JP2004184129A - Navigation system and program of route guidance method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To comfortably drive a motor vehicle from a present location to a destination. <P>SOLUTION: The navigation system comprises a navigation information acquisition processing means 91 for acquiring navigation information; a destination setting processing means 92 for setting a destination; a conspicuous object setting processing means 93 for setting conspicuous objects according to the set destination on the basis of the navigation information; a specific section retrieval processing means 94 for retrieving a route from the set conspicuous objects to the destination; a determination processing means 96 for determining whether conditions for starting detailed guidance are satisfied or not on the basis of the locational relation between the present location and the retrieved route while the motor vehicle is traveling; and a detailed guidance processing means 97 for performing guidance from the present location to the destination in the case that the conditions for starting detailed guidance are satisfied. When the conditions for starting detailed guidance are satisfied, guidance is performed on the retrieved route. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a navigation system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a navigation device, for example, a current position of a vehicle, that is, a current position is detected by a GPS (global positioning system), and based on a rotational angular velocity of the vehicle, that is, a turning angle detected by a gyro sensor, The direction of the vehicle, that is, the direction of the host vehicle is detected, map data is read from the data recording unit, a map screen is formed on the display unit, and the current location, a map around the current location, and the host vehicle direction are displayed on the map screen. It is displayed. Therefore, the driver, who is the operator, can drive the vehicle according to the current location, the map around the current location, and the own vehicle direction displayed on the map screen.
[0003]
When the driver inputs a destination and sets search conditions, a route from the departure point represented by the current position to the destination is searched based on the search conditions. The searched route, that is, the searched route is displayed on the searched route display screen formed on the display unit together with the current position and the destination. Therefore, the driver can drive the vehicle according to the displayed search route. When the driver inputs a departure point different from the current position, a route from the input departure point to the destination is searched.
[0004]
However, when the driver is unfamiliar with the geography near the destination, the driver cannot imagine the position of the destination, and feels anxiety while driving the vehicle.
[0005]
Therefore, there is provided a navigation device that extracts a point that is easy for the driver to understand, sets the extracted point as a destination or a passing point, and guides a route (for example, see Patent Document 1).
[0006]
[Patent Document 1]
JP-A-8-14920
[0007]
[Problems to be solved by the invention]
However, in the conventional navigation device, since the guidance of the search route is always performed while the vehicle is traveling along the search route from the current location or the departure point to the destination, the driver always considers the guidance. Must be.
[0008]
An object of the present invention is to solve the problems of the conventional navigation device and to provide a navigation system and a program for a route guidance method that enable a vehicle to travel comfortably from a current location or a departure location to a destination. .
[0009]
[Means for Solving the Problems]
For this purpose, in the navigation system of the present invention, the navigation information acquisition processing means for acquiring navigation information, the destination setting processing means for setting a destination, and the destination corresponding to the set destination based on the navigation information. Prominent property setting processing means for setting a prominent property, a specific section search processing means for searching for a route from the set prominent property to a destination, A detailed guidance start condition satisfaction determination processing unit that determines whether the detailed guidance start condition is satisfied based on the detailed guidance start condition, and a detailed guidance processing unit that guides a route from the current location to the destination when the detailed guidance start condition is satisfied. Having.
[0010]
In another navigation system according to the present invention, the detailed guidance start condition satisfaction determination processing means may further include a condition that the detailed guidance start condition is satisfied when the current location is on a searched route from the conspicuous property to the destination. Is determined.
[0011]
In still another navigation system according to the present invention, the detailed guidance processing means guides a route from a current location to a destination via a searched route.
[0012]
In still another navigation system according to the present invention, the detailed guidance start condition satisfaction determination processing means determines that the detailed guidance start condition is satisfied when the distance from the current location to the conspicuous property is shorter than a threshold value. Is determined.
[0013]
In still another navigation system according to the present invention, the threshold value is a distance from a prominent property to a destination.
[0014]
Still another navigation system of the present invention further includes a re-search processing means for searching for a route from at least the current position to a conspicuous property.
[0015]
Then, the detailed guidance processing means guides a route from the current location to a destination via a conspicuous property.
[0016]
In still another navigation system according to the present invention, a navigation information acquisition processing unit that acquires navigation information, and a prominent property setting processing unit that sets a prominent property corresponding to a set destination based on the navigation information. , A specific section search processing means for searching for a route from a set conspicuous property to a destination, and whether or not a detailed guidance start condition is satisfied based on the positional relationship between the current location and the searched route while the vehicle is running. And a transmission processing means for transmitting a route from the current position to the destination when the detailed guidance start condition is satisfied.
[0017]
In the program of the route guidance method according to the present invention, the computer is adapted to correspond to a set destination based on the navigation information, a navigation information acquisition processing means for acquiring navigation information, a destination setting processing means for setting a destination. Prominent property setting processing means for setting a prominent property by letting the user search, a specific section search processing means for searching for a route from the set prominent property to the destination, based on the positional relationship between the current location and the searched route while the vehicle is running Functioning as a detailed guidance start condition satisfaction determination processing means for determining whether the detailed guidance start condition is satisfied, and as a detailed guidance processing means for guiding a route from the current position to the destination when the detailed guidance start condition is satisfied. Let it.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0019]
FIG. 1 is a functional block diagram of the navigation system according to the first embodiment of the present invention.
[0020]
In the figure, reference numeral 91 denotes navigation information acquisition processing means for acquiring navigation information; 92, destination setting processing means for setting a destination; and 93, based on the navigation information, a noticeable property corresponding to the set destination. The prominent property setting processing means to be set, 94 is a specific section search processing means for searching for a route from the set prominent property to the destination, and 96 is based on the positional relationship between the current location and the searched route while the vehicle is running. The detailed guidance start condition satisfaction determination processing means 97 for determining whether the detailed guidance start condition is satisfied, and 97 is a detailed guidance processing means for guiding a route from the current position to the destination when the detailed guidance start condition is satisfied. .
[0021]
FIG. 2 is a diagram showing a navigation system according to the first embodiment of the present invention.
[0022]
In the figure, reference numeral 14 denotes an information terminal, for example, a navigation device as an in-vehicle device mounted on a vehicle. The navigation device 14 includes a GPS sensor 15 as a current position detection unit for detecting a current position and the like, map data, road data, Basic information of the navigation device 14 such as search data, that is, a data recording unit 16 as an information recording unit in which navigation information is recorded, various programs, functions as a computer based on data, etc. A navigation processing unit 17 for performing various arithmetic processing such as a navigation process, a direction sensor 18 as a direction detection unit for detecting the direction of the vehicle, and a predetermined input when operated by a driver as an operator. Of the operation unit 34 as a first input unit of the A display unit 35 as a first output unit for displaying and notifying the driver, a voice input unit 36 as a second input unit for performing a predetermined input by voice, and various displays by voice. An audio output unit 37 as a second output unit for notifying the driver, a communication unit 38 as a transmission / reception unit functioning as a communication terminal, and the navigation processing unit 17 includes an operation unit 34, a display unit 35, The audio input unit 36, the audio output unit 37, and the communication unit 38 are connected. Further, a vehicle speed sensor 41 as a vehicle speed detecting unit is also connected to the navigation processing unit 17.
[0023]
The GPS sensor 15 detects a current position on the earth by receiving radio waves generated by artificial satellites, and also detects time.
[0024]
Note that a distance sensor, a steering sensor, an altimeter, or the like can be used alone or in combination as the current position detection unit instead of the GPS sensor 15. The distance sensor detects the distance between predetermined points on a road, and calculates the distance based on the rotational speed of a wheel (not shown) or by integrating acceleration twice. The steering sensor detects a rudder angle, and is, for example, an optical rotation sensor attached to a rotating portion of a steering wheel (not shown), a rotation resistance sensor, an angle sensor attached to a wheel, and the like. Can be used.
[0025]
A gyro sensor, a geomagnetic sensor, or the like can be used as the direction sensor 18. As the gyro sensor, for example, a gas rate gyro, a vibration gyro, or the like is used, and detects the direction of the vehicle by integrating the turning angle. The terrestrial magnetism sensor detects the azimuth of the vehicle by measuring terrestrial magnetism.
[0026]
The data recording unit 16 includes a database including data files such as a map data file, an intersection data file, a node data file, a road data file, a search data file, a facility information data file, and the like. Data for outputting various images is recorded in 35. The data recording section 16 also records data for outputting predetermined information by the audio output section 37.
[0027]
For example, the map data file contains map data for displaying a map, the intersection data file contains intersection data about each intersection, the node data file contains node data about node points, and the road data file contains road data about roads. The search data file records search data for searching for a route, and the facility information data file records facility information data relating to various facilities. The intersection data, node data, road data, search data, etc. Road condition data representing the road condition is configured. The node data is composed of data indicating actual branch points (including intersections, T-shaped roads, etc.), node points, links between node points connecting the node points, and the like.
[0028]
According to the road data, for the road itself, width, slope, cant, bank, road surface condition, number of lanes of the road, places where the number of lanes decreases, places where the width decreases, etc. Curvature radius, intersections, T-shaped roads, corner entrances, etc., road attributes, downhill roads, uphill roads, etc., road types, general roads such as national roads, prefectural roads, narrow streets, expressways, urban expressways , Expressways and toll roads, respectively. Furthermore, the road data represents railroad crossings, attachment roads (ramp ways) at entrances and exits of expressways, tollgates on expressways and toll roads, and the like.
[0029]
Further, the facility information data represents facility information of facilities such as hotels, gas stations, parking lots, sightseeing spots, and department stores in each region.
[0030]
The navigation processing unit 17 includes a CPU 31 as an arithmetic device and a control device that performs overall control of the navigation device 14, and a DRAM as a first recording medium used as a working memory when the CPU 31 performs various arithmetic processes. , An SRAM, an MRAM, an FeRAM, and the like, and a ROM 33 as a second recording medium in which various programs for searching for a route to a destination, route guidance, and the like are recorded in addition to a control program. .
[0031]
A semiconductor memory, a magnetic core, or the like is used as an internal storage device such as the RAM 32 and the ROM 33. Further, a flash memory (not shown) as a third recording medium may be provided in the navigation processing unit 17 in addition to the RAM 32, the ROM 33, and the like. Then, an MPU or the like can be used instead of the CPU 31 as an arithmetic unit and a control unit.
[0032]
Further, the data recording unit 16 includes a magnetic disk such as a hard disk or a flexible disk (not shown) as a fourth recording medium provided as an external storage device in order to record the various data. And a head such as a read / write head (not shown) for reading and writing data. A magnetic tape, a magnetic drum, a CD, a MD, a DVD, an optical disk, an MO, an IC card, an optical card, and the like are provided in the data recording unit 16 as a fifth recording medium similarly disposed as an external storage device. You can also.
[0033]
Then, various programs can be recorded in the ROM 33 and various data can be recorded in the data recording unit 16, but the programs and data can also be recorded in an external storage device, for example, a hard disk or the like. In this case, for example, the flash memory can be provided in the navigation processing unit 17, and the program, data, and the like can be read from the hard disk or the like and written to the flash memory. Therefore, the program, data, and the like can be updated by replacing the hard disk and the like. When an automatic transmission control device is mounted to control an automatic transmission (not shown) mounted on the vehicle, a program, data, and the like for controlling the automatic transmission control device are also stored in the hard disk or the like. Can be recorded. Further, the program, data, and the like can be received via the communication unit 38 and written to the flash memory.
[0034]
The operation unit 34 is operated by a driver to correct the current position at the start of traveling, to input a departure point and a destination, to input a passing point, and to operate the communication unit 38. And a keyboard, a mouse, a barcode reader, a light pen, a remote control device for remote operation, a joystick, etc., which are arranged independently of the display unit 35 can be used. Further, as the operation unit 34, a predetermined input operation is performed by touching or clicking an image operation unit such as various keys, switches, and buttons displayed as images on a screen formed on the display unit 35. Can be.
[0035]
As the display unit 35, a display such as a CRT display, a liquid crystal display, and a plasma display can be used, or a hologram device that projects a hologram on a windshield of a vehicle can be used. Then, a current position, a map, a searched route, guidance information along the searched route, traffic information, and the like are displayed on a screen formed on the display unit 35, and a characteristic photograph at the intersection or the searched route, a frame diagram, and the like are displayed. In addition to displaying the distance to the next intersection and the traveling direction at the next intersection, it also displays operation guidance, operation menus, and key guidance for the image operation unit, operation unit 34, voice input unit 36, and the like. Or display FM multiplex broadcast programs and the like.
[0036]
The voice input unit 36 is configured by a microphone (not shown) or the like, and can input necessary information by voice. Further, the voice output unit 37 includes a voice synthesizer and a speaker (not shown), and the search route, guidance information, traffic information, and the like are output from the voice output unit 37, for example, as voice synthesized by the voice synthesizer. . In addition to the voice synthesized by the voice synthesizer, it is also possible to output various sounds, various guidance information previously recorded on a tape, a memory, or the like.
[0037]
The communication unit 38 distributes various information transmitted from a road traffic information center such as a VICS (registered trademark: Vehicle Information and Communication System) center as a first information provider along a road. A beacon receiver for receiving as a radio beacon or an optical beacon via a radio beacon device, an optical beacon device or the like, an FM receiver for receiving as an FM multiplex broadcast via an FM broadcast station, and the like are provided. The beacon receiver receives traffic information such as traffic congestion information, regulation information, parking lot information, traffic accident information, and congestion information of a service area, and the FM receiver receives news, General information such as a weather forecast can be received as FM multiplex information. The beacon receiver and the FM receiver are unitized and arranged as a VICS receiver, but they can be arranged separately.
[0038]
Further, the communication section 38 can also receive various data such as D-GPS information for detecting a detection error of the GPS sensor 15 transmitted from a predetermined base station. Further, the communication unit 38 can receive the position information by a radio beacon, an optical beacon, or the like, and detect the current position. In this case, the beacon receiver functions as a current position detection unit.
[0039]
Further, the communication unit 38 can also receive various information such as traffic information and general information from the information center 51 as a second information provider. Therefore, the communication unit 38 and the information center 51 are connected via the network 43.
[0040]
A navigation system is configured by the navigation device 14, the information center 51, the network 43, and the like, and various types of information are transmitted and received between the communication unit 38 and a communication unit (not shown) of the information center 51.
[0041]
In this embodiment, in order to make the communication unit 38 function as a communication terminal, a communication device is provided integrally with the communication unit 38. However, a communication device is provided separately from the communication unit 38. And the communication device and the communication unit 38 can be connected. In this case, as a communication device, a mobile phone such as a mobile phone, a car phone, or a PHS, a wireless LAN card, or the like, a personal computer, a portable computer, a personal digital assistant (PDA), an electronic organizer, and a videophone Alternatively, a game machine or the like having a communication function can be used.
[0042]
The network 43 includes a LAN (Local Area Network), a WAN (Wide Area Network), an intranet, a mobile telephone network, a telephone network, a public communication network, a dedicated communication network, and a communication network such as the Internet. Communication means can be used. Communication means utilizing CS broadcasting, BS broadcasting, terrestrial digital television broadcasting, FM multiplex broadcasting, or the like by a broadcasting satellite can also be used. Further, communication means such as a non-stop automatic toll payment system (ETC) and a border communication system (DSRC) used in the Intelligent Transport System (ITS) can be used.
[0043]
The information center 51 may be operated by any one of an individual, a company, an organization, a local government, a governmental agency, or the like, and may be operated by the VICS (registered trademark) center.
[0044]
The information center 51 includes a server 53, the communication unit, and the like. The server 53 performs bidirectional communication between the information center 51 and the navigation device 14, and provides traffic information, general information, and the like. Is To this end, the server 53 includes a CPU 54, a RAM 55, a ROM 56, and the like as an arithmetic device and a control device, and functions as a computer based on predetermined programs, data, and the like. Note that the server 53 and the navigation processing unit 17 may constitute a computer.
[0045]
A database (DB) 57 as an information recording unit is connected to the server 53, and the same data as various data (including navigation information) recorded in the data recording unit 16 is stored in the database 57. Can be recorded.
[0046]
The CPU 54 receives traffic information, general information, and the like transmitted from the VICS (registered trademark) center or the like, records it in the database 57 as primary information, performs statistical processing by processing the primary information, Statistical data that constitutes history information indicating the history of traffic congestion, traffic congestion prediction information for predicting traffic congestion, and the like are created, and the statistical data is recorded in the database 57 as secondary information. In the present embodiment, in creating the statistical data, the history information includes detailed conditions such as date and time, day of the week, weather, various events, season, and facility information (the presence or absence of large facilities such as department stores and supermarkets). Added.
[0047]
Next, a basic operation of the navigation system having the above configuration will be described.
[0048]
First, when the operation unit 34 is operated by the driver and the navigation device 14 is activated, a navigation initialization processing means (not shown) of the CPU 31 performs a navigation initialization process, and the current position and the azimuth detected by the GPS sensor 15. The direction of the vehicle detected by the sensor 18 is read, and various data are initialized. A matching processing unit (not shown) of the CPU 31 performs a matching process, and determines the current location on any of the road links based on the read trajectory of the current location and the shape, arrangement, and the like of the road links constituting the surrounding roads. The current location is identified by determining whether the current position is located.
[0049]
Subsequently, the navigation information acquisition processing means 91 (FIG. 1) as the first information acquisition processing means of the CPU 31 performs the navigation information acquisition processing as the first information acquisition processing, and stores the navigation information in the data recording unit 16. From the information center 51 via the communication unit 38. When acquiring the navigation information from the information center 51, the navigation information acquisition processing means 91 downloads the received navigation information to a flash memory, a hard disk, or the like. In addition, when navigation information is acquired via the communication unit 38, a program can also be acquired.
[0050]
The display processing means (not shown) of the CPU 31 performs display processing, forms a map screen on the display unit 35, and displays the current location, a map around the current location, and the own vehicle direction on the map screen. Therefore, the driver can drive the vehicle according to the current position, the map around the current position, and the own vehicle direction.
[0051]
Further, the navigation device 14 or the navigation system can be used for searching a route. In this case, when the driver operates the operation unit 34 to input a destination, the destination setting processing means 92 of the CPU 31 performs a destination setting process to set the destination. Note that a departure place can be input and set as needed. When the destination is set, the route search processing means (not shown) of the CPU 31 or the CPU 54 performs a route search process to read the current location, the destination, and the like, and also reads the search data and the like from the data recording unit 16 to read the current location. Based on the destination and the search data, a route from the departure point to the destination represented by the current location is searched, and route data representing the searched route is output.
[0052]
Further, a guide processing means (not shown) of the CPU 31 performs a guide process to guide a driver on a search route. For this purpose, the guidance processing means sends a guidance command to the display processing means, and the display processing means reads the route data according to the guidance command, and displays a search route on the map screen according to the route data.
[0053]
Then, when the route search processing is performed in the information center 51, the transmission processing means (not shown) of the CPU 54 performs the transmission processing, transmits the route data representing the searched route to the navigation device 14, and the CPU 31 acquires the second information. Route information acquisition processing means (not shown) as processing means performs route information acquisition processing as second information acquisition processing, and receives and acquires the route data. Subsequently, the guidance processing means sends a guidance command to the display processing means, and the display processing means reads the route data according to the guidance command, and displays a search route on the map screen according to the route data.
[0054]
The guidance processing means sends a guidance command to a voice output processing means (not shown) of the CPU 31, and the voice output processing means performs a voice output process in accordance with the guidance command, and outputs a search route from the voice output unit 37 in voice.
[0055]
In this way, the search route is guided, and the driver can drive the vehicle according to the guided search route.
[0056]
Note that the navigation device 14 can receive traffic information, general information, and the like via the communication unit 38. For this purpose, the additional information acquisition processing means (not shown) as the third information acquisition processing means of the CPU 31 performs additional information acquisition processing as third information acquisition processing, and receives the traffic information, general information, and the like as additional information. And get. Therefore, the display processing means displays traffic information, general information, and the like on the map screen.
[0057]
The traffic information includes information type data representing a type of information, secondary mesh X and Y data for specifying a secondary mesh as a mesh, and a road link connecting two points (for example, an intersection). And link number data indicating up / down, and link information indicating the content of information provided in association with the link number data. The link information includes, for example, traffic congestion from the starting point of the road link. It is composed of congestion head data indicating the distance to the head, congestion degree data indicating the degree of congestion, congestion length data indicating the congestion section from the head of the congestion to the end of the congestion, and the like.
[0058]
Therefore, the display processing means converts each link information of the traffic information into, for example, a traffic congestion arrow as a traffic condition index indicating whether the traffic is congested, whether the road is up or down or a congested section. A congestion arrow is displayed along a road on the map screen. In this case, the color of the road, the congestion arrow, and the like is changed to red, orange, etc., depending on the degree of congestion.
[0059]
In this way, the driver can know the traffic congestion state on the road on which the vehicle is to run, the searched route, and the like.
[0060]
By the way, as described above, when the route search process is performed, the search route from the departure point to the destination is displayed on the map screen. However, when the driver is unfamiliar with the geography near the destination, I cannot imagine the position of the destination and feel anxious while driving the vehicle.
[0061]
Therefore, in the present embodiment, the normal search mode and the simple search mode can be set as the guidance mode of the search route, and the driver selects the simple search mode in the initial menu or the like, for example. Then, a predetermined facility whose location or the like is understood by the driver is searched, the searched facility is set as a conspicuous property, and a route from the conspicuous property to the destination is provided. While the vehicle is traveling from the departure place to the conspicuous property, route guidance is not performed.
[0062]
Next, the operation of the navigation system when the simple search mode is selected will be described.
[0063]
FIG. 3 is a main flowchart showing the operation of the navigation system according to the first embodiment of the present invention.
[0064]
First, when the operation unit 34 (FIG. 2) is operated by the driver and the navigation device 14 is activated, the current position is detected by the GPS sensor 15 and the direction of the own vehicle is detected by the direction sensor 18. Subsequently, the navigation initialization is performed. The processing means performs a navigation initialization process, reads the current position and the own vehicle direction, and initializes various data.
[0065]
Next, the navigation information acquisition processing means 91 (FIG. 1) reads out and acquires the navigation information from the data recording unit 16, and the display processing means forms a map screen on the display unit 35. Then, the current location, a map around the current location, and the own vehicle direction are displayed.
[0066]
When the driver selects the simple search mode from the initial menu or the like, the mode setting processing means (not shown) of the CPU 31 performs a mode setting process to set the simple search mode. Subsequently, when the driver operates the operation unit 34 and clicks (or touches) a predetermined destination setting key to obtain a search route to a predetermined destination, the display processing unit A setting screen is formed, and a message such as "Please input a destination" is displayed on the setting screen. Therefore, when the driver inputs a destination, the destination setting processing means 92 sets a predetermined point as the destination.
[0067]
Subsequently, the prominent property setting means 93 of the CPU 31 performs a prominent property setting process, and sets a prominent property corresponding to the set destination based on the navigation information. Then, in the prominent property setting process, if no prominent property is set, a route from the departure place to the destination is searched, and the searched route is guided.
[0068]
For this purpose, the route search processing means of the CPU 31 performs a route search process, based on the current location, the destination, and the search data, and according to a predetermined search condition, from the departure location represented by the current location to the destination. The route is searched, and route data representing the searched route is output.
[0069]
Then, the guidance processing means of the CPU 31 performs a guidance process to guide the driver on a search route from the departure place to the destination. For this purpose, the guidance processing means sends a guidance command to the display processing means, and the display processing means reads the route data according to the guidance command, and displays a search route on the map screen according to the route data.
[0070]
On the other hand, when a prominent property is set in the prominent property setting process, the specific section search processing means 94 of the CPU 31 performs a specific section search process, reads the prominent property, the destination, and the search data, and sets the search data. Based on the search, a route in a specific section from the prominent property to the destination is searched, and route data is output. Then, the route data is recorded in the RAM 32.
[0071]
Subsequently, when the driver drives the vehicle toward a conspicuous property, an arrival determination processing unit (not shown) of the CPU 31 performs an arrival determination process to determine whether the vehicle has reached a conspicuous property, and the vehicle is conspicuous. When the vehicle arrives at the property, the detailed guidance processing means 97 of the CPU 31 performs a detailed guidance process, reads the route data from the RAM 32, and displays the searched route on a map screen, thereby guiding the driver to the searched route. Further, the detailed guidance processing means 97 sends a guidance command to the voice output processing means, and the voice output processing means performs voice output processing in accordance with the guidance command, and outputs the search route from the voice output unit 37 by voice. In this way, the driver can drive the vehicle along the search route from the prominent property to the destination.
[0072]
In this way, a prominent property is set, so even if the driver is unfamiliar with the geography near the destination, the driver can imagine the position of the destination based on the prominent property. You will not feel anxious while you are there.
[0073]
Also, when driving a vehicle along a search route from the current location or departure point to the destination, guidance on the search route is not performed until the vehicle reaches a conspicuous property, so the driver must always consider the guidance. There is no. Therefore, the burden on the driver can be reduced when the vehicle runs.
[0074]
By the way, as described above, even if the conspicuous property is set and the route from the conspicuous property to the destination is searched, the driver does not necessarily drive the vehicle toward the conspicuous property. Therefore, in the present embodiment, guidance of a search route from a conspicuous property to a destination is started before reaching the conspicuous property as needed. For this reason, after the specific section search processing is performed, if the vehicle has not reached a conspicuous property, the detailed guidance start condition satisfaction determination processing means 96 of the CPU 31 performs the detailed guidance start condition satisfaction determination processing and performs a predetermined guidance. It is determined whether the detailed guidance start condition is satisfied periodically, that is, based on a search route from the current location and the conspicuous property to the destination at predetermined preset timings (two minutes in the present embodiment). When the detailed guidance start condition is satisfied, the detailed guidance processing means 97 starts detailed guidance based on the search route obtained in the specific section search processing. It waits until a conspicuous property is reached or the detailed guidance start condition is satisfied.
[0075]
For this purpose, the detailed guidance processing means 97 reads the route data from the RAM 32 according to the guidance command, and displays the searched route on the map screen. Further, the detailed guidance processing means 97 sends a guidance command to the voice output processing means, and the voice output processing means performs voice output processing in accordance with the guidance command, and outputs the search route from the voice output unit 37 by voice. In this way, the driver can drive the vehicle along the search route from the current location to the destination.
[0076]
Further, even when the vehicle does not reach a conspicuous property, the searched route is guided, so that the convenience is extremely high.
[0077]
Next, the flowchart will be described.
Step S1 A destination is set.
Step S2: Perform prominent property setting processing.
Step S3: Determine whether or not a prominent property is set. If a conspicuous property has been set, the process proceeds to step S6; otherwise, the process proceeds to step S4.
Step S4: A route search process is performed.
Step S5: Perform a guidance process, and end the process.
Step S6: A specific section search process is performed.
Step S7: It is determined whether or not a conspicuous property has been reached. If the property has reached a conspicuous property, the procedure proceeds to step S9, and if not, the procedure proceeds to step S8.
Step S8: A detailed guidance start condition satisfaction determination process is performed.
Step S9: It is determined whether the detailed guidance start condition is satisfied. If the detailed guidance start condition is satisfied, the process proceeds to step S10; otherwise, the process returns to step S7.
Step S10: Perform a detailed guidance process and end the process.
[0078]
Next, a subroutine of the prominent property setting process in step S2 of FIG. 3 will be described.
[0079]
FIG. 4 is a diagram showing a subroutine of a noticeable property setting process according to the first embodiment of the present invention.
[0080]
The prominent property setting means 93 (FIG. 1) of the CPU 31 (FIG. 2) performs a prominent property setting process and sets a prominent property corresponding to the set destination. For that purpose, the notable property candidate list creation processing means (not shown) of the noticeable property setting processing means 93 performs a noticeable property candidate list creation process, and based on the navigating information, determines a facility that satisfies a predetermined candidate condition among the facilities. It is extracted as a prominent property candidate, and a prominent property candidate list including a list of one or more facilities is created.
[0081]
In this embodiment, in the prominent property candidate list created by the prominent property candidate creation processing, prominent property candidates are listed in order of proximity to the destination, and the setting processing unit performs processing in order of proximity to the destination. A prominent property is set, but in other embodiments, prominent property candidates can be listed in any order. In this case, the display processing means 94 forms a list display screen on the display unit 35 and displays a prominent property candidate list on the list display screen. The prominent property candidate list includes the names of facilities that are candidates for each prominent property, the positional relationship between the facilities and the destination, and the like. Therefore, when the driver selects a predetermined facility based on the name of each facility that is a candidate for each of the conspicuous properties, the positional relationship between the facility and the destination, the setting processing unit determines the selected facility. Set as a prominent property.
[0082]
If no candidate condition is satisfied and the conspicuous property candidate list is an empty set, the display processing means creates a conspicuous property display screen on the display unit 35, and no prominent property is found on the conspicuous property display screen. Is displayed and the driver is notified that a conspicuous property was not found. In this case, the display processing means constitutes a notification processing means, and notification processing is performed by the notification processing means.
[0083]
On the other hand, if the candidate condition is satisfied and the conspicuous property candidate list is not an empty set, the not-shown setting processing means of the conspicuous property setting processing means 93 performs a setting process to change the conspicuous property candidate list to the destination. The closest facility is extracted, and the closest facility is set as a prominent property. The notable property display processing means (not shown) of the notable property setting processing means 93 displays the set prominent property by name on the prominent property display screen. In this case, in addition to the name, the positional relationship between the prominent property and the destination, for example, the distance from the prominent property to the destination, the direction from the prominent property to the destination, and the like are displayed as necessary. Whether the object is closest to the destination is determined based on the distance between the conspicuous property and the destination, for example, the linear distance between the coordinates of the conspicuous property and the coordinates of the destination.
[0084]
The consent key and the next key are formed on the conspicuous property display screen, and when the driver recognizes that the conspicuous property has been set and clicks the consent key, the specific section search process starts as described above. If the driver does not understand that the conspicuous property has been set, when the driver clicks the next key, the setting processing unit determines whether there is a facility next to the destination, and If there is a facility close to, the next closest facility is set as a prominent property. Then, when the driver understands that the next closest facility has been set as a prominent property and clicks the OK key, the prominent property setting processing means 93 starts the specific section search processing.
[0085]
Next, the flowchart will be described.
Step S2-1 Perform a prominent property candidate list creation process.
Step S2-2: It is determined whether or not the conspicuous property candidate list is an empty set. If the conspicuous property candidate list is an empty set, the process proceeds to step S2-3; otherwise, the process proceeds to step S2-4.
Step S2-3: Notify that no conspicuous property is found, and return.
Step S2-4: The facility closest to the destination is set as a prominent property.
Step S2-5: Display a prominent property.
Step S2-6: It is determined whether or not the driver has accepted. If the driver understands, the process returns. If the driver does not understand, the process proceeds to step S2-7.
Step S2-7: It is determined whether there is a facility next to the destination. If there is a facility closest to the destination, the process returns to step S2-5, otherwise, returns.
[0086]
Next, a subroutine of a prominent property candidate list creation process in step S2-1 in FIG. 4 will be described.
[0087]
FIG. 5 is a diagram showing a subroutine of a prominent property candidate list creation process according to the first embodiment of the present invention.
[0088]
First, the prominent property candidate list creation processing means sets a search range centered on the destination. In the present embodiment, for example, an area within a circle whose center is the destination and whose radius is a predetermined value is set as the search range.
[0089]
Subsequently, the prominent property candidate search processing means of the prominent property candidate list creation processing means performs a prominent property candidate search process, refers to the prominent property data file created in the facility information data file, and According to the prominent property data recorded in the file, facilities existing within the search range are searched, and a facility list within the range is created.
[0090]
In addition, the conspicuous property data is a facility in which at least one of the area (area) and the height satisfies a predetermined condition irrespective of the size and the height and the facility which is equal to or more than a preset reference value, and (For example, a facility having a prominent signboard, a government office, a station, a school, a hospital, etc.) having the attribute of, and recorded by genre.
[0091]
Subsequently, the prominent property candidate extraction processing means of the prominent property candidate list creation processing means performs prominent property candidate extraction processing, and determines whether there is a facility belonging to the genre designated by the driver in the facilities of the facility list within the range. If there is a facility that belongs to the specified genre, the facility that belongs to the specified genre is extracted, and the route that passes through the facility from the extracted facilities is determined from the route from the current location to the destination. Delete facilities that are longer than a certain length and create a prominent property candidate list.
[0092]
Further, the prominent property candidate extraction processing means determines whether or not there is a facility whose at least one of the size and the height is equal to or larger than a threshold value in the facilities of the in-range facility list, and If at least one of the facilities is equal to or greater than the threshold, the facilities that are equal to or greater than the threshold are extracted, and from the extracted facilities, the facilities where the route passing through the facility is longer than a certain length from the current location to the destination are deleted. Create a prominent property candidate list. In addition, if the facility information data has only the width of the area and the height, the facility whose width is equal to or greater than the threshold is extracted, and if the facility information data has only the height, the facility whose height is equal to or greater than the threshold is extracted. Then, from the extracted facilities, the facility closest to the point Pe is selected as the conspicuous property Pf.
[0093]
In the present embodiment, it is determined whether or not at least one of the size and the height of the facilities in the facility list in the range is equal to or larger than a threshold, and at least one of the sizes and the heights is determined. If one of the facilities has a threshold or more, the facility that is equal to or greater than the threshold is extracted.However, it is determined whether there is a facility whose size and height are both equal to or greater than the threshold. If any facility has a threshold or more, it is also possible to extract facilities having a threshold or more.
[0094]
Further, the prominent property candidate extraction processing means determines whether there is a facility having an attribute as a prominent property in the facilities in the facility list within the range, and if there is a facility having an attribute as a prominent property, Is extracted, and among the extracted facilities, facilities whose route through the facility is longer than a route from the current location to the destination by a certain length or more are deleted, and a conspicuous property candidate list is created.
[0095]
Then, among the facilities in the facility list within the range, there is no facility belonging to the designated genre, there is no facility whose at least one of the size and the height is equal to or larger than the threshold, and there is no facility having an attribute as a conspicuous property. In this case, the prominent property candidate list creation processing means creates a prominent property candidate list of an empty set.
[0096]
In this way, facilities whose route through the facility is longer than the route from the current location to the destination by a certain length or more are deleted, so that the vehicle reaches the conspicuous property and then travels to the destination along the search route. In this case, it is possible to prevent the route from the current location to the destination from being significantly lengthened.
[0097]
Next, the flowchart will be described.
Step S2-1-1: A search range centering on the destination is set.
Step S2-1-2: Search for facilities existing within the search range, and create a list of facilities within the range.
Step S2-1-3: It is determined whether there is a facility belonging to the specified genre. When there is a facility belonging to the specified genre, the process proceeds to step S2-1-4, and when there is no facility, the process proceeds to step S2-1-6.
Step S2-1-4: Extract facilities belonging to the specified genre.
Step S2-1-5: Delete a facility whose route through the facility is longer than a route from the current location to the destination by a certain length or more, create a prominent property candidate list, and return.
Step S2-1-6: It is determined whether or not there is a facility in which at least one of the size and the height is equal to or larger than a threshold value. If at least one of the area and the height has a facility that is equal to or larger than the threshold, the process proceeds to step S2-1-7, and if there is no facility, the process proceeds to step S2-1-8.
Step S2-1-7: Extract facilities with a threshold value or more.
Step S2-1-8: It is determined whether there is a facility having an attribute as a conspicuous property. If there is a facility having an attribute as a conspicuous property, the flow proceeds to step S2-1-9; otherwise, the flow proceeds to step S2-1-10.
Step S2-1-9: Extract facilities having attributes as conspicuous properties.
Step S2-1-10: Create a conspicuous property candidate list of empty sets and return.
[0098]
Next, the subroutine of the detailed guidance start condition satisfaction determination processing in step S8 in FIG. 3 will be described.
[0099]
FIG. 6 is a diagram showing a subroutine of the detailed guidance start condition satisfaction determination processing according to the first embodiment of the present invention, and FIG. 7 is a diagram showing the operation of the detailed guidance start condition satisfaction determination processing according to the first embodiment of the present invention. It is a route map.
[0100]
First, the detailed guidance start condition satisfaction determination processing means 96 (FIG. 1) reads the current location Pp at each predetermined timing (two minutes in the present embodiment) set in advance, and in the specific section search processing. The route data of the obtained search route Rfg from the conspicuous property Pf to the destination Pg is read from the RAM 32 (FIG. 2), and based on the positional relationship between the current location Pp and the search route Rfg, it is determined whether or not the detailed guidance start condition is satisfied. to decide.
[0101]
In this case, it is determined whether or not the detailed guidance start condition is satisfied based on whether or not the current location Pp is on the search route Rfg. Therefore, the detailed guidance start condition satisfaction determination processing means 96 is specified in the matching processing. It is determined whether the number of the road link where the current location Pp is located matches the number of the road link constituting the route data. If the numbers of both road links match, the current location Pp is on the search route Rfg. When it is determined that the detailed guidance start condition is satisfied and the numbers of the two road links do not match, it is determined that the current location Pp is not on the search route Rfg and the detailed guidance start condition is not satisfied.
[0102]
As described above, when the vehicle travels, if the current location Pp is on the search route Rfg, the detailed guidance start condition is satisfied, and the detailed guidance processing unit 97 sets the current location Pp before the vehicle reaches the conspicuous property Pf. The guidance of the search route Rfg from to the destination Pg is started. In this case, since the distance from the current position Pp to the destination Pg on the search route Rfg is originally shorter than the entire distance of the search route Rfg for which the route is guided, the driver needs to always consider the guidance. And can reach the destination Pg with the shortest distance. Therefore, the vehicle can run comfortably.
[0103]
Next, the flowchart will be described.
Step S8-1: It is determined whether or not the current location Pp is on the search route Rfg from the conspicuous property Pf to the destination Pg. If the current location Pp is on the search route Rfg from the conspicuous property Pf to the destination Pg, the process proceeds to step S8-3, and if not, the process proceeds to step S8-2.
Step S8-2: Wait for two minutes to elapse, and return to step S8-1 when two minutes have passed.
Step S8-3: It is determined that the detailed guidance start condition is satisfied, and the routine returns.
[0104]
Next, a second embodiment of the present invention will be described.
[0105]
FIG. 8 is a main flowchart showing the operation of the navigation system according to the second embodiment of the present invention.
[0106]
In this case, the operations in steps S1 to S6 in FIG. 3 are the same as those in the first embodiment, and a description thereof will be omitted.
[0107]
Then, after the route from the prominent property to the destination is searched for in the specific section search process, when the driver drives the vehicle toward the prominent property, the CPU 31 (FIG. 2) as an arithmetic unit and a control device is not shown. The arrival determination processing means performs the arrival determination processing, determines whether or not the vehicle has arrived at a prominent property, and when the vehicle has reached the prominent property, the detailed guidance processing means 97 (FIG. 1) of the CPU 31 executes the detailed guidance processing. Is performed, the route data is read from the RAM 32, and the searched route is displayed on the map screen, thereby guiding the driver to the searched route. Further, the detailed guidance processing means 97 sends a guidance command to the voice output processing means, and the voice output processing means performs voice output processing in accordance with the guidance command, and outputs the search route from the voice output unit 37 by voice. In this way, the driver can drive the vehicle along the search route from the prominent property to the destination.
[0108]
By the way, as described above, the driver does not always drive the vehicle toward the conspicuous property. Therefore, in the present embodiment, if the vehicle has not reached a conspicuous property after the specific section search processing has been performed, the detailed guidance start condition satisfaction determination processing means 96 of the CPU 31 performs the detailed guidance start condition satisfaction determination processing. Is performed at predetermined intervals, that is, at predetermined timings (two minutes in the present embodiment) set in advance, based on the current location and the positional relationship between conspicuous properties, whether the detailed guidance start condition is satisfied. When the detailed guidance start condition is satisfied, the re-search processing means (not shown) of the CPU 31 performs a re-search process to read the current location, a conspicuous property, search data, and the like, and also reads the route data from the RAM 32 to read the current location, Based on the prominent property, search data, route data, etc., a new route from the current location to the destination via the prominent property is newly searched. And outputs the route data representing a new search path, for recording the route data in the RAM 32.
[0109]
In the present embodiment, the re-search processing means searches for a route from the current location to the conspicuous property, and combines the search route from the current location to the prominent property with the search route obtained in the specific section search process, thereby re-searching from the current location. The route to the destination via the prominent property is searched for. However, without reading the route data from the RAM 32, the route from the current location to the destination via the prominent property is determined using the prominent property as a passing point. You can also search for a new one.
[0110]
On the other hand, when the detailed guidance start condition is not satisfied, the vehicle waits until the vehicle reaches a conspicuous property or the detailed guidance start condition is satisfied.
[0111]
Subsequently, the detailed guidance processing means 97 performs a detailed guidance process, reads the route data from the RAM 32, and displays the searched route on the map screen, so that the driver can reach the destination from the current location to the destination via a prominent property. Guide the search route of. Further, the detailed guidance processing means 97 sends a guidance command to the voice output processing means, and the voice output processing means performs voice output processing in accordance with the guidance command, and outputs the search route from the voice output unit 37 by voice. In this way, the driver can drive the vehicle along the search route from the current location to the destination via a prominent property.
[0112]
Next, the flowchart will be described.
Step S11 A destination is set.
Step S12: Perform prominent property setting processing.
Step S13: Determine whether or not a prominent property is set. If a conspicuous property has been set, the process proceeds to step S16; otherwise, the process proceeds to step S14.
Step S14: A route search process is performed.
Step S15: Perform a guidance process, and end the process.
Step S16: A specific section search process is performed.
Step S17: It is determined whether or not a conspicuous property has been reached. If the property has reached a conspicuous property, the process proceeds to step S20, and if not, the process proceeds to step S18.
Step S18: A detailed guidance start condition satisfaction determination process is performed.
Step S19: It is determined whether or not the detailed guidance start condition is satisfied. If the detailed guidance start condition is satisfied, the process proceeds to step S20; otherwise, the process returns to step S17.
Step S20: A re-search process is performed.
Step S21: Perform a detailed guidance process and end the process.
[0113]
Next, the subroutine of the detailed guidance start condition satisfaction determination processing in step S18 in FIG. 8 will be described.
[0114]
FIG. 9 is a diagram showing a subroutine of a detailed guidance start condition satisfaction determination processing according to the second embodiment of the present invention, and FIG. 10 is a diagram showing the operation of the detailed guidance start condition satisfaction determination processing means in the second embodiment of the present invention. FIG.
[0115]
First, the detailed guidance start condition satisfaction determination processing means 96 (FIG. 1) of the CPU 31 (FIG. 2) reads the current location Pp at every predetermined timing (two minutes in the present embodiment) set in advance. The prominent property Pf is read, and it is determined whether the detailed guidance start condition is satisfied based on the positional relationship between the current location Pp and the prominent property Pf. In the present embodiment, since the search route Rfg is calculated, the positional relationship between the current location Pp and the conspicuous property Pf indicates the positional relationship between the current location Pp and the search route Rfg.
[0116]
In this case, the detailed guidance start condition satisfaction determination processing means 96 reads data (for example, coordinates) representing the position of the current position Pp, each prominent property Pf, and each position of the destination Pg, and reads data from the current location Pp to the prominent property Pf. The distance Lpf is calculated as a first straight-line distance, and the distance Lfg from the conspicuous property Pf to the destination Pg is calculated as a second straight-line distance, and the first straight-line distance is shorter than a second straight-line distance representing a threshold value. Then, it is determined whether or not the detailed guidance start condition is satisfied. If the first straight line distance is shorter than the second straight line distance, the detailed guidance start condition establishment determination processing means 96 determines that the detailed guidance start condition is satisfied, and the first straight line distance becomes the second straight line distance. If the distance is equal to or longer than the distance, the detailed guidance start condition satisfaction determination processing means 96 determines that the detailed guidance start condition is not satisfied.
[0117]
As described above, when it is determined that the first linear distance from the current position Pp to the conspicuous property Pf is shorter than the second linear distance from the conspicuous property Pf to the destination Pg, the vehicle is conspicuous by the detailed guidance processing means 97. Before reaching the property Pf, guidance on a search route Rpfg (consisting of the search route Rpf and the search route Rfg) from the current location Pp to the destination Pg via the prominent property Pf is started. In this case, the searched route Rpfg is originally longer than the searched route Rfg for which the route is to be guided, but since the distance Lpf is shorter than the distance Lfg, the driver does not need to always consider the guide. Therefore, the vehicle can run comfortably.
[0118]
In the present embodiment, the second straight-line distance is used as a threshold for determining whether or not the detailed guidance start condition is satisfied, but instead of the second straight-line distance, A set value can be used, or a function using a predetermined parameter as a variable can be used.
[0119]
Next, the flowchart will be described.
Step S18-1: It is determined whether or not the distance from the current location to the noticeable property is shorter than the distance from the noticeable property to the destination. If the distance from the current location to the conspicuous property is shorter than the distance from the conspicuous property to the destination, go to step S18-3. If the distance from the current location to the prominent property is more than the distance from the prominent property to the destination, go to step S18-. Proceed to 2.
Step S18-2: Wait for two minutes to elapse, and return to step S18-1 when two minutes have elapsed.
Step S18-3: It is determined that the detailed guidance start condition is satisfied, and the routine returns.
[0120]
In the present embodiment, it is determined whether the first linear distance is shorter than the second linear distance. If the first linear distance is shorter than the second linear distance, it is determined that the detailed guidance start condition is satisfied. The distance of the route from the current location Pp to the prominent property Pf is calculated as the first route distance, and the distance of the route from the prominent property Pf to the destination Pg is calculated as the second route distance. However, when the first route distance is shorter than the second route distance, it can be determined that the detailed guidance start condition is satisfied.
[0121]
In this case, since the route from the prominent property Pf to the destination Pg has already been searched as the search route Rfg in the specific section search process, the first route distance is calculated based on the route data representing the search route Rfg. can do. On the other hand, the route from the current location Pp to the conspicuous property Pf needs to be searched before the detailed guidance start condition satisfaction determination processing is performed. Then, after the specific section search processing is performed, if the vehicle has not reached a conspicuous property, the re-search processing means (not shown) of the CPU 31 performs the re-search processing and performs a route from the current location Pp to the conspicuous property Pf. To obtain a search route Rpf. Then, the first route distance is calculated based on route data representing the search route Rpf. In the re-search process, a route from the current location Pp to the destination Pg via the conspicuous property Pf can be searched to obtain a search route Rpfg.
[0122]
In the present embodiment, the navigation information acquisition processing means 91, the destination setting processing means 92, the noticeable property setting processing means 93, the display processing means 94, the detailed guidance start condition satisfaction determination processing means 96 and the detailed guidance processing means 97 are executed by the CPU 31. However, in another embodiment, the destination setting processing means 92 and the detailed guidance processing means 97 are provided in the CPU 31, and the navigation information acquisition processing means 91 and the prominent property setting processing are provided. The means 93, the display processing means 94, and the detailed guidance start condition satisfaction determination processing means 96 may be provided in the CPU 54.
[0123]
In this case, in the navigation device 14, when the destination setting processing unit 92 sets the destination, a transmission processing unit (not shown) of the CPU 31 performs a transmission process and transmits the destination to the information center 51 together with the current location. Then, in the information center 51, the navigation information acquisition processing means 91 acquires the navigation information, and the prominent property setting processing means 93 sets a prominent property corresponding to the set destination based on the navigation information, The CPU 31 searches for a route from the set conspicuous property to the destination, and outputs route data representing the searched route. Further, the detailed guidance start condition satisfaction determination processing means 96 determines whether or not the detailed guidance start condition is satisfied based on the positional relationship between the current position and the searched route while the vehicle is running. The transmission processing means (not shown) of the CPU 54 performs a transmission process and transmits the route data to the navigation device 14. Then, in the navigation device 14, the detailed guidance processing means 97 guides the route from the current position to the destination according to the route data.
[0124]
In this embodiment, the navigation device 14 is used as an information terminal. In other embodiments, a mobile phone such as a mobile phone, a car phone, or a PHS is used as an information terminal. Alternatively, a personal computer, a portable computer, a personal digital assistant (PDA), an electronic organizer, a videophone, a game device, or the like provided with a communication function can be used.
[0125]
It should be noted that the present invention is not limited to the above-described embodiment, but can be variously modified based on the gist of the present invention, and they are not excluded from the scope of the present invention.
[0126]
【The invention's effect】
As described above in detail, according to the present invention, it is determined whether the detailed guidance start condition is satisfied based on the positional relationship between the current position and the searched route, and if the detailed guidance start condition is satisfied, the searched route is determined. Is guided, so that the driver does not need to always consider the guidance and can run the vehicle comfortably.
[Brief description of the drawings]
FIG. 1 is a functional block diagram of a navigation system according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating a navigation system according to the first embodiment of the present invention.
FIG. 3 is a main flowchart showing an operation of the navigation system according to the first embodiment of the present invention.
FIG. 4 is a diagram illustrating a subroutine of a noticeable property setting process according to the first embodiment of the present invention.
FIG. 5 is a diagram showing a subroutine of a prominent property candidate list creation process according to the first embodiment of the present invention.
FIG. 6 is a diagram illustrating a subroutine of a detailed guidance start condition satisfaction determination process according to the first embodiment of the present invention.
FIG. 7 is a route diagram illustrating an operation of a detailed guidance start condition satisfaction determination process according to the first embodiment of the present invention.
FIG. 8 is a main flowchart showing an operation of the navigation system according to the second embodiment of the present invention.
FIG. 9 is a diagram illustrating a subroutine of a detailed guidance start condition satisfaction determination process according to the second embodiment of the present invention.
FIG. 10 is a route diagram illustrating an operation of a detailed guidance start condition satisfaction determination processing unit according to the second embodiment of the present invention.
[Explanation of symbols]
14 Navigation device
17 Navigation processing unit
31 CPU
43 Network
51 Information Center
53 server
91 Navigation information acquisition processing means
92 Destination setting processing means
93 Prominent property setting processing means
94 Specific section search processing means
96 Detailed guidance start condition satisfaction determination processing means
97 Detailed guidance processing means
Pf conspicuous property
Pg Destination
Pp Current location

Claims (8)

Navigation information acquisition processing means for acquiring navigation information, destination setting processing means for setting a destination, and prominent property setting processing means for setting a prominent property corresponding to the set destination based on the navigation information And a specific section search processing means for searching for a route from a set conspicuous property to a destination, and whether a detailed guidance start condition is satisfied based on a positional relationship between the current location and the searched route during traveling of the vehicle. A navigation system comprising: a detailed guidance start condition satisfaction determination processing unit for determining whether the detailed guidance start condition is satisfied; and a detailed guidance processing unit for guiding a route from a current position to a destination when the detailed guidance start condition is satisfied. 2. The navigation system according to claim 1, wherein the detailed guidance start condition satisfaction determination processing means determines that the detailed guidance start condition is satisfied when the current location is on a searched route from the conspicuous property to the destination. 3. The navigation system according to claim 1, wherein the detailed guidance processing unit guides a route from a current location to a destination via a route searched. The navigation system according to claim 1, wherein the detailed guidance start condition satisfaction determination processing means determines that the detailed guidance start condition is satisfied when a distance from the current location to the conspicuous property is shorter than a threshold value. The navigation system according to claim 3, wherein the threshold is a distance from a prominent property to a destination. 2. The navigation system according to claim 1, further comprising a re-search processing means for searching at least a route from the current location to the conspicuous property, wherein the detailed guidance processing means guides a route from the current location to the destination via the conspicuous property. . Navigation information acquisition processing means for acquiring navigation information; prominent property setting processing means for setting a prominent property corresponding to a set destination based on the navigation information; Specific section search processing means for searching for a route; and detailed guidance start condition satisfaction determination processing means for determining whether or not a detailed guidance start condition has been satisfied based on the positional relationship between the current position and the searched route while the vehicle is running. And a transmission processing means for transmitting a route from the current position to the destination when the detailed guidance start condition is satisfied. A navigation information acquisition processing means for acquiring navigation information, a destination setting processing means for setting a destination, and a prominent property setting processing for setting a prominent property corresponding to the set destination based on the navigation information. Means, a specific section search processing means for searching for a route from a set conspicuous property to a destination, and whether or not a detailed guidance start condition is satisfied based on the positional relationship between the current position and the searched route while the vehicle is running. A route guidance method program that functions as detailed guidance start condition satisfaction determination processing means for determining whether the route is from the current location to the destination when the detailed guidance start condition is satisfied. .

Images