JP2013019695A - Navigation device and facility search method therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide navigation technique which smoothly presents candidates for a destination and the like by reducing duplication of similar facilities.SOLUTION: A navigation device comprises: search condition specification reception means for receiving specification of search conditions for performing a facility search; facility search means for searching for facilities which satisfy the search conditions; and search result display means for displaying the retrieved facilities in a predetermined order in a selectable manner. The search result display means displays the facilities satisfying the search conditions after excluding duplicated facilities which are similar to facilities to be displayed in higher order, among them.

Description

  The present invention relates to a navigation device technology.

  2. Description of the Related Art Conventionally, a navigation device has a technique of searching for surrounding facilities and the like according to a predetermined condition and setting them as candidates for destinations and waypoints. Patent Document 1 describes such a navigation device and a technique for acquiring facility information via a network.

JP 2010-271230 A

  In the above technique, a large number of candidates are raised, and the operability when selecting candidates may be impaired. One of the reasons is that similar stores that are developing chains are listed as candidates.

  An object of the present invention is to provide a navigation technique for organizing duplication of similar facilities and presenting candidates such as destinations more smoothly.

  In order to solve the above problems, a navigation device according to the present invention includes a search condition designation receiving unit that receives designation of a search condition when performing a facility search, a facility search unit that searches for a facility that satisfies the search condition, Search result display means for arranging and displaying the searched facilities in a predetermined order so as to be selectable, and the search result display means is similar to the facilities displayed in the higher order among the facilities that satisfy the search conditions. It is characterized by being displayed excluding duplication of facilities.

  The facility search method according to the present invention is a facility search method for a navigation device, wherein the navigation device receives a search condition specification receiving step for receiving specification of a search condition when searching for a facility, and the search condition is A facility search step for searching for a facility that satisfies the requirements and a search result display step for selecting and displaying the searched facilities in a predetermined order are performed. In the search result display step, A facility search method, characterized in that the display is performed by excluding duplication of facilities similar to the facilities displayed in the upper order.

  According to the present invention, it is possible to provide a navigation technique for organizing overlapping similar facilities and presenting candidates such as destinations more smoothly.

It is a schematic block diagram of a navigation apparatus. It is a figure which shows the structure of a link table. It is a figure which shows the structure of a facility information table. It is a figure which shows the structure of the process part comprised by main CPU. It is a flowchart of a facility search process. It is a figure which shows the example of a screen displayed by a facility search process. It is a figure which shows the example of a screen displayed by a facility search process. It is a figure which shows the example of application of a facility search process. It is a figure which shows the specific example of a facility search process. It is a figure which shows the specific example of a screen of a facility search process. It is a figure which shows the specific example of a screen by the modification of a facility search process. It is a flowchart of a route facility search process. It is a figure which shows the specific example of a route facility search process. It is a figure which shows the flow of the facility search process in another embodiment. It is a figure which shows the example of a screen displayed by the facility search process in another embodiment. It is a figure which shows the flow of the facility search process in another embodiment. It is a figure which shows the example of a screen displayed by the facility search process in another embodiment. It is a figure which shows the flow of the facility search process in another embodiment. It is a figure which shows the example of a screen displayed by the facility search process in another embodiment.

  A navigation apparatus to which a first embodiment of the present invention is applied will be described below with reference to the drawings.

  FIG. 1 is a diagram illustrating a hardware configuration of the navigation apparatus 100. The navigation device 100 includes an absolute position and direction detection device 101, a relative direction detection device 102, a vehicle speed detection device 103, a main CPU and its peripheral circuit 104, a ROM (Read Only Memory) 105, and a DRAM (Dynamic Random Access Memory). ) 106, SRAM (Static Random Access Memory) 107, VRAM (Video Random Access Memory) 108, UI (User Interface) control device 109, display device 110, input device 111, HDD (Hard Disk Drive) A control device 112, an FM multiplex broadcast reception processing device 113, and an optical / beacon reception processing device 114 are provided.

  The absolute position / orientation detection apparatus 101 is used by the navigation apparatus 100 to detect the absolute position / azimuth of the current location. The absolute position / orientation detection apparatus 101 receives a signal from a GPS (Global Positioning System) satellite and measures the distance between the mobile body and the GPS satellite and the rate of change of the distance with respect to three or more satellites. Measure your current location, travel speed and travel direction. Thereby, the navigation apparatus 100 implements radio navigation.

  The relative orientation detection device 102 is used in the navigation device 100 to detect the relative orientation of the vehicle. The relative azimuth detecting device 102 is constituted by an optical fiber gyroscope, a vibrating gyroscope, or the like, and detects an angular velocity due to the rotation of the moving body.

  The vehicle speed detection device 103 is a device that outputs a value used to calculate the vehicle speed. Specifically, the vehicle speed detection device 103 receives pulse information from a pulse generator attached to a vehicle tire or the like as an input, obtains the rotational speed of the tire, and calculates the vehicle speed. The navigation device 100 realizes self-contained navigation using information obtained from the relative orientation detection device 102 and the vehicle speed detection device 103.

  The main CPU and its peripheral circuit 104 are central units that perform various processes. For example, the current location is calculated based on information output from the absolute position and direction detection device 101, the relative direction detection device 102, the vehicle speed detection device 103, and the like. Further, based on the obtained current location information, map data required for display is read from the storage area of the HDD control device 112 or the like.

  In addition, the main CPU and its peripheral circuit 104 instruct to display the map data that has been read out on the display device 110 with graphics developed and a mark indicating the current location superimposed thereon. Further, using the map data or the like stored in the HDD control device 112 or the like, an optimum route (recommended route) that connects the starting point or current location instructed by the user with the destination and waypoint is searched. In addition, the user is guided using the display device 110 and the speaker so that the recommended route can be traveled.

  The main CPU of the navigation apparatus 100 and its peripheral circuit 104 are bus-connected to various memories such as a ROM 105, a DRAM 106, an SRAM 107, and a VRAM 108. The CPU executes various processes such as numerical calculation and controlling each device. Various types of RAM store and read out information according to their respective uses.

  The UI control device 109 controls the display device 110 and the input device 111 that serve as an interface with the user. The display device 110 is a display, for example, and the input device 111 is a device that receives an instruction from the user through an operation by the user. The input device 111 includes, for example, a remote controller that can remotely give operational instructions to the navigation device 100, a scroll key that is a hard switch (not shown) of the navigation device 100, a scale change key, and the like. Alternatively, the input device 111 is a switch such as a touch panel attached to the display. The touch panel is mounted on the display surface side of the display and can see through the display screen. The touch panel specifies a touch position corresponding to the XY coordinates of the image displayed on the display, converts the touch position into coordinates, and outputs the coordinate. The touch panel includes a pressure-sensitive or electrostatic input detection element. The display is a unit that displays graphics information generated by a CPU or the like. The display is composed of a liquid crystal display, an organic EL display, or the like.

  The HDD control device 112 is configured to control at least a readable / writable storage medium such as an HDD (Hard Disk Drive) or a nonvolatile memory. The storage medium stores a link table 200 which is map data (including link data of links constituting roads on a map) necessary for a normal route search device, and a facility information table 300 including information on a plurality of facilities. Has been.

  FIG. 2 is a diagram showing the configuration of the link table 200. The link table 200 includes, for each mesh identification code (mesh ID) 201, which is a partitioned area on the map, link data 202 of each link constituting a road included in the mesh area.

  For each link ID 211 that is a link identifier, the link data 202 includes coordinate information 222 of two nodes (start node and end node) constituting the link, a road type 223 indicating the type of road including the link, and a link length. A link length 224 indicating the link travel time 224 stored in advance, a start connection link that is a link connected to the start node of the link, and an end connection link that is a link connected to the end node of the link Start connection link, end connection link 226, electricity consumption 227 indicating the amount of electricity used to travel the link, air-conditioner usage 228 indicating the amount of electricity used to travel the link when using the air-conditioner , Etc.

  Here, by distinguishing the start node and the end node for the two nodes constituting the link, the upward direction and the downward direction of the same road are managed as different links.

  FIG. 3 is a diagram showing the configuration of the facility information table 300. The facility information table 300 includes a facility ID 301 that is an identifier for identifying a facility. The facility ID 301 stores, for example, an identifier that can identify a shopping mall, a gas station, a parking lot, and other facilities. In the facility name 311 included in the facility information specified by the facility ID 301, information specifying the name or common name of the facility associated with the information stored in the facility ID 301 is stored. For example, “XX shopping center” is stored as the name of the facility associated with the facility ID 301.

  The address 312 included in the facility information specified by the facility ID 301 stores an address as information for specifying the location of the facility associated with the information stored in the facility ID 301. Note that the address of the facility is information on a representative address that the facility has.

  Further, in the telephone number 313 included in the facility information specified by the facility ID 301, information for specifying the telephone number as the facility contact address associated with the information stored in the facility ID 301 is stored.

  The coordinate position 314 included in the facility information specified by the facility ID 301 stores coordinate information as information for specifying the location of the facility associated with the information stored in the facility ID 301. For example, information such as the latitude and longitude of the facility is stored as information for specifying the location of the facility associated with the facility ID 301. The latitude / longitude of the facility is information on latitude / longitude determined in advance as a position representing the facility. The latitude / longitude of the facility is information for specifying the center position of the facility, the position of the entrance of the facility, and the like.

  In the genre 315 included in the facility information specified by the facility ID 301, information for specifying the genre of the facility associated with the information stored in the facility ID 301 is stored. For example, the genre of the facility associated with the facility ID 301 includes “convenience store”, “supermarket”, “discount store”, “department store”, and the like.

  In the series 316 included in the facility information specified by the facility ID 301, information for specifying the facility series associated with the information stored in the facility ID 301 is stored. For example, the information for specifying the facility series associated with the facility ID 301 includes information for specifying the capital series of the facility, a chain such as a franchise, and the like.

  Returning to FIG. The FM multiplex broadcast reception processing device 113 receives an FM multiplex broadcast signal sent from an FM broadcast station. FM multiplex broadcasting includes VICS (Vehicle Information Communication System: Registered Trademark) information, current traffic information, regulatory information, SA / PA (service area / parking area) information, parking information, weather information, and FM multiplex general information. As text information provided by radio stations.

  The light / beacon reception processing device 114 receives rough current traffic information such as VICS information, regulation information, SA / PA (service area / parking area) information, parking lot information, weather information, emergency alerts, and the like. For example, it is a receiving device such as an optical beacon that communicates by light and a radio beacon that communicates by radio waves.

  In addition to these illustrated components, the navigation device 100 is connected to various devices. For example, a voice input / output device including a microphone and a speaker (not shown) is connected. The microphone and the speaker are separately arranged at a predetermined part of the vehicle, but may be housed in an integral housing. The navigation apparatus 100 can also include a plurality of microphones and speakers. The hardware configuration of the navigation device 100 has been described above.

  The navigation device 100 is a so-called navigation device capable of displaying map information and indicating a point indicating the current location of the navigation device 100 and information for guiding a route to a set destination. The navigation device 100 includes a control unit realized by a main CPU and its peripheral circuit 104 and the like.

  As shown in FIG. 4, the control unit includes a basic control unit 121, an input reception unit 122, an output processing unit 123, a search condition reception unit 124, a facility search unit 125, a power consumption calculation unit 126, A search result presentation unit 127.

  The basic control unit 121 is a central functional unit that performs various processes, and controls other processing units according to the processing content. Also, information on various sensors, GPS (Global Positioning System) receivers, and the like is acquired, and the current location is specified by performing map matching processing and the like. In addition, the travel history is stored in the HDD control unit 122 for each link by associating the travel date and time with the position of the travel history. Further, the current time is output in response to a request from each processing unit.

  In addition, the basic control unit 121 searches for an optimum route (recommended route) that connects the departure point or current location instructed by the user and the destination. Further, the basic control unit 121 uses the route information (information about the departure point, waypoint, and destination) to recommend the route from the departure point to the destination so as to pass through the waypoint included in the information. Explore. In the route search, a route is searched based on a link cost set in advance for a predetermined section (link) of a road using a route search logic such as Dijkstra method.

  In addition, the basic control unit 121 searches for a route for performing a reciprocating movement from the predetermined position to return to the original position via the target position. In the route search, the route search logic such as Dijkstra method is used to search the forward route and the return route based on the link cost set in advance for a predetermined section (link) of the road, and the forward route and the return route are combined. To find a round trip route.

  In addition, the basic control unit 121 instructs the output processing unit 123 to output so that the current location of the vehicle does not deviate from the recommended route, and guides the user's driving operation using the display device 110, a speaker, and the like.

  The input receiving unit 122 receives an instruction from the user input via the input device 111 and passes it to the basic control unit 121. For example, when an execution request for a function designated by the user is received, the execution request for the process of the function is transferred to the basic control unit 121.

  The output processing unit 123 receives, for example, screen information for displaying map information and the like, converts it into a signal for drawing on the display device 110, and delivers the signal to the display device UI control device 109.

  The search condition receiving unit 124 receives a search condition. Specifically, conditions for narrowing down facilities stored in advance in the facility table 300 are accepted when setting destinations, waypoints, and the like. The conditions are various conditions such as the genre of the facility received from the input device 111, the facility address, the name of the facility, and the telephone number of the facility. In the present embodiment, the search condition accepting unit 124 mainly accepts designation of a facility genre for narrowing down facilities that are set as destinations or waypoints.

  The facility search unit 125 searches for facilities according to the conditions received by the search condition receiving unit 124. Specifically, the facility search unit 125 searches for facilities according to the conditions received by the search condition reception unit 124 and generates list information of facilities that satisfy the conditions. For example, when the condition received by the search condition receiving unit 124 is specification of a facility genre, the facility search unit 125 searches the facility table 300 and extracts facilities belonging to the genre in which the genre 315 is specified. And list.

  The power consumption calculation unit 126 calculates power consumption. Specifically, the power consumption calculation unit 126 specifies a route from the designated start point to the arrival point using a predetermined power consumption set for the link as a link cost, and calculates the total link cost. Calculated as the power consumption of the recommended route. In this processing, the power consumption calculation unit 126 searches for a recommended route using the same power as the route search logic such as the Dijkstra method, using the predetermined power consumption set for the link as the link cost.

  The search result presentation unit 127 presents the result of the search performed by the facility search unit 125. Specifically, the search result presentation unit 127 generates display information using the facility list information obtained as a result of the search by the facility search unit 125 and instructs the output processing unit 123 to output.

  The basic control unit 121, the input reception unit 122, the output processing unit 123, the search condition reception unit 124, the facility search unit 125, the power consumption calculation unit 126, and the search result presentation unit 127 of the navigation device 100 described above are the main CPU and its surroundings. The circuit 104 is constructed by reading and executing a predetermined program. Therefore, programs for realizing the processing of each functional unit are developed in the DRAM 106 and the SRAM 107.

  Each functional unit may be constructed by hardware (ASIC, GPU, etc.). Further, the processing of each functional unit may be executed by one hardware or may be executed by a plurality of hardware.

  In addition, each above-mentioned component is classified according to the main processing content, in order to make an understanding easy the structure of the navigation apparatus 100. FIG. Therefore, the present invention is not limited by the way of classifying the components and their names. The configuration of the navigation device 100 can be classified into more components depending on the processing content. Moreover, it can also classify | categorize so that one component may perform more processes.

  [Description of Operation] Next, the operation of the facility search process performed by the navigation device 100 will be described. FIG. 5 is a flowchart showing facility search processing performed by the navigation device 100. This flow is started when the navigation apparatus 100 is turned on and receives an instruction to start processing from the user to the navigation apparatus 100.

  First, the search condition receiving unit 124 displays a search condition setting screen (step S001). Specifically, the search condition receiving unit 124 instructs the output processing unit 123 to display the search condition designation screen 400 shown in FIG. The search condition designation screen 400 includes a genre display area 401 that can be selected, a detailed display area 402 that displays a description of the genre on a separate screen, and a scroll instruction reception area that receives an instruction to change the displayed genre. 403. The genre display area 401 displays a list of genres corresponding to the genre 315 of the facility table 300. As a result, the user can display the genre of the desired facility in the genre display area 401 using the scroll instruction receiving area 403, and touch the genre to select the genre as a search condition. it can.

  Next, the search condition receiving unit 124 receives the search condition setting (step S002). Specifically, the search condition accepting unit 124 accepts designation of a genre designated and input in the genre display area 401 of the search condition designation screen 400 displayed in step S001.

  And the facility search part 125 performs a facility search (step S003). Specifically, the facility search unit 125 extracts a facility having the genre 315 corresponding to the genre specification received in step S002 from the facility table 300. At that time, the facility search unit 125 acquires information on the current location from the basic control unit 121, and extracts a facility within a predetermined distance from the current location. The facility search unit 125 generates the extracted facility as list information.

  Next, the power consumption calculation unit 126 calculates power consumption for each facility (step S004). Specifically, the power consumption calculation unit 126 calculates the power consumption for each facility included in the facility list information generated in step S003. In calculating the power consumption, the power consumption calculation unit 126 acquires current location information from the basic control unit 121 and searches for a recommended route from the acquired current location to the facility. In the search for the recommended route, the power consumption calculation unit 126 uses the predetermined power consumption 227 set for the link as the link cost, and the link cost is minimized by the same logic as the route search logic such as the Dijkstra method. Search for the recommended route. Then, the power consumption calculation unit 126 identifies the link cost of the recommended route as power consumption. Further, the basic control unit 121 calculates a required time required to travel the recommended route using the link travel time 225 for the recommended route searched in this step.

  Next, the search result presentation unit 127 ranks the facilities according to the power consumption for each of the searched facility sequences (step S005). Specifically, the search result presentation unit 127 classifies the facilities included in the list information generated in step S003 according to the series 316 of the facility information table 300. For example, the search result presentation unit 127 identifies the information of the series 316 in the facility information table 300 for each facility included in the list information generated in step S003, and associates the facilities with the same information as the same series. Then, the search result presenting unit 127 identifies the order in which the power consumption calculated in step S004 is small for each associated facility of the same series.

  Then, the search result presentation unit 127 displays the facilities representing the series in the order of power consumption (step S006). Specifically, the search result presenting unit 127 identifies, for each series identified in step S005, the facility with the minimum power consumption of the facility as the representative facility to be displayed, and the power consumption between the display target facilities. The output processing unit 123 is instructed to sort and display the list in ascending order.

  FIG. 7 is a diagram showing a search result screen 500 that is a screen example of the facility list displayed in step S006. The search result screen 500 includes a facility display field 501 for displaying the name of the facility (for example, a store name) and a power consumption display field 502 for displaying the power consumption in the route to the facility displayed in the facility display field 501. A required time display field 503 for displaying a required time on a route to the facility displayed in the facility display field 501, and a scroll instruction for accepting an input for moving the facility displayed in the facility display field 501 up and down on the list Reception area 504. In the power consumption display column 502, the power consumption of the recommended route calculated in step S004 is displayed. In the required time display field 503, the required time calculated in step S004 is displayed.

  The above is the processing content of the facility search processing. By performing the facility search process described above, the navigation apparatus 100 can narrow down and display similar facilities in order to narrow down and display the facilities that consume less power for affiliated facilities. At that time, in order to search for the route to the facility for each facility using the power consumption previously associated with the link, the facility with the least power consumption is preferentially displayed for each facility series. And the display of the search result can be simplified.

  FIG. 8 is a diagram briefly showing an application example of the facility search process. As shown in FIG. 8, it is assumed that a facility A 610 exists near the current location 600 of the host vehicle and a facility B 611 exists far away. A path 620 from the current location 600 to the facility A 610 is assumed to pass through a flat road 601 and a slope 602. Further, it is assumed that a route 621 from the current location 600 to the facility B 611 passes through the flat road 601.

  In the case shown in FIG. 8, when the electric power to be consumed on the slope 602 is large, there is a case where it is possible to suppress the electric power consumption toward the facility B 611 in a distant place. In the facility search process according to the present embodiment, in such a case, the facility B611 can be displayed at the top of the list of search results rather than the facility A610, so that the user can easily select the facility B611.

  FIG. 9 is a diagram specifically illustrating an application example of the facility search process. As shown in FIG. 9, a facility C 710, a facility D 711, a facility E 712, and a facility F 713 exist within a range 720 at a predetermined distance (for example, 5 km) from the current position 700 of the host vehicle, and outside the range 720. , Facility G714, facility H715, and facility I716 exist. Assume that the power consumption of the links constituting the recommended route from the current location 700 to the facility C 710 is “2” of the link 731, “3” of the link 732, and “4” of the link 733. In addition, it is assumed that the power consumption of the links constituting the recommended route from the current location 700 to the facility D 711 is “2” of the link 731 and “8” of the link 734. Further, it is assumed that the power consumption of the links constituting the recommended route from the current location 700 to the facility E 712 is “2” of the link 731, “3” of the link 732, and “3” of the link 735. Further, the power consumption of the link constituting the recommended route from the current location 700 to the facility F713 is “2” of the link 731, “3” of the link 732, “3” of the link 735, and “3” of the link 736. ”. That is, the power consumption reaching the facility C is “9”, the power consumption reaching the facility D is “10”, the power consumption reaching the facility E is “8”, and the power to the facility F The reached power consumption is “11”.

  A screen example 500 of the search result screen in the situation of FIG. 9 is shown in FIG. As shown in FIG. 10, since the power consumption reaching the facility E is minimized, it is displayed at the top of the list, the next facility C with the lowest power consumption, the next facility D, and finally the facility with the highest power consumption. F is displayed in the facility display field 501.

  The first embodiment of the present invention has been described above. According to the first embodiment of the present invention, the navigation device 100 can arrange candidates for similar facilities and present candidates.

  The present invention is not limited to the first embodiment. The first embodiment described above can be variously modified within the scope of the technical idea of the present invention. For example, in the result screen displayed in step S006 of the facility search process, as shown in FIG. 11A, representative facilities are displayed in order of power consumption for each series at the top of the list, and at the bottom of the list, Facilities other than the representative facility may be shown in the order of power consumption. By doing in this way, when selecting facilities other than the representative facility, it is possible to search for facilities with an emphasis on power consumption.

  Further, for example, in the result screen displayed in step S006 of the facility search process, as shown in FIG. 11A, representative facilities are displayed in order of power consumption for each series at the top of the list, and below that The facilities other than the representative facility may be shown in the order of power consumption regardless of the series. By doing in this way, when selecting facilities other than the representative facility, it is possible to search for facilities with an emphasis on power consumption.

  Further, for example, not only in the above embodiment, in the result screen displayed in step S006 of the facility search process, as shown in FIG. 11B, representative facilities are displayed in order of power consumption for each series at the top of the list. In the lower part, the facility with the next lowest power consumption among the facilities other than the representative facility may be shown in the order of the power consumption of the representative facility. As shown in the figure, for example, when the order of power consumption of representative facilities is α series, β series, γ series, the next lowest power consumption facility is identified from the facilities in each series, The α series, β series, and γ series facilities are displayed in order. In this way, when a facility other than the representative facility is selected, the facility can be searched with an emphasis on the line.

  Next, a second embodiment according to the present invention will be described with reference to FIGS. Since the second embodiment basically has the same configuration as that of the first embodiment, the differences will be mainly described.

  In the second embodiment, the facility search process in the first embodiment is a transit facility search process that is a search process for a facility that is a transit point. FIG. 12 shows a processing flow for such a transit facility search process.

  In the transit facility search process shown in FIG. 12, steps S101 to S103 are the same as the processes from step S001 to step S003 of the facility search process in the first embodiment, and a description thereof will be omitted.

  The power consumption calculation unit 126 calculates, for each facility, the power consumption up to the facility and the power consumption from the facility to the destination (step S104). Specifically, the power consumption calculation unit 126 calculates the power consumption from the facility to the destination for each facility included in the facility list information generated in step S103. The power consumption calculation unit 126 acquires current location information from the basic control unit 121 and calculates a route from the acquired current location to the facility and a route from the facility to a preset destination. And connect them to make a recommended route. In the search for the recommended route, the power consumption calculation unit 126 uses the predetermined power consumption 227 set for the link as the link cost, and the link cost is minimized by the same logic as the route search logic such as the Dijkstra method. Search for the recommended route.

  Then, the search result presentation unit 127 displays the facilities in the order of the total power consumption, that is, the order of the power consumption of the recommended route (step S105). Specifically, the search result presentation unit 127 instructs the output processing unit 123 to sort and display the facilities in the order of decreasing power consumption of the recommended route specified in step S104.

  FIG. 13 is a diagram specifically illustrating an application example of the transit facility search process according to the second embodiment. As shown in FIG. 13, a facility C 710, a facility D 711, a facility E 712, and a facility F 713 exist within a range 720 that is a predetermined distance (for example, 5 km) from the current position 700 of the host vehicle, and outside the range 720. , Facility G714, facility H715, and facility I716 exist. A destination 750 is set in advance.

  The power consumption of the link constituting the recommended route from the current location 700 to the destination 750 via the facility C 710 is “2” of the link 731, “3” of the link 732, “4” of the link 733, Assume that “3” of the link 740 and “7” of the link 741. Further, the power consumption of the link constituting the recommended route from the current location 700 to the destination 750 via the facility D711 is “2” of the link 731, “8” of the link 734, and “1” of the link 739. And “7” of the link 741. Further, the power consumption of the link constituting the recommended route from the current location 700 to the destination 750 via the facility E712 is “2” of the link 731, “3” of the link 732, and “3” of the link 735. And “3” of the link 735, “4” of the link 733, “3” of the link 740, and “7” of the link 741. Further, the power consumption of the link constituting the route from the current location 700 to the destination 750 via the facility F713 is “2” of the link 731, “3” of the link 732, and “3” of the link 735. , "7" of link 736, "3" of link 736, "3" of link 735, "4" of link 733, "3" of link 740, and "7" of link 741 Suppose there is.

  That is, the power consumption of the recommended route passing through the facility C is “19”, the power consumption of the recommended route passing through the facility D is “18”, and the power consumption of the recommended route passing through the facility E is The power consumption of the recommended route passing through the facility F is “34”.

  In the situation as shown in FIG. 13, the facility D having the minimum power consumption “18” is displayed at the top of the search result list. Then, the facility C with the power consumption “19” is displayed on the search result list, and the facility E with the power consumption “25” and the facility F with the power consumption “34” are displayed in the order of the search results. It will be displayed in the list.

  The second embodiment of the present invention has been described above. According to the second embodiment of the present invention, the navigation apparatus 100 can present a waypoint candidate with low power consumption that passes along the way to the destination.

  Next, a third embodiment according to the present invention will be described with reference to FIGS. Since the third embodiment basically has the same configuration as that of the first embodiment, the differences will be mainly described.

  In the facility search process in the third embodiment, the facility search process in the first embodiment can be selected as to whether or not to consider the power consumption reaching the facility and whether to display the result as a list. It is what. FIG. 14 shows a processing flow for such facility search processing.

  In the facility search process illustrated in FIG. 14, steps S301 to S303 are the same as the processes from step S001 to step S003 of the facility search process in the first embodiment, and thus description thereof is omitted. However, since the search condition setting screen is slightly different in step S301, the difference is shown in FIG.

  FIG. 15 is a diagram illustrating an example of a search condition designation screen 400 according to the third embodiment. The search condition designation screen 400 includes a genre display area 401 that can be selected, a detailed display area 402 that displays a description of the genre on a separate screen, and a scroll instruction reception area that receives an instruction to change the displayed genre. 403 is the same as the search condition designation screen 400 in the first embodiment. In the search condition designation screen 400 according to the third embodiment, a power consumption consideration designation reception area 451 for accepting an instruction as to whether or not to perform a facility search in consideration of power consumption, and a facility as a search result are listed and selected. A list display request receiving area 452 for receiving an instruction on whether or not.

  Then, the search condition receiving unit 124 receives the specified state of the power consumption consideration specification receiving area 451 and the specified state of the list display request receiving area 452 when receiving the setting of the search condition in step S302.

  And the facility search part 125 determines whether the designation | designated of power consumption consideration was received (step S304). Specifically, when the power consumption consideration designation information is not included in the search conditions received in step S302, the search result presentation unit 127 searches in a predetermined order (for example, the order of required distance). All the selected facilities are displayed, selection designation for any of the facilities is accepted, and the selected facility is set as the destination (step S305).

  When designation of power consumption consideration is accepted (in the case of “Yes” in step S304), the power consumption calculation unit 126 and the search result presentation unit 127 perform step S004 of the facility search process in the first embodiment, and step The same processing as in S005 is performed (step S306, step S307).

  Next, the facility search unit 125 determines whether there is a request for list display (step S308). Specifically, the facility search unit 125 determines a request for list display based on whether or not designation of a list display request is accepted in step S302.

  When there is no request for list display (in the case of “No” in step S308), the facility search unit 125 sets a facility with the lowest power consumption as the destination (step S309). Specifically, the facility search unit 125 sets, as a destination, a facility having the minimum power consumption calculated in step S306 among the facilities extracted in step S303.

  When there is a request for list display (in the case of “Yes” in step S308), the search result presentation unit 127 displays the same as in step S006 of the first embodiment, and accepts selection of the displayed facility. Is set as the destination (step S310).

  The above is the processing content of the facility search processing in the third embodiment. According to the facility search process in the third embodiment, the user can specify whether to perform a conventional facility search that does not specifically consider power consumption or whether to perform a facility search that considers power consumption. Become. In addition, it is possible to specify whether the uppermost facility among the searched facilities is set as the destination without specifying it, or selected from the displayed list and set as the destination. .

  Next, a fourth embodiment according to the present invention will be described with reference to FIGS. Since the fourth embodiment basically has the same configuration as that of the first embodiment, the differences will be mainly described.

  In the facility search process in the fourth embodiment, the facility search process in the first embodiment selects whether to consider the use of an air conditioner when considering the power consumption reaching the facility, and lists the results. When displaying, it is possible to select whether or not to omit facilities of the same series. FIG. 16 shows a processing flow for such facility search processing (air conditioner).

  In the facility search process (air conditioner) illustrated in FIG. 16, steps S401 to S404 are the same as the steps S001 to S004 of the facility search process in the first embodiment, and thus the description thereof is omitted. . However, since the search condition setting screen is slightly different in step S401, the difference is shown in FIG.

  FIG. 17 is a diagram illustrating an example of a search condition designation screen 400 according to the fourth embodiment. The search condition designation screen 400 includes a genre display area 401 that can be selected, a detailed display area 402 that displays a description of the genre on a separate screen, and a scroll instruction reception area that receives an instruction to change the displayed genre. 403 is the same as the search condition designation screen 400 in the first embodiment. In the search condition designation screen 400 according to the fourth embodiment, an air conditioner power consumption consideration designation receiving area 461 for accepting an instruction as to whether or not to perform a facility search in consideration of the power consumption by the air conditioner, and a facility of the search result are listed. And the same series integration instruction receiving area 462 for receiving an instruction as to whether or not the facilities of the same series are grouped together.

  Then, the search condition reception unit 124 receives the specification state of the air conditioner power consumption consideration specification reception area 461 and the specification state of the same-series integration instruction reception area 462 when receiving the search condition setting in step S402.

  And the facility search part 125 determines whether designation | designated of air-conditioner power consumption consideration was received (step S405). Specifically, when the air conditioner power consumption consideration specification information is not included in the search conditions accepted in step S402, it is determined that the air conditioner power consumption consideration specification has not been accepted.

  When the designation for considering the air conditioner power consumption is accepted (“Yes” in step S405), the power consumption calculating unit 126 adds the air conditioner power consumption to the power consumption for each facility (step S406). Specifically, the power consumption calculation unit 126 adds, for each facility obtained as a result of the search in step S403, the power consumption during use of the air conditioner for each link constituting the recommended route to the power consumption of the recommended route. Note that the power consumption calculation unit 126 specifies the consumption amount during use of the air conditioner based on the consumption amount 228 during use of the air conditioner in the link table 200. Then, the power consumption calculation unit 126 advances the control to step S407.

  Then, the search result presentation unit 127 determines whether or not the same-series integration instruction has been received (step S407). Specifically, the search result presentation unit 127 determines that the same-series integration instruction has been received when the same-series integration instruction reception area 462 received in step S402 is designated. When the same-series integration instruction has not been received (in the case of “No” in step S407), the search result presentation unit 127 advances the control to step S409 described later.

  When the same series integration instruction is received (in the case of “Yes” in step S407), the search result presenting unit 127 narrows down the facilities with the lowest power consumption for each searched facility series (step S408). Specifically, the facilities included in the list information generated in step S403 are classified according to the series 316 of the facility information table 300. For example, the search result presentation unit 127 identifies the information of the series 316 in the facility information table 300 for each facility included in the list information generated in step S403, and associates the facilities with the same information as the same series. Then, the search result presenting unit 127 identifies the order in which the power consumption calculated in step S404 (or step S406) is small for each associated facility of the same series. Then, the search result presenting unit 127 narrows down the facilities for which the power consumption of the facility is minimum for display for each identified series.

  Then, the search result presentation unit 127 displays the facilities where the facilities of the same series have been narrowed down in the order of the lower power consumption, accepts the selection designation for any of the facilities, and sets the selected facility as the destination Setting is made (step S409).

  The above is the processing content of the facility search processing (air conditioner) in the fourth embodiment. According to the facility search process (air conditioner) in the fourth embodiment, the user selects whether or not to consider the use of the air conditioner and whether or not to omit the facility of the same series when displaying the list of results. It becomes possible to specify the selection. Therefore, the user can easily select a facility with the least power consumption for the facility of the same series among the searched facilities.

  Next, a fifth embodiment according to the present invention will be described with reference to FIGS. Since the fifth embodiment basically has the same configuration as that of the first embodiment, the differences will be mainly described.

  The facility search process in the fifth embodiment enables selection of whether or not to consider a round trip route when considering the power consumption reaching the facility in the facility search process in the first embodiment. is there. FIG. 18 shows a processing flow for such facility search processing (round trip).

  In the facility search process (round trip) shown in FIG. 18, for steps S001 to S003, steps S005 and S006, the processes of steps S001 to S003, steps S005 and S006 of the facility search process in the first embodiment are performed. Since it is the same processing as, the explanation is omitted. However, with respect to step S001 in the facility search process (round trip) of the fifth embodiment, the search condition setting screen is slightly different from that of the first embodiment, and the difference is shown in FIG.

  FIG. 19 is a diagram illustrating an example of a search condition designation screen 400 according to the fifth embodiment. The search condition designation screen 400 includes a genre display area 401 that can be selected, a detailed display area 402 that displays a description of the genre on a separate screen, and a scroll instruction reception area that receives an instruction to change the displayed genre. 403 is the same as the search condition designation screen 400 in the first embodiment. The search condition designation screen 400 in the fifth embodiment further includes a round trip route consideration designation reception area 471 for accepting an instruction as to whether or not to perform facility search in consideration of round trip power consumption.

  Then, the search condition reception unit 124 receives the designation state of the round trip route consideration designation reception area 471 when accepting the setting of the search condition in step S002.

  And the facility search part 125 determines whether designation | designated of the round-trip route consideration was received (step S501). Specifically, when the search condition received in step S002 does not include the round trip route consideration designation information, it is determined that the round trip route consideration designation has not been accepted.

  When designation of round-trip route consideration is received (in the case of “Yes” in step S501), the power consumption calculation unit 126 adds the power consumption of the round-trip route as the power consumption for each facility (step S502). . Specifically, the power consumption calculation unit 126 calculates, for each facility as a result of the search in step S003, the power consumption of the recommended route, and the power consumption of each link constituting the return route that is the route from the facility to the current location. to add. Note that the power consumption calculation unit 126 also specifies power consumption for the return path using the link cost based on the Dijkstra method or the like. Then, the power consumption calculation unit 126 advances the control to step S005.

  If the designation of round-trip route consideration is not received (in the case of “No” in step S501), the power consumption calculation unit 126 calculates the power consumption of the recommended route only for the outbound route as the power consumption for each facility ( Step S503). Specifically, the power consumption calculation unit 126 calculates the power consumption of the recommended route for each facility obtained as a result of the search in step S003. Then, the power consumption calculation unit 126 advances the control to step S005.

  The above is the processing content of the facility search process (round trip) in the fifth embodiment. According to the facility search process (round trip) in the fifth embodiment, the user selects whether or not to consider the use of the air conditioner, and whether or not to omit the facility of the same series when displaying the list of results. It becomes possible to specify the selection. Therefore, the user can easily select the facility with the lowest power consumption among the searched facilities in consideration of the round trip. For example, when there is a steep slope in the vicinity, it may not be appropriate to compare the power consumption of only one of the forward path and the return path.

  The first embodiment to the fifth embodiment according to the present invention have been specifically described above. The embodiment according to the present invention is not limited to the above embodiment. Each of the above embodiments may be realized so as to include each technical feature, or may be realized by combining a part thereof.

  Further, for example, in the above-described embodiment, the consumption of electricity that is a power source of an electric vehicle is targeted. However, the present invention is not limited to this, and gasoline, light oil, and other fuels that similarly serve as a power source of a reciprocating engine, etc. You may make it change the display etc. of the facility searched by energy consumption. In this case, the link table 200 stores fuel consumption information for each link. In this way, the user can select a facility that consumes less power regardless of the power source.

  Further, for example, in the above-described embodiment, the power consumption is not specified in consideration of the vehicle type and the number of passengers. However, the power consumption may be calculated in consideration of these. Specifically, the electricity usage of the link table 200 corresponding to the vehicle type and the number of passengers may be held, or the power consumption may be given a predetermined weight according to the vehicle type and the number of passengers.

  In the above, this invention was demonstrated centering on embodiment. In the above-described embodiment, an example in which the present invention is applied to an in-vehicle navigation device has been described. However, the present invention is not limited to an in-vehicle navigation device, and can be applied to all devices that perform route guidance of a moving body. .

DESCRIPTION OF SYMBOLS 100 ... Navigation apparatus, 121 ... Basic control part, 122 ... Input reception part, 123 ... Output processing part, 124 ... Search condition reception part, 125 ... Facility search part, 126. .. Power consumption calculation unit, 127... Search result presentation unit, 200... Link table, 300.

Claims (9)

Search condition designation accepting means for accepting designation of search conditions when searching for facilities;
Facility search means for searching for facilities that satisfy the search conditions;
A search result display means for displaying the found facilities arranged in a predetermined order so as to be selectable;
With
The search result display means excludes and displays the duplication of facilities similar to the facilities displayed in the higher order among the facilities that satisfy the search conditions.
A navigation device characterized by that. The navigation device according to claim 1,
A facility storage means for storing the facility searched by the facility search means;
In the facility storage means, information specifying a series for each facility is stored in association with each other,
The search result display means excludes duplication as a similar facility for facilities belonging to the same series as the facilities displayed in the higher order among the facilities that satisfy the search conditions.
A navigation device characterized by that. The navigation device according to claim 1 or 2,
The facility search means specifies the energy usage amount of the power source used on the route to each facility in the search processing of the facility that satisfies the search condition,
The search result display means arranges and displays the facilities in order of decreasing energy usage specified by the facility search means.
A navigation device characterized by that. The navigation device according to any one of claims 1 to 3,
The facility search means specifies the amount of power used as the energy usage of the power source used on the route to each facility in the facility search process that satisfies the search conditions,
The search result display means arranges and displays the facilities in order of decreasing energy usage specified by the facility search means.
A navigation device characterized by that. The navigation device according to claim 3 or 4, wherein
The search condition includes information about whether or not to consider using an air conditioner,
The facility search means includes the use amount of the air conditioner in the energy use amount in the search process when the information that considers the use of the air conditioner is included in the search condition.
A navigation device characterized by that. The navigation device according to any one of claims 3 to 5, wherein
A storage unit that stores energy usage information that associates in advance energy usage required to move the link with respect to a link that configures the road,
The facility search means specifies the energy use amount using an energy use amount associated with a link constituting a route from the current location to each facility in the process of specifying the energy use amount.
A navigation device characterized by that. The navigation device according to any one of claims 3 to 6, wherein
Destination setting means for setting the destination;
Route search means for searching for a route from a designated point to the destination;
Further comprising
In the facility search process for the facility that satisfies the search condition, the facility search means uses the energy usage of the power source used on the route to each facility and the power source used on the route from the facility to the destination. Identify energy usage and
The search result display means arranges and displays the facilities in order of decreasing energy usage specified by the facility search means.
A navigation device characterized by that. The navigation device according to claim 7,
Furthermore, it has a current location identifying means for identifying the current location,
The facility search means uses the current location as the destination.
A navigation device characterized by that. A facility search method for a navigation device,
The navigation device
A search condition designation accepting step for accepting designation of a search condition when searching for facilities;
A facility search step for searching for facilities satisfying the search conditions;
A search result display step for displaying the searched facilities in a predetermined order in a selectable manner;
Carried out
In the search result display step, among the facilities that satisfy the search conditions, the duplication of facilities similar to the facilities displayed in the upper order is excluded and displayed.
The facility search method characterized by this.

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