JP2013025051A - Map display device, method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a map display device, method, and program capable of easily displaying a desired display range even if the hand is in an unstable state for moving or the like.SOLUTION: A map display device calculates: a shortest distance Lc between the center of a map of an area of a map screen currently displayed and each point of a path obtained from path history storage means; and a shortest distance Lt between the center of the map screen assuming that the map screen is moved by a predetermined unit amount in the operation direction of a user and a predicted terminal position of a terminal at each time in the future. If Lc>Lt, the moving amount is made to be larger, and if not, the moving amount is made to be smaller.

Description

  The present invention relates to a map display apparatus, method, and program, and more particularly, to a map display apparatus, method, and program for displaying a map on a terminal screen used by a moving user.

  Various methods have been proposed as a method for displaying a map on a display device (see, for example, Patent Document 1).

Among them, to move the range displayed on the map,
1) Select a specific position in the map to rewrite the map centered on that position;
2) The map is moved according to the amount of movement of the mouse (movement of the finger on the electronic pen or touch panel);
There are two main methods.

  As for 2) above, depending on whether the movement of the mouse (electronic pen or touch panel) is the movement of the starting point or the movement of the map itself, the moving direction of the map is made forward with respect to the moving direction of the mouse. There is a method to make the method opposite to the method to do.

  While the display range is known only after rewriting as in the method 1), the method 2) has been widely used in recent years because it has a merit that the display range can be changed continuously.

  Such map display is also used when going out or on the move with the recent spread of portable terminal devices that can display maps and location information using GPS and radio base station location information. It is assumed that

JP 2006-235114 A

  However, since the user's hand is unstable when moving, there is a problem that the user's considerable attention and skill are required to accurately display the intended range.

  The present invention has been made in view of the above points, and a map display device and method capable of specifying a display position of a map that can easily indicate a display range to be obtained even when the hand is unstable during movement or the like, and The purpose is to provide a program.

The present invention is a map display device for displaying a map on a terminal used by a moving user,
Trajectory history storage means for recording position information at each past time of the terminal;
An input means for acquiring, in a vector, a lateral direction and a longitudinal direction amount from an operation direction and a movement amount with respect to the map screen of the user from the user operation;
The amount of movement of the drawing range is determined from the vector acquired from the input unit, the predicted terminal position of the terminal at each future time acquired by an arbitrary unit, and the past terminal position history of the locus history storage unit. A drawing range determining means;
Map drawing means for drawing a new map based on the movement amount of the drawing range determined by the drawing range determination means;
Have
The drawing range determining means includes
The map screen is displayed by a unit amount preset in the user's operation direction and the shortest distance Lc between the map center of the range of the currently drawn map screen and each point in the trajectory acquired from the trajectory history storage means. Find the shortest distance Lt between the center of the map screen when it is assumed to have moved and the predicted terminal position of the terminal at each future time. If Lc> Lt, increase the amount of movement, otherwise increase the amount of movement. Includes means to make it smaller.

The present invention further includes terminal trajectory predicting means for obtaining the predicted terminal position at each time when the terminal is predicted to follow in the future, using the history of position information stored in the trajectory history storage means. ,
The drawing range determining means includes
Means for obtaining the shortest distance Lt using the predicted terminal position acquired from the terminal trajectory predicting means.

  As described above, according to the present invention, the drawing range is not made to directly follow the movement of the mouse or the finger of the terminal, but is made to follow the range that should be, and the resistance is set to the range that is not so by performing some resistance. By determining, it becomes possible to draw a map according to the movement trajectory, and it is possible to easily and accurately browse a desired map range even when the user is walking or moving.

It is a block diagram of the map display apparatus in one embodiment of this invention. It is an example of the locus | trajectory history storage database in one embodiment of this invention. It is a flowchart of operation | movement of the map display apparatus in one embodiment of this invention. It is a flowchart of movement amount calculation of the drawing range in one embodiment of the present invention.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 shows a configuration of a map display device according to an embodiment of the present invention.

  The map display device 100 shown in the figure includes an input unit 110, a drawing range determination unit 120, a map drawing unit 130, a trajectory history storage database 140, and a terminal trajectory prediction unit 150, and sequentially displays a map range according to input. .

  In this device, the terminal trajectory prediction unit 150 ⇒ the drawing range determination unit 120 ⇒ the map drawing unit 130 operates in response to a user's input. If the user moves a finger on the mouse or touch panel, In the case of continuous movement, since the apparatus operates at high speed, it is possible to repeat only the drawing range determination unit 120 → the map drawing unit 130 without predicting the terminal trajectory each time.

  The trajectory history storage database 140 records the position information of the terminal at each past time as shown in FIG. Note that the time intervals do not have to be equal, and may be according to the timing at which the terminal acquires the position information. Further, the position information may be measured by the terminal itself using GPS or the like, or the result of positioning using the position information of the mobile radio base station may be transmitted from a mobile phone operator or the like.

  Hereinafter, processing of each component will be described.

  FIG. 3 is a flowchart of the operation of the map display device in one embodiment of the present invention.

  It is assumed that the locus history storage database 140 stores a locus history as shown in FIG.

  Step 101) In the initial state where there is no input from the input unit 110, the map drawing unit 130 displays a map of a predetermined scale centered on a predetermined position.

  Step 102) The input unit 110 includes a mouse or a touch panel, receives an operation from the user, obtains an operation direction and a movement amount of the user with respect to the map screen, and indicates a horizontal amount and a vertical amount. Is output to the drawing range determination unit 120 as a two-dimensional vector.

  Step 103) The terminal trajectory prediction unit 150 uses the position information history stored in the trajectory history storage database 140 to predict a trajectory that the terminal will follow, and determine the position at each future time in the drawing range. To the unit 120. For this, a technique for predicting future positions from position history (for example, literature: Tao, Y., Faloutsos, C., Papadias, D., and Liu, B. "Prediction and indexing of moving objects with In Proceedings of the 2004 ACM SIGMOD international Conference on Management of Data, pp. 611-622.

  In addition, when a user has set a destination and a route in advance, as in a car navigation system, each position on the set route may be output instead of being predicted. Good.

  Step 104) The drawing range determination unit 120 predicts at each future time obtained from the terminal direction prediction unit 150, the vector indicating the operation direction and the movement amount with respect to the map screen displayed by the user obtained from the input unit 110, and the terminal trajectory prediction unit 150. The terminal position and the history of the past position in the locus history storage database 140 are input, and the movement amount of the drawing range calculated by the following procedure is output.

  FIG. 4 is a flowchart of the movement amount calculation of the drawing movement range in the embodiment of the present invention.

  Hereinafter, each point in the history of the past position and each point of the predicted future position are collectively referred to as a “point in the locus”.

  The movement amount indicated by the user, that is, the length of the vector is m.

First, the drawing range determination unit 120 calculates the distance between the center coordinate C _c on the map in the currently drawn range and each point in the trajectory, and among these, the smallest one is the distance between the trajectory and the map center. Let L _c (step 201).

Next, the center coordinate C _t of the map screen when it is assumed that the map screen has been moved by a unit amount set in advance in the user operation direction is obtained (step 202).

Next, the distance between the center coordinate C _t and each point in the trajectory is calculated, and the smallest one is set as the distance L _t between the trajectory and the map center (step 203).

Then, by comparing the L _c and L _t (step 204), Lc may Lt larger than, for Larger map center after movement than current map center is close the distance between the locus, in this direction To move the map quickly, a number α (k = α) larger than a predetermined L is used (step 205), and the amount of movement of the drawing range is set to α × m (step 208). As the value of α, for example, 1.2 can be used.

  If Lc and Lt are the same, the movement amount of the drawing range is m (k = m) (steps 206 and 208).

  If Lc is smaller than Lt, the distance from the locus is longer at the center of the map after movement than at the center of the current map. In order to suppress the movement of the map in this direction, the moving amount of the drawing range is set to β × m using a number β smaller than 1 determined in advance. As the value of β, for example, 0.75 can be used (steps 207 and 208).

  The drawing range determination unit 120 outputs the movement amount of the drawing range obtained as described above to the map drawing unit 130.

  Step 105) The map drawing unit 130 receives as input the vector indicating the operation direction and the moving amount obtained from the input unit 110 and the moving amount of the drawing range obtained from the drawing range determining unit 120. The map drawing unit 130 sets a new map so that the center of the currently drawn map is moved to the operation direction obtained from the input unit 110 by the movement amount of the drawing range obtained from the drawing range determination unit 120. draw.

  An existing technique can be used for map drawing after the drawing range is determined.

  The operation of the components of the map display device 100 shown in FIG. 1 can be constructed as a program and installed in a computer used as the map display device for execution, or distributed via a network.

  The present invention is not limited to the above-described embodiment, and various modifications and applications can be made within the scope of the claims.

DESCRIPTION OF SYMBOLS 100 Map display apparatus 110 Input part 120 Drawing range determination part 130 Map drawing part 140 Trajectory history storage database 150 Terminal trace prediction part

Claims (5)

A map display device that displays a map on a terminal used by a moving user,
Trajectory history storage means for recording position information at each past time of the terminal;
An input means for acquiring, in a vector, a lateral direction and a longitudinal direction amount from an operation direction and a movement amount with respect to the map screen of the user from the user operation;
The amount of movement of the drawing range is determined from the vector acquired from the input unit, the predicted terminal position of the terminal at each future time acquired by an arbitrary unit, and the past terminal position history of the locus history storage unit. A drawing range determining means;
Map drawing means for drawing a new map based on the movement amount of the drawing range determined by the drawing range determination means;
Have
The drawing range determining means includes
The map screen is displayed by a unit amount preset in the user's operation direction and the shortest distance Lc between the map center of the range of the currently drawn map screen and each point in the trajectory acquired from the trajectory history storage means. Find the shortest distance Lt between the center of the map screen when it is assumed to have moved and the predicted terminal position of the terminal at each future time. If Lc> Lt, increase the amount of movement, otherwise increase the amount of movement. A map display device comprising means for reducing the size. Using a history of position information stored in the trajectory history storage means, terminal trajectory prediction means for obtaining the predicted terminal position at each time when the terminal is predicted to follow in the future,
The drawing range determining means includes
The map display device according to claim 1, further comprising means for obtaining the shortest distance Lt using the predicted terminal position acquired from the terminal trajectory predicting means. A map display method for displaying a map on a terminal used by a moving user,
An input step in which the input means obtains the amount of the horizontal direction and the vertical direction as a vector from the operation direction and the movement amount of the user on the map screen from the user operation;
A trajectory history storage in which the drawing range determination means records the vector obtained in the input step, the predicted terminal position of the terminal at each future time obtained by an arbitrary means, and the position information of the terminal at each past time A drawing range determination step for determining a movement amount of the drawing range from a history of past terminal positions of the means;
A map drawing step for drawing a new map based on the movement amount of the drawing range determined in the drawing range determining step;
And
In the drawing range determining step,
The map screen is displayed by a unit amount preset in the user's operation direction and the shortest distance Lc between the map center of the range of the currently drawn map screen and each point in the trajectory acquired from the trajectory history storage means. Find the shortest distance Lt between the center of the map screen when it is assumed to have moved and the predicted terminal position of the terminal at each future time. If Lc> Lt, increase the amount of movement, otherwise increase the amount of movement. The map display method characterized by making it small. Using a history of position information stored in the locus history storage means, performing a terminal locus prediction step for obtaining the predicted terminal position at each time when the terminal is predicted to follow in the future,
In the drawing range determining step,
The map display method according to claim 3, wherein the shortest distance Lt is obtained using the predicted terminal position. Computer
The map display program for functioning as each means of the map display apparatus of any one of Claim 1 or 2.

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