JP3736382B2 - NAVIGATION DEVICE AND IMAGE DISPLAY METHOD PROGRAM - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a navigation apparatus and an image display method program.
[0002]
[Prior art]
Conventionally, in the navigation apparatus, the current position of the vehicle, that is, the current position is detected by the current position detection means, and the direction in which the vehicle is facing, that is, the direction of the vehicle is detected and read from the data recording unit. Based on the map data, a map screen is set on the display of the display unit, and the current location, the vehicle direction, and the surrounding map are displayed on the map screen. Further, the navigation device is used as a route search device, and when an input unit is operated by an operator, for example, a driver, and a destination is set, route search processing is performed, and a route from the current location to the destination is obtained. The searched route, that is, the searched route, is displayed on the map screen. Therefore, the driver can drive the vehicle according to the map or the searched route.
[0003]
By the way, when the searched route is a wide road, the road is divided by a plurality of lane markings to form a plurality of lanes that represent a vehicle traffic lane, and each lane is a lane dedicated to a left turn before the intersection. The vehicle may be assigned to a straight lane, a right turn lane, a left turn and straight lane, a right turn and straight lane, a right turn additional lane, and the like. On this type of road, when making a left or right turn at an intersection, move the vehicle to the left turn lane, right turn lane, left turn and straight lane, right turn and straight lane, right turn additional lane, etc. It is desirable to keep it.
[0004]
Therefore, when a road having a plurality of lanes is displayed as a search route on the map screen, lane information is displayed at an appropriate location on the map screen when the vehicle enters a range of a predetermined distance before the intersection. Like that.
[0005]
FIG. 2 is a diagram showing an example of a conventional map screen.
[0006]
In the figure, 51 is a clock indicating the expected arrival time of the destination, 52 is an azimuth display unit indicating the direction of the vehicle, 53 is a belt-shaped display area for displaying the date and time, distance scale, time, etc. A position mark 56 is a search route, and Cr1 and Cr2 are intersections within a predetermined range in the traveling direction of the vehicle from the current location. The search route 56 extends linearly in the map screen, and the vehicle is not guided to turn left or right at the intersections Cr1 and Cr2. Then, horizontally long strip-shaped icons i1 and i2 are displayed as lane information in a region adjacent to the intersections Cr1 and Cr2.
[0007]
By the way, each lane of the road is a lane dedicated to left turn that is a traffic division zone only for vehicles that turn left at the intersection, a lane that is dedicated to a straight passage only for vehicles that go straight through the intersection, and only for vehicles that turn right at the intersection Lane for exclusive use of right turn as a zone, vehicle for turning left at an intersection or only for vehicles traveling straight through an intersection, vehicle for traveling at a left or straight road, vehicle for turning right at an intersection or vehicles traveling straight at an intersection Directions that can be divided into various types, such as right turn and straight lanes, right turn additional lanes that are formed overhanging parts of the median strip of the road, etc. A vehicle regulation direction for regulating the vehicle is set.
[0008]
Therefore, the icons i1 and i2 include a plurality of lines (broken lines) n formed corresponding to the respective dividing lines of the road and a plurality of lines formed corresponding to the respective lanes of the road. A lane area f and a direction indication mark m formed in each lane area f and indicating the vehicle regulation direction with an arrow are drawn.
[0009]
[Problems to be solved by the invention]
However, in the conventional navigation device, when the road is divided into many, for example, eight lanes, it is necessary to form eight lane regions f in the icons i1 and i2. Accordingly, the dimensions of the icons i1 and i2 are increased accordingly, and the area occupied by the icons i1 and i2 on the map screen is increased, so that the driver cannot sufficiently obtain necessary information from the map screen. End up.
[0010]
The present invention solves the problems of the conventional navigation device, can reduce the area occupied by the icons on the map screen, and can sufficiently acquire the information necessary for the driver from the map screen. It is an object to provide a program for a navigation device and an image display method.
[0011]
[Means for Solving the Problems]
For this purpose, in the navigation device of the present invention, information acquisition processing means for acquiring search information and intersection information, route search processing means for searching for a route based on the search information, display means, and search route display A search route display processing means for displaying on a map screen set in the means, and a lane information display processing means for displaying an icon based on the intersection information.
[0012]
The lane information display processing means includes direction indication mark drawing processing means for drawing a standard direction indication mark and a simple direction indication mark for the predetermined lane on the icon in order to represent the vehicle regulation direction.
[0013]
In another navigation device of the present invention, the simple direction indication mark further includes an arrow indicating the vehicle regulation direction and the number of lanes.
[0014]
In still another navigation device of the present invention, the simple direction indication mark has a size smaller than that of the standard direction indication mark.
[0015]
In still another navigation apparatus of the present invention, the direction indication mark drawing processing means further includes lane determination processing means for determining whether or not there are two or more lanes belonging to the same type at the intersection. When there are two or more lanes to which the vehicle belongs, one simple direction indication mark is drawn for each lane.
[0016]
In still another navigation device of the present invention, the direction indication mark drawing processing means further includes direction determination processing means for determining whether the vehicle regulation direction and the direction of the search route coincide with each other for a lane, The standard direction indication mark is drawn when the restriction direction matches the direction of the search route, and the simple direction indication mark is drawn when the vehicle restriction direction does not match the direction of the search route.
[0017]
In the image display method program of the present invention, the computer is set as information acquisition processing means for acquiring search information and intersection information, route search processing means for searching for a route based on the search information, and the search route as display means. It is made to function as a search route display processing means displayed on the map screen and a lane information display processing means for displaying an icon based on the intersection information.
[0018]
The lane information display processing means includes direction indication mark drawing processing means for drawing a standard direction indication mark and a simple direction indication mark for the predetermined lane on the icon in order to represent the vehicle regulation direction.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0020]
FIG. 1 is a functional block diagram of the navigation device according to the first embodiment of the present invention.
[0021]
In the figure, 91 is information acquisition processing means for acquiring search information and intersection information, 92 is route search processing means for searching for a route based on the search information, 35 is a display unit as display means, and 93 is the search route. The search route display processing means 94 displayed on the map screen set in the display unit 35, 94 is a lane information display processing means for displaying an icon based on the intersection information, and the lane information display processing means 94 is a vehicle regulation. In order to represent the direction, a standard direction indication mark and a direction indication mark drawing processing means 95 for drawing a simple direction indication mark on the icon for a predetermined lane are provided.
[0022]
FIG. 3 is a block diagram of the navigation device according to the first embodiment of the present invention.
[0023]
In the figure, reference numeral 14 denotes a navigation device. The navigation device 14 is arranged as a current location detection processing unit 15 for detecting a current location, a data recording unit 16 as a recording medium on which road data and the like are recorded, and a computer. The navigation processing unit 17 performs various arithmetic processes such as navigation processing based on the input information, the input unit 34 as the operation unit, the display unit 35 as the display unit, and the voice input unit 36. A voice output unit 37 and a communication unit 38, and a vehicle speed sensor 41 is connected to the navigation processing unit 17.
[0024]
The current location detection processing unit 15 includes a GPS (global positioning system) 21 as current location detection means, a geomagnetic sensor 22, a distance sensor 23, a steering sensor 24, a beacon sensor 25, a gyro sensor 26, an altimeter (not shown), and the like.
[0025]
The GPS 21 detects the present location on the earth by receiving radio waves generated by artificial satellites, the geomagnetic sensor 22 detects the vehicle direction by measuring geomagnetism, and the distance sensor 23 A distance between predetermined positions on the road is detected. Examples of the distance sensor 23 include a sensor that measures the rotational speed of a wheel (not shown) and detects a distance based on the rotational speed, a sensor that measures acceleration, integrates the acceleration twice, and detects a distance. Can be used.
[0026]
The steering sensor 24 detects a rudder angle, and the steering sensor 24 is attached to, for example, an optical rotation sensor, a rotation resistance sensor, or a wheel attached to a rotating portion of a steering wheel (not shown). An angle sensor or the like is used.
[0027]
The beacon sensor 25 receives position information from radio wave beacons, optical beacons and the like arranged along the road to detect the current location. The gyro sensor 26 detects the vehicle direction based on the turning angle. As the gyro sensor 26, for example, a gas rate gyro, a vibration gyro, or the like is used.
[0028]
The GPS 21 and the beacon sensor 25 can detect the current location independently. The current position can also be detected by combining the distance detected by the distance sensor 23 with the vehicle direction detected by the geomagnetic sensor 22 or the turning angle detected by the gyro sensor 26. Further, the current location can be detected by combining the distance detected by the distance sensor 23 and the steering angle detected by the steering sensor 24.
[0029]
The data recording unit 16 includes a map data file, an intersection data file, a node data file, a road data file, a photo data file, a search data file, and a facility information data file. The data recording unit 16 displays a guide map along the searched route on a map screen set on a display (not shown) of the display unit 35, and displays characteristic photographs, frame diagrams, etc. at intersections or routes. Various data files are provided for displaying, displaying the distance to the next intersection, the direction of travel at the next intersection, and other guidance information. The data recording unit 16 also records various data for outputting predetermined information by the audio output unit 37.
[0030]
By the way, intersection data as intersection information regarding each intersection is recorded in the intersection data file, node data regarding node points is recorded in the node data file, and road data regarding roads is recorded in the road data file. Road data representing road conditions is constituted by the data and road data. The node data represents at least the position and shape of the road in the map data recorded in the map data file, and includes actual road branch points (including intersections, T-junctions, etc.), node points, It consists of data indicating a node-to-node point link connecting each node point. In the search data file, search data as search information necessary for searching for a route is recorded, and information on facilities such as hotels, gas stations, parking lots, and sightseeing spot information in each region, that is, facilities Information is recorded.
[0031]
And, according to the road data, the width of the road itself, the gradient, the cant, the bank, the road surface condition, the number of lanes of the road, the point where the number of lanes changes, the point where the width changes, etc. Represents a radius of curvature, an intersection, a T-junction, an entrance of a corner, etc., a road attribute represents a downhill road, an uphill road, etc., and a road type represents a national road, a general road, a highway, etc., respectively. In addition, road crossings, expressway rampways, expressway tollgates, etc. are also represented.
[0032]
The navigation processing unit 17 includes a CPU 31 that controls the navigation device 14 as a whole, a RAM 32 that is used as a working memory when the CPU 31 performs various arithmetic processes, and a control program. It comprises a ROM 33 as a recording medium on which various programs for searching for a route, driving guidance in the route, determination of a specific section, etc. are recorded, and the navigation processing unit 17 includes the input unit 34 and the display unit 35. The audio input unit 36, the audio output unit 37, and the communication unit 38 are connected.
[0033]
The data recording unit 16 and the ROM 33 are configured by a magnetic core, a semiconductor memory, etc. (not shown). Further, as the data recording unit 16 and the ROM 33, various recording media such as a magnetic tape, a magnetic disk, a flexible disk, a magnetic drum, a CD, an MD, a DVD, an optical disk, an MO, an IC card, and an optical card can be used. .
[0034]
In the present embodiment, various programs are recorded in the ROM 33 and various data are recorded in the data recording unit 16, but the programs, data, and the like are recorded on the same external recording medium. You can also. In this case, for example, a flash memory (not shown) may be provided in the navigation processing unit 17, and the program, data, and the like may be read from the external recording medium and written to the flash memory. Therefore, the program, data, etc. can be updated by exchanging an external recording medium. In addition, a program for controlling an automatic transmission control device (not shown) can be recorded on the external recording medium. As described above, it is possible to start programs recorded in various recording media and perform various processes based on the data.
[0035]
Further, the communication unit 38 is for transmitting and receiving various programs, data, and the like to and from an FM multiplex transmitter, a telephone line, a communication line, and the like. In addition to traffic information composed of information such as information, various data such as traffic accident information and D-GPS information for detecting detection errors of GPS 21 are received.
[0036]
Further, a program for realizing the functions of the present invention, other programs for operating the navigation device 14, data, etc. are transferred from an information center (Internet server, navigation server, etc.) to a plurality of base stations (Internet provider terminals). The communication unit 38 is connected to the communication unit 38 via a telephone line, a communication line, or the like), and can be transmitted from each base station to the communication unit 38. In that case, when at least a part of the program and data transmitted from each base station is received, the CPU 31 downloads the data to a readable / writable memory, for example, a RAM 32, a flash memory, a hard disk or the like, The said program is started and various processes can be performed based on data. Note that the program and data may be recorded on different recording media, or may be recorded on the same recording medium.
[0037]
Also, using a home personal computer, the program, data, etc. transmitted from the information center are downloaded to a recording medium such as a memory card or a flexible disk that can be attached to and detached from the personal computer, and the program is started. Various processes can also be performed based on the data.
[0038]
The input unit 34 is for correcting the current location at the start of traveling or setting the destination, and includes operation keys, operation menus, and the like displayed as images on the screen set on the display. The operation switch. Therefore, input can be performed by pressing (touching) the operation switch. As the input unit 34, a keyboard, a mouse, a barcode reader, a light pen, a remote control device for remote operation, etc. arranged separately from the display unit 35 can be used.
[0039]
The screen set on the display displays operation guidance, an operation menu, operation key guidance, a route from the current location to the destination, guidance information along the route, and the like. As the display unit 35, a display such as a CRT display, a liquid crystal display, or a plasma display can be used, or a hologram device that projects a hologram on a windshield can be used.
[0040]
The voice input unit 36 includes a microphone (not shown) and 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 outputs sound information, for example, guidance information composed of voice synthesized by the voice synthesizer, shift information, and the like from the speaker. In addition to the voice synthesized by the voice synthesizer, various kinds of sound and various kinds of guidance information recorded in advance on a tape, a memory or the like can be output from the speaker.
[0041]
Next, the operation of the navigation device 14 configured as described above will be described.
[0042]
First, when the input unit 34 is operated by an operator, for example, a driver and the navigation device 14 is activated, a navigation initialization processing unit (not shown) of the CPU 31 performs a navigation initialization process, and a matching process (not shown) of the CPU 31 is performed. The means performs matching processing, reads the current location detected by the GPS 21 and the turning angle detected by the gyro sensor 26, calculates (detects) the vehicle direction by integrating the turning angle, and also records the data recording unit. Node data, map data, etc. are read out from 16. Matching data is constituted by the current location, the vehicle direction, node data, map data, and the like.
[0043]
Next, a map display processing unit (not shown) of the CPU 31 performs a map display process, sets a map screen on the display, displays a surrounding map according to the map data on the map screen, and also displays the current location and the self-location. Displays the vehicle direction.
[0044]
When the navigation device 14 is used as a route search device, when a driver operates the input unit 34 to input a destination, destination setting processing means (not shown) of the CPU 31 performs destination setting processing, Set the destination. The information acquisition processing unit 91 (FIG. 1) of the CPU 31 performs information acquisition processing, reads out and acquires search data with reference to the search data file of the data recording unit 16. The route search processing unit 92 of the CPU 31 performs route search processing, and searches for a route from the current departure point to the destination based on the search data. Then, the search route display processing means 93 of the CPU 31 sets a map screen on the display and displays the search route on the map screen. Therefore, the driver can drive the vehicle according to the searched route.
[0045]
By the way, when the searched route is a wide road, the road is divided into a plurality of lanes by a plurality of lane markings, and each lane in front of the intersection is a lane dedicated to left turn, a lane dedicated to straight ahead, or a lane dedicated to right turn. It may be assigned to a lane, a lane for turning left and straight, a lane for turning right and straight, an additional lane for turning right, and the like. On this type of road, when making a left or right turn at an intersection, move the vehicle to the left turn lane, right turn lane, left turn and straight lane, right turn and straight lane, right turn additional lane, etc. It is desirable to keep it.
[0046]
Therefore, when a road having a plurality of lanes is displayed as a search route on the map screen, the lane information display processing means 94 of the CPU 31 displays the lane information when the vehicle enters a predetermined distance before the intersection. Display processing is performed, and lane information is displayed at appropriate locations on the map screen.
[0047]
FIG. 4 is a main flowchart showing the operation of the navigation device in the first embodiment of the present invention, FIG. 5 is a diagram showing a subroutine of the direction indicating mark drawing process in the first embodiment of the present invention, and FIG. The figure which shows the example of the map screen in 1st Embodiment of invention, FIG. 7 is the figure which shows the example of the standard direction indication mark in 1st Embodiment of this invention, FIG. 8 is 1st implementation of this invention FIG. 9 is an enlarged view of an icon according to the first embodiment of the present invention.
[0048]
In the figure, 51 is a clock indicating the expected arrival time of the destination, 52 is an azimuth display unit indicating the direction of the vehicle, 53 is a belt-shaped display area for displaying the date and time, distance scale, time, etc. A position mark 56 is a search route, and Cr1 and Cr2 are intersections within a predetermined range in the traveling direction of the vehicle from the current location. The search route 56 extends linearly in the map screen, and the vehicle is not guided to turn left or right at the intersections Cr1 and Cr2. And the said lane information display process means 94 (FIG. 1) displays horizontally long strip | belt-shaped icon i11, i12 as lane information in the area | region adjacent to intersection Cr1, Cr2.
[0049]
By the way, as described above, each lane of the road has a left-turn exclusive lane that is a traffic division zone only for vehicles that turn left at the intersection, a straight-only lane that is a traffic division zone only for vehicles that go straight through the intersection, and an intersection. Right turn lane that is a traffic division zone only for vehicles that turn right, vehicles that turn left at intersections or vehicles that go straight at intersections, left turn and lanes that go straight, vehicles that turn right at intersections, or go straight on intersections It can be divided into various types such as right turn and straight lanes, which are only traffic division zones for vehicles, and additional lanes for right turns formed by overhanging parts such as median strips of roads. A vehicle regulation direction for regulating the direction in which the vehicle can travel is set.
[0050]
Therefore, for each type of lane, a direction indication mark as vehicle regulation information indicating the vehicle regulation direction is drawn on the icon so that it can be distinguished from other types.
[0051]
In this case, when there are two or more lanes belonging to the same type at one intersection, if the direction indication marks are drawn for all the lanes in the icon, the size of the icon becomes large. As a result, the area occupied by the icons on the map screen increases, and the driver cannot sufficiently acquire necessary information from the map screen.
[0052]
Therefore, in the present embodiment, direction indication marks having standard dimensions, that is, standard direction indication marks m1 to m6 are set, and in order to represent vehicle regulation directions of two or more lanes belonging to the same type. , Direction indication marks representing vehicle regulation directions by one simple method, that is, simple direction indication marks m11 to m16 are set, and the fonts of the standard direction indication marks m1 to m6 and the simple direction indication marks m11 to m16 are ROM33 ( 3).
[0053]
In the simple direction indication marks m11 to m16, the number of lanes belonging to the same type, that is, a region indicating the number of lanes is formed under the arrow indicating the vehicle restriction direction, and in this region, for example, two lanes, The number of lanes is drawn as 3 lanes. Since each arrow is reduced by the area for drawing the number of lanes, the area occupied by one standard direction indication mark and the area occupied by one simple direction indication mark are substantially equal.
[0054]
That is, as shown in FIG. 7, in order to represent a lane dedicated to a left turn, a direction indicator mark m1 composed of an arrow with the tip directed to the left is an arrow with a tip directed upward to represent a lane dedicated to straight travel. The direction indicator mark m2 consisting of the arrow indicates the lane dedicated to the right turn, and the direction indicator mark m3 consisting of the arrow with the tip directed to the right indicates the lane for turning left and straight, and the tip is directed left and up. The direction indicator mark m4 made up of an arrow indicates a lane for turning right and going straight, and the direction indicator mark m5 made of an arrow with the tip directed to the right and up shows an extension lane for turning right. A direction indication mark m6 including an arrow pointing to the right and toward the central separation band is set.
[0055]
Also, as shown in FIG. 8, in order to represent two lanes dedicated to left turn, the direction indicator mark m11 consisting of an arrow with the tip pointing to the left and the number of lanes represents two lanes dedicated to straight travel, Since the direction indication mark m12 composed of an arrow with the tip facing upward and the number of lanes represents two lanes dedicated to right turn, the direction indication mark m13 composed of the arrow with the tip directed to the right and the number of lanes turns left and goes straight In order to represent two lanes, a direction indicator mark m14 consisting of an arrow with the tip pointing left and up and the number of lanes turns the tip to the right and up to represent two lanes for turning right and straight The direction indicator mark m15 consisting of an arrow and the number of lanes is set with a direction indicator mark m16 consisting of an arrow and the number of lanes pointing to the right and toward the center separation zone, in order to represent two additional lanes for turning right. Is done.
[0056]
And the said information acquisition process means 91 reads an intersection data with reference to the intersection data file of the said data recording part 16, and reads and acquires the lane data for every lane in this intersection data. The lane information display processing means 94 determines whether there is a left turn lane and a left turn lane composed of left and straight lanes based on the lane data, and whether there is a straight lane composed of straight lanes. And whether there is a right turn lane consisting of a right turn lane, a right turn and straight lane, and a right turn additional lane. In the present embodiment, the information acquisition processing unit 91 reads the search data and the intersection data from the data recording unit 16, but can also acquire the information through the communication unit 38.
[0057]
When there is a left turn lane, when there is a straight lane, or when there is a right turn lane, the direction indication mark drawing processing means 95 of the lane information display processing means 94 performs a direction indication mark drawing process. That is, a lane determination processing unit (not shown) of the direction indication mark drawing processing unit 95 performs a lane determination process to determine whether there are two or more lanes belonging to the same type.
[0058]
When there are two or more lanes belonging to the same type, the direction indication mark drawing processing means 95 reads the fonts of the simple direction indication marks m11 to m16 from the ROM 33, and the simple direction indication marks m11 to m16 are displayed on the icons according to the font. Draw. The drawing of the number of lanes is changed according to the number of lanes.
[0059]
If there is only one lane belonging to the same type, the direction indication mark drawing processing means 95 reads the fonts of the standard direction indication marks m1 to m6 from the ROM 33, and puts the standard direction indication marks m1 to m6 on the icons according to the font. draw.
[0060]
The icon i11 shown in FIG. 9 indicates that there is one left-turn lane, five straight-ahead lanes, one right-turn lane, and one right-turn additional lane at the intersection Cr1. Therefore, on the icon i11, a standard direction indication mark m1 is drawn for one lane dedicated to left turn, a simple direction indication mark m12 is drawn for five lanes dedicated to straight ahead, and a standard direction indication is provided for one lane dedicated to right turn. A mark m3 is drawn, and a standard direction indication mark m6 is drawn for one additional turn lane for a right turn.
[0061]
The lane information display processing means 94 changes the color of the mark that matches the direction of the search route 56 among the standard direction indication marks m1 to m6 and the simple direction indication marks m11 to m16 to perform highlighting. . In this case, since the left and right turns are not guided at the intersection Cr1, the color of the simple direction indication mark m12 is changed to be different from the color of the standard direction indication marks m1, m3, m6, and the simple direction indication mark m12 is emphasized. .
[0062]
In this way, in order to display the vehicle regulation directions of two or more lanes belonging to the same type, one simple direction indication mark having a dimension substantially equal to the standard direction indication mark is drawn on the icon, so that the size of the icon can be changed. Can be small. Therefore, since the area occupied by the icon on the map screen is reduced, the driver can sufficiently obtain necessary information from the map screen.
[0063]
Next, the flowchart of FIG. 4 will be described.
Step S1: It is determined whether there is a left turn lane. If there is a left turn lane, the process proceeds to step S2. If not, the process proceeds to step S3.
Step S2: Direction indication mark drawing processing is performed.
Step S3: It is determined whether there is a straight lane. If there is a straight lane, the process proceeds to step S4. Otherwise, the process proceeds to step S5.
Step S4: Direction indication mark drawing processing is performed.
Step S5: Determine whether there is a right turn lane. If there is a right turn lane, the process proceeds to step S6, and if not, the process ends.
Step S6: A direction instruction mark drawing process is performed, and the process ends.
[0064]
Next, the flowchart of FIG. 5 will be described.
Step S2-1: Determine whether there are two or more lanes belonging to the same type. If there are two or more lanes belonging to the same type, the process proceeds to step S2-2. If there is one lane, the process proceeds to step S2-3.
Step S2-2: A simple direction indication mark is drawn and the process returns.
Step S2-3: Draw a standard direction indication mark and return.
[0065]
Next, a second embodiment of the present invention will be described.
[0066]
FIG. 10 is an enlarged view of icons in the second embodiment of the present invention.
[0067]
In the figure, i21 is an icon, and this icon i21 indicates that there is one left-turn lane, three straight-ahead lanes, and one right-turn lane at a predetermined intersection. For this purpose, the icon i21 has a standard direction indication mark m1 representing one lane dedicated to left turn, one simple direction indication mark m22 representing three lanes dedicated to straight travel, and a standard direction representing one lane dedicated to right turn. An instruction mark m3 is drawn. The simple direction indication mark m22 includes three arrows a to c representing three lanes dedicated to straight ahead.
[0068]
In this case, lines (broken lines) n1 and n2 representing road dividing lines are drawn between the standard direction indication mark m1 and the simple direction indication mark m22 and between the simple direction indication mark m22 and the standard direction indication mark m3. However, a line representing a road dividing line is not drawn between the arrows a and b and between the arrows b and c in the simple direction indication mark m22. The intervals between the arrows a and b and between the arrows b and c are the intervals between the standard direction indication mark m1 and the simple direction indication mark m22 and between the simple direction indication mark m22 and the standard direction indication mark m3. Narrower.
[0069]
Further, the lane information display processing means 94 (FIG. 1) changes the color of the mark that matches the direction of the searched route among the standard direction indication marks m1 and m3 and the simple direction indication mark m22, and displays the highlight. Do. In this case, the color of the simple direction indication mark m22 is changed to be different from the color of the standard direction indication marks m1 and m3, and the simple direction indication mark m22 is emphasized.
[0070]
Thus, since one simple direction indication mark is drawn in order to display the vehicle restriction directions of two or more lanes belonging to the same type, the size of the icon can be reduced. Therefore, since the area occupied by the icon on the map screen is reduced, the driver can sufficiently obtain necessary information from the map screen.
[0071]
Next, a third embodiment of the present invention will be described.
[0072]
FIG. 11 is an enlarged view of icons in the third embodiment of the present invention.
[0073]
In the figure, i31 is an icon, and the icon i31 indicates that there are four lanes other than a right-turn lane and one right-turn lane at a predetermined intersection. For this purpose, one simple direction indication mark m30 representing four lanes and a standard direction indication mark m3 representing one lane dedicated to right turn are drawn on the icon i31. In the simple direction indication mark m30, lines n11 to n14 representing the dividing lines for dividing the four lanes are drawn. The vertical dimension of the simple direction indicating mark m30 is made smaller than the vertical dimension of the standard direction indicating mark m3.
[0074]
In this case, the direction indication mark drawing processing means 95 (FIG. 1) displays the high importance items as standard direction indication marks. That is, in the present embodiment, a direction determination processing unit (not shown) of the direction indication mark drawing processing unit 95 performs a direction determination process to determine whether the vehicle regulation direction and the direction of the search route match for each lane. If the vehicle regulation direction matches the direction of the search route, a standard direction indication mark is drawn. If the vehicle regulation direction does not match the direction of the search route, a simple direction indication mark is drawn.
[0075]
Thus, the standard direction indication mark is drawn as the direction indication mark having high importance, the simple direction indication mark is drawn as the direction indication mark having low importance, and the size of the simple direction indication mark is reduced. The size of the icon can be reduced. Therefore, since the area occupied by the icon on the map screen is reduced, the driver can sufficiently obtain necessary information from the map screen.
[0076]
Next, a fourth embodiment of the present invention will be described.
[0077]
FIG. 12 is an enlarged view of icons in the fourth embodiment of the present invention.
[0078]
In the figure, i41 is an icon, and the icon i41 indicates that there is one left-turn lane, three straight-ahead lanes, and one right-turn lane or right-turn additional lane at a predetermined intersection. Show. For this purpose, the icon i41 includes a simple direction indication mark m31 representing one lane dedicated to left turn, a standard direction indication mark m2 representing three lanes dedicated to straight travel, and one lane dedicated to right turn or an additional lane for right turn. A simple direction indication mark m33 representing is drawn. In addition, lines n21 and n22 representing dividing lines that divide three lanes are drawn between the standard direction indication marks m2. The vertical dimensions of the simple direction indication marks m31 and m33 are made smaller than the vertical dimensions of the standard direction indication marks m34 to m36.
[0079]
In this case, the direction indication mark drawing processing means 95 (FIG. 1) displays the high importance items as standard direction indication marks. That is, in the present embodiment, a direction determination processing unit (not shown) of the direction indication mark drawing processing unit 95 performs a direction determination process to determine whether the vehicle regulation direction and the direction of the search route match for each lane. If the vehicle regulation direction matches the direction of the search route, a standard direction indication mark is drawn. If the vehicle regulation direction does not match the direction of the search route, a simple direction indication mark is drawn.
[0080]
Thus, the standard direction indication mark is drawn as the direction indication mark having high importance, the simple direction indication mark is drawn as the direction indication mark having low importance, and the size of the simple direction indication mark is reduced. The size of the icon can be reduced. Therefore, since the area occupied by the icon on the map screen is reduced, the driver can sufficiently obtain necessary information from the map screen.
[0081]
In the present embodiment, the case where the lane information is displayed on the map screen when the vehicle is traveling according to the searched route is described, but the lane information is displayed when the vehicle is traveling without searching for the route. Can also be displayed on the map screen.
[0082]
In addition, this invention is not limited to the said embodiment, It can change variously based on the meaning of this invention, and does not exclude them from the scope of the present invention.
[0083]
【The invention's effect】
As described above in detail, according to the present invention, in the navigation apparatus, information acquisition processing means for acquiring search information and intersection information, route search processing means for searching for a route based on the search information, and display Means, a search route display processing means for displaying the search route on the map screen set in the display means, and a lane information display processing means for displaying an icon based on the intersection information.
[0084]
The lane information display processing means includes direction indication mark drawing processing means for drawing a standard direction indication mark and a simple direction indication mark for the predetermined lane on the icon in order to represent the vehicle regulation direction.
[0085]
In this case, since the simple direction indication mark is drawn on the icon, the size of the icon can be reduced. Therefore, since the area occupied by the icon on the map screen is reduced, the driver can sufficiently obtain necessary information from the map screen.
[0086]
In another navigation device of the present invention, the direction indication mark drawing processing means further includes lane determination processing means for determining whether or not there are two or more lanes belonging to the same type at the intersection, and belong to the same type. When there are two or more lanes, one simple direction indication mark is drawn for each lane.
[0087]
In this case, when there are two or more lanes belonging to the same type, a simple direction indication mark is drawn on the icon, so that the size of the icon can be reduced. Therefore, since the area occupied by the icon on the map screen is reduced, the driver can sufficiently obtain necessary information from the map screen.
[0088]
In still another navigation device of the present invention, the direction indication mark drawing processing means further includes direction determination processing means for determining whether the vehicle regulation direction and the direction of the search route coincide with each other for a lane, The standard direction indication mark is drawn when the restriction direction matches the direction of the search route, and the simple direction indication mark is drawn when the vehicle restriction direction does not match the direction of the search route.
[0089]
In this case, the standard direction indication mark is drawn as the direction indication mark with high importance, and the simple direction indication mark is drawn as the direction indication mark with low importance, so that the size of the icon can be reduced. Therefore, since the area occupied by the icon on the map screen is reduced, the driver can sufficiently obtain necessary information from the map screen.
[Brief description of the drawings]
FIG. 1 is a functional block diagram of a navigation device according to a first embodiment of the present invention.
FIG. 2 is a diagram showing an example of a conventional map screen.
FIG. 3 is a block diagram of the navigation device according to the first embodiment of the present invention.
FIG. 4 is a main flowchart showing the operation of the navigation device according to the first embodiment of the present invention.
FIG. 5 is a diagram showing a subroutine of direction indication mark drawing processing in the first embodiment of the present invention.
FIG. 6 is a diagram showing an example of a map screen in the first embodiment of the present invention.
FIG. 7 is a diagram showing an example of a standard direction indication mark in the first embodiment of the present invention.
FIG. 8 is a diagram illustrating an example of a simple direction instruction mark according to the first embodiment of the present invention.
FIG. 9 is an enlarged view of an icon in the first embodiment of the present invention.
FIG. 10 is an enlarged view of an icon according to the second embodiment of the present invention.
FIG. 11 is an enlarged view of icons in the third embodiment of the present invention.
FIG. 12 is an enlarged view of icons in the fourth embodiment of the present invention.
[Explanation of symbols]
14 Navigation device
35 Display section
56 Search route
91 Information acquisition processing means
92 Route search processing means
93 Search route display processing means
94 Lane information display processing means
95 Direction indication mark drawing processing means

Claims (6)

Information acquisition processing means for acquiring search information and intersection information, route search processing means for searching for a route based on the search information, display means, and a search route are displayed on a map screen set in the display means. And a lane information display processing means for displaying an icon based on the intersection information. The lane information display processing means includes a standard direction indication mark and a predetermined A navigation apparatus comprising a direction indication mark drawing processing means for drawing a simple direction indication mark on the icon for the lane. The navigation device according to claim 1, wherein the simple direction indication mark includes an arrow indicating a vehicle regulation direction and the number of lanes. The navigation device according to claim 1, wherein the simple direction indication mark has a size smaller than that of the standard direction indication mark. The direction indication mark drawing processing means includes lane determination processing means for determining whether or not there are two or more lanes belonging to the same type at the intersection, and when there are two or more lanes belonging to the same type, for each lane The navigation device according to claim 2, wherein one simple direction indication mark is drawn. The direction indication mark drawing processing means includes direction determination processing means for determining whether or not the vehicle restriction direction and the direction of the search route match for a lane, and the vehicle restriction direction and the direction of the search route match. The navigation device according to claim 1, wherein the standard direction indication mark is drawn, and the simple direction indication mark is drawn when the vehicle regulation direction and the direction of the searched route do not match. Information acquisition processing means for acquiring search information and intersection information, route search processing means for searching for a route based on the search information, search route display processing for displaying the search route on a map screen set in the display means And lane information display processing means for displaying an icon based on the intersection information, and the lane information display processing means is simplified for the standard direction indication mark and the predetermined lane to indicate the vehicle regulation direction. A program for an image display method, comprising: direction indication mark drawing processing means for drawing a direction indication mark on the icon.

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