KR100635778B1 - Method for modeling object using inputting device 3D Rotational Transformations - Google Patents

Abstract

The present invention relates to object modeling using a three-dimensional rotation transformation input device for efficiently controlling three-dimensional objects in the processing of three-dimensional data, the present invention is rotatable in a state of protruding a predetermined height through the upper surface of the main body A track ball type three-dimensional rotation conversion input device having a track ball provided and an X axis displacement roller and a Y axis displacement roller installed to be driven by rotation of the track ball, respectively, in the main body, wherein the X axis displacement roller A left and right rotation converting unit for receiving a displacement signal from and converting the converted signal into a left and right rotation conversion signal; An input device is implemented as a vertical rotation converter that receives a displacement signal from the Y-axis displacement roller and converts the displacement signal into a vertical rotation conversion signal, thereby modeling an object.

3D data, trackball, rotation, input device, object modeling

Description

Method for modeling object using inputting device 3D Rotational Transformations}

1 is a block diagram showing the internal structure of a three-dimensional rotation conversion input device according to the present invention.

2A to 2D show an example of rotation conversion using the rotation conversion input device of the present invention.

Figure 3 shows an example of an object modeling method using a three-dimensional rotation transformation input device according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: input device body 11: track ball

12: X axis displacement roller 13: Y axis displacement roller

14: left and right rotation converter 15: vertical rotation converter

16, 16 ': Fixed roller

The present invention relates to an object modeling method using an input device in a graphical user interface (GUI) of a computer system, and more particularly, to an object modeling method using a three-dimensional rotation conversion input device that efficiently controls three-dimensional objects in processing three-dimensional data. To provide.

Conventional GUI input devices are formed in the form of a mouse, trackball device, touch pad, and point stick, and these devices are mainly made by controlling a pointer (cursor) on a monitor. These devices process objects on the screen through pointers (selectors and clicks).

However, in existing applications such as CAD systems or 3D animation tools, the right-click mouse rotation can be selected for applications that require not only the linear movement of the elements on the screen, but also the rotation of the elements. There was a limit to achieving the conversion goal only after several uncomfortable steps such as dragging afterwards.

This is true not only in the production process of the 3D model but also when the users access the data. For example, when the user wants to view the product information in the Internet shopping mall, the user can only see the picture displayed on the 2D plane. Various prior arts exist to overcome this problem, but even in the case of the conventional arts, many inconveniences, such as obscuring the position of the click and the degree of drag, were required to control through the existing mouse.

This limitation was a natural result because the input device was designed with a two-dimensional center, and has been used without any inconvenience in the existing environment, which was a two-dimensional center such as editing of text or images. However, the recent rapid development of computer systems and the continuous dissemination of high speed networks have enabled the processing of more dynamic and visual data. In the general environment such as the Internet homepage, the role of 3D data is gradually increasing, and users' demand is also favored for 3D stereoscopic images. Accordingly, the demand for processing 3D data is rapidly increasing. The continuous development and dissemination of technology for processing three-dimensional data is required.

Therefore, the input method that is the basic object control on the screen also needs three-dimensional input control rather than the conventional two-dimensional input method. However, since the environment in which the user communicates with a three-dimensional object on the system is two-dimensional, in order to process, edit, and examine three-dimensional data in a two-dimensional environment, it is inevitable to rotate the object (model) on the screen in front, rear, left and right. Since there is only, there is an increasing demand for an effective three-dimensional rotation conversion input device.

The present invention has been made to solve the problems of the prior art as described above, the present invention provides an object modeling method using a three-dimensional rotation transformation input device that can control three-dimensional data easily and efficiently on a computer For the purpose of

In order to achieve the above object, the present invention, the track ball is rotatably installed in a state of protruding a predetermined height through the upper surface of the main body, and the X-axis installed to be driven by the rotation of the track ball inside the main body, respectively A track ball type three-dimensional rotation conversion input device having a displacement roller and a Y-axis displacement roller, comprising: a left-right rotation conversion unit which receives a displacement signal from the X-axis displacement roller and converts it into a left-right rotation conversion signal; It is characterized by providing a rotation conversion input device comprising a vertical rotation conversion unit for receiving a displacement signal from the Y-axis displacement roller and converting it to a vertical rotation conversion signal, and modeling the object.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The appearance of the rotation conversion input device according to the present invention is the most similar to the trackball device of the existing input device is composed of the same shape as the ball mouse upside down, the track ball (round ball) in the middle of the top of the input device Move and control using the moved distance. Trackballs can be as large as 5-7 cm when used in a typical desktop computer, and can vary in size from 12-19 mm to fit in a notebook PC.

1 is a block diagram illustrating an internal structure of a three-dimensional rotation conversion input device according to the present invention. Referring to the drawings, the rotation conversion input device 10 according to the present invention includes a track ball 11 at a center thereof, and X. FIG. The axial displacement roller 12 and the Y-axis displacement roller 13 are installed to contact the outer circumferential surface of the track ball 11 so as to be rotated by the rotation of the track ball 11, the X-axis displacement roller 12 And fixed rollers 16 and 16 'on the outer circumferential surface of the track ball 11 facing the Y-axis displacement roller 13 to maintain the balance of the track ball 11. The track ball 4 is rotatably installed in a state where a predetermined height protrudes above the main body as shown in FIG. 2.

In addition, the rotation conversion input device 10 of the present invention receives a displacement signal from the X-axis displacement roller 12 and converts it into a left-right rotation conversion signal 14 and the Y-axis displacement roller 13 It further includes a vertical rotation conversion unit 15 for receiving a displacement signal from the conversion to the vertical rotation conversion signal.

Conventional X-axis displacement roller 12 and Y-axis displacement roller 13 is configured to cause only the planar movement on each of the X, Y axis by a sensor for detecting the rotation of the roller (12, 13), The left and right rotation conversion unit 14 converts the movement distance by the movement signal on the X axis into rotation in the left and right directions, and the vertical rotation conversion unit 15 converts the movement distance by the movement signal on the Y axis. It is converted to rotation in the vertical direction.

The left and right rotation conversion unit 14 may be configured to convert the movement in the (+ X) direction to the right rotation, the movement in the (-X) direction to the left rotation, and similarly the up and down The rotation conversion unit 15 may also be configured to convert the movement in the (+ Y) direction to the upper rotation and the movement in the (-Y) direction to the lower rotation.

The rotation conversion input device according to the present invention configured as described above operates as follows.

First, when the track ball 11 protruding upward from the main body rotates, the X-axis conversion roller 12 and the Y-axis conversion roller 13 installed in contact with the outer circumferential surface of the track ball 11 according to the rotational direction of the track ball 11. Are rotated individually or selectively, and accordingly, the left and right rotation converter 14 and the vertical rotation converter 15 generate a conversion signal for rotating conversion of the object to be rotated in the up, down, left, and right directions by the amount of conversion. This is transmitted to the program of the user terminal to rotate the target object up, down, left and right.

2A to 2D show an example of rotation conversion using the rotation conversion input device of the present invention.

For example, let's take a look at the process of using the apparatus of the present invention in a 3D modeling application.

Referring to FIG. 2A, an editor of an object selects an object 40 to be operated from among various objects provided to the monitor 30 using the mouse 20. That is, the device 10 of the present invention can be configured to operate by, for example, clicking the cursor 21 of the mouse 20 on the target object requiring rotation.

The object 40 also rotates downwards as the input device 10 of the present invention is rotated downward in FIG. 2B, and the object also moves upward as the input device 10 of the present invention is rotated upward in FIG. 2C. As shown in FIG. 2D, the object also rotates to the left as the input device 10 of the present invention is rotated to the left.

As described above, the device of the present invention has a shape similar to that of a conventional ball mouse upside down, and the control input is made by directly turning the ball by hand, and the control input by the rotation of the track ball in the front, rear, left, and right directions is applied to the object. Rotation in the up, down, left, or right directions can occur.

In addition, the present invention, the left and right rotation conversion unit 14 and the vertical rotation conversion unit 15 so that not only the amount of rotation of the conversion object by the rotation amount of the track ball in the control input, but also the rotation speed of the object corresponding to the rotation speed of the track ball. ) Can be configured. Such control of the rotation speed is used in the process of implementing the display of the object such as the implementation of the animation function of the data.

As shown in Figure 2a to select the object to be rotated using the mouse, the device of the present invention can be used as a mixture as described above, and may also be integrated with an existing device such as a mouse. For example, if the device is provided with a ball mouse in the lower part of the device and the input device of the present invention is provided in the upper part of the device, the device can be selected and rotated as one device.

It is possible to develop a new way of modeling tool based on the apparatus of the present invention. In the existing modeling tool, a model is created by a process of stacking a drawing made on an XY 2D plane on the Z axis, by creating a 3D object or by manually editing a network structure with a mouse. As the sculptures are made from gypsum chunks or pieces of wood, the modeling method can be implemented by using the engraving tool by rotating the sculptures in the basic shape from side to side.

Figure 3 shows an example of a method of using the rotation conversion input device of the present invention. Referring to the drawings, first, the engraving 50 is inserted in a direction and a predetermined depth with respect to the object around the object 50.

Next, the engraving 60 is inserted into the object 50 in a predetermined direction and a predetermined depth.

Next, in the inserted state, the object 50 is rotated by a predetermined rotation distance (angle) in the predetermined rotation direction by the input device 10 of the present invention.

Next, the object 50 is cut by the rotation direction and the rotation distance with respect to the insertion portion.

By repeating this process, the modeling of the object is possible.

Although the apparatus of the present invention has been described only with respect to the trackball method, the present invention is not necessarily limited thereto, and an optical method is also applicable. In the optical method, a rotational input can be detected by mounting a sensor around the ball to detect a change in position.

Although the present invention has been described above with reference to preferred embodiments, it will be understood that the present invention is for understanding and not for limitation. In addition, it will be understood that various modifications and variations can be made by those skilled in the art without departing from the scope and spirit of the invention.

According to the configuration of the present invention as described above, the model being processed can be easily rotated on the screen in the application program that controls the three-dimensional object, such as a CAD system or a three-dimensional animation production tool, in particular, the view point of the model ( Viewing angle) or the position of the object can be easily rotated.

In addition, the present invention has a similar effect to the user to actually look at the object by holding the object in his hands and rotates back and forth and left and right, there is an effect that the user can feel comfortable to use.

In addition, by integrating the apparatus of the present invention with the existing three-dimensional modeling application can bring a technical improvement that can make the modeling process simpler and easier. That is, in many modeling tools, the process of selecting a rotation item after right-clicking or selecting a rotation menu from the menu bar is omitted.

In addition, it is possible to implement a new three-dimensional modeling technique using the input device of the present invention.

Claims (5)

delete delete delete delete In the method for modeling an object using a three-dimensional rotation conversion input device in the form of a track ball having an X-axis displacement roller, a Y-axis displacement roller, a track ball, a left and right rotation converter, and a vertical rotation converter, Providing a engraving that can be inserted in a direction and a depth with respect to the object around the object; Inserting the engravings in a direction and a depth with respect to the object; Rotating the object by a predetermined rotation distance in the rotation direction by the three-dimensional rotation conversion input device in the insertion state; And cutting the object by the rotation direction and the rotation distance with respect to the insertion portion.

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