WO2019065349A1 - Dispositif de gestion d'informations d'utilisateur, et procédé de gestion d'informations d'utilisateur - Google Patents

Dispositif de gestion d'informations d'utilisateur, et procédé de gestion d'informations d'utilisateur Download PDF

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Publication number
WO2019065349A1
WO2019065349A1 PCT/JP2018/034369 JP2018034369W WO2019065349A1 WO 2019065349 A1 WO2019065349 A1 WO 2019065349A1 JP 2018034369 W JP2018034369 W JP 2018034369W WO 2019065349 A1 WO2019065349 A1 WO 2019065349A1
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WIPO (PCT)
Prior art keywords
facility
information
user
unit
parking
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PCT/JP2018/034369
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English (en)
Japanese (ja)
Inventor
俊介 川崎
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本田技研工業株式会社
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Application filed by 本田技研工業株式会社 filed Critical 本田技研工業株式会社
Priority to JP2019544976A priority Critical patent/JP6966562B2/ja
Publication of WO2019065349A1 publication Critical patent/WO2019065349A1/fr

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01CMEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
    • G01C21/00Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00

Definitions

  • the present invention provides a user of a vehicle such as a car with user information on parking contents, such as when and how far the user has parked so far, from a plurality of unspecified large number of vehicles.
  • POI Point Of Interest
  • facility information for example, coupon information
  • facility information for example, coupon information
  • the on-vehicle navigation device mounted on the vehicle transmits the current position of the vehicle to the navigation server, while the navigation server detects facilities within a predetermined range of the current position of the vehicle and a future arrival point.
  • a navigation system has been devised which presents the searched facility to the user after the search (for example, Patent Document 1).
  • facility information for example, coupon information
  • counter restaurant information is provided to the family layer
  • the present invention has been made in view of such problems.
  • the present invention makes it possible for a user who is in a vehicle to be able to recommend facility information that matches user profile information created based on the user's previous parking content, thereby satisfying the user. For example, it is possible to predict arrival at a destination by enabling the user to appropriately estimate, for example, the stay time at a facility that stops by in the route to the destination based on the user profile information.
  • An object of the present invention is to provide a user information management apparatus and a user information management method which improve accuracy.
  • Each of a plurality of facilities stores facility information including facility type (for example, facility type and / or genre described later), facility name, facility providing service, and facility parking lot position information, and is not specified Statistical index of the facility parking lot specified from parking information including parking date and time, parking time, and number of times of parking in facility parking lot of many mobile units (for example, season, month, day of the week, weekdays in the facility parking lot -Facility parking in which the parking time, the average value of the number of parked vehicles, the variance, the standard deviation value) in any combination of time zones such as holidays and time zones are stored in association with the facility information including the facility parking lot position information
  • a parking lot information storage unit for example, “facility information database 1121” described later
  • a receiving unit for receiving position information of a moving body together with identification information of the moving body for example, “receiving unit 101 described later
  • a user profile information storage unit for example, a “user profile information storage unit 1131” described later
  • a mobile parking information specifying unit for example, a “mobile parking information specifying unit 102 described later” for specifying a facility ID, parking date and time, parking time, and the number of parking times related to a facility parking lot described later
  • the parking information in the facility parking lot of the mobile identified by the mobile parking information identifying unit, and the facility parking stored in the facility parking information storage unit
  • a user provided with a user profile information updating unit for example, a "user profile information updating unit 104" described later
  • a statistical index Information management apparatus for example, "server system 1" described later.
  • the user profile information storage based on the parking information in the facility parking lot of each mobile unit and the statistical index of the facility parking lot stored in the facility parking lot information storage unit It is possible to update user profile information stored in the unit, including user preferences and user behavior characteristics.
  • user profile information stored in the unit including user preferences and user behavior characteristics.
  • the user information management device is suitable for, for example, stopping by the user who is the user of the mobile object 6 based on the user profile information including the user's preference, the user's action characteristic and the like.
  • Facility information can be provided.
  • the facility information according to the user profile information that is automatically created and updated is preferentially provided without any special operation by the user, and the user satisfaction is improved.
  • a navigation unit for example, "navigation unit 107" described later
  • the navigation unit further includes the navigation from the departure position to the destination
  • the stay time in the drop-in facility is based on the statistical index of the facility parking lot stored in the facility parking lot information storage unit and the user profile information of the user.
  • An estimated stay time estimation unit for example, "stay time estimation unit 1071” described later
  • the stop point from the departure position based on the stay time at the stop facility estimated by the stay time estimation unit Calculate the route and the time required to stay at the destination and then arrive at the destination, (1) or (2
  • the user information management device according to.
  • the user information management apparatus can appropriately estimate the stay time in the facility that stops by in the route for the user who is the user of the mobile object 6 based on the user profile information including the user's behavior characteristic. it can. For example, for impatient users, it is possible to improve arrival prediction accuracy at a destination or the like by calculating a stop time shorter than the average user.
  • a user of the mobile object which is updated by a navigation unit (for example, "navigation unit 107" described later) that calculates a route from the departure position to the destination and the required time, and the user profile information update unit
  • the facility to be recommended to the user is selected based on the user profile information pertaining to the user who is and the facility information stored in the facility parking lot information storage unit (for example, “facility information database 1121” described later) Transmitting, to the mobile unit associated with the user profile information, the facility information of the facility selected by the recommended facility selection unit (for example, “recommended facility selection unit 105” described later) and the recommended facility selection unit A recommended facility providing unit (for example, a "recommended facility providing unit 106" described later), and the navigation unit further includes: When a stop-off facility is provided by the recommended facility providing unit on a route from the departure position to the destination, the statistical index of the facility parking lot stored in the facility parking lot information storage unit, and the user A stay time estimation unit (for example, "stay time estimation unit 10
  • the user information management device of (4) it is possible to achieve a synergetic effect of the effect of the user information management device of (2) and the effect of the user information management device of (3).
  • facility information including facility type (genre), facility name, facility providing service, and facility parking location information, and also facility parking lot of an unspecified number of mobile objects
  • Facility parking lot information storage unit that stores the statistical index of the facility parking lot specified from the parking information including the parking date and time, the parking time, and the number of times of parking at the facility information, and a user of the mobile object
  • a user profile information storage unit for storing user profile information relating to a user in association with identification information of the mobile body in an identifiable manner and managing the user information of the user who is the user of the mobile body.
  • a user information management method wherein the user information management apparatus receives position information of a moving body together with identification information of the moving body; On the basis of ignition information and position information of the mobile unit to which the rofile information is linked, parking information in the facility parking lot where the mobile unit parked and parking information in the facility parking lot of the mobile unit (for example, a facility described later) Parking information in the facility parking lot of the mobile identified in the mobile parking information identifying step and the mobile parking information identifying step for identifying the facility ID, the parking date and time, the parking time, and the number of times of parking). And a user profile information updating step of updating the user profile information stored in the user profile information storage unit based on the facility parking lot statistical index stored in the facility parking area information storage unit; User information management method comprising:
  • the same effect as that of the user information management device (1) can be obtained.
  • the user information management apparatus includes a navigation step for calculating a route from the departure position to the destination and a required time, and the navigation step further includes a stop-by facility at the route from the departure position to the destination
  • the stay time estimation step of estimating the stay time in the drop-in facility based on the statistical index of the facility parking lot stored in the facility parking lot information storage unit and the user profile information of the user And based on the stay time at the stop-off facility estimated in the stay time estimation step, calculating the route and the time required to stay at the stop-off point from the departure position and thereafter arrive at the destination
  • the user information management method according to (5) or (6).
  • the same effect as the user information management device of (3) can be obtained.
  • the navigation step in which the user information management device calculates the route from the departure position to the destination and the required time, and the user profile information update step The recommended facility selection step of selecting a facility to be recommended for the user based on the user profile information and the facility information stored in the facility parking lot information storage unit, and the selected facility selection step A recommended facility providing step of transmitting facility information of a facility to the mobile object linked to the user profile information, and the navigation step further includes, on a route from the departure position to the destination, If a stop-off facility is provided in the recommended facility provision step, A stay time estimation step of estimating a stay time at the drop-in facility based on the statistical index of the facility parking lot stored in the facility parking lot information storage unit and the user profile information of the user; Based on the stay time in the facility estimated in the estimation step, the route and the time required to stay at the stop point and then arrive at the destination from the departure position are described in (6) User information management method.
  • the present invention it is possible to recommend, to a user who is in a vehicle, facility information that matches user profile information created based on the previous parking content of the user. By doing this, the degree of satisfaction of the user is improved, and it is possible to appropriately estimate, for example, the stay time at the facility where the user stops by in the route to the destination based on the user profile information. Improve arrival prediction accuracy to the destination.
  • FIG. 1 shows a system configuration of a user information management system 100.
  • FIG. 1 is a diagram showing the configuration of a server system 1; It is a figure which shows the structure of the vehicle-mounted navigation apparatus 2 mounted in a vehicle.
  • FIG. 6 is a diagram showing an example of a screen displayed on the in-vehicle navigation device 2 for starting information distribution. It is a figure which shows the example of the screen which displays the provided recommendation plant
  • FIG. It is a figure which shows the example of the screen which is displayed on the vehicle-mounted navigation apparatus 2, and displays the position of the provided recommendation plant
  • FIG. 2 is a diagram showing the configuration of a mobile terminal 3; It is a flow chart which shows a flow of processing which records connection history record information from a departure position of mobile 6 to a parking position. It is a flow chart which shows a flow of processing which creates and updates user profile information.
  • FIG. 10 is a flowchart showing a flow of processing from request of recommended facility information from a mobile unit 6 to route guidance in the user information management system 100.
  • FIG. 1 shows a system configuration of the user information management system 100. As shown in FIG.
  • the user information management system 100 includes a server system 1, an in-vehicle navigation device 2 mounted on a vehicle 5, and a portable terminal 3.
  • a server system 1 an in-vehicle navigation device 2 mounted on a vehicle 5, and a portable terminal 3.
  • the vehicle 5 provided with the vehicle 5 or the vehicle 5 on which the communication device such as the in-vehicle navigation device 2 is mounted is referred to as a mobile body 6 including the portable terminal 3 in signal connection (pairing).
  • the in-vehicle navigation device 2 and the portable terminal 3 of the mobile unit 6 that communicate with the server system 1 are collectively referred to as “mobile unit 6” unless otherwise specified.
  • the server system 1 transmits and receives information to and from the mobile 6 (the in-vehicle navigation device 2 and the portable terminal 3) via the communication unit 12.
  • the server system 1 stores facility information including facility type (genre), facility name, facility providing service, and facility parking lot position information for each of a plurality of facilities, and a facility of an unspecified number of mobile objects Statistical index of facility parking lot specified from parking information in the parking lot including parking date and time, parking time, and number of parking (for example, season, month, day of the week, weekday / holiday, and time zone in the facility parking lot)
  • the facility information database 1121 stores the parking time, the average value of the number of parked vehicles, the variance, the standard deviation value, etc.) in the combination time zone in the facility information including the facility parking location information.
  • the server system 1 includes a user profile information storage unit 1131 that stores user profile information related to a user who is a user of a mobile unit in association with identification information of the mobile unit 6 in an identifiable manner.
  • the server system 1 transmits and receives information to and from the mobile unit 6 (the in-vehicle navigation apparatus 2 and the mobile terminal 3) via the communication unit 12 to obtain the mobile unit based on the ignition information and the position information of the mobile unit 6.
  • the parked facility parking lot 6 and the parking information (facility ID pertaining to the facility parking lot, the parking date and time, the parking time, and the number of parkings) in the facility parking lot of the mobile 6 are specified.
  • the server system 1 is a user profile stored in the user profile information storage unit 1131 based on parking information in the facility parking lot of the mobile 6 and the statistical index of the facility parking lot stored in the facility information database 1121. Update information
  • the server system 1 is a facility located near the current position in the traveling direction from the current position of the mobile 6 based on the current position information of the mobile 6 and the user profile information, for example, the current position of the mobile 6
  • the recommended facilities present in the vicinity of the route from the point to the target position are extracted and provided to the mobile body 6.
  • the server system 1 when a stop-by facility is set in the route from the departure position to the destination, the statistical index of the facility parking lot stored in the facility information database 1121 and the user profile information of the user Based on the estimated stay time at the stop-by facility, the route and time required to stay at the stop facility and then arrive at the destination are calculated from the departure position.
  • server system 1 is described as one server in the embodiment of the present invention, it may be a distributed processing system in which each function of the server system 1 is distributed to a plurality of servers as appropriate.
  • each function of the server system 1 may be realized by using a virtual server function or the like on the cloud.
  • the in-vehicle navigation device 2 mounted on the vehicle 5 includes a PND or the like which is a portable navigation device.
  • Software for realizing the facility information display function etc. is installed in the in-vehicle navigation device 2 and is selected and provided from the server system 1 based on the user profile information, for example, from the current position of the moving body 6 It is possible to display facility information of a recommended facility located in the vicinity of the current position in the direction, and a recommended facility existing in the vicinity of the route from the current position of the moving body 6 to the target position.
  • the software for realizing the facility information display function or the like may be installed in advance. In addition, it may be downloaded as needed at the time of transmission and reception with the server system 1.
  • the mobile terminal 3 is a mobile phone, a smartphone, a tablet terminal, a PDA, a laptop computer, or other portable electronic devices, and includes an electronic device having a wireless communication function. Similar to the on-vehicle navigation device 2, the mobile terminal 3 is also selected and provided from the server system 1, for example, a recommended facility located around the current position in the traveling direction from the current position of the mobile 6, the mobile 6 It is possible to display facility information of recommended facilities existing near the route from the current position to the target position.
  • the software for realizing the facility information display function or the like may be installed in advance. In addition, it may be downloaded as needed at the time of transmission and reception with the server system 1. Next, each configuration will be described.
  • the server system 1 will be described.
  • the configuration of the server system 1 is shown in FIG. ⁇ Server system 1>
  • the server system 1 at least includes a control unit 10, a storage unit 11, and a communication unit 12, and further, a display unit 14 and an input unit 15 as necessary.
  • the control unit 10 is configured by a processor having a CPU, a RAM, a ROM, an I / O, and the like, and controls each component.
  • the CPU executes each program for navigation read from the RAM, the ROM or the storage unit 11, reads the information from the RAM, the ROM, and the storage unit 11 at the time of the execution, and sends the information to the RAM and the storage unit 11. It writes information and exchanges signals with the communication unit 12. Details will be described later.
  • the storage unit 11 is configured of a semiconductor memory, a hard disk drive, and the like, and stores various information such as an operating system (OS) and software called an application. Therefore, as shown in FIG. 2, various storage areas such as a map information area 111, a facility information area 112, a moving body information area 113, and a connection history information area 114 are secured in the storage unit 11. . Note that these storage areas may be individually secured in the storage unit 11, or, for example, a plurality of storage areas such as the map information area 111 and the facility information area 112 may be integrated. Good.
  • OS operating system
  • application software called an application. Therefore, as shown in FIG. 2, various storage areas such as a map information area 111, a facility information area 112, a moving body information area 113, and a connection history information area 114 are secured in the storage unit 11. . Note that these storage areas may be individually secured in the storage unit 11, or, for example, a plurality of storage areas such as the map information area 111 and the facility information area 112 may be integrated
  • the map information area 111 of the storage unit 11 stores in advance information on features such as roads and facilities, map information for navigation, road information, facility parking lot position information, parking lot information and the like.
  • Map information includes display map data for displaying backgrounds such as roads and road maps, position information of nodes (for example, intersections of roads, bending points, end points, etc.) and type information thereof, and routes connecting nodes. It includes road network data including position information of a certain link and its type information, link cost data on cost information (for example, distance, required time, etc.) of all links, and the like.
  • the road information stores information of so-called road maps such as road types and traffic signals.
  • position information of each facility parking lot is stored as information of latitude and longitude.
  • traffic information received from a traffic information center or the like is stored together with the recording time at which the traffic information was received.
  • the traffic information includes, for example, the number of traveling vehicles for each link, the required travel time, traffic congestion information, traffic regulation information, and factors affecting the movement cost such as weather information.
  • the past traffic information and the like of the link are also recorded.
  • the facility information area 112 of the storage unit 11 includes facility identification information (facility ID), name, facility type (and / or genre), telephone number, address, business hours, latitude and longitude, etc.
  • Facility information database in which information of each facility is stored including information provided, menus provided if the facility is a restaurant, facility information on commodity services, statistical index of facility parking lot, space information, coupon issue information, etc. 1121 is included.
  • the facility ID is unique identification information assigned to each facility. It is preferable that the facility ID is further hierarchically classified by genre in each facility type for each facility type, and the ID is assigned.
  • a facility type a store type such as a restaurant, a supermarket, or a gym can be mentioned as an example.
  • genres based on the contents of provided food such as Japanese food, Chinese food, Western food, Italian food, French food, coffee shop etc. as classification according to multiple genres.
  • a genre etc. based on the viewpoint of speed and convenience, such as a restaurant etc. is mentioned as an example.
  • the genre can be given by combining a plurality of genres according to the content. For example, Western food and fast food are examples.
  • the facility type, genre, etc. are not limited to this.
  • the facility information information on facilities such as business hours and telephone numbers of contact points and menus provided in the case of restaurants are stored.
  • the facility information is provided as needed in response to requests from the in-vehicle navigation device 2 and the portable terminal 3 and the like.
  • coupon information which is discount information such as an electronic coupon provided by the facility for each facility ID, conditions concerning distribution of the facility information (for example, effective period of the facility information, the facility information Distribution time zone etc.), facility evaluation information etc. given to each facility may be stored.
  • the statistical index of facility parking lot refers to the parking date and time, parking time, number of times of parking, and unique user of the unspecified number of moving objects in the facility parking lot obtained based on the probe information etc. collected from the unspecified number of moving objects
  • the time of any combination such as season, month, day, weekday / holiday, and time zone, etc. in the facility parking lot calculated from parking information including the number (the number of different mobile units parked in the parking lot) etc. It is a statistical value which shows the characteristic of the said facility parking lot which shows the average value of parking time, the average value of the number of parkings, dispersion
  • a mobile body parked in the said parking lot area as what shows the area
  • it may be regarded as parked at the parking lot position.
  • a statistical index of facility parking lot although a statistical value in a time zone of arbitrary combinations, such as a season, a month, a day, weekdays and holidays, and a time zone, is preferred as mentioned above, it is not limited to this. For example, it may be a combination of weekdays and holidays, and time zones.
  • the statistical index of the facility parking lot may include, for example, information divided into categories of vehicles (mobiles).
  • the category type means, for example, a type such as a minivan or a sedan. From the statistical index of the facility parking lot, it is possible to estimate the feature of the user who uses the facility.
  • the facility does not keep the user waiting in a holiday lunch time zone, or it is a facility with a short service provision, a short stay time, or a long time It is possible to estimate the type of facility with a long stay time, etc.
  • the statistical index of the facility parking lot be appropriately updated.
  • the facility information database 1121 or the facility information area 112 is an average for all facilities belonging to the facility parking group grouped by facility type and / or facility category.
  • the parking time and the standard deviation value also referred to as “statistical index of facility parking lot group” can be calculated and stored.
  • the statistical index of facility parking lot group is appropriately updated along with the statistical index of the facility parking lot.
  • grouping of facility parking lots is not limited to grouping by facility type and / or facility genre.
  • the facility parking lot statistical index (average parking time and standard deviation value, etc.) for facilities included in the types (for example, places where meals are provided, such as cafeterias and restaurants) where the service content provided by the facilities can be replaced respectively Based on, it may be a grouping into which facilities having similar statistical indices are grouped.
  • facilities belonging to the same group will be composed of facilities having a similar distribution of stay time, for example, when recommending facilities by stay time, they can be used as a set of alternative facilities . That is, when the distribution of stay time of a ramen shop and a fast food shop is similar, both a ramen shop or a fast food point can be selected as a recommended facility.
  • the facility information database 1121 is not limited to one physically composed of one database. The data contained in the facility information database 1121 may be distributed to a plurality of files, and for example, it may be a distributed database linked by a facility ID or the like.
  • the mobile unit information area 113 of the storage unit 11 information on the mobile unit 6 and user profile information on the user who is the user of the mobile unit 6 are identification information of the mobile unit 6 (hereinafter also referred to as "mobile unit ID") And the user profile information storage unit 1131 that stores the user profile information in association with each other in an identifiable manner.
  • the information on the moving object 6 stored in the moving object information area 113 is uniquely managed by the moving object ID for identifying each moving object 6.
  • the mobile body ID it is possible to use a number uniquely assigned to the in-vehicle navigation device 2, the portable terminal 3, and the vehicle 5.
  • a telephone number assigned to a SIM of a mobile telephone network can be used as a mobile ID.
  • the VIN vehicle identification number
  • the user profile information stored in the user profile information storage unit 1131 is facility parking information of the user who is the user of the mobile object 6 (for example, any combination of season, month, day of the week, weekdays and holidays, and time zone). User's preference, user's behavior characteristic, etc.
  • the parking characteristic index in the facility parking lot of the mobile 6 means, for example, the time of any combination such as season, month, day, weekday / holiday, and time zone parked in the facility parking of the mobile 6 It indicates the average value of the parking time of the mobile object 6, the number of times of parking, etc. in the band.
  • the preference of the user includes, for example, a facility name (POI name) at which the user prefers to stop in a holiday daytime zone (POI name), a facility type (POI type) and / or a genre (POI genre).
  • the user's behavior characteristic is, for example, when the average stay time of the vehicle in the facility is 1 hour during the daytime of a holiday, when the user stays only 30 minutes on average, the user In the case where it is assumed that the behavior characteristic of the user is static, and the user stays approximately one hour and a half on the contrary, "sickness degree" which is considered to be leisurely as the behavior characteristic of the user is mentioned.
  • the behavior characteristic of the user for each facility type may be included by comparing the average stopping time of the user with the average stopping time of the vehicle for each facility type. The calculation process of the user profile information will be described later.
  • connection history information area 114 manages, for each moving object ID, moving object position information, time information, destination information and traveling direction of the moving object 6 periodically transmitted from the moving object 6.
  • Connection history records are stored.
  • the mobile body position information stores information of the current position sequentially received from the mobile body 6. Reception may be performed once every several seconds, or may be stored chronologically on the mobile side, and may be collectively received at a certain time or when the application is activated on the mobile side. .
  • connection history records managed for each moving object ID also with respect to moving object type information transmitted from the moving object 6 and the state of the moving object (for example, the ignition turned on state, the traveling state, the ignition turned off state, etc.) It is memorized.
  • the communication unit 12 implements, for example, a communication protocol capable of performing wireless communication such as 3G and LTE when transmitting and receiving to and from the in-vehicle navigation device 2 and the portable terminal 3.
  • a communication protocol capable of performing wireless communication such as 3G and LTE when transmitting and receiving to and from the in-vehicle navigation device 2 and the portable terminal 3.
  • the control unit 10 causes the server system 1 to function as predetermined means (hereinafter collectively referred to as “user information management control unit”) by executing each program for managing user information.
  • the control unit 10 causes the server system 1 to execute predetermined steps (hereinafter collectively referred to as “user information management control steps”) by executing each program for managing user information.
  • control unit 10 will be described from the viewpoint of the user information management control unit.
  • the explanation based on the viewpoint of the user information management control step (method) is omitted because it can be explained by replacing “part” with “step”.
  • the control unit 10 includes a receiving unit 101, a mobile parking information specifying unit 102, a mobile parking characteristic index calculating unit 103, a user profile information updating unit 104, and a recommended facility selecting unit 105. , And a recommended facility providing unit 106, and a navigation unit 107. Further, the navigation unit 107 includes a stay time estimation unit 1071.
  • the receiving unit 101 executes login processing from the mobile unit 6 (the in-vehicle navigation apparatus 2 or the portable terminal 3) to perform connection processing with the mobile unit 6, and also transmits position information transmitted from the mobile unit 6 and mobile unit type
  • a connection history record is created in the connection history information area 114 for managing information, time information, traveling direction, destination information and the like for each mobile unit ID.
  • the start switch of the vehicle 5 such as an ignition switch is turned on (the engine is started), and the vehicle 5 and the portable terminal 3 are paired immediately after the on-vehicle navigation device 2 is automatically started.
  • a flag indicating that it is the position information indicating the departure position may be added to the position information measured by the vehicle 5 or the portable terminal 3 and the information may be transmitted to the server system 1.
  • the receiving unit 101 can specify the departure position of the mobile unit 6.
  • the reception unit 101 adds and updates the current position information, the mobile type information, the time information, the traveling direction of the mobile 6, etc., which are periodically transmitted from the mobile 6, to the aforementioned connection history record.
  • the receiving unit 101 may receive mobile position information, time information, and the like from the mobile 6 once in a few seconds, and may be stored in time series on the mobile 6 side for a predetermined time Or you may make it receive collectively at the timing, such as the time of starting an application by the mobile 6 side.
  • mobile unit type information may be transmitted, for example, only at the time of login.
  • the receiving unit 101 transmits the current position information, time information, and moving object transmitted from the moving object 6 until the ignition switch is turned off (the engine is stopped) after the moving object 6 arrives at the destination. Update the progress direction etc. of 6 to the connection history record.
  • the mobile object 6 adds a flag indicating that it is position information indicating a parking position to position information measured immediately before the ignition switch is turned off (engine stop), and transmits it to the server system 1 May be By doing so, the receiving unit 101 can specify the final position of the mobile body 6, that is, the parking position.
  • the mobile parking information specifying unit 102 uses the connection history record stored in the connection history information area 114 by the receiving unit 101 based on the ignition information and the position information of the mobile 6, and parks the facility 6 where the mobile 6 parked.
  • And parking information (facility ID related to the facility parking lot, parking date and time, parking time, and the number of times of parking) in the facility parking lot of the moving body 6 are specified.
  • the mobile object parking information identification unit 102 uses the information to indicate the departure position if the position information includes information indicating the departure position. It can be identified.
  • the mobile parking information specifying unit 102 uses the position information received first before the transmission of the position information is started and ended. It can also be considered that the corresponding position is the departure position.
  • the mobile parking information specifying unit 102 for example, as described above, if the position information includes the information indicating the parking position, the mobile parking information specifying unit 102 uses the parking position according to this information. It can be identified.
  • the mobile parking information identifying unit 102 receives the last received position information from when the transmission of the position information is started and ended. It is also possible to regard a position corresponding to or a position that does not change for a fixed time as a parking position.
  • the mobile body parking information identification unit 102 compares the identified parking position with the facility parking lot position of each facility included in the map information area 111, and the identified parking position matches any facility parking lot position. In this case, this route can be determined as an outward route for visiting the facility. In addition, the mobile body parking information identification unit 102 compares the identified departure position with the facility parking lot position of each facility included in the map information area 111, and the identified parking position matches any facility parking lot position. In this case, it is possible to determine that this route is a return route which is a route after leaving the facility after visiting the facility.
  • the mobile parking information identification unit 102 sequentially processes, according to the time information, connection history records indicating route information from the departure position of the mobile 6 stored in the connection history information area 114 to the parking position. By doing this, it is possible to specify the parking date and time in the facility parking lot excluding private parking lot such as home and monthly parking lot. Then, the mobile parking information specifying unit 102 calculates the parking time from the difference between the arrival time and the departure time, and the parking information in the facility parking lot of the mobile 6 (facility ID pertaining to the facility parking lot, parking date and time, parking time , And the number of parking can be identified.
  • the mobile body parking information identification unit 102 identifies parking information (a facility ID, a parking date, a parking time, and the number of times of parking, etc. related to the facility parking space) in the facility parking lot of the mobile 6 , And stored in the mobile object information area 113.
  • parking information a facility ID, a parking date, a parking time, and the number of times of parking, etc. related to the facility parking space
  • the degree of “coincidence” between the departure position or the parking position described above and the facility parking lot position may be arbitrarily determined. For example, when the in-vehicle navigation device 2 or the portable terminal 3 can measure the position information with high accuracy, the range determined to be coincident may be narrowed. On the other hand, when the in-vehicle navigation device 2 or the portable terminal 3 can not measure the position information with high accuracy, the range determined to be coincident may be widened.
  • the mobile parking characteristic index calculation unit 103 calculates parking information in the facility parking lot of the mobile 6 specified by the mobile parking information identification unit 102 (facility ID pertaining to the facility parking lot, parking date, parking time, number of times of parking, etc.
  • the parking characteristic index in the facility parking lot of the mobile 6 is calculated based on.
  • the mobile parking characteristic index calculation unit 103 stores parking information in the facility parking lot of the mobile 6 stored in the mobile information area 113 (facility ID related to the facility parking, parking date, parking time, and The number of times of parking etc.) is extracted based on the moving body ID of the moving body 6, and the movement is identified by the moving body ID, for example, by sorting the data in ascending order for each facility ID and parking date and time Average value and parking value of the parking time of the mobile object 6 in the time zone of any combination such as season, month, day, weekday and holidays, and time zone for each facility ID where the user who is the user of the body 6 stayed Calculate the number of times.
  • the mobile parking characteristic index calculation unit 103 is a virtual parking lot where the mobile 6 where the mobile 6 has stayed is divided into groups by facility type and / or facility genre, and all the facilities belonging to the group are targeted.
  • the average parking time and the number of times of parking in a facility parking lot group as a facility parking lot may be calculated, and the average number of parking times and the number of parking times in the facility group of the mobile unit 6 may be calculated.
  • the mobile unit 6 parks in the facility A of the same group for one hour and parks in the facility B for 30 minutes
  • the mobile unit 6 sets the facility A and the facility B as one virtual facility group C.
  • the average parking time in the facility group C is calculated as 45 minutes and the number of times of parking twice.
  • the mobile parking characteristic index calculation unit 103 calculates, for example, a change in the lifestyle or a preference of the user who is the user of the mobile 6 when calculating the parking characteristic index in the facility parking lot of the mobile 6.
  • parking information stored within a predetermined period including the present may be used. Thereby, past lifestyles and preferences can be eliminated.
  • the mobile parking characteristic index calculation unit 103 calculates the average parking time and parking time in any combination of the season, month, day of the week, weekdays and holidays, and time zones calculated for each facility ID as described above.
  • the number of times, and the average parking time and the number of parking times for each facility type and / or facility genre are stored in the user profile information storage unit 1131 in association with the mobile object ID.
  • the user profile information updating unit 104 stores the user profile information stored in the user profile information storage unit 1131 based on the parking characteristic index in the facility parking lot of the moving object 6 calculated by the moving object parking characteristic index calculation unit 103. Update.
  • the user profile information updating unit 104 parks the parking characteristic indicator in the facility parking lot of the mobile 6 (for example, in a time zone of any combination such as season, month, day, weekday / holiday, and time zone)
  • the average value of time and statistical index of facility parking lot stored in facility information database 1121 (at any time zone such as season, month, day of week, weekday / holiday, and time zone in the facility parking lot)
  • a deviation value of the parking time can be determined in any combination of time zones such as holidays and time zones.
  • the user profile information updating unit 104 calculates the average parking time and standard deviation value of the facility parking lot group stored in the facility information database 1121 and the average parking time of the facility group where the user of the mobile 6 has stayed. Based on the above, the deviation value of the parking time in the time zone of any combination such as season, month, day, weekday / holiday, and time zone is determined for each facility group where the user of the mobile 6 has stayed. By doing so, it is determined how long the user of the mobile object 6 parked in one facility group is longer or shorter than the parking time of the average user parked in the same facility group. Can.
  • deviation value information of parking time may be divided into predetermined stages in an easy-to-understand manner.
  • the deviation value x is 45 ⁇ x ⁇ 55 at level 0, 40 ⁇ x ⁇ 45 at level 1, 35 ⁇ x ⁇ 40 at level 2, 30 ⁇ x ⁇ 35 at level 3, x ⁇ 30 at level 4, 55 ⁇ x ⁇ 60 may be a level ⁇ 1, 60 ⁇ x ⁇ 65 may be a level ⁇ 2, 65 ⁇ x ⁇ 70 may be a level ⁇ 3, and 70 ⁇ x may be a level 4.
  • the user profile information updating unit 104 calculates usage frequency information for each type of facility and / or genre in which the user who is the user of the mobile object 6 identified by the mobile object ID has stayed, based on the number of times of parking.
  • the usage frequency information may be classified into predetermined stages, for example, five stages.
  • the deviation value information of the parking time may be used as it is.
  • the number of times of parking may be used as the frequency of use information.
  • the deviation value information of the parking time in the band and the usage frequency information are stored and updated in the user profile information storage unit 1131 as user profile information.
  • the deviation value of the parking time in the time zone in any combination such as season, month, day, weekday / holiday, and time zone according to the facility type and / or genre where the user who is the user of mobile 6 has stayed
  • the information and the usage frequency information are also referred to as the user's behavior characteristic (sickness) and the user's preference, respectively.
  • the deviation value information of the parking time is classified into stages, it is estimated that (the degree of stiffness) level is higher as the deviation value is smaller, that is, as the parking time is shorter than the average parking time. Be done.
  • the recommended facility selection unit 105 is a user based on the user profile information related to the user who is the user of the mobile 6 and the facility information stored in the facility information database 1121, which is updated by the user profile information updating unit 104.
  • a facility of a genre that conforms to the user's preference and the user's behavior characteristics for example, a facility located near the current position (or drive course) is selected as a facility to be recommended.
  • being located near the drive course of the mobile 6 means, for example, existing in a predetermined distance range from the current position (or drive course) of the mobile 6.
  • being located near the current position in the traveling direction from the current position means, for example, a predetermined distance range from the current position (or drive course) of the mobile body 6 and the current position of the mobile body 6 (or It refers to being within a predetermined distance from the point on the passing route from the drive course) to the destination position.
  • the recommended facility selection unit 105 is, for example, a user included in time information such as departure time zones (morning, noon, afternoon, etc.) according to weekdays / holidays, current position (departure position) information of the mobile object 6, and user profile information.
  • time information such as departure time zones (morning, noon, afternoon, etc.) according to weekdays / holidays, current position (departure position) information of the mobile object 6, and user profile information.
  • the user's behavior characteristic (sickness) when searching for a facility for lunch in a lunch time zone, if the user's behavior characteristic (sickness) is high (that is, if the deviation of the parking time is less than 50), the user's A facility belonging to a facility type and / or genre to be preferred and having a short average parking time can be preferentially selected as a recommended facility in a lunch time zone. Conversely, when the user's behavior characteristic (sickness) is low (that is, when the deviation of the parking time exceeds 50), the facility belongs to the type and / or genre of the facility favored by the user and is lunch A facility with a long average parking time can be preferentially selected as a recommended facility in a time zone.
  • the number of facilities meeting the condition exceeds the first candidate number
  • the number of facilities becomes the first candidate number based on the distance from the current position of the mobile unit 6 (for example, in order of closeness) You may be on the verge to make a choice.
  • the number of facilities may be selected to be the first candidate number based on the size of the preference of the user corresponding to the mobile object 6 (for example, in the order of large usage frequency information).
  • the distance from the current position of the mobile unit 6 may be increased for selection. At that time, in increasing the distance, it is preferable not to exceed the predetermined length.
  • the case where the number of facilities meeting the condition is less than the first candidate number is also allowed.
  • the recommended facility provision unit 106 transmits the facility information of the facility selected and recommended by the recommended facility selection unit 105 to the mobile object 6 linked with the user profile information. For example, the recommended facility providing unit 106 determines the display order of the first candidate number of facilities selected by the recommended facility selection unit 105. Specifically, the recommended facility providing unit 106 refers to the facility information database 1121, and based on the size of the preference of the user of each facility selected by the recommended facility selecting unit 105 (for example, the usage frequency information is large) In order to determine the display order of the facilities).
  • the recommended facility providing unit 106 refers to the facility information database 1121, and based on the size of the average parking time of each facility selected by the recommended facility selecting unit 105 (for example, in ascending order of average parking time) The display order of may be determined.
  • the recommended facility provision unit 106 transmits the facility information selected by the recommended facility selection unit 105 together with the display order thereof to the mobile 6 (the in-vehicle navigation device 2 or the portable terminal 3) via the communication unit 12. It is to be noted that the recommended facility providing unit 106 receives the recommended facility information request from the moving body 6 and then recommends at predetermined time intervals (for example, 30 minutes) at preset time intervals (for example, five minutes interval).
  • the recommended facility information retrieved and extracted by the facility providing unit 106 may be transmitted.
  • the navigation unit 107 calculates the route to the destination and the required time from the departure position via the stop point. Then, the navigation unit 107 transmits the calculated route information to the mobile 6 (the on-vehicle navigation device 2 or the portable terminal 3) via the communication unit 12. Specifically, the navigation unit 107 calculates, for example, route information from the current position of the mobile body 6 to the facility set as the destination. When calculating route information, it is an optimal route after considering various conditions such as arrival time and use of toll roads using traffic information and map information stored in the map information area 111 of the storage unit 11 and the like. Calculate Here, the optimal route is, for example, shortest arrival time, shortest distance, prioritizing general road, prioritizing toll road, low toll road charge, low CO2 emission amount, etc. It is the route that most meets the desired conditions to be specified.
  • the navigation unit 107 stays at the stop point from the departure position based on the estimation of the stop point and the stay time there. Then, it may be configured to calculate a route and a required time while arriving at the destination. For this reason, the navigation unit 107 includes a stay time estimation unit 1071.
  • the stay time estimation unit 1071 stores the statistical index of the facility parking lot of the drop-in facility and the mobile body stored in the facility information database 1121. Based on the user profile information of 6 users, the stay time in the said drop-in facility is estimated.
  • the stay time estimation unit 1071 is used to determine the facility type information to which the drop-in facility of the user of the mobile unit 6 belongs and / or the user's behavior characteristic (sickness degree) for each facility genre (or for each facility group described above). Accordingly, the average parking time in the facility parking lot of the drop-in facility is corrected. For example, when the user's behavior characteristic (sickness) is large, it is corrected to a stay time shorter than the average parking time of the average user based on a standard normal distribution corresponding to the degree of the shock.
  • the staying time estimation unit 1071 is not limited to the configuration provided in the navigation unit 107.
  • the control unit 10 may be provided independently of the navigation unit 107.
  • the navigation unit 107 is a facility of a category compatible with the user's preference and the user's behavior characteristic provided by the aforementioned recommended facility providing unit 106.
  • a recommended facility located near the drive course may be set as a stop-off facility.
  • the navigation unit 107 is located near the route between the recommended location and the destination from the recommended facility providing unit 106, for example, by presenting the departure location and the destination to the recommended facility selection unit 105.
  • Recommended facility information may be acquired.
  • the stay time estimation unit 1071 estimates the stay time in the drop-in facility provided by the recommended facility providing unit 106 on the route from the departure position to the destination according to the user's behavior characteristic (sickness degree).
  • the navigation unit 107 can calculate, from the departure position, the route and the time required for staying at the stopping point and then arriving at the destination based on the estimation of the stopping point and the staying time there. By doing so, it is possible to improve the prediction accuracy of the required time.
  • the navigation unit 107 determines the departure position, the destination, and the facility parking lot position information of the drop-in facility Route information including a stay time is transmitted to the in-vehicle navigation device 2 or the portable terminal 3.
  • the moving body 6 in-vehicle navigation device 2 or portable terminal 3 can calculate the route and the required time while staying at the stop point from the departure position and then arriving at the destination. .
  • FIG. 3 shows the configuration of the in-vehicle navigation device 2.
  • the in-vehicle navigation device 2 mounted on the vehicle 5 includes at least a control unit 20, a storage unit 21, a wireless unit 22, a sensor unit 23, a display unit 24, and an input unit 25. Equipped with
  • the control unit 20 is constituted by a microprocessor or the like and controls each component. Details will be described later.
  • the storage unit 21 is configured of a semiconductor memory or the like, and stores various information such as an operating system (OS), facility information display, programs for route guidance and the like, map information, position information, and the like.
  • OS operating system
  • the map information may be stored in advance in the storage unit 21 or may be acquired from the server system 1.
  • the wireless unit 22 has a DSP (Digital Signal Processor) or the like, and is capable of performing wireless communication through a wireless communication network represented by a mobile phone network such as 3G or LTE, and performing wireless communication with the server system 1 It is done.
  • the wireless unit 22 is a server system that uses an identification number for identifying the vehicle 5 (hereinafter, also referred to as a "vehicle ID"), a password, mobile type information, current position information of the vehicle 5, current time information, recommended facility information request, etc. 1. It is possible to transmit from the server system 1 together with the display order and the recommended facility information that is transmitted to 1 and present around the current position of the vehicle 5 and around the traveling route.
  • the sensor unit 23 includes a GPS sensor, a vehicle speed sensor, a gyro sensor, and the like provided in the vehicle 5.
  • the sensor unit 23 has a function as position detection means for detecting the current position, receives a GPS satellite signal by the GPS sensor, and measures the current position (latitude and longitude) of the vehicle 5.
  • the current position of the vehicle 5 can be measured by autonomous navigation, and when the GPS sensor can not measure from the GPS satellite signal, the current position is measured instead. can do.
  • AGPS Assisted Global Positioning System
  • the display unit 24 is configured of a display device such as a liquid crystal display or an organic EL panel, and receives an instruction from the control unit 20 to display an image.
  • the display unit 24 displays the current position of the vehicle 5, the map information around the current position of the vehicle 5 read from the storage unit 21, the facility information including the display order acquired from the server system 1 via the wireless unit 22, the user It is possible to display various information such as the destination set by the above and route information.
  • the input unit 25 is configured by a physical switch called a ten-key pad or an input device (not shown) such as a touch panel provided on the display surface of the display unit 24. Switching the map display and the facility information display, scrolling the facility information display, and determining the facility to stop by displaying the operation input from the input unit 25, for example, pressing the numeric keypad by the user, and the signal based on the touch on the touch panel to the control unit 20 , And can perform operations such as map enlargement and reduction.
  • a speaker 16 and a microphone 17 can be provided. The speaker 16 outputs a sound to the driver, and the microphone 17 collects sound and the like emitted by the driver. By doing so, information may be output as voice from the speaker 16, and various selections and instructions by the driver (or user) voice input through the microphone 17 may be input to the control unit 20 by voice recognition technology. it can.
  • the control unit 20 is configured by a microprocessor having a CPU, a RAM, a ROM, an I / O, and the like.
  • the CPU executes each program read from the ROM or the storage unit 21.
  • the CPU reads information from the RAM, the ROM, and the storage unit 21 and writes the information to the RAM and the storage unit 21.
  • the wireless unit 22, the sensor unit 23, the display unit 24, and the input unit 25 exchange signals with each other.
  • the control unit 20 executes the respective programs (hereinafter collectively referred to as “recommended facility information display control application”) to collectively refer to the vehicle navigation device 2 as a predetermined means (hereinafter referred to as “recommended facility information display control unit”). Function as For example, when a program for display control of recommended facility information is activated, facility guidance to receive provision of recommended facility information from the server system 1 becomes possible.
  • the control unit 20 causes the in-vehicle navigation device 2 to execute a predetermined procedure (hereinafter collectively referred to as “recommended facility information display control procedure”) by executing each program.
  • control unit 20 will be described from the viewpoint of the recommended facility information display control unit.
  • the explanation based on the viewpoint of the recommended facility information display control procedure (method) is omitted because it can be explained by replacing “part” with “procedure”.
  • control unit 20 includes a connection processing unit 201, a position information updating unit 202, a recommended facility information request unit 203, a recommended facility display unit 204, and a route guidance unit 205.
  • the in-vehicle navigation device 2 is automatically started by the driver turning on the ignition switch of the vehicle 5 (starting the engine). The in-vehicle navigation device 2 operates until the driver turns off the ignition switch of the vehicle 5 (stops the engine).
  • connection processing unit 201 executes login processing to the server system 1 using, for example, an identification number (vehicle ID) for identifying the vehicle 5 and a password when the in-vehicle navigation device 2 is automatically activated, and the mobile unit
  • the type information, the current position information of the vehicle 5 calculated by the sensor unit 23 and the current time information acquired from the clock unit (not shown) are transmitted to the server system 1.
  • the position information updating unit 202 periodically transmits the vehicle ID, the current position information of the vehicle 5 calculated by the sensor unit 23, the current time information acquired from the clock unit (not shown), and the like to the server system 1. Note that the traveling direction of the vehicle 5 calculated by the sensor unit 23 can be included as the information to be transmitted.
  • the position information updating unit 202 transmits the current position information and the current time information of the vehicle 5 acquired at predetermined time intervals (for example, three seconds) to the server system 1 in real time each time.
  • a plurality of them (for example, the current position information and the current time information of the vehicle 5 for 5 minutes are collected collectively) are transmitted at once (so-called burst transmission) May be
  • acquisition time intervals for example, 3 second intervals
  • the server system 1 can present facilities that are within a certain distance in the traveling direction from the current position of the vehicle 5 as candidates. By doing so, it becomes possible to prevent presenting the facility which needs to return the vehicle 5 from the traveling direction of the vehicle 5 as a candidate.
  • the position information updating unit 202 receives a vehicle ID while the ignition switch is turned off (the engine is stopped) after it is determined by the route guidance unit 205 described later that the vehicle 5 has arrived at a destination such as a facility.
  • the current position information of the vehicle 5 calculated by the sensor unit 23 and the current time information acquired from the clock unit (not shown) can be transmitted to the server system 1.
  • the recommended facility information request unit 203 displays, for example, a “recommended facility information request ON” button on the display unit 24 as shown in FIG. 4A, and turns on the recommended facility information request by the touch operation of the button by the user.
  • the recommended facility information request is transmitted to the server system 1 via the wireless unit 22.
  • the recommended facility information request includes at least a vehicle ID, moving object type information, current position information of the vehicle 5 calculated by the sensor unit 23, current time information acquired from a clock unit (not shown), and the like.
  • the recommended facility information request can be turned on through the input unit 25.
  • the facility type list of facilities on the display unit 24 and having the user select the facility type of the facility it is possible to request the recommended facility information of the facility belonging to the selected facility type.
  • the recommended facility display unit 204 presets, for example, 30 minutes from the server system 1 about facility information on recommended facilities existing around the current position of the vehicle 5 and around the traveling route. ), And may be received at a preset time interval (for example, an interval of 5 minutes).
  • a preset time interval for example, an interval of 5 minutes.
  • the time and time interval described in parenthesis are an example, and are not limited.
  • the recommended facility display unit 204 receives, via the wireless unit 22, facility information related to a recommended facility, which is distributed from the server system 1 and is present, for example, around the current position of the vehicle 5 and around the traveling route.
  • the facility information may be distributed at preset time intervals (for example, five minutes) for a preset time (for example, 30 minutes).
  • facility information includes, for example, facility identification information, name, facility type (and / or genre), telephone number, address, location information specified by, for example, latitude and longitude, and services provided by facilities (goods and / or Or information on services, space information, coupon issue information, and the like.
  • the recommended facility display unit 204 displays the distributed facility information on the display unit 24 in the display order. More specifically, as shown in FIG. 4B, for example, the recommended facility display unit 204 simultaneously displays the n-th (n is a preset integer of 1 or more preset) facilities in the display order from the first facility in the display order can do. Although n is set to 1 in the example of FIG. 4B, for example, n may be set to a plurality. Although not shown, details of the facility information may be displayed by, for example, tapping the facility information displayed as described above. Further, although not shown, facility information of the display order n + 1 and thereafter may be displayed by performing scrolling or next screen display by, for example, a predetermined swipe operation (for example, left and right swipe operations) or the like.
  • a predetermined swipe operation for example, left and right swipe operations
  • the recommended facility display unit 204 can display the position of the facility distributed on the map around the current position of the vehicle 5 displayed on the display unit 24. More specifically, for example, as shown in FIG. 4C, the recommended facility display unit 204 can display the location information of the facility distributed on the map around the current location of the vehicle 5. At this time, the recommended facility display unit 204 may display the facilities displayed on the map in different colors (or different densities) or the like in correspondence with the display order based on the display order of the facilities. . By doing so, it becomes possible to intuitively grasp the display order (degree of matching with user attributes) of the facility even in the map display. The recommended facility display unit 204 may simultaneously display the map display and the aforementioned facility information on the display unit 24.
  • the recommended facility display unit 204 may switch between the map display and the facility information display by a predetermined swipe operation (for example, upper and lower swipe operations).
  • a predetermined swipe operation for example, upper and lower swipe operations.
  • the swipe operation on either side or up and down is mentioned as an example, it may replace with this and may perform screen display by swipe operation by single touch or swipe operation by multi touch, for example.
  • the display area of the display unit 24 is divided into two, and the positions of the facilities distributed on the map around the current position of the vehicle 5 and the distributed facility information are displayed in the respective divided display areas. You may do it.
  • the recommended facility display unit 204 can select a facility that the user wants to visit, for example, by a tap operation.
  • the recommended facility display unit 204 can transmit the facility selected by the user to the server system 1 via the wireless unit 22.
  • the facility information delivered from the server system 1 is output as voice from the speaker 16 and voice input is made through the microphone 17 to select the facility and input to the control unit 20 by voice recognition technology. You can also.
  • the route guidance unit 205 receives route information with the facility selected by the recommended facility display unit 204 as the destination from the server system 1 via the wireless unit 22.
  • the route guidance unit 205 executes route guidance based on the received route information.
  • the route information may be calculated by the on-vehicle navigation device 2 (for example, the route guidance unit 205).
  • the position information updating unit 202 is performed until the ignition switch is turned off (the engine is stopped) after it is determined by the route guiding unit 205 that the vehicle 5 has arrived at a destination such as a facility.
  • the vehicle ID, the current position information of the vehicle 5 calculated by the sensor unit 23, the current time information acquired from the clock unit (not shown), and the like can be transmitted to the server system 1.
  • the mobile terminal 3 includes at least a control unit 30, a storage unit 31, a wireless unit 32, a sensor unit 33, a display unit 34, and an input unit 35.
  • the control unit 30 includes a microprocessor or the like and controls each component. Details will be described later.
  • the storage unit 31 is configured of a semiconductor memory or the like, and stores various information such as an operating system (OS) and programs for route guidance, map information, road link information, and position information.
  • OS operating system
  • the map information, the road link information, and the like may be stored in advance in the storage unit 31. Further, the configuration may be such that it is acquired from the server system 1 as appropriate.
  • the wireless unit 32 has a DSP (Digital Signal Processor) and the like, and is capable of performing wireless communication through a wireless communication network represented by a mobile phone network such as 3G and LTE, and performing wireless communication with the server system 1 It is done.
  • the wireless unit 32 transmits, to the server system 1, the current position information of the mobile terminal 3, an ID (hereinafter referred to as a "user ID") identifying a service subscription state, a password, and facility information etc. set as a destination. It is possible to receive from the server system 1 electronic coupon information of facilities, and further route information and the like.
  • a DSP Digital Signal Processor
  • the sensor unit 33 is configured of a GPS sensor, a gyro sensor, a geomagnetic sensor, and the like.
  • the sensor unit 33 has a function as position detection means for detecting the current position, receives a GPS satellite signal by the GPS sensor, and measures the current position (latitude and longitude) of the portable terminal 3.
  • position detection means for detecting the current position
  • receives a GPS satellite signal by the GPS sensor receives a GPS satellite signal by the GPS sensor
  • AGPS Assisted Global Positioning System
  • the display unit 34 is configured of a display device such as a liquid crystal display or an organic EL panel, and receives an instruction from the control unit 30 to display an image.
  • the display unit 34 sets the current position of the mobile terminal 3, the map information around the current position of the mobile terminal read from the storage unit 31, the facility information acquired from the server system 1 via the wireless unit 32, and the user setting Display various information such as destination and route information.
  • the input unit 35 is configured by a physical switch called a ten key or an input device (not shown) such as a touch panel provided overlapping the display surface of the display unit 34 or the like.
  • a physical switch called a ten key or an input device (not shown) such as a touch panel provided overlapping the display surface of the display unit 34 or the like.
  • the portable terminal 3 can include, for example, near field communication unit 26 by non-contact communication or wired communication called NFC (Near Field Communication).
  • NFC Near Field Communication
  • the vehicle includes the short distance communication unit and, for example, the ECU (Electronic Control Unit) of the vehicle 5 can communicate with the portable terminal 3 via the short distance communication unit 26, the portable terminal 3 is a mobile
  • the type information and the state of the vehicle 5 (for example, the state in which the ignition is turned on, the traveling state, the state in which the ignition is turned off, and the like) can be acquired.
  • the portable terminal 3 may acquire position information of the vehicle 5 measured by the GPS sensor of the vehicle 5.
  • the vehicle 5 and the portable terminal 3 are paired, and the vehicle 5 or The position information measured by the mobile terminal 3 can be uploaded from the mobile terminal 3 to the server system 1. Furthermore, when the start switch is turned off, pairing between the vehicle 5 and the portable terminal 3 is released, and the position at the time of the release can be uploaded to the server system 1 as the final vehicle position, that is, the parking position. .
  • the control unit 30 is configured by a microprocessor having a CPU, a RAM, a ROM, an I / O, and the like.
  • the CPU executes each program read from the ROM or the storage unit 31, reads the information from the RAM, the ROM, and the storage unit 31 at the time of execution, and writes the information to the RAM and the storage unit 31,
  • the wireless unit 32, the sensor unit 33, the display unit 34, and the input unit 35 exchange signals with each other.
  • the control unit 30 executes each program (hereinafter collectively referred to as “mobile terminal_recommended facility information display control application”) to control the mobile terminal 3 as a predetermined means (hereinafter “mobile terminal_recommended facility information display control”. Function as "). For example, when a program for display control of recommended facility information is activated, facility guidance to receive provision of recommended facility information from the server system 1 becomes possible.
  • the function of the portable terminal_facility information distribution application is basically equivalent to the facility information distribution application of the in-vehicle navigation device 2.
  • the control unit 30 causes the portable terminal 3 to execute a predetermined procedure (hereinafter collectively referred to as “recommended facility information display control procedure”) by executing each program.
  • control unit 30 will be described from the viewpoint of the portable terminal_recommended facility information display control unit.
  • description based on a viewpoint of portable terminal_recommended facility information display control procedure (method) can be explained by replacing “part” with “procedure”, it is omitted.
  • the control unit 30 includes a portable terminal_connection information acquisition unit 300, a portable terminal_connection processing unit 301, a portable terminal_position information updating unit 302, and a portable terminal_recommended facility information request unit 203. And a portable terminal_recommended facility display unit 304, a portable terminal_route guidance unit 305, and a portable terminal_connection information acquisition unit 306.
  • the portable terminal_facility information distribution unit is configured to be activated. Further, when the start switch of the vehicle 5 such as an ignition switch is turned off, the pairing between the vehicle 5 and the portable terminal 3 is canceled, and the portable terminal_facility information distribution unit stops its function.
  • the portable terminal_connection information acquisition unit 300 communicates with the ECU (Electronic Control Unit) of the vehicle 5 via the short distance communication unit 26 to communicate the mobile type information and the state of the vehicle 5 (for example, the state in which the ignition is turned on). , Driving state, ignition off state, etc.).
  • the vehicle 5 includes a GPS sensor
  • the mobile terminal_connection information acquisition unit 300 may acquire position information of the vehicle 5 measured by the GPS sensor of the vehicle 5.
  • the portable terminal_connection information acquisition unit 300 is a portable terminal for which the mobile type information acquired from the ECU of the vehicle 5 and the state of the vehicle 5 (for example, the ignition on state, the traveling state, the ignition off state, etc.) will be described later.
  • the mobile terminal _ connection processing unit 301 and the mobile terminal _ location information updating unit 302 are provided to the _ connection processing unit 301 and the mobile terminal _ location information updating unit 302, and The state of the vehicle 5 can be transmitted.
  • ⁇ Mobile terminal_connection processing unit 301> When paired with the vehicle 5, the portable terminal_connection processing unit 301 turns on the GPS sensor etc. and executes the login process using the identification number (mobile ID) for identifying the mobile 6 and the password.
  • Server system mobile object type information acquired through portable terminal_connection information acquisition unit 300, current position information of vehicle 5 calculated by sensor unit 13, current time information acquired from clock unit (not shown), etc. Send to 1.
  • the portable terminal_position information updating unit 302 has the same function as the position information updating unit 202 of the in-vehicle navigation device 2. The functions can be described by replacing the in-vehicle navigation device 2 and the position information updating unit 202 with the portable terminal 3 and the portable terminal / position information updating unit 302, respectively.
  • the mobile terminal_position information update unit 302 periodically determines the mobile object ID, the current position information of the mobile terminal 3 calculated by the sensor unit 33, and the clock unit.
  • the present time information etc. acquired from (not shown) are transmitted to the server system 1.
  • the transmission information can include the traveling direction of the mobile terminal 3 calculated by the sensor unit 33, moving object type information acquired from the ECU of the vehicle 5 by the mobile terminal_connection information acquisition unit 300, the state of the vehicle 5, etc. .
  • the portable terminal_recommended facility information request unit 303 has the same function as the recommended facility information request unit 203 of the in-vehicle navigation device 2. The functions can be described by replacing the in-vehicle navigation device 2 and the recommended facility information request unit 203 with the portable terminal 3 and the portable terminal_recommended facility information request unit 303, respectively, and thus detailed description will be omitted.
  • the portable terminal_recommended facility display unit 304 has the same function as the recommended facility display unit 204 of the in-vehicle navigation apparatus 2, the in-vehicle navigation apparatus 2 and the recommended facility display unit 204 are respectively the portable terminal 3 and the portable terminal_recommended facility Since the function can be described by reading the display unit 304, the detailed description is omitted.
  • the portable terminal_recommended facility display unit 304 stores coupon information and the like of the selected facility in the storage unit of the portable terminal 3. By doing so, it becomes possible to receive the courtesy conditions described in the coupon information by displaying the coupon information of the facility on the display unit 34 when entering the facility.
  • the mobile terminal_route guidance unit 305 can receive, via the wireless unit 32, route information with the facility selected by the mobile terminal_recommended facility display unit 304 as the destination.
  • the mobile terminal_route guidance unit 305 can execute route guidance based on the received route information.
  • the portable terminal_route guidance unit 305 has the same function as the route guidance unit 205 of the in-vehicle navigation device 2. The functions can be described by replacing the in-vehicle navigation device 2 and the route guidance unit 205 with the portable terminal 3 and the portable terminal_route guidance unit 305, respectively, and the detailed description thereof will be omitted.
  • the route guidance by the portable terminal 3 when the route guidance by the portable terminal 3 is started, it becomes possible to continue the route guidance even when the user gets off from the vehicle 5 and walks or uses public transportation.
  • the route information instead of receiving route information from the server system 1, the route information may be calculated by the mobile terminal 3 (for example, the mobile terminal_route guidance unit 305).
  • the route guidance by the route guidance unit 205 of the portable terminal 3 is not used, the task of the portable terminal_route guidance unit 305 may be ended.
  • each functional unit of the user information management system 100 is the server system 1, the in-vehicle navigation device 2 mounted on the vehicle 5, or the portable terminal 3 signaled (paired) with the vehicle 5. It explained based on composition.
  • FIG. 6 is a flowchart showing the flow of processing of the receiving unit 101 that records connection history record information from the departure position of the mobile unit 6 to the parking position.
  • step S101 the in-vehicle navigation device 2 is automatically started up by the driver turning on the ignition switch of the vehicle 5 (mobile 6) (starting the engine).
  • the connection processing unit 201) transmits a login request (connection request) to the server system 1 using the mobile unit ID and the password, and transmits mobile unit type information, the current position of the mobile unit 6, the current time, and the like.
  • step S201 the server system 1 (the receiving unit 101) performs connection processing with the in-vehicle navigation device 2, and using the moving object ID received from the in-vehicle navigation device 2 as a key, the moving object type information, the current position, the current time, etc.
  • a connection history record for management is created in the connection history information area 114.
  • step S102 the on-vehicle navigation device 2 (position information update unit 202) periodically (with a predetermined cycle) until the ignition switch is turned off (engine stop), the moving object ID, the current position information of the vehicle 5, The current time information, the traveling direction and the like are transmitted to the server system 1.
  • step S202 when the server system 1 (the receiving unit 101) receives information such as a mobile object ID, current position information, current time information, and a traveling direction from the in-vehicle navigation device 2, the server system 1 uses the mobile object ID as a key. Is added to the connection history record to be stored.
  • step S103 when the vehicle 5 has not arrived at the final position (parking lot) (since the ignition switch is on), the process proceeds to step S102.
  • step S104 by the driver.
  • step S104 the in-vehicle navigation device 2 stops operation by the driver turning off the ignition switch of the vehicle 5 (stopping the engine).
  • the on-vehicle navigation device 2 sets the destination and guides the route to the destination, the vehicle 5 has arrived at the destination by the on-vehicle navigation device 2 (route guidance unit 205) in step S103. If it is determined that the ignition switch is turned off (the engine is stopped), in step S102, the in-vehicle navigation device 2 (position information updating unit 202) adds a flag indicating parking information to the position information, for example.
  • the mobile object ID, the current position information of the vehicle 5, the current time information, the traveling direction, and the like can be transmitted to the server system 1.
  • step S202 the server system 1 (the receiving unit 101) can specify the final position (parking lot) of the mobile unit 6. According to the above-described processing flow, the server system 1 (the receiving unit 101) acquires connection history record information from the departure position of the mobile unit 6 to the parking position.
  • FIG. 7 is a flowchart showing the flow of processing for creating and updating user profile information.
  • step S211 the server system 1 (mobile body parking information identification unit 102) extracts the connection history records recorded in the connection history information area 114 for each mobile body ID, and proceeds in time order (ascending order) Sort to).
  • step S212 the server system 1 (mobile unit parking information identification unit 102) receives drive departure information (departure position information and departure date and time) and drive arrival from the connection history record sorted in time order for each mobile unit ID. Information (final position information and arrival date and time) is extracted in order of time.
  • step S213 the server system 1 (mobile parking information identifying unit 102) determines in step S212 the arrival date and time of the drive and the departure date and time of the drive immediately thereafter for every drive extracted for each mobile ID. Taking the difference, the parking information including the parking position information and the parking time is calculated for each mobile object ID.
  • step S214 the server system 1 (mobile parking information specifying unit 102) stores the parking position information calculated for each mobile ID in step S213 and the facility parking recorded in the map information area 111 or the facility information database 1121.
  • the facility parking lot (facility ID) parked for each mobile object ID is specified by matching with the parking lot position information.
  • a home parking lot and a monthly parking lot are excluded by matching.
  • step S215 the specified parking information of the facility parking lot (that is, the specified facility ID) is linked to the identification information (mobile ID) of the mobile 6 and stored in the mobile information area 113.
  • step S216 the server system 1 (mobile parking characteristic index calculation unit 103) extracts, for each mobile ID, parking information in the facility parking lot of the mobile 6 stored in the mobile information area 113, and the facility ID , Sort in time order (ascending order).
  • step S ⁇ b> 217 the server system 1 (mobile parking characteristic index calculation unit 103) calculates, for each facility ID, a parking characteristic index of the mobile object 6 in the facility parking lot. Specifically, for example, the average stay time, the maximum stay time, and the number of times of parking in the facility parking lot of the mobile body 6 in any combination of the season, the month, the day of the week, weekdays and holidays, and time zones, etc. , Etc. are calculated and stored in the user profile information storage unit 1131 in association with the moving object ID. Similarly, the server system 1 (mobile parking characteristic index calculation unit 103) groups facility IDs by facility type and / or facility genre etc., and for each facility group of the mobile 6, the facility of the mobile 6 in question. The parking characteristic index in the facility parking lot of the group is calculated and stored in the user profile information storage unit 1131 in association with the moving object ID.
  • the server system 1 calculates the parking characteristic index (for example, season, month, day of the week, weekdays, weekdays) calculated for each facility ID in the facility parking lot of the mobile 6 in step S217.
  • Deviation value of the average stay time in the time zone of any combination such as a public holiday and a time zone, of all parking time of the facility parking lot according to the facility ID concerned recorded in the facility information database 1121 (eg season, month Based on the average value and the standard deviation value in the time zone of any combination such as the day of the week, weekdays and holidays, and the time zone, and stored in association with the mobile object ID in the user profile information storage unit 1131 .
  • the server system 1 (user profile information updating unit 104), in step S216, in all the facility parking lots included in the above-mentioned facility group of the mobile unit 6 (for example, season, month, day, weekdays and holidays, The deviation value of the average stay time in any combination of time zones such as time zone etc., of the parking time of all the facility parking lots included in the facility group recorded in the facility information database 1121 (eg season, month, Average value in any combination of time zones such as days of the week, weekdays and holidays, and time zones, and standard deviation (for example, in time zones of any combination such as seasons, months, days of the week, weekdays and holidays, and time zones) It is calculated based on the value and stored in the user profile information storage unit 1131 in association with the moving object ID.
  • the deviation value of the average stay time in any combination of time zones such as time zone etc., of the parking time of all the facility parking lots included in the facility group recorded in the facility information database 1121 (eg season, month, Average value in any combination of time zones
  • step S219 the server system 1 (user profile information update unit 104) calculates the season, month, day of the week, by type and / or genre of the facility where the user who is the user of the mobile 6 has stayed and which was calculated in step S218. Based on the deviation value information of the parking time and the number of times of parking in the time zone of any combination such as weekdays and holidays, and the time zone, the user's behavior characteristic (stickiness degree) and the user's preference are calculated respectively
  • the mobile object ID is stored in the profile information storage unit 1131 in association with the mobile object ID. According to the above-described processing flow, the server system 1 acquires the user's behavior characteristic (stickiness) and user preference linked to the mobile unit 6.
  • FIG. 8 is a flow chart showing a flow of processing from the recommended facility information request from the moving body 6 to the route guidance in the user information management system 100.
  • the in-vehicle navigation device 2 (recommended facility information request unit 203) is a server system for a recommended facility information request including a mobile ID, current position information of the vehicle 5, and current time information. Send to 1.
  • the server system 1 (recommended facility selection unit 105) includes user profile information including preferences and behavior characteristics of the user who is the user of the mobile 6, and the facility parking lot stored in the facility information database 1121.
  • a facility that conforms to the user's preferences and user behavior characteristics to the user based on average parking time and statistical indicators including standard deviation values, for example, located near the current location (or drive course) To select the recommended facilities.
  • the server system 1 (recommended facility selection unit 105) may perform the recommended facility selection process at a preset time (for example, 30 minutes) and at a preset time interval (for example, every 5 minutes). Good.
  • step S222 the server system 1 (recommended facility provision unit 106) transmits the recommended facility information selected by the recommended facility selection unit 105 to the in-vehicle navigation device 2.
  • step S112 the on-vehicle navigation device 2 (recommended facility display unit 204) displays the position of the facility distributed on the map around the current position of the vehicle 5 displayed on the display unit 24, and receives from the server system 1 The recommended facility information is displayed on the display unit 24.
  • step S113 the in-vehicle navigation device 2 (recommended facility display unit 204) determines whether or not the desired facility has been selected by the user. If the desired facility is selected (Yes), the process moves to step S114. If no facility is selected (No), the process moves to step S112.
  • step S114 the in-vehicle navigation device 2 (recommended facility display unit 204) transmits the recommended facility selected by the user to the server system 1.
  • step S223 the server system 1 (navigation unit 107) sets the position information of the recommended facility selected by the user, which is received from the in-vehicle navigation device 2, as a destination, and calculates the route from the current position of the vehicle 5. At the same time, the time of stay in the recommended facility is estimated, and the time required for staying from the departure position to the recommended facility and then arriving at the destination is calculated.
  • step S224 the server system 1 (navigation unit 107) transmits the route information calculated by the navigation unit 107, the planned stay time in the recommended facility, and the required time to the destination to the in-vehicle navigation device 2.
  • step S115 the in-vehicle navigation device 2 (route guidance unit 205) displays route guidance on the display unit 24 in accordance with the route information received from the server system 1, and starts route guidance.
  • the operation of the user information management system 100 in the case of using the portable terminal 3 signal-connected to the vehicle 5 in place of the in-vehicle navigation device 2 will be briefly described. Basically, the operation of the user information management system 100 in the case of using the portable terminal 3 can be described by replacing the in-vehicle navigation device 2 with the portable terminal 3 in the above-described steps except for the points described below. .
  • step S101 the portable terminal 3 is paired with the vehicle 5 by the driver turning on the ignition switch of the vehicle 5 (starting the engine), and the mobile terminal 3 is moved via the portable terminal_connection information acquisition unit 300.
  • the mobile terminal 3 (mobile terminal_connection processing unit 301) transmits a login request (connection request) to the server system 1 using a mobile ID and a password, and mobile type information, The current position and the current time of the mobile unit 6 are transmitted.
  • step S104 when the driver turns off the ignition switch of the vehicle 5 (stops the engine) by the driver, the current position when the pairing between the vehicle 5 and the mobile terminal 3 is released and released May be uploaded to the server system 1 as the final vehicle position, ie the parking position.
  • the process of the user information management system 100 in the case of the portable terminal 3 can be described by replacing the in-vehicle navigation device 2 with the portable terminal 3 in the above-described steps.
  • the server system 1 is described as one system in the embodiment of the present invention, it may be a distributed processing system in which each function of the server system 1 is distributed to a plurality of computers as appropriate. In addition, each function of the server system 1 may be realized by using a virtual server function or the like on the cloud.
  • the functional configurations of FIG. 2, FIG. 3 and FIG. 5 are merely illustrative and not particularly limited.
  • each device is equipped with a function capable of executing a series of processes related to the facility information distribution function of the present invention as a whole, and in particular, FIG. 2 shows which function block is used to realize this function. It is not limited to the example of FIG. 3 and FIG.
  • the function related to the mobile parking characteristic index calculation unit 103 may be included in the user profile information update unit 104. Further, the function recommended facility providing unit 106 related to the recommended facility selecting unit 105 may be included.
  • the server system 1 calculates route information and transmits the route information to the in-vehicle navigation device 2.
  • the in-vehicle navigation device 2 sets the destination from the server system 1 Information can be received, and route information can be calculated based on the destination setting information.
  • the server system 1 calculates route information and transmits the route information to the portable terminal 3.
  • the portable terminal 3 sets the destination from the server system 1 Information can be received, and route information can be calculated based on the destination setting information.
  • the recommended facility selection unit 105 selects a facility located near the current position of the mobile object 6 or a recommended facility located near the current position in the traveling direction from the current position.
  • the recommended facility selection unit 105 when information on a destination is received from the moving body 6, the recommended facility selection unit 105 extracts a plurality of recommended facilities existing near the passage route from the current position to the destination. You may do it.
  • the recommended facility selection unit 105 is located in the vicinity of the route to the destination for each of the first half, middle, second half, etc. of the route from the current position to the destination, or the expected arrival time. Multiple recommended facility information can be extracted preferentially.
  • the user profile information storage unit 1131 is stored based on the parking information in the facility parking lot of each mobile unit and the statistical index of the facility parking lot stored in the facility information database 1121. It is possible to update user profile information including user preferences and user behavior characteristics. This makes it possible to create user profile information including user preferences and user behavior characteristics without having the user directly input user profile information. For example, in the case of a user who only stays for 30 minutes at a standard facility (POI), for example, staying at 1 hour on a holiday daytime, it is impatient to compare the behavior characteristic of the user with the standard user User profile information of can be created and updated automatically.
  • POI standard facility
  • the server system 1 is a facility suitable for, for example, stopping by a user who is the user of the mobile unit 6 based on user profile information including user preferences and user behavior characteristics. Information can be provided.
  • the facility information according to the user profile information that is automatically created and updated is preferentially provided without any special operation by the user, and the user satisfaction is improved.
  • the server system 1 can appropriately estimate, for the user who is the user of the mobile object 6, the stay time in the facility where the user stops by in the route, based on the user profile information including the behavior characteristic of the user. For example, for impatient users, it is possible to improve arrival prediction accuracy at a destination or the like by calculating a stop time shorter than the average user.
  • the user information management system 100 of the present invention can be executed by hardware or software.
  • the functional configurations of FIG. 2, FIG. 3 and FIG. 5 are merely illustrative and not particularly limited. That is, it is sufficient if each device is equipped with a function capable of executing a series of processes related to the facility information distribution function of the present invention as a whole, and in particular, FIG. 2 shows which function block is used to realize this function. It is not limited to the example of FIG. 3 and FIG. Further, one functional block may be configured by hardware alone, may be configured by software alone, or may be configured by a combination of them.
  • a program that configures the software is installed on a computer or the like from a network or a recording medium.
  • the computer may be a computer incorporated in dedicated hardware. Further, the computer may be a computer capable of executing various functions by installing various programs.
  • a recording medium including such a program is provided not only to removable media distributed separately from the apparatus main body to provide the program to the user, but also provided to the user in a state of being incorporated in the apparatus main body. It comprises a recording medium etc.
  • the removable medium is, for example, a magnetic disk (including a floppy disk), a Blu-ray disk, an optical disk, a magneto-optical disk, or the like.
  • the optical disc is constituted of, for example, a CD-ROM (Compact Disk-Read Only Memory), a DVD (Digital Versatile Disk) or the like.
  • the magneto-optical disk is configured by an MD (Mini-Disk) or the like.
  • the recording medium provided to the user in a state of being incorporated in the device main body is, for example, included in the storage unit 11 of FIG. 2 in which the program is recorded, the storage unit 21 of FIG. 3 and the storage unit 31 of FIG. Hard disk etc.
  • 100 user information management system 1 server system 10 control unit 101 reception unit 102 mobile parking information identification unit 103 mobile parking characteristic index calculation unit 104 user profile information update unit 105 recommended facility selection unit 106 recommended facility provision unit 107 navigation unit 1071 stay Time estimation unit 11 storage unit 111 map information area 112 facility information area 1121 facility information database 113 mobile object information area 1131 user profile information storage unit 114 connection history information area 12 communication unit 2 car navigation device 20 control unit 201 connection processing unit 202 position Information updating unit 203 Recommended facility information request unit 204 Recommended facility display unit 205 Route guidance unit 21 Storage unit 22 Wireless unit 23 Sensor unit 24 Display unit 25 Input unit 3 Mobile terminal 30 Control unit 30 0 Mobile Terminal_Connection Information Acquisition Unit 301 Mobile Terminal_Connection Processing Unit 302 Mobile Terminal_Position Information Update Unit 303 Mobile Terminal_Recommended Facility Information Request Unit 304 Mobile Terminal_Recommended Facility Display Unit 305 Mobile Terminal_Route Guidance Unit 31 Storage Unit 32 wireless unit 33 sensor unit 34 display unit 35 input unit 5 vehicle 6 moving body

Abstract

Selon l'invention, des informations d'installation sont recommandées, les informations d'installation correspondant à des informations de profil d'utilisateur préparées en fonction d'informations de stationnement d'utilisateur. Un système de serveur (1) comprend : une base de données d'informations d'installation (1121) dans laquelle des types d'installations, des instants de stationnement, des instants d'arrêt d'un corps mobile (6), un nombre d'événements de stationnement, et des valeurs statistiques pour toutes ces informations sont enregistrés ; une unité de réception (101) qui reçoit des informations de position pour le corps mobile (6) conjointement avec des informations d'identification pour le corps mobile (6) ; une unité de stockage d'informations de profil d'utilisateur (1131) dans laquelle des informations de profil d'utilisateur pour le corps mobile (6) sont enregistrées de façon à pouvoir être identifiées avec les informations d'identification pour le corps mobile (6) ; une unité de spécification d'informations de stationnement de corps mobile (102) qui spécifie, en fonction des informations de position pour le corps mobile (6), l'installation dans laquelle le corps mobile est stationné, l'instant de stationnement et le nombre d'événements de stationnement ; et une unité de mise à jour d'informations de profil d'utilisateur (104) qui met à jour les informations de profil d'utilisateur enregistrées dans l'unité de stockage d'informations de profil d'utilisateur (1131) en fonction des informations spécifiées par l'unité de spécification d'informations de stationnement de corps mobile (102).
PCT/JP2018/034369 2017-09-29 2018-09-18 Dispositif de gestion d'informations d'utilisateur, et procédé de gestion d'informations d'utilisateur WO2019065349A1 (fr)

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