guidance route that passes through a route point when the route search condition further includes a route point. In step SF-2, when the route search condition further includes a transit point and a transit time, the guidance route search unit 402c sets a route search condition including the departure point, the destination, the transit point, and the transit time. You may search for the guidance route | route which is a route | route via the waypoint from the starting point to meet the destination.

  And the boarding / alighting point setting unit 402d generates a plurality of guidance route data generated by the processing of the guidance route search unit 402c in step SF-2 (for example, the public transportation use route of each of the users A to F in FIG. 6 described above). Or a plurality of guide route data including the vehicle use route of the user C in FIG. 10 described above, the user of the navigation device 400 (for example, the above-described one) at a position before the destination on each guide route. In FIG. 6, a boarding point (for example, in FIG. 6 above-mentioned boarding / alighting point of a user A) and a user (for example, in FIG. 1 “Ohara”, boarding point 1-1 “M field”, boarding point 1-1-1 “I bag”, boarding point 1-1-2 “N door”, boarding point 1-2 “O ship”, etc. ) Is set (step SF). 3). In this embodiment, a boarding / alighting point is a point where people get on and off public transportation and / or vehicles other than public transportation. It means a point used as a dissolution place when returning from the ground to the departure place of each user.

  Here, in step SF-3, the boarding / alighting point setting unit 402d has a plurality of guide route data generated by the processing of the guide route searching unit 402c in step SF-2 (for example, in FIG. Each guidance based on a plurality of F departure points “O Miya, S Tsu, M Hara, S Mae, O Town, K Mountain” to a single destination “H”) Nodes other than the destination included in the route data (for example, “I bag, S inn, F town, N door, M field, H wood, Y beach, O ship, Ohara” in FIG. 7 described above) A matching degree (that is, a node counter) that matches is calculated for each node, and a node having a high matching degree is calculated at a position before the destination on each guide route (for example, in FIG. ]) May be set as a boarding / exiting point. Moreover, in step SF-3, the boarding / alighting point setting unit 402d determines that a plurality of guide route data generated by the processing of the guide route searching unit 402c in step SF-2 is a public transportation (for example, in FIG. From a plurality of departure points “O Miya, S Tsu, M Hara, S Mae, O Machi, K Mountain” of users A to F in FIG. In the case of a plurality of public transport use routes up to one destination “H”, a stop point of public transport existing on each public transport use route (for example, a station in FIG. 6 described above) A matching point (for example, “O Hara, M field, I bag, N unit, O ship” in FIG. 6 above) matches a boarding point (for example, “O” in FIG. 6 above). Hara, M field, I bag, N unit, O ship " It is the corresponding "getting on and off point 1, getting on and off point 1-1, getting on and off point 1-1-1, getting on and off point 1-1-2, getting on and off point 1-2" may be set as a). Moreover, in step SF-3, the boarding / alighting point setting unit 402d may further set a boarding point in public transportation (for example, in the above-described FIG. 6) that stops at the matching point as a boarding / alighting point. Moreover, in step SF-3, the boarding / alighting point setting unit 402d may set a boarding / alighting point with priority from a matching point far from the destination.

  In step SF-3, the boarding / alighting point setting unit 402d includes vehicles other than public transportation on a plurality of guide routes based on the plurality of guide route data generated by the process of the guide route searching unit 402c in step SF-2. Is included (for example, user C's vehicle use route in FIG. 10 described above), the vehicle use route is a match point on the public transport use route (for example, the above-described route). In FIG. 10, it is determined whether or not the user A passes through a predetermined range from “I bag” in the case of the user A, and the vehicle use route passes through the predetermined range (for example, in FIG. When it is determined that the “reference vehicle use route” of the user C passes through a predetermined range from the stop node “I bag” of A, a matching point within the predetermined range (for example, in FIG. 10 described above) Stomach, the "I bag"), may be set as entry and exit point of the user who is getting on and off the vehicle. Here, the predetermined range may be a range indicating a service area from the match point.

  In step SF-3, the boarding / alighting point setting unit 402d further includes information on the number of persons that can be boarded (for example, in FIG. The number of users to be boarded on the basis of the number of passengers that can be boarded based on the possessed terminal device 100-3 (for example, four people corresponding to the users A to D in FIG. 10 described above). So as not to exceed the number of passengers that can be boarded (for example, 5 people), a boarding / alighting point of a user who gets on and off the vehicle (for example, in FIG. A boarding / alighting point “before S” where the user D gets on / off the vehicle and a boarding / alighting point “N door” where the user B gets on / off the vehicle may be set. In step SF-3, when the number of users to be boarded by the vehicle exceeds the number of people who can board the vehicle, the boarding / alighting point setting unit 402d gives priority to the vehicle to be boarded from a user with a long travel time. And the boarding / alighting point of the user who gets on and off the vehicle may be set. In step SF-3, the boarding / alighting point setting unit 402d includes a plurality of vehicle use routes in a plurality of guide routes based on the plurality of guide route data generated by the processing of the guide route search unit 402c in step SF-2. If a plurality of vehicle usage routes pass within a predetermined range from a match point on the public transportation usage route, it is possible to get on only one vehicle rather than a user who can ride on multiple vehicles. It is also possible to set a boarding point of a user who gets on and off the vehicle with priority on the user as a boarding target. In step SF-3, the boarding / alighting point setting unit 402d includes a plurality of vehicle use routes in a plurality of guide routes based on the plurality of guide route data generated by the processing of the guide route search unit 402c in step SF-2. In the case where the plurality of vehicle use routes pass within a predetermined range from the match point on the public transport use route, further, from the match point close to the departure place of the user to be boarded by the vehicle As a priority, it may be set as a boarding / exiting point for users who get on and off the vehicle. In step SF-3, the boarding / alighting point setting unit 402d includes a plurality of vehicle use routes in a plurality of guide routes based on the plurality of guide route data generated by the processing of the guide route search unit 402c in step SF-2. In the case where the plurality of vehicle use routes pass within a predetermined range from the match point on the public transport use route, priority is given to the match point with the shorter moving distance from the vehicle to the match point. And you may set as a boarding / alighting point of the user who gets on and off the vehicle.

  In addition, since further details of the boarding / alighting point setting process executed by the boarding / alighting point setting unit 402d in step SF-3 are the same as those in FIGS.

  Then, the route guidance information generating unit 402e generates route guidance information including at least the getting-on / off point information regarding the getting-on / off point set by the process of the getting-on / off point setting unit 402d in step SF-3 (step SF-4). In the present embodiment, the getting-on / off point information may be information including the getting-on / off time of each user and / or the position of the getting-on / off point, for example. Here, in step SF-4, the route guidance information generation unit 402e may further generate route guidance information including the guidance route data generated by the processing of the guidance route search unit 402c in step SF-2. In Step SF-4, the route guidance information generation unit 402e may further generate route guidance information including map data of a map including the guidance route stored in the map database 406b. In Step SF-4, the route guidance information generation unit 402e may further generate route guidance information including guidance data output on the guidance route stored in the guidance database 406c.

  And the route guidance information output part 402f outputs at least one part of the route guidance information produced | generated by the process of the route guidance information generation part 402e in step SF-4 via an output part (step SF-5). Here, in step SF-5, the route guidance information output unit 402f is generated by the current position information acquired by the processing of the current position information acquisition unit 402a and by the processing of the route guidance information generation unit 402e in step SF-4. The route guidance may be executed by outputting at least a part of the route guidance information output via the output unit. In step SF-5, the route guidance information output unit 402f, for example, on the map data included in the route guidance information, the guide route data included in the route guidance information, and the current position of the user of the navigation device 400 A display screen on which information and current position information of a user of another terminal device (not shown) are superimposed may be displayed on the display unit 414.

  In step SF-5, the route guidance information output unit 402f may cause the display unit 414 to display a display screen based on the route guidance information. For example, the route guidance information output unit 402f includes boarding / exiting point information (for example, names and position information of boarding / exiting points such as railway stations and bus stops, boarding location information of transportation facilities, boarding / exiting time, etc.) ), Guidance route data, transportation boarding / departure times, transportation destination information, transportation route type, transportation route name, station exit information, initial departure, walking route, weather information, traffic Display based on the number of transfers of the institution, time required for the guide route, toll data when using the guide route, local route data, timetable data, map data, and / or display guide data such as TBT included in the guide data A screen may be displayed on the display unit 414. In Step SF-5, the route guidance information output unit 402f may output the route guidance information via the voice output unit 416. For example, the route guidance information output unit 402f may output, via the voice output unit 416, voice guidance data associated with a traveling direction or the like at a branch point on the guidance route included in the route guidance information.

  In the present embodiment, in step SF-5, the route guidance information output unit 402f provides all users (for example, for example, the user A in FIG. 6 described above) to the users (for example, the user A in FIG. 6 described above). In FIG. 6 described above, route guidance information of the users A to F) may be output. Further, the route guidance information output unit 402f is connected to each user (for example, in FIG. 6 described above) of another terminal device (not shown) that is communicably connected via a communication control interface unit (not shown). Route guidance information corresponding to each user may be transmitted to the users B to F).

  Above, description of an example of the process of the navigation apparatus 400 in 3rd Embodiment is finished.

[Other embodiments]
Although the embodiments of the present invention have been described so far, the present invention can be implemented in various different embodiments within the scope of the technical idea described in the claims other than the above-described embodiments. It may be done.

  In the above-described embodiment, as shown in FIG. 6 and FIG. 10 described above, a boarding point set on a guide route from a plurality of departure points to one destination is an outbound route toward the destination (that is, The example of using as a “meeting place” on an outgoing route) has been described, but the boarding / exiting point is a “dissolution place” on a return route (ie, a return route) from one destination to a plurality of departure points. May be used as For example, when a plurality of users come home using a shared taxi or the like, the boarding point set in the present invention can be a “dissolution place” where the cost burden of each user is optimally distributed. Moreover, the boarding / alighting point of the present invention may be used as a “dissolution place” on a route from one departure point to a plurality of destinations. For example, when going from home to family as far as possible, or when returning home from a school or company as much as possible, the boarding point set in the present invention can be an optimal “dissolution place”.

  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.

  Further, regarding the terminal device 100, the navigation server 200, and the navigation device 400, each illustrated component is functionally conceptual and does not necessarily need to be physically configured as illustrated.

  For example, the processing functions provided in each device of the terminal device 100, the navigation server 200, and the navigation device 400, in particular, the processing functions performed in the control unit 102, the control unit 202, and the control unit 402 are all or An arbitrary part can be realized by a CPU (Central Processing Unit) and a program interpreted and executed by the CPU, or can be realized as hardware by wired logic. The program is recorded on a recording medium to be described later, and is mechanically read by the terminal device 100, the navigation server 200, and the navigation device 400 as necessary. That is, the storage unit 106, the storage unit 206, the storage unit 406, and the like such as ROM or HDD (Hard Disk Drive) have computer programs for giving various instructions to the CPU in cooperation with the OS. It is recorded. This computer program is executed by being loaded into the RAM, and constitutes a control unit in cooperation with the CPU.

  Further, the computer program may be stored in an application program server connected to the terminal device 100, the navigation server 200, and the navigation device 400 via an arbitrary network 300, and all of them may be stored as necessary. It is also possible to download a part.

  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” is any memory card, USB memory, SD card, flexible disk, magneto-optical disk, ROM, EPROM, EEPROM, CD-ROM, MO, DVD, Blu-ray Disc, etc. Of “portable physical media”.

  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. Note that the “program” is not necessarily limited to a single configuration, and functions are achieved in cooperation with a separate configuration such as a plurality of modules and libraries or a separate program represented by the OS. Including things. 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 stored in the storage unit 106, the storage unit 206, and the storage unit 406 (route guidance information file 106a, network database 206a, map database 206b, guidance database 206c, route guidance information database 206d, network database 406a, The map database 406b, the guidance database 406c, the route guidance information database 406d, etc.) 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. Stores various programs, tables, databases, web page files, etc. used for providing websites.

  The navigation server 200 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. The navigation server 200 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, a navigation system and a terminal device capable of setting a boarding / exiting point used for a meeting place or a dissolution place at an optimal position on a route to each user's destination. Since a navigation server, a navigation device, a navigation method, and a program can be provided, it is extremely useful in various fields such as an information device that supports navigation and an information processing field.

100 terminal device 102 control unit
102a Current position information acquisition unit
102b Route search condition transmitter
102c Route guidance information receiver
102d Route guidance information output unit 104 Communication control interface unit 106 Storage unit
106a Route guidance information file 108 Input / output control interface unit 112 Position acquisition unit 114 Display unit 116 Audio output unit 118 Input unit 200 Navigation server 202 Control unit
202a Route search condition receiver
202b Guide route search unit
202c boarding point setting part
202d Route guidance information generation unit
202e Route guidance information transmitter
202f Route guidance screen generator
202g Output control unit
202h Current position information acquisition unit 204 Communication control interface unit 206 Storage unit
206a Network database
206b Map database
206c Information database
206f Route guidance information database 300 Network 400 Navigation device 402 Control unit
402a Current position information acquisition unit
402b Route search condition setting unit
402c Guide route search unit
402d Boarding point setting part
402e Route guidance information generation unit
402f Route guidance information output unit 406 Storage unit
406a Network database
406b Map database
406c Information database
406d Route guidance information database 408 Input / output control interface unit 412 Position acquisition unit 414 Display unit 416 Audio output unit 418 Input unit 500 Position transmission device

Claims (27)

  A navigation system in which a navigation server including at least a control unit and a storage unit and a terminal device including at least a control unit and an output unit are communicably connected, and the storage unit defines a traffic network Network data storage means for storing network data, wherein the control unit of the navigation server transmits a route search condition including at least one destination and a plurality of departure points transmitted from the terminal device, or one The route search condition receiving means for receiving a route search condition including at least the departure place and the plurality of destinations, and the route search condition received by the route search condition receiving means from the plurality of departure places. Multiple guide routes to one destination, or multiple routes from the one departure point to the multiple destinations. The guide route search means for searching the guide route using the network data stored in the network data storage means and generating a plurality of guide route data corresponding to each guide route, and the guide route search means Boarding point setting means for setting at least one boarding point of the user of the terminal device at a position before the destination on each of the guidance routes based on the plurality of guidance route data generated by The route guidance information generating means for generating route guidance information including at least the getting-on / off point information related to the getting-on / off point set by the getting-on / off point setting means, and the route guidance information generated by the route guidance information generating means to the terminal device Route guidance information transmitting means for transmitting to the terminal device, wherein the control unit of the terminal device sets the route search condition to the navigation system. At least a part of the route guidance information received by the route guidance information receiving means, the route guidance information receiving means for receiving the route guidance information sent from the navigation server, and the route guidance information receiving means. A navigation system comprising: route guidance information output means for outputting the information via the output unit.   2. The navigation system according to claim 1, wherein the getting-on / off point setting means is a node other than the destination included in each guide route data based on the plurality of guide route data generated by the guide route search means. The degree of coincidence that matches each other is calculated for each node, and is set as the getting-on / off point from the node with the high degree of coincidence calculated at a position before the destination on each guide route. A navigation system.   3. The navigation system according to claim 2, wherein the boarding / alighting point setting means includes a plurality of the guidance routes based on the plurality of guidance route data generated by the guidance route search means, wherein the plurality of guidance routes use public transportation. If it is a usage route, a navigation point characterized in that a matching point that matches the node corresponding to the stop point of the public transportation existing on each public transportation usage route is set as the getting-on / off point. system.   4. The navigation system according to claim 3, wherein the boarding / alighting point setting means further sets the inside of the public transportation that stops at the matching point as the boarding / alighting point.   5. The navigation system according to claim 3 or 4, wherein the boarding / alighting point setting means includes a vehicle other than the public transportation system on the plurality of guidance routes based on the plurality of guidance route data generated by the guidance route search means. Is included, it is determined whether the vehicle use route passes within a predetermined range from the matching point on the public transport use route, and the vehicle use route is A navigation system characterized in that, when it is determined that the vehicle passes through a predetermined range, the matching point within the predetermined range is set as the boarding / alighting point for the user getting on and off the vehicle.   The navigation system according to claim 5, wherein the predetermined range is a range indicating a service area from the match point.   7. The navigation system according to claim 5 or 6, wherein the route search condition further includes information on a number of people who can board the vehicle, and the boarding point setting means is further provided by the route search condition reception means. Based on the information on the number of people that can be boarded included in the received route search condition, the number of the users who are to be boarded by the vehicle does not exceed the number of people who can board the vehicle. A navigation system characterized by setting the boarding / alighting point.   8. The navigation system according to claim 7, wherein the boarding / alighting point setting means gives priority to the user who travels for a long time when the number of users to be boarded exceeds the number of people who can board the vehicle. And setting the boarding / alighting point of the user who gets on and off the vehicle as a boarding target for the vehicle.   The navigation system according to any one of claims 5 to 8, wherein the boarding / alighting point setting means includes the vehicle on a plurality of the guidance routes based on the plurality of guidance route data generated by the guidance route search means. When a plurality of use routes are included, and the plurality of vehicle use routes pass within a predetermined range from the matching point on the public transport use route, the plurality of vehicles can be boarded. The navigation is characterized in that the user who can get on only one vehicle rather than the user is given priority as a boarding target for the vehicle, and the boarding / alighting point of the user who gets on and off the vehicle is set. system.   10. The navigation system according to claim 9, wherein the boarding / alighting point setting unit includes a plurality of the vehicle use routes in the plurality of guide routes based on the plurality of guide route data generated by the guide route search unit. And when the plurality of vehicle use routes pass within a predetermined range from the matching point on the public transport use route, further from the departure place of the user to be boarded by the vehicle A navigation system, characterized in that the navigation system is set as the boarding / alighting point of the user who gets on and off the vehicle with priority from the closest matching point.   11. The navigation system according to claim 10, wherein the boarding / alighting point setting unit includes a plurality of the vehicle use routes in the plurality of guide routes based on the plurality of guide route data generated by the guide route search unit. And when the plurality of vehicle use routes pass within a predetermined range from the match point on the public transport use route, the one having a shorter moving distance from the vehicle to the match point A navigation system, characterized in that the navigation system is set as the getting-on / off point of the user who gets on and off the vehicle preferentially from the matching point.   The navigation system according to any one of claims 1 to 11, wherein the getting-on / off point setting means preferentially sets the getting-on / off point from the matching point far from the destination. Navigation system.   Network data storage means for storing network data defining a traffic network and a route search condition including at least one destination and a plurality of departure points, or a route search including at least one departure point and a plurality of destinations A route search condition setting means for setting a condition and a plurality of guide routes from the plurality of departure points to the one destination satisfying the route search condition set by the route search condition setting means; or A plurality of guide routes from one departure point to the plurality of destinations are searched using the network data stored in the network data storage means, and a plurality of guide route data corresponding to the respective guide routes are generated. On the basis of the plurality of guide route data generated by the guide route search means and the guide route search means. Boarding point setting means for setting at least one boarding point for the user of the terminal device at a position before the destination on each guide route, and boarding point information regarding the boarding point set by the boarding point setting means. Route guidance information generating means for generating route guidance information including at least, route guidance information output means for outputting at least part of the route guidance information generated by the route guidance information generating means via an output unit, A navigation system characterized by comprising:   A terminal device including at least a control unit and an output unit that are communicably connected to a navigation server, wherein the control unit includes a route search condition including at least one destination and a plurality of departure points, or 1 Route search condition transmitting means for transmitting a route search condition including at least one of the departure points and a plurality of the destinations to the navigation server, route guidance information receiving means for receiving route guidance information transmitted from the navigation server, Route guidance information output means for outputting at least a part of the route guidance information received by the route guidance information receiving means via the output unit, the route guidance information in the navigation server, A plurality of guide routes from the plurality of starting points to the one destination satisfying a route search condition; or Search for a plurality of the guide routes from the one departure point to the plurality of destinations using network data defining a traffic network, and generate a plurality of guide route data corresponding to each guide route. Based on the plurality of guide route data, at least one boarding / departing point for the user of the terminal device is set at a position before the destination on each of the guiding routes, and the set boarding / departing point is related to It is the information produced | generated so that at least boarding / alighting point information may be included, The terminal device characterized by the above-mentioned.   A navigation server that includes at least a control unit and a storage unit that are communicably connected to a terminal device, the storage unit including network data storage means that stores network data that defines a traffic network, and The control unit receives a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least the one departure point and the plurality of destinations, transmitted from the terminal device. From a plurality of guide routes from the plurality of departure points to the one destination that satisfy the route search conditions received by the route search condition reception unit and the route search condition reception unit, or from the one departure point A plurality of the guide routes to the plurality of destinations are used using the network data stored in the network data storage means. A guide route search means for searching and generating a plurality of guide route data corresponding to each of the guide routes, and the above-mentioned guide route data generated by the guide route search means based on the guide route data. Route guidance including at least one boarding / departing point setting means for setting a boarding / departing point for the user of the terminal device at a position before the destination, and at least boarding / departing point information about the boarding / departing point set by the boarding / exiting point setting unit A navigation server comprising: route guidance information generating means for generating information; and route guidance information transmitting means for transmitting the route guidance information generated by the route guidance information generating means to the terminal device. .   A navigation server including at least a control unit and a storage unit, communicably connected to a terminal device including at least an output unit, wherein the storage unit stores network data defining a traffic network. The control unit includes a route search condition including at least one destination and a plurality of starting points, or at least one starting point and the plurality of destinations transmitted from the terminal device. A route search condition receiving means for receiving a route search condition; and a plurality of guide routes from the plurality of starting points to the one destination, which satisfy the route search condition received by the route search condition receiving means, or The plurality of guide routes from the one departure place to the plurality of destinations are stored in the network data storage means. Search using network data and generating a plurality of guide route data corresponding to each guide route, and based on the plurality of guide route data generated by the guide route search means, A boarding / alighting point setting means for setting at least one boarding / alighting point for the user of the terminal device at a position before the destination on each guide route, and a boarding / alighting point for the boarding / alighting point set by the boarding / alighting point setting means. Route guidance information generating means for generating route guidance information including at least information, route guidance screen generating means for generating a route guidance screen based on the route guidance information generated by the route guidance information generating means, and the route guidance Output control information including the route guidance screen generated by the screen generation means is transmitted to the terminal device, and the output unit of the terminal device is And it is characterized in that and an output control means for outputting the output control information, the navigation server.   A navigation device including at least a control unit, a storage unit, and an output unit, wherein the storage unit includes network data storage means for storing network data defining a traffic network, and the control unit has one purpose A route search condition setting unit for setting a route search condition including at least a place and a plurality of departure points, or a route search condition including at least one of the departure point and the plurality of destinations, and the route search condition setting unit A plurality of guide routes from the plurality of starting points to the one destination or a plurality of guide routes from the one starting point to the plurality of destinations satisfying the route search condition Search using the network data stored in the network data storage means, and a plurality of guide route data corresponding to each guide route Based on the generated guide route search means and the plurality of guide route data generated by the guide route search means, the user of the navigation device gets on and off at a position before the destination on each guide route. A boarding point setting unit for setting at least one point, a route guidance information generating unit for generating route guidance information including at least the boarding point information about the boarding point set by the boarding point setting unit, and the route guidance information generation A navigation apparatus comprising: route guidance information output means for outputting at least a part of the route guidance information generated by the means via the output unit.   A navigation method that is executed in a navigation system in which a navigation server including at least a control unit and a storage unit and a terminal device including at least a control unit and an output unit are communicably connected. A route search condition including at least one destination and a plurality of departure points, which is executed in the control unit of the terminal device, or network data storage means for storing network data defining a traffic network A route search condition transmitting step of transmitting to the navigation server a route search condition including at least one of the departure points and a plurality of destinations, and the route search condition transmitting step executed in the control unit of the navigation server The route search condition transmitted from the terminal device is The route search condition receiving step, and the route server satisfying the route search condition received in the route search condition receiving step executed in the control unit of the navigation server. A plurality of guide routes up to one or a plurality of guide routes from the one departure point to the plurality of destinations using the network data stored in the network data storage means, Based on the guide route search step for generating a plurality of guide route data corresponding to the route and the plurality of guide route data generated in the guide route search step executed in the control unit of the navigation server, At least one entry / exit point of the user of the terminal device is located at a position before the destination on each guide route. Route guidance information generation that generates route guidance information that includes at least a boarding / alighting point information that is set in the boarding / alighting point setting step and is set in the boarding / alighting point setting step that is executed in the control unit of the navigation server. A route guidance information transmitting step for transmitting to the terminal device the route guidance information generated in the route guidance information generating step, executed in the control unit of the navigation server, and the control of the terminal device A route guidance information receiving step for receiving the route guidance information transmitted from the navigation server in the route guidance information transmitting step, and a route guidance information executed in the control unit of the terminal device. A small amount of the route guidance information received in the information receiving step A route guidance information output step of outputting at least a part of the route guidance information via the output unit.   A navigation method executed in a navigation system, the navigation system including network data storage means for storing network data defining a traffic network, route search condition setting means, guide route search means, and boarding / exiting point setting means And route guidance information generating means, and route guidance information output means, wherein the route search condition setting means includes route search conditions including at least one destination and a plurality of departure places, or one departure place. A route search condition setting step for setting a route search condition including at least the plurality of destinations, and the guide route search means satisfying the route search condition set in the route search condition setting step. Multiple guide routes from the starting point to the one destination or the one starting point The plurality of guide routes to the plurality of destinations are searched using the network data stored in the network data storage means, and a plurality of guide route data corresponding to the respective guide routes are generated. The search step and the boarding / alighting point setting means use the terminal device at a position before the destination on each guide route based on the plurality of guide route data generated in the guide route search step. A boarding / alighting point setting step for setting at least one person's boarding / alighting point, and the route guidance information generating means generates route guidance information including at least the boarding / alighting point information related to the boarding / alighting point set in the boarding / alighting point setting step. The route guidance information generation step, and the route guidance information output means, the route plan generated in the route guidance information generation step. At least a portion, characterized in that it comprises a, and the route guidance information output step of outputting through the output unit, a navigation method information.   A navigation method executed in a terminal device including at least a control unit and an output unit, which is communicably connected to a navigation server, wherein one destination and a plurality of departure points are executed in the control unit. A route search condition transmitting step for transmitting to the navigation server a route search condition including at least a route search condition including at least one departure place and a plurality of the destinations; and route guidance information transmitted from the navigation server. A route guidance information receiving step for receiving, and a route guidance information output step for outputting at least a part of the route guidance information received in the route guidance information receiving step via the output unit. The guidance information satisfies the route search condition in the navigation server. A plurality of guide routes from the plurality of departure points to the one destination or a plurality of guide routes from the one departure point to the plurality of destinations using network data defining a traffic network Search, generate a plurality of guide route data corresponding to each guide route, and based on the generated plurality of guide route data, the terminal device at a position before the destination on each guide route A navigation method, characterized in that at least one boarding / departing point of the user is set and the generated information includes at least boarding / departing point information regarding the set boarding / departing point.   A navigation method that is executed in a navigation server that is communicably connected to a terminal device and includes at least a control unit and a storage unit, wherein the storage unit stores network data that defines a traffic network. A route search condition including at least one destination and a plurality of departure points, transmitted from the terminal device, and executed by the control unit, or the one departure point and the plurality of destinations A route search condition receiving step for receiving a route search condition including at least a route search condition, and a plurality of guides from the plurality of departure points to the one destination that satisfy the route search condition received in the route search condition reception step A route or a plurality of the guide routes from the one departure point to the plurality of destinations are connected to the network. A search using the network data stored in the queue data storage means, and generating a plurality of guide route data corresponding to each of the guide routes, and the plurality of routes generated in the guide route search step. Based on the guide route data, at a boarding / alighting point setting step for setting at least one boarding / alighting point for the user of the terminal device at a position before the destination on each of the guidance routes, A route guidance information generating step for generating route guidance information including at least the getting-on / off point information relating to the set getting-on / off point; and a route guide for transmitting the route guidance information generated in the route guidance information generating step to the terminal device A navigation method, comprising: an information transmission step.   A navigation method executed in a navigation server having at least a control unit and a storage unit, communicably connected to a terminal device having at least an output unit, wherein the storage unit is network data defining a traffic network A route search condition including at least one destination and a plurality of departure points, transmitted from the terminal device, executed by the control unit, or one departure place And a route search condition receiving step for receiving a route search condition including at least the plurality of destinations, and the one destination from the plurality of departure points satisfying the route search condition received in the route search condition receiving step. A plurality of guide routes to the ground, or a plurality of the above-mentioned routes from the one departure point to the plurality of destinations An internal route is searched using the network data stored in the network data storage means, and a guide route search step for generating a plurality of guide route data corresponding to each guide route, and the guide route search step A boarding / alighting point setting step for setting at least one boarding / alighting point for the user of the terminal device at a position before the destination on each of the guidance routes based on the plurality of generated guidance route data, Based on the route guidance information generating step for generating route guidance information including at least the getting-on / off point information related to the getting-on / off point set in the getting-on / off point setting step, and on the route guidance information generated in the route guidance information generating step The route guidance screen generation step for generating the route guidance screen, and the above-mentioned generated in the route guidance screen generation step The output control information including road guidance screen and transmitted to the terminal device, characterized in that it comprises a, and an output control step of outputting the output control information through the output unit of the terminal device, a navigation method.   A navigation method executed in a navigation device including at least a control unit, a storage unit, and an output unit, wherein the storage unit includes network data storage means for storing network data defining a traffic network, and the control A route search condition setting step for setting a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one of the departure points and the plurality of destinations, , A plurality of guide routes from the plurality of departure places to the one destination satisfying the route search conditions set in the route search condition setting step, or the plurality of destinations from the one departure place The plurality of guide routes up to the network data stored in the network data storage means And a guide route search step for generating a plurality of guide route data corresponding to each of the guide routes, and on each guide route based on the plurality of guide route data generated in the guide route search step. A boarding point setting step for setting at least one boarding point for the user of the navigation device at a position before the destination, and boarding point information regarding the boarding point set in the boarding point setting step. A route guidance information generation step for generating route guidance information including, a route guidance information output step for outputting at least a part of the route guidance information generated in the route guidance information generation step via the output unit, A navigation method comprising:   A program for causing a terminal device connected to a navigation server to be communicable and having at least a control unit and an output unit, the route including at least one destination and a plurality of departure points in the control unit A route search condition transmitting step for transmitting a search condition or a route search condition including at least one of the departure place and a plurality of destinations to the navigation server, and a route for receiving route guidance information transmitted from the navigation server A route guidance information receiving step; and a route guidance information output step of outputting at least a part of the route guidance information received in the route guidance information receiving step via the output unit. In the navigation server, the plurality of outputs satisfying the route search condition. Search for a plurality of guide routes from the ground to the one destination or a plurality of guide routes from the one departure point to the plurality of destinations using network data defining a traffic network, A plurality of guide route data corresponding to each guide route is generated, and based on the generated plurality of guide route data, a user of the terminal device is placed at a position before the destination on each guide route. A program characterized in that it is information generated by setting at least one boarding point and including at least boarding point information regarding the set boarding point.   A program for causing a navigation server, which is connected to a terminal device to be communicable and includes at least a control unit and a storage unit, to execute the program, wherein the storage unit stores network data defining a traffic network A route search condition including at least one destination and a plurality of departure points, or at least including the one departure point and the plurality of destinations, transmitted from the terminal device in the control unit. A route search condition receiving step for receiving a route search condition, and a plurality of guide routes from the plurality of departure points to the one destination that satisfy the route search condition received in the route search condition reception step, or , A plurality of the guide routes from the one departure point to the plurality of destinations, the network data storage means A search using the stored network data to generate a plurality of guide route data corresponding to each guide route, and the plurality of guide route data generated in the guide route search step. Based on the boarding point setting step for setting at least one boarding / departing point for the user of the terminal device at a position before the destination on each guide route, and the boarding point setting step. A route guidance information generating step for generating route guidance information including at least boarding / departing point information, and a route guidance information transmitting step for transmitting the route guidance information generated in the route guidance information generating step to the terminal device; , A program for running.   A program for causing a navigation server having at least a control unit and a storage unit, which is communicably connected to a terminal device having at least an output unit, to execute the network, the storage unit defining network data Network data storage means for storing a route search condition including at least one destination and a plurality of departure points transmitted from the terminal device in the control unit, or the one departure point and a plurality of departure points. A route search condition reception step for receiving a route search condition including at least the destination, and the route search condition received in the route search condition reception step, from the plurality of departure points to the one destination A plurality of guide routes or a plurality of the guide routes from the one departure point to the plurality of destinations are A search using the network data stored in the network data storage means to generate a plurality of guide route data corresponding to each of the guide routes, and the plurality of the routes generated in the guide route search step Based on the guide route data, a boarding / alighting point setting step for setting at least one boarding / alighting point for the user of the terminal device at a position before the destination on each guidance route, and a boarding / alighting point setting step. A route guidance information generating step for generating route guidance information including at least the getting-on / off point information relating to the getting-on / off point set in step S3, and generating a route guidance screen based on the route guidance information generated in the route guidance information generating step A route guidance screen generation step to be performed, and the route guidance screen generated in the route guidance screen generation step. A force control information transmitted to the terminal apparatus, a program for executing an output control step of outputting the output control information through the output unit of the terminal device.   A program for causing a navigation device including at least a control unit, a storage unit, and an output unit to execute, wherein the storage unit includes network data storage means for storing network data defining a traffic network, and the control A route search condition setting step for setting a route search condition including at least one destination and a plurality of departure points, or a route search condition including at least one of the departure points and the plurality of destinations, and the route A plurality of guide routes from the plurality of departure points to the one destination, or a plurality from the one departure point to the plurality of destinations, satisfying the route search condition set in the search condition setting step. And searching for the guide route using the network data stored in the network data storage means, A guide route search step for generating a plurality of guide route data corresponding to the guide route, and a front of the destination on each guide route based on the plurality of guide route data generated in the guide route search step. The route guidance information including at least a boarding / alighting point setting step for setting at least one boarding / alighting point for the user of the navigation device and the boarding / alighting point information related to the boarding / alighting point set in the boarding / alighting point setting step is generated. A program for executing a route guidance information generation step for executing, and a route guidance information output step for outputting at least a part of the route guidance information generated in the route guidance information generation step via the output unit .

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