JP2003344059A - Displaying apparatus and method for inputting on navigation - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily and quickly display and switch the reduction scale of a map to be displayed on a navigation screen. <P>SOLUTION: When a navigation device 1 has detected continuous input operations at least at two points on the navigation screen by a touch panel 15b, it computes the operating directions and manipulated variables of the input operations by analyzing the detected input operations. In the case that the operating directions of the input operations at the two points are of directions coming close to each other, a scale ratio smaller than that of a map displayed at present is determined. Map information corresponding to the reduction scale is acquired from a map information database 16a and displayed on a display unit 15a. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a navigation input display device and a navigation input display method.

[0002]

2. Description of the Related Art Conventionally, a navigation device has a GPS.
(Global Positioning Systems) Receives signals transmitted from satellites to detect the current position, based on the information detected by the autonomous navigation sensor of the navigation device and the map information stored in the storage device of the navigation device. The current position of the vehicle is displayed on the map by matching the current position of the vehicle with the road shape of the map information.

Such a navigation device is provided with a storage device for storing map information corresponding to a plurality of scale factors in advance, and the map information of the scale factors set by default is selected and read from this storage device. A map with a predetermined scale is displayed on the navigation screen. Therefore, the user can manually operate as necessary.
The map is enlarged or reduced to display a wide area map or a detailed map according to the user's purpose. Here, as a method of displaying a map by reducing or enlarging a map by a user's manual operation, for example, in the case of an input display device equipped with a touch panel, the enlargement / reduction key displayed on the navigation screen is desired. By performing a touch instruction multiple times according to the scale ratio, the map information of the scale ratio corresponding to the number of touch instructions is read from the storage device, and the map of the target scale ratio is displayed. .

[0004]

However, in such a conventional navigation input display device,
When the enlargement / reduction key is touched, for example, 2 times, 4 times, 8 times, ..., 1/2 depending on the number of times of touching.
Double, ¼, ⅛, ...
In some cases, the map could not be displayed at the exact scale desired by the user. Further, there is a problem that it takes time and effort to make a touch instruction many times until the target scale is reached. Alternatively, when the scale ratio is changed significantly, the user needs to continuously instruct the enlargement / reduction key to be touched, which may cause the target scale ratio to be exceeded, resulting in poor operability. was there.

Further, since it is difficult for the user to intuitively grasp the scale ratio that can be switched by one touch instruction, it is necessary to display and confirm the map each time the scale ratio is switched step by step. Here, it takes a few seconds for the scale factor to be switched by one touch instruction and the map information to be read, so there is a problem that it takes a considerable time to display the map of the target scale factor. .

An object of the present invention is to provide a navigation input display device and a navigation input display method capable of easily and quickly switching and displaying the scale of a map displayed on a navigation screen.

[0007]

In order to solve the above problems, the present invention provides a display control means for generating display information for navigation and displaying it on the display means, and a display control means provided so as to cover the display means. 1. A navigation input display device, comprising: a position detection unit that detects a position coordinate on the surface of the display unit according to an input operation, wherein the position detection unit substantially simultaneously sets the position coordinates of the input operation at at least two points. It is characterized in that the display control means generates the display information for navigation according to the input operation detected substantially simultaneously by the position detection means and causes the display means to display the display information.

Further, the present invention is provided so as to cover the display means, a display control means for reading the map information from a storage means for storing map information corresponding to a plurality of scales, and displaying it on the display means. A navigation input display device comprising: a position detection unit that detects position coordinates according to an input operation on the surface of the display unit,
The position detection means detects the position coordinates of the operation start point and the operation end point of the continuous input operation at least at two points, and the positions of the operation start point and the operation end point of the input operation detected by the position detection means. Computation means for computing the operation direction of the input operation from the coordinates is provided, and the display control means corresponds to the plurality of scale factors according to the operation direction of the input operation at at least two points calculated by the computation means. It is characterized in that the map information at a predetermined scale is read from the storage means for storing the map information and displayed on the display means.

Further, in the present invention, the display control means is provided with a judging means for judging whether or not the operation directions of the input operations at the at least two points calculated by the calculating means are directions approaching each other. When it is determined by the means that the operation directions are directions approaching each other, the map information having a smaller scale ratio than the scale ratio of the map information displayed on the display means is read from the storage means and the display unit. It is preferable to display it.

Further, in the present invention, the display control means is provided with a second determination means for determining whether or not the operation directions of the input operations at the at least two points calculated by the calculation means are directions away from each other. When the second determining means determines that the operation directions are directions away from each other, the map information having a larger scale ratio than the scale ratio of the map information displayed on the display means is stored in the storage means. It is preferable that the data is read from the display and displayed on the display unit.

Further, in the present invention, the arithmetic means is
The operation amount of the input operation is calculated from the position coordinates of the operation start point and the operation end point of the input operation at at least one point detected by the position detection unit, and the display control unit is responsive to the operation amount of the input operation. It is preferable that the map information of the reduced scale is acquired from the storage unit and displayed on the display unit.

Further, according to the present invention, the step of generating the display information for navigation and displaying it on the display means, and the position coordinates corresponding to the input operation on the surface of the display means are provided so as to cover the display means. And a step of detecting the position coordinates of the input operation at at least two points at substantially the same time, and displaying display information for navigation based on the input operations detected at the substantially same time. Generating and displaying on the display means.

Further, according to the present invention, a step of reading the map information from a storage means for storing map information corresponding to a plurality of scales and displaying the map information on a display means, and a step of being provided so as to cover the display means, And a step of detecting a position coordinate corresponding to an input operation on the surface of the means, wherein the position coordinates of an operation start point and an operation end point of continuous input operation are detected at at least two points. The step of calculating the operation direction of the input operation from the position coordinates of the operation start point and the operation end point of the detected input operation, and the operation direction of the input operation at the calculated at least two points. A step of reading out map information of a predetermined scale factor from a storage unit for storing map information corresponding to the plurality of scale factors and displaying the map information on a display unit. It is characterized in that.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail below with reference to FIGS. However, the scope of the invention is not limited to the illustrated example.

First, the structure will be described. FIG. 1 is a block diagram showing a main configuration of a navigation device 1 according to the present embodiment. As shown in FIG. 1, the navigation device 1 includes a CPU 11, a GPS unit 12, an autonomous navigation unit 13, a memory 14, an input display device 15 including a display unit 15a and a touch panel 15b, and a map information DB 16.
The storage device 16 is provided with a, etc., and each unit is connected by a bus.

The CPU 11 reads and executes various system programs stored in the storage device 16 to drive and control the respective parts of the navigation device 1. Also, GPS
Unit 12, autonomous navigation unit 13, input display device 1
The storage device 1 based on the data input via
Various application programs for navigation stored in 6 are read out, various processing such as current position detection processing, route search processing, and scale display processing are executed, and the processing result is displayed on the display unit 15a. The CPU 11 has a function as a display control unit, a calculation unit, a determination unit, and a second determination unit of the present invention.

Specifically, the CPU 11 executes a reduced scale display process (see FIG. 4), which is a process characteristic of this embodiment. When executing this scale display processing, the CPU 11
When an input operation is detected by the input display device 15,
The position coordinates corresponding to the input operation are acquired, and it is determined whether or not the input operation is simultaneously performed at a plurality of points. When the input operation is performed at a plurality of points, the position coordinates acquired for each input operation. Analysis based on.
First, the CPU 11 determines whether or not the detected input operation is a continuous operation. That is, the CPU
Reference numeral 11 determines whether or not the position coordinates input from the input display device are continuously detected, and when the position coordinates are continuously detected, it is determined that the input operation is continuously performed.

When the input operation is continuously performed, the CPU 11 obtains the vector difference between the operation start point and the operation end point based on the position coordinates of the operation start point and the operation end point of the input operation. Thus, the operation direction and the operation amount of the input operation are acquired. Then, the CPU 11 performs the above analysis on all the input operations at a plurality of points detected at the same time, acquires the respective operation directions and operation amounts, and stores them in the RAM.

Further, the CPU 11 determines whether or not the operation directions of the input operations at a plurality of points are close to each other, and if the respective operation directions are close to each other, the input operation is displayed by reducing the map. It is determined that the instruction is given. Then, the CPU 11 obtains an operation amount of an arbitrary input operation from among the plurality of input operations or calculates an average operation amount of the plurality of input operations, and the operation amount and the scale of the currently displayed map. Based on the rate and
Determine the scale factor for displaying the map in reduced size.

Here, the method of determining the scale ratio will be described with reference to a specific example. For example, thresholds a and b (where a <b) for determining the scale ratio are set in advance and input. When the operation amount L of the operation is smaller than a (L <a), the scale ratio is set to 1/2 of the map currently displayed. When the operation amount L is a or more and b or less (a <L <
b), the scale factor is determined to be 1/4 of the currently displayed map, and when the operation amount L is larger than b (L> b), the scale factor is determined to be 1/8 of the currently displayed map. It Then, the CPU 11 reads out the map information corresponding to the scale ratio determined as described above from the map information database 16a and displays the map on the display unit 15a.

Further, when the operation directions of the input operations at a plurality of points are away from each other, the CPU 11 determines that the input operation indicates an instruction to enlarge and display the map. Then, the CPU 11 acquires an arbitrary operation amount from the plurality of input operations or calculates an average operation amount of the plurality of input operations, and based on this operation amount and the scale factor of the map currently displayed. Similarly to the method described above, the scale factor for enlarging and displaying the map is determined. And CPU1
1 reads the map information corresponding to the determined scale factor from the map information database 16a, and displays the map on the display unit 15a.

In the scale display process described above, the CPU 11 disposes a map on the display unit 15a by arranging the region surrounded by the operation end points of the input operation at a plurality of points in the center when enlarging or reducing the display. It is preferable to display it.

The GPS unit 12 includes the GPS antenna 1
Multiple GPS equipped with 2a and launched into low earth orbit
It receives GPS signals transmitted from satellites. The GPS antenna 12a receives GPS signals transmitted from at least three GPS satellites, detects the absolute current position (latitude, longitude) of the vehicle based on the received GPS signals,
Output to the CPU 11.

The autonomous navigation unit 13 comprises an angle sensor, a distance sensor and the like. The angle sensor detects the angular velocity of the vehicle (the angle of rotation in the horizontal direction per unit time) and calculates the amount of change in the moving direction. The distance sensor detects the pulse signal output according to the rotation of the wheel and calculates the amount of movement of the vehicle. The autonomous navigation unit 13 calculates a relative position change of the vehicle based on the angular velocity signal and the vehicle speed pulse signal and outputs the change to the CPU 11.

The memory 14 is a RAM (Random Access Mem).
mory), ROM (Read Only Memory), etc.,
A work area for temporarily storing various programs executed by the CPU 11 and data relating to these various programs is formed.

The input display device 15 comprises a display section 15a and a touch panel 15b. Display unit 15a
Is constituted by an LCD (Liquid Crystal Display) or the like, and displays display information for navigation input from the CPU 11 and input contents input via the touch panel 15b. The touch panel 15b detects a position coordinate touched by a coordinate reading principle of an optical type, an infrared scanning type, or a retroreflective type, and outputs the detected position coordinate to the CPU 11 as a position signal. That is, the display unit 15a
Has a function as a display unit of the present invention, and the touch panel 15b has a function as a position detection unit of the present invention.

The input display device 15 will be described in detail with reference to FIG. In addition, in the present embodiment, the case where the touch panel 15b is configured by an optical touch panel will be described as an example, but the configuration is not limited thereto and may be a configuration that allows coordinate reading by various methods.

FIG. 2 is a plan view showing the overall configuration of the input display device 15. As shown in FIG. 2, the input display device 15
Is a plurality of light emitting elements 15L1 such as LEDs (Light Emitting Diodes) on one side (upper side) in the X-axis direction (horizontal axis) and one side (left side) in the Y-axis (vertical axis) around the display unit 15a. 15L15 and 1511 to 15113 are provided. Further, the other side (lower side) in the X-axis direction and the other side (right side) in the Y-axis, which are positions facing the LEDs.
A plurality of light receiving elements 15P1 to 15P15 and 15p1 to 15p13 such as PDs (Photo Detectors) are arranged in each.

When detecting the position coordinates of the input operation on the surface of the input display device 15, a plurality of light emitting elements and light receiving elements are simultaneously operated, and the output light output from the light emitting elements is detected by the opposing light receiving element. To do. The light receiving element outputs an output signal corresponding to the detected light amount of the output light to a position detection circuit (not shown), and the position detection circuit analyzes the output signal. Here, when the user performs an input operation on the point A, the path of the output light output from the light emitting elements 15L3 and 1512 is blocked, and the output of the output signal from the light receiving elements 15P3 and 15p2 is reduced. Therefore, the position detection circuit detects a decrease in the output signal, detects the position coordinate of the input operation on the display unit 15a from the position of the light receiving element 15P3, 15p2 where the output has decreased, and the position signal is CP.
It is output to U11.

Further, the input display device 15 can detect the position coordinates of the input operation at a plurality of points even when the input operation is simultaneously performed at a plurality of different points. That is, the position detection circuit analyzes the intersection of the X-axis and the Y-axis to detect the position coordinates, and therefore, the difference of 2
More than one point can be detected at the same time.

Next, referring to FIG. 3, the input display device 15
The input operation method of the enlarged display instruction and the reduced display instruction in FIG. As shown in FIG. 3A, on the surface of the input display device 15, for example, by touching an area to be enlarged and displayed with two fingers, the two fingers are moved so as to be separated from each other, and continuously. The enlarged display instruction can be input by performing the input operation. At this time, a large scale can be performed by increasing the movement amount of the fingers, and a small scale can be performed by reducing the movement amount of the fingers. This allows the user to intuitively input the scale ratio of the map to be displayed, so that the map can be easily displayed at the target scale ratio.

Further, as shown in FIG. 3 (b), on the surface of the input display device 15, similarly, with two fingers, touch the area to be reduced and displayed so that the two fingers come close to each other. The reduced display instruction can be input by moving and performing continuous input operations. Further, even in the reduction display instruction, it is possible to display the map at a scale ratio according to the movement amount of the finger.

In addition to the touch panel 15b, the input display device 15 includes character keys, numeral keys, search keys, and various keys associated with various functions such as navigation use. It may be configured to include an input unit such as a microphone.

The storage device 16 is provided with a recording medium (not shown) in which programs, data, etc. are stored in advance, and various applications of the navigation device 1 executed by the CPU 11 and these programs are stored in this recording medium. The data and the like related to are stored. For example, on the recording medium, various programs such as a current position detection process, a route search process, and a scale display process for performing the above process, setting data in which various setting contents regarding the operation of the navigation device 1 are recorded, or a plurality of Map information database (DB) that stores map information corresponding to each scale
16a is stored.

Specifically, the map information DB 16a stores, for example, a national map in which a map of Japan is drawn at a scale of about 1,000,000, a local map including three neighboring prefectures with a scale of about 1 400,000, and a scale. Prefecture map of 1 / 200,000 units, scale 1
The map information includes a city map of about 100,000 city units, a detailed city map with a scale of about 1 / 50,000, a detailed enlarged map with a scale of about 120,000 to 1/1500, and the like. In addition, the map information includes map data used for detection of the current position of the vehicle, map matching, navigation display, etc., and road attributes (for example, road name, national road, prefectural road, toll road, or one-way road). , Road connections (for example, three-way intersections, crossroads, T-junctions, etc.), various symbol data of roads, facilities, the sea, lakes, etc. are included. That is, map information DB
16a has a function as a storage means of the present invention.

Next, the operation of this embodiment will be described. A program for realizing each function described in the flowchart of FIG. 3 shown below is stored in the storage device 16 in the form of a readable program code, and the CPU 11 follows the program code. Execute operations sequentially. Also, not shown CD-ROM, DV
It is also possible to execute the operation peculiar to this embodiment using a program / data externally supplied from a D-ROM or the like.

FIG. 4 is a flowchart showing the reduced scale display processing executed by the CPU 11. It should be noted that, in the following scale display processing, the input display device 15 displays 2
The case where a point input operation is detected will be described as an example.
As shown in FIG. 4, when the CPU 3 performs an input operation on the input display device 15 and the position coordinates corresponding to the input operation are input from the input display device 15 (step S1; Y).
ES), based on the position coordinates, it is determined whether or not the input operation is performed at two different points (step S2).

Here, when it is determined that the input operation is performed at one point (step S2; NO), the PCU 11 executes other processing according to the input operation (step S11),
When it is determined that the input operation is performed at two different points (step S2; YES), the CPU 11 determines whether or not the input operation is performed continuously (step S3). When the input operation is not continuously performed (step S3; NO), the CPU 11 executes another process corresponding to the input operation (step S11), and when the input operation is continuously performed (step S11). Step S3; YES), the CPU 11
The input operation at two points is analyzed based on the acquired position coordinates.

The CPU 11 acquires the position coordinates of the operation start point and the operation end point of the input operation (step S4),
The operation direction and the operation amount of the input operation are calculated from the obtained position coordinates of the operation start point and the operation end point, and are stored in the RAM (step S5). Further, the CPU 11 determines whether or not another input operation is analyzed, and when the other input operation is not analyzed (step S
6; NO), returning to step S3, the above-described processing is repeatedly executed, and other input operations are also analyzed.

When the analysis of the two-point input operation is completed (step S6; YES), the CPU 11 executes R
The operation direction stored in the AM is read out, and it is determined whether or not the operation directions of the two input operations are close to each other (step S7). Here, when the operation directions of the two points are directions approaching each other (step S7; YES), C
The PU 11 determines that the input operation indicates an instruction to reduce the size of the map, and determines the scale ratio based on the amount of operation stored in the RAM and the scale ratio of the currently displayed map. Map information having a scale smaller than that of the displayed map is acquired from the map information DB 16a (step S8). Then, the acquired map information is displayed on the display unit 15a.
(Step S10), and the scale display process is terminated.

On the other hand, when the operation directions of the two points are directions away from each other (step S7; NO), the CPU 11 determines that the input operation indicates an instruction to enlarge and display the map, and stores it in the RAM. The scale factor is determined based on the operation amount and the scale factor of the currently displayed map, and map information having a scale factor higher than that of the currently displayed map is acquired from the map information DB 16a (step S9). . Then, the acquired map information is displayed on the display unit 15a (step S10), and this reduced scale display processing ends.

As described above, the input display device 15 of the present embodiment detects the continuous input operation at at least two points on the navigation screen by the touch panel 15b and analyzes the detected input operation.
The operation direction and the operation amount of the input operation are calculated. And
When the operation directions of the input operations at the two points are directions approaching each other, a scale factor smaller than the currently displayed map is determined based on the operation amount, and map information corresponding to this scale factor is obtained from the map information DB 16a. Acquire and display 15
Display on a. When the operation directions of the input operations at the two points are directions away from each other, based on the operation amount,
Determine a larger scale than the map currently displayed,
The map information corresponding to this scale is acquired from the map information DB 16a and displayed on the display unit 15a.

Therefore, the user enlarges or reduces by a simple input operation such as touching an area to be enlarged or reduced on the navigation screen on which the map is displayed and moving a finger in a direction to be enlarged or reduced. You can enter the instructions. Further, when performing an input operation, the scale factor can be determined according to the operation amount of the input operation, so that the user can perceptually recognize the scale factor of the map, and the target scale factor can be easily determined. A rate map can be displayed on the navigation screen.

As a result, it is possible to save the labor of inputting many times in order to display the map at the target scale. Moreover, since the target scale factor can be set accurately, an input display device with good operability can be provided.

The above description of the present embodiment is an example of the preferred navigation device 1 according to the present invention, and the present invention is not limited to this. Another embodiment to which the present invention is applied will be described with reference to FIG.
As shown in FIG. 5A, when an input operation of rotating fingers is performed at two points on the navigation screen, the map may be displayed by rotating according to the operation amount of the input operation. .

Further, as shown in FIG. 5B, when two points are input at the same time on the navigation screen,
The distance between the points may be displayed, or the route between the two points may be searched to display the route. Furthermore, when three points are input at the same time on the navigation screen,
A configuration may be adopted in which an area surrounded by three points is detected, a route avoiding this area is searched, and the route is displayed.

In addition, the detailed configuration and detailed operation of the navigation device 1 according to the present embodiment can be appropriately changed without departing from the spirit of the present invention.

[0048]

According to the present invention, the map information can be quickly displayed by switching to the scale factor desired by the user by a simple input operation on the surface of the display means without requiring a complicated operation. .

[Brief description of drawings]

FIG. 1 is a block diagram showing a main configuration of a navigation device 1 according to an embodiment to which the present invention is applied.

FIG. 2 is a diagram showing an overall configuration of an input display device 15 shown in FIG.

FIG. 3 is a diagram showing an input operation method in the input display device 15 shown in FIG.

FIG. 4 is a flowchart showing a reduced scale display process executed by a CPU 11 of FIG.

FIG. 5 is a diagram showing an input operation method in another embodiment to which the present invention is applied.

[Explanation of symbols]

1 Navigation device 11 CPU 12 GPS unit 12a GPS antenna 13 Autonomous navigation unit 14 memory 15 Input display device 15a display section 15b touch panel 16 storage 16a Map information DB

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Claims (7)

[Claims] 1. A display control means for generating display information for navigation and displaying it on a display means, and a position coordinate provided to cover the display means and detecting a position coordinate corresponding to an input operation on a surface of the display means. An input display device for navigation comprising position detection means, wherein the position detection means detects the position coordinates of the input operation at at least two points substantially at the same time, and the display control means causes the position detection means to perform substantially simultaneously. An input display device for navigation, characterized in that display information for navigation is generated in accordance with the detected input operation and is displayed on the display means. 2. A display control means for reading the map information from a storage means for storing map information corresponding to a plurality of scales and displaying it on the display means, and a display control means provided so as to cover the display means. 1. A navigation input display device, comprising: a position detection unit that detects a position coordinate corresponding to an input operation on a surface, wherein the position detection unit has an operation start point and an operation end point of continuous input operations at at least two points. Detecting the position coordinates of the point, the operation control unit includes an operation unit that calculates the operation direction of the input operation from the position coordinates of the operation start point and the operation end point of the input operation detected by the position detection unit, and the display control unit, A memory for storing map information corresponding to the plurality of scales according to the operation direction of the input operation at at least two points calculated by the calculating means. Input display device of the navigation, characterized in that to display the stages on the display means reads the map information of a predetermined scale factor. 3. A discriminating means for discriminating whether or not the operation directions of the input operation at the at least two points calculated by the calculating means are directions approaching each other, and the display control means is configured to perform the operation by the judging means. When it is determined that the operation directions are close to each other, the map information having a smaller scale ratio than the scale ratio of the map information displayed on the display unit is read from the storage unit and displayed on the display unit. The navigation input display device according to claim 2. 4. A second discriminating means for discriminating whether or not the operation directions of the input operations at at least two points calculated by the calculating means are directions away from each other, and the display control means comprises the second When it is determined that the operation directions are directions away from each other by the determining means, the map information having a larger scale ratio than the scale ratio of the map information displayed on the display means is read from the storage means, and The display is made on a display unit.
Or the navigation input display device described in 3. 5. The display control means calculates the operation amount of the input operation from the position coordinates of the operation start point and the operation end point of the input operation at at least one point detected by the position detection means. 5. The navigation input display device according to claim 3, wherein the map information having a scale factor corresponding to the operation amount of the input operation is acquired from the storage unit and displayed on the display unit. 6. A step of generating display information for navigation and displaying it on a display means, and a step of detecting a position coordinate on the surface of the display means, the position coordinate being provided so as to cover the display means. And a step of detecting the position coordinates of the input operation at at least two points substantially at the same time, and generating display information for navigation based on the input operations detected at substantially the same time, A step of displaying on the display means, and a method for inputting and displaying navigation. 7. A step of reading the map information from a storage means for storing map information corresponding to a plurality of scales and displaying the map information on a display means, and a step of covering the display means.
A method for inputting and displaying navigation in which the position coordinates corresponding to an input operation on the surface of the display means are detected, wherein the position coordinates of an operation start point and an operation end point of continuous input operations at at least two points. And a step of calculating the operation direction of the input operation from the position coordinates of the operation start point and the operation end point of the detected input operation, and the operation direction of the input operation at the calculated at least two points. Accordingly, a navigation input display method, comprising the step of: reading map information of a predetermined scale factor from a storage unit that stores map information corresponding to the plurality of scale factors and displaying the map information on a display unit.