JP2768331B2 - Curve linear approximation device - Google Patents
Curve linear approximation deviceInfo
- Publication number
- JP2768331B2 JP2768331B2 JP29415395A JP29415395A JP2768331B2 JP 2768331 B2 JP2768331 B2 JP 2768331B2 JP 29415395 A JP29415395 A JP 29415395A JP 29415395 A JP29415395 A JP 29415395A JP 2768331 B2 JP2768331 B2 JP 2768331B2
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- Prior art keywords
- straight line
- curve
- approximating
- bezier curve
- error
- Prior art date
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Description
【0001】[0001]
【発明の属する技術分野】本発明は曲線の直線近似装置
に関し、特に2次元の曲線を含む図形を3次元の多面体
に立体化するモデラに関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for linearly approximating a curve, and more particularly to a modeler for three-dimensionally converting a figure including a two-dimensional curve into a three-dimensional polyhedron.
【0002】[0002]
【従来の技術】従来、曲線の直線近似装置は、たとえば
特開平2−71384号公報に示されるように、コンピ
ュータグラフィックの表示装置、図形印刷装置等に用い
られる3次ベジェ曲線を直線群で近似して表示すること
を目的としている。2. Description of the Related Art Conventionally, as a straight line approximation device for a curve, a cubic Bezier curve used in a computer graphic display device, a graphic printing device and the like is approximated by a group of straight lines as disclosed in Japanese Patent Application Laid-Open No. 2-71384. It is intended to be displayed.
【0003】図5は、特開平2−71384号公報に開
示された従来の曲線の直線近似装置のブロック図であ
る。FIG. 5 is a block diagram of a conventional linear approximation device for a curve disclosed in Japanese Patent Application Laid-Open No. 2-71384.
【0004】データ入力回路501は3次ベジェ曲線を
表す4つの制御点Q11〜Q14の入力処理を行う。曲線分
割回路502はデータ入力回路501からの入力座標の
曲線もしくは誤差判定回路504から戻された曲線デー
タの曲線をts :(1−ts)の割合で分割処理する。
誤差演算回路503はデータ入力回路501からの入力
座標もしくは分割された曲線とそれを近似する線分との
誤差を演算する。誤差判別回路504は誤差演算回路5
03により計算された誤差と、予め設定された誤差の閾
値との比較を行い、誤差が閾値以内である場合には、デ
ータをデータ出力回路505に渡し、閾値以内でない場
合には、データを再び曲線分割回路502に戻す。デー
タ出力回路505は、折線近似された曲線のデータを出
力する処理を行う。The data input circuit 501 performs input processing of four control points Q 11 to Q 14 representing a cubic Bezier curve. The curve dividing circuit 502 divides the curve of the input coordinates from the data input circuit 501 or the curve of the curve data returned from the error determination circuit 504 at a ratio of t s : (1−t s ).
The error calculation circuit 503 calculates an error between the input coordinates from the data input circuit 501 or the divided curve and a line segment approximating the same. The error discriminating circuit 504 includes the error calculating circuit 5
03 is compared with a preset error threshold. If the error is within the threshold, the data is passed to the data output circuit 505. If the error is not within the threshold, the data is re-entered. The process returns to the curve dividing circuit 502. The data output circuit 505 performs a process of outputting data of a curve approximated by a broken line.
【0005】[0005]
【発明が解決しようとする課題】第1の問題点は、この
従来の曲線の直線近似装置では、曲線を直線群に近似し
た後に、アフィン変換などの座標変換を行って曲線を近
似した直線群を縮小すると、無駄な演算を行う可能性が
あることである。The first problem is that, in this conventional straight line approximating device for curves, a straight line group obtained by approximating a curve by performing coordinate transformation such as affine transformation after approximating the curve to a straight line group. Is that there is a possibility that a useless operation is performed.
【0006】その理由は、元の直線群を縮小することに
よって、表示装置が表示可能な画素の大きさと比較して
短い直線が発生する可能性があり、その直線に関係する
演算を行う必要が必ずしもないためである。The reason is that there is a possibility that a straight line shorter than the size of a pixel that can be displayed by the display device may be generated by reducing the original straight line group, and it is necessary to perform an operation related to the straight line. It is not necessarily.
【0007】第2の問題点は、この従来の曲線の直線近
似装置では、曲線を直線群に近似した後に、アフィン変
換などの座標変換を行って曲線を近似した直線群を拡大
すると、直線群による曲線の近似の精度が低下する可能
性があることである。The second problem is that, in this conventional straight line approximating device for a curve, after the curve is approximated to a group of straight lines and then coordinate transformation such as affine transformation is performed to enlarge the group of straight lines approximating the curve, the straight line group May reduce the accuracy of approximation of the curve by.
【0008】その理由は、元の直線群を拡大することに
よって、曲線の分割の判定に使用した誤差の値が座標変
換後では元の値よりも大きくなり、表示装置の画素の大
きさに対して相対的に直線の長さが長くなるためであ
る。The reason is that, by enlarging the original straight line group, the error value used to determine the division of the curve becomes larger than the original value after the coordinate conversion, and the error value is larger than the original value. This is because the length of the straight line becomes relatively longer.
【0009】第3の問題点は、この従来の曲線の直線近
似装置では、曲線を直線群に近似した後に、投影変換な
どの座標変換を行って曲線を近似した直線群を変形する
と同一曲線内の近似の精度が一定でなくなる可能性があ
ることである。このため、上述の第1および第2の問題
点が同一曲線内で同時に発生する可能性がある。A third problem is that, in this conventional straight line approximating device for a curve, after the curve is approximated to a straight line group, coordinate transformation such as projection transformation is performed to deform the straight line group approximating the curve. The accuracy of approximation may not be constant. Therefore, the first and second problems described above may occur simultaneously in the same curve.
【0010】図6はこの従来例の第3の問題点が発生す
る例を説明する図であり、(a)は投影変換前の座標系
での曲線分割を示した図、(b)は投影変換前の曲線の
直線近似の結果を示した図、(c)は投影変換後の曲線
の直線近似の結果を示した図である。FIGS. 6A and 6B are diagrams for explaining an example in which the third problem of the conventional example occurs. FIG. 6A is a diagram showing curve division in a coordinate system before projection transformation, and FIG. FIG. 7C is a diagram illustrating a result of linear approximation of a curve before conversion, and FIG. 7C is a diagram illustrating a result of linear approximation of a curve after projection conversion.
【0011】投影変換は、3次元空間上の物体を2次元
平面のスクリーン上に投影する座標変換であるが、投影
変換を行うと、図6(b)に破線で示した枠が図6
(c)に破線で示した枠のように変換されることからわ
かるように、図形が大きく変形することがある。このた
め、投影変換を考慮しない座標系で曲線を分割して(図
6(a)参照)直線群によって近似し(図6(b)の実
線部分)、この直線群に対して投影変換を行った結果
(図6(c)の実線部分)は、点P7から点P10の部
分では近似が粗く、逆に点P1から点P4の部分では近
似の精度が必要以上に細かくなっている。The projection transformation is a coordinate transformation for projecting an object in a three-dimensional space onto a two-dimensional screen. When the projection transformation is performed, a frame shown by a broken line in FIG.
As can be seen from the conversion as shown by the frame indicated by the broken line in (c), the graphic may be greatly deformed. For this reason, the curve is divided in a coordinate system that does not consider the projection transformation (see FIG. 6A), approximated by a group of straight lines (the solid line portion in FIG. 6B), and the straight line group is subjected to projection transformation. The result (the solid line portion in FIG. 6C) shows that the approximation is rough from the point P7 to the point P10, and conversely, the approximation accuracy is unnecessarily fine from the point P1 to the point P4.
【0012】第4の問題点は、上述の各問題点を解決す
るために、曲線を直線群に近似する前に投影変換などの
座標変換を行い、しかる後に投影変換後の座標系で曲線
を直線群に近似することは可能であるが、この方法の場
合、演算量が増大する可能性があることである。A fourth problem is to solve the above-mentioned problems by performing coordinate transformation such as projection transformation before approximating the curve to a straight line group, and then forming the curve in the coordinate system after projection transformation. Although it is possible to approximate a straight line group, this method may increase the amount of calculation.
【0013】その理由は、たとえば、2次元の図形を平
行移動して3次元の図形にするモデラなどでは、曲面を
扱うことになり、処理が非常に複雑になるためである。The reason for this is that, for example, in a modeler or the like that translates a two-dimensional figure into a three-dimensional figure by translating it, a curved surface is handled and the processing becomes very complicated.
【0014】本発明は上記の点にかんがみてなされたも
ので、特に2次元の曲線を含む図形を3次元の多面体に
立体化するモデラにおいて、曲線を直線群で近似する際
に、データ量が増大せず且つ近似の精度が低下しない曲
線の直線近似装置を提供することを目的とする。The present invention has been made in view of the above points, and particularly, in a modeler for making a figure including a two-dimensional curve into a three-dimensional polyhedron, when a curve is approximated by a group of straight lines, the amount of data is reduced. An object of the present invention is to provide a linear approximation device for a curve that does not increase and does not decrease the approximation accuracy.
【0015】[0015]
【課題を解決するための手段】本発明は上記の目的を達
成するために、曲線のみを前もって投影変換し、投影変
換後の座標系で曲線を直線に近似し、曲線に対応する直
線の情報を分割情報記憶手段(図1参照)あるいは媒介
変数記憶手段(図3参照)に記憶し、投影変換前の曲線
を直線に近似する際にその情報を用いて近似を行う。According to the present invention, in order to achieve the above object, only a curve is projected and transformed in advance, the curve is approximated to a straight line in a coordinate system after the projected transformation, and information on a straight line corresponding to the curve is obtained. Is stored in the division information storage means (see FIG. 1) or the parameter storage means (see FIG. 3), and when the curve before the projection conversion is approximated to a straight line, the approximation is performed using the information.
【0016】本発明は以上の構成によって、曲線を直線
に近似する際の演算を投影変換後の座標系で行っている
ため、曲線を直線に近似してから投影変換を行うよりも
投影変換後の近似の精度が優れている。According to the present invention, since the calculation for approximating a curve to a straight line is performed in the coordinate system after the projection conversion by the above-described configuration, the projection conversion is performed rather than the curve being approximated to a straight line before the projection conversion. The accuracy of approximation is excellent.
【0017】[0017]
【発明の実施の形態】以下本発明を図面に基づいて説明
する。DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings.
【0018】図1は、本発明による曲線の直線近似装置
の第1の実施の形態のブロック図である。FIG. 1 is a block diagram of a first embodiment of a device for linearly approximating a curve according to the present invention.
【0019】曲線の直線近似装置は、キーボード等の入
力装置1と、プログラム制御により動作するデータ処理
装置2と、情報を記憶する記憶装置3と、3次元の多面
体の隠面処理や輝度値演算等を行うレンダリング処理装
置4と、ディスプレイ装置等の出力装置5から構成され
る。An apparatus for linearly approximating a curve includes an input device 1 such as a keyboard, a data processing device 2 operated under program control, a storage device 3 for storing information, a hidden surface process for a three-dimensional polyhedron, and a brightness value calculation. And the like, and an output device 5 such as a display device.
【0020】データ処理装置2は、3次元空間上の座標
値を2次元平面上に投影変換する投影変換手段21と、
3次ベジェ曲線とその3次ベジェ曲線の制御点の誤差を
算出する誤差演算手段22と、誤差演算手段22が算出
した誤差が予め定められた閾値以下であるかを判定する
誤差判別手段23と、1つの3次ベジェ曲線を2つのベ
ジェ曲線に分割する曲線分割手段24と、曲線分割手段
24の結果に基づいて、投影変換前の3次ベジェ曲線を
直線群に近似する直線近似手段25と、2次元の図形を
3次元空間上で平行移動して3次元の多面体に変換する
2次元図形立体化手段26とを備える。The data processing device 2 includes projection conversion means 21 for projecting and converting coordinate values in a three-dimensional space onto a two-dimensional plane,
Error calculating means 22 for calculating an error between the cubic Bezier curve and a control point of the cubic Bezier curve, and error determining means 23 for determining whether the error calculated by the error calculating means 22 is equal to or less than a predetermined threshold. A curve dividing means 24 for dividing one cubic Bezier curve into two Bezier curves; and a linear approximating means 25 for approximating a cubic Bezier curve before projection transformation to a straight line group based on the result of the curve dividing means 24. And a two-dimensional figure three-dimensionalizing means 26 for translating a two-dimensional figure in a three-dimensional space and converting it into a three-dimensional polyhedron.
【0021】記憶装置3は、3次元空間上での座標値を
記憶する座標値記憶部31と、3次元図形を2次元平面
に投影変換した後の座標値を記憶する投影変換座標値記
憶部32と、曲線分割手段24の結果を記憶する分割情
報記憶部33とを備える。The storage device 3 includes a coordinate value storage section 31 for storing coordinate values in a three-dimensional space, and a projection-transformed coordinate value storage section for storing coordinate values obtained by projecting a three-dimensional figure onto a two-dimensional plane. 32, and a division information storage unit 33 that stores the result of the curve division unit 24.
【0022】図2は、図1に示した曲線の直線近似装置
の動作を示すフローチャートである。FIG. 2 is a flowchart showing the operation of the straight line approximation device for the curve shown in FIG.
【0023】入力装置1から与えられた3次ベジェ曲線
を含む2次元の図形は、座標値記憶部31に記憶される
(A−1)。投影変換手段21は、座標値記憶部31内
の3次ベジェ曲線の制御点を、入力装置1から与えられ
た3次元空間上での座標を用いて投影変換し、その結果
を投影変換座標値記憶部32に記憶する(A−2)。誤
差演算手段22は、投影変換された3次ベジェ曲線と3
次ベジェ曲線の制御点との誤差を算出する(A−3)。The two-dimensional figure including the cubic Bezier curve given from the input device 1 is stored in the coordinate value storage unit 31 (A-1). The projection conversion means 21 performs projection conversion of the control point of the cubic Bezier curve in the coordinate value storage unit 31 using the coordinates in the three-dimensional space given from the input device 1 and projects the result into the projection conversion coordinate value. It is stored in the storage unit 32 (A-2). The error calculating means 22 calculates the projected cubic Bezier curve and
The error of the next Bezier curve from the control point is calculated (A-3).
【0024】誤差判別手段23は、誤差演算手段22が
算出した誤差を予め定められた閾値と比較し(A−
4)、誤差が閾値以下であった場合は現在処理中の曲線
の処理を終了してステップ(A−7)へと進み、誤差が
閾値を越えていた場合はステップ(A−5)へと進み次
の処理に移る。The error determining means 23 compares the error calculated by the error calculating means 22 with a predetermined threshold value (A-
4) If the error is equal to or less than the threshold, the processing of the curve currently being processed is terminated and the process proceeds to step (A-7). If the error exceeds the threshold, the process proceeds to step (A-5). Proceed to the next process.
【0025】曲線分割手段24は、1つの3次ベジェ曲
線を2つの3次ベジェ曲線に分割し(A−5)、その分
割情報を分割情報記憶部33に記憶する(A−6)。誤
差演算手段22は、分割された3次ベジェ曲線とその3
次ベジェ曲線を近似した直線群との誤差を算出する(A
−3)。すべての分割された3次ベジェ曲線とその3次
ベジェ曲線の制御点との誤差が予め定められた閾値以下
になるまでステップ(A−3)からステップ(A−7)
の処理を繰り返す。The curve dividing means 24 divides one cubic Bezier curve into two cubic Bezier curves (A-5), and stores the division information in the division information storage unit 33 (A-6). The error calculating means 22 calculates the divided cubic Bezier curve and its three
Calculate an error from a group of straight lines approximating the next Bezier curve (A
-3). Steps (A-3) to (A-7) until the errors between all the divided cubic Bezier curves and the control points of the cubic Bezier curve become equal to or less than a predetermined threshold.
Is repeated.
【0026】直線近似手段25は、分割情報記憶部33
の分割情報を元に、投影変換前の座標系で3次ベジェ曲
線を直線群に近似する(A−8)。2次元図形立体化手
段26は、直線群を3次元空間上で平行移動してその軌
跡を3次元の多面体に変換する(A−9)。レンダリン
グ処理装置4は、3次元の多面体に対して隠面処理や輝
度値演算処理を行い、その結果を出力装置5に出力する
(A−10) 図7は本発明の第1の実施の形態の効果を説明する図で
あり、(a)は投影変換後の座標系での曲線分割を示し
た図、(b)は投影変換後の曲線の近似結果を示した図
である。The straight line approximation means 25 includes a division information storage unit 33
Cubic Bezier curve is approximated to a group of straight lines in the coordinate system before the projection transformation based on the division information of (A-8). The two-dimensional figure three-dimensional means 26 translates the straight line group in a three-dimensional space and converts the trajectory into a three-dimensional polyhedron (A-9). The rendering processing device 4 performs a hidden surface process and a brightness value calculation process on the three-dimensional polyhedron, and outputs the results to the output device 5 (A-10). FIG. 7 shows a first embodiment of the present invention. FIGS. 7A and 7B are diagrams for explaining the effect of FIG. 7, wherein FIG. 7A is a diagram illustrating curve division in a coordinate system after projection conversion, and FIG. 7B is a diagram illustrating an approximation result of a curve after projection conversion.
【0027】図7(a)に示すように曲線の分割処理の
誤差を計算する座標系が投影変換後の座標系のため、図
7(b)に示すように投影変換後の曲線の近似結果は、
図6(c)に示した従来例と比べて近似精度が改善され
ている。As shown in FIG. 7A, since the coordinate system for calculating the error of the curve division processing is the coordinate system after the projection conversion, the approximation result of the curve after the projection conversion is used as shown in FIG. 7B. Is
The approximation accuracy is improved as compared with the conventional example shown in FIG.
【0028】図3は、本発明による曲線の直線近似装置
の第2の実施の形態のブロック図である。FIG. 3 is a block diagram showing a second embodiment of the apparatus for linearly approximating a curve according to the present invention.
【0029】曲線の直線近似装置は、キーボード等の入
力装置1と、プログラム制御により動作するデータ処理
装置6と、情報を記憶する記憶装置7と、3次元の多面
体の隠面処理や輝度値演算等を行うレンダリング処理装
置4と、ディスプレイ装置等の出力装置5から構成され
る。The device for linear approximation of a curve includes an input device 1 such as a keyboard, a data processing device 6 operated by program control, a storage device 7 for storing information, a hidden surface process for a three-dimensional polyhedron, and a brightness value calculation. And the like, and an output device 5 such as a display device.
【0030】データ処理装置6は、3次元空間上の座標
値を2次元平面上に投影変換する投影変換手段21と、
投影変換後の3次ベジェ曲線を3次ベジェ曲線の定義式
に基づいて直線群に近似する第1の直線近似手段62
と、投影変換後の直線群で一定値以下の長さの直線を検
出する直線削減手段63と、投影変換前の3次ベジェ曲
線を3次ベジェ曲線の定義式に基づき直線削減手段63
の結果を除いて直線群に近似する第2の直線近似手段6
4と、2次元の図形を3次元空間上で平行移動して3次
元の多面体に変換する2次元図形立体化手段26とを備
える。The data processing device 6 includes projection conversion means 21 for projecting and converting coordinate values in a three-dimensional space onto a two-dimensional plane.
First straight line approximation means 62 for approximating the cubic Bezier curve after the projection transformation to a straight line group based on the definition formula of the cubic Bezier curve
A straight line reducing unit 63 for detecting a straight line having a length equal to or less than a certain value in the group of straight lines after the projection conversion,
A second straight-line approximation unit 6 that approximates a straight-line group except for the result of
And two-dimensional figure three-dimensionalizing means 26 for translating a two-dimensional figure in a three-dimensional space and converting it into a three-dimensional polyhedron.
【0031】記憶装置7は、3次元空間上での座標値を
記憶する座標値記憶部31と、3次元図形を2次元平面
に投影変換した後の座標値を記憶する投影変換座標値記
憶部32と、直線削減手段63の結果を3次ベジェ曲線
の定義式の媒介変数を記憶する媒介変数記憶部73とを
備える。The storage device 7 includes a coordinate value storage unit 31 for storing coordinate values in a three-dimensional space, and a projection-transformed coordinate value storage unit for storing coordinate values obtained by projecting a three-dimensional figure onto a two-dimensional plane. 32, and a parameter storage unit 73 that stores the result of the straight line reduction unit 63 as a parameter of a definition equation of a cubic Bezier curve.
【0032】図4は、図3に示した曲線の直線近似装置
の動作を示すフローチャートである。FIG. 4 is a flowchart showing the operation of the apparatus for linearly approximating the curve shown in FIG.
【0033】入力装置1から与えられた3次ベジェ曲線
を含む2次元の図形は、座標値記憶部31に記憶される
(B−1)。投影変換手段21は、座標値記憶部31内
の3次ベジェ曲線の制御点を、入力装置1から与えられ
た3次元空間上での座標を用いて投影変換し、その結果
を投影変換座標値記憶部32に記憶する(B−2)。第
1の直線近似手段62は、ベジェ曲線の定義式である数
1を用いて投影変換されたベジェ曲線を直線群に近似す
る。The two-dimensional figure including the cubic Bezier curve given from the input device 1 is stored in the coordinate value storage unit 31 (B-1). The projection conversion means 21 performs projection conversion of the control point of the cubic Bezier curve in the coordinate value storage unit 31 using the coordinates in the three-dimensional space given from the input device 1 and projects the result into the projection conversion coordinate value. It is stored in the storage unit 32 (B-2). The first straight line approximation unit 62 approximates the Bezier curve that has been projected and converted to a group of straight lines by using Equation 1, which is a definition equation of the Bezier curve.
【0034】[0034]
【数1】B(t)=(1−t)・(1−t)・(1−
t)・Q11+3(1−t)・(1−t)・t・Q12+3
(1−t)・t・t・Q13+t・t・t・Q14 数1において、0≦t≦1であり、Q11、Q12、Q13、
Q14はベジェ曲線の制御点である。## EQU1 ## B (t) = (1-t). (1-t). (1-
t) · Q 11 +3 (1-t) · (1-t) · t · Q 12 +3
(1-t) · t · t · Q 13 + t · t · t · Q 14 In Equation 1, 0 ≦ t ≦ 1, and Q 11 , Q 12 , Q 13 ,
Q 14 is a control point of a Bezier curve.
【0035】第1の直線近似手段62は、媒介変数tの
値を0〜1の間で予め定められた値で等分割し、数1に
代入して座標値を算出し、隣り合う点どうしを結んで直
線群とする(B−3)。The first straight line approximating means 62 divides the value of the parameter t by a predetermined value between 0 and 1 and substitutes it into Equation 1 to calculate a coordinate value. To form a straight line group (B-3).
【0036】直線削減手段63は、第1の直線近似手段
62によって求められた直線群の長さを求め、長さが一
定値以下の直線があった場合には、媒介変数記憶部73
に対応する媒介変数の値を記憶する(B−4)。The straight line reducing means 63 calculates the length of the straight line group obtained by the first straight line approximating means 62, and when there is a straight line having a length equal to or less than a certain value, the parameter storage unit 73
Is stored (B-4).
【0037】第2の直線近似手段64は、投影変換前の
ベジェ曲線を直線群に近似する。第2の直線近似手段6
4は、媒介変数tの値を0〜1の間で予め定められた値
で等分割し、媒介変数記憶部73に記憶された長さが一
定値以下の直線に対応する媒介変数の値を除いてベジェ
曲線の定義式に代入して座標値を算出し、隣り合う点ど
うしを結んで直線群とする(B−5)。そして、ステッ
プ(B−3)からステップ(B−5)までの処理をすべ
ての曲線の処理が終了するまで繰り返す(B−6)。The second straight line approximating means 64 approximates the Bezier curve before the projection transformation into a group of straight lines. Second linear approximation means 6
4 is to equally divide the value of the parameter t by a predetermined value between 0 and 1 and to convert the value of the parameter corresponding to a straight line whose length stored in the parameter storage 73 is equal to or less than a certain value into Then, the coordinate values are calculated by substituting them into the definition formula of the Bezier curve, and the adjacent points are connected to form a straight line group (B-5). Then, the processing from step (B-3) to step (B-5) is repeated until the processing of all the curves is completed (B-6).
【0038】2次元図形立体化手段26は、ベジェ曲線
を近似した直線群を3次元空間上で平行移動してその軌
跡を3次元の多面体に変換する(B−7)。レンダリン
グ処理装置4は、3次元の多面体に対して隠面処理や輝
度値演算処理を行い、その結果を出力装置5に出力する
(B−8)。The two-dimensional figure three-dimensionalizing means 26 translates a straight line group approximating the Bezier curve in a three-dimensional space and converts its trajectory into a three-dimensional polyhedron (B-7). The rendering processing device 4 performs a hidden surface process and a brightness value calculation process on the three-dimensional polyhedron, and outputs the result to the output device 5 (B-8).
【0039】この第2の実施の形態では、近似する曲線
は3次ベジェ曲線でなくても、たとえば、2次曲線やサ
インカーブなどの代数式で表せる曲線ならば可能であ
る。In the second embodiment, the approximate curve is not a cubic Bezier curve, but may be any curve that can be expressed by an algebraic expression such as a quadratic curve or a sine curve.
【0040】[0040]
【発明の効果】本発明による第1の効果は、曲線を直線
群に近似した後にアフィン変換などの座標変換を行って
曲線を近似した直線群が縮小された場合に、必要以上に
細かすぎる近似を行うことがなくなることである。これ
により、たとえば曲線を含む2次元図形を3次元空間上
で平行移動して3次元の多面体に立体化するような3次
元図形モデラにおいて、高速化や記憶装置の容量の削減
が可能である。The first effect of the present invention is that when a curve group is approximated by performing a coordinate transformation such as affine transformation after approximating the curve to a straight line group and the straight line group approximating the curve is reduced, the approximation is too fine. Is no longer performed. Thereby, for example, in a three-dimensional figure modeler in which a two-dimensional figure including a curve is translated in a three-dimensional space to be three-dimensional into a three-dimensional polyhedron, it is possible to increase the speed and reduce the capacity of the storage device.
【0041】本発明による第2の効果は、曲線を直線群
に近似した後にアフィン変換などの座標変換を行って曲
線を近似した直線群が拡大された場合に、直線群による
曲線の近似の精度が低下しなくなることである。The second effect of the present invention is that, when a curve group is approximated by performing a coordinate transformation such as affine transformation after approximating the curve to a straight line group, the accuracy of approximation of the curve by the straight line group is increased. Is not reduced.
【0042】本発明による第3の効果は、曲線を直線群
に近似した後に投影変換などの座標変換を行って曲線を
近似した直線群が変形された場合に、同一曲線内の近似
の精度が一定になることである。The third effect of the present invention is that, when a curve group is approximated by performing coordinate transformation such as projection transformation after the curve is approximated to a straight line group and the straight line group approximating the curve is deformed, the approximation accuracy within the same curve is improved. It is to be constant.
【0043】その理由は、投影変換後の座標系での曲線
の分割情報あるいは曲線の式の媒介変数を記憶しておく
手段を設け、その情報に基づいて投影変換前の座標系で
曲線を直線に近似する構成にしたからである。The reason is that there is provided means for storing curve division information or a parameter of a curve equation in the coordinate system after the projection transformation, and to convert the curve into a straight line in the coordinate system before the projection transformation based on the information. This is because the configuration approximates to.
【図1】本発明による曲線の直線近似装置の第1の実施
の形態のブロック図である。FIG. 1 is a block diagram of a first embodiment of a device for linearly approximating a curve according to the present invention.
【図2】図1に示した曲線の直線近似装置の動作を示す
フローチャートである。FIG. 2 is a flowchart showing an operation of the straight line approximation device for the curve shown in FIG. 1;
【図3】本発明による曲線の直線近似装置の第2の実施
の形態のブロック図である。FIG. 3 is a block diagram of a second embodiment of the device for linearly approximating a curve according to the present invention;
【図4】図3に示した曲線の直線近似装置の動作を示す
フローチャートである。FIG. 4 is a flowchart showing an operation of the straight line approximation device for the curve shown in FIG. 3;
【図5】特開平2−71384号公報に開示された従来
の曲線の直線近似装置のブロック図である。FIG. 5 is a block diagram of a conventional curve linear approximation apparatus disclosed in Japanese Patent Application Laid-Open No. 2-71384.
【図6】従来例の問題点を説明する図であり、(a)は
投影変換前の座標系での曲線分割を示した図、(b)は
投影変換前の曲線の直線近似の結果を示した図、(c)
は投影変換後の曲線の直線近似の結果を示した図であ
る。6A and 6B are diagrams illustrating a problem of the conventional example, in which FIG. 6A illustrates a curve division in a coordinate system before projection conversion, and FIG. 6B illustrates a result of linear approximation of a curve before projection conversion. The figure shown, (c)
FIG. 4 is a diagram showing a result of linear approximation of a curve after projection conversion.
【図7】本発明の第1の実施の形態の効果を説明する図
であり、(a)は投影変換後の座標系での曲線分割を示
した図、(b)は投影変換後の曲線の近似結果を示した
図である。FIGS. 7A and 7B are diagrams for explaining the effect of the first embodiment of the present invention, wherein FIG. 7A is a diagram showing curve division in a coordinate system after projection transformation, and FIG. FIG. 5 is a diagram showing an approximation result of FIG.
1 入力装置 2 データ処理装置 3 記憶装置 4 レンダリング処理装置 5 出力装置 6 データ処理装置 7 記憶装置 21 投影変換手段 22 誤差演算手段 23 誤差判別手段 24 曲線分割手段 25 直線近似手段 26 2次元図形立体化手段 31 座標値記憶部 32 投影変換座標値記憶部 33 分割情報記憶部 62 第1の直線近似手段 63 直線削減手段 64 第2の直線近似手段 73 媒介変数記憶部 501 データ入力回路 502 曲線分割回路 503 誤差演算回路 504 誤差判別回路 505 データ出力回路 DESCRIPTION OF SYMBOLS 1 Input device 2 Data processing device 3 Storage device 4 Rendering processing device 5 Output device 6 Data processing device 7 Storage device 21 Projection conversion means 22 Error calculation means 23 Error discrimination means 24 Curve division means 25 Straight line approximation means 26 Two-dimensional figure three-dimensional Means 31 Coordinate value storage unit 32 Projected transformation coordinate value storage unit 33 Division information storage unit 62 First straight line approximation unit 63 Straight line reduction unit 64 Second straight line approximation unit 73 Parameter storage unit 501 Data input circuit 502 Curve division circuit 503 Error calculation circuit 504 Error discrimination circuit 505 Data output circuit
Claims (4)
形を2次元平面上に投影変換する投影変換手段と、 投影変換された前記3次ベジェ曲線と投影変換された前
記3次ベジェ曲線の制御点との誤差を算出する誤差演算
手段と、 前記誤差が予め定められた閾値以下であるかを判定する
誤差判別手段と、 前記誤差が予め定められた閾値を越えた場合に前記3次
ベジェ曲線を2つの3次ベジェ曲線に分割する曲線分割
手段と、 前記2つの3次ベジェ曲線の分割情報を記憶する分割情
報記憶手段と、 前記分割情報を元に投影変換される前の前記3次ベジェ
曲線を直線群に近似する直線近似手段とを備えたことを
特徴とする曲線の直線近似装置。1. A projection conversion means for projecting and transforming a figure including a cubic Bezier curve in a three-dimensional space onto a two-dimensional plane, the cubic Bezier curve subjected to the projection transformation and the cubic Bezier curve subjected to the projection transformation Error calculating means for calculating an error with respect to the control point, error determining means for determining whether or not the error is equal to or less than a predetermined threshold, and when the error exceeds a predetermined threshold, the third order and the curve dividing means for dividing the Bezier curve into two cubic Bezier curve, the division information storage means for storing the division information of the two cubic Bezier curve, before being projected converted based on the division information the 3 A straight line approximation device for approximating the next Bezier curve to a straight line group.
平面上に投影変換する投影変換手段と、 投影変換された前記曲線を予め定められた方法で直線群
に近似する第1の直線近似手段と、 前記直線群を構成する個々の直線の長さが予め定められ
た閾値以下であるかを判定する直線削減手段と、 該直線削減手段で、前記直線群を構成する個々の直線の
長さが予め定められた閾値以下であった場合に、その短
い直線を特定する情報を記憶する削減直線記憶手段と、 投影変換される前の前記直線を予め定められた方法で直
線群に近似し、前記直線群から前記削減直線記憶手段に
記憶されている前記短い直線を特定する情報で特定され
る直線の端点を削除し、新たな直線群を生成する第2の
直線近似手段とを備えたことを特徴とする曲線の直線近
似装置。2. A projection conversion means for projecting and converting a graphic including a curve in a three-dimensional space onto a two-dimensional plane, and a first straight line approximating the projected and converted curve to a group of straight lines by a predetermined method. Approximating means; straight line reducing means for determining whether the length of each straight line constituting the straight line group is equal to or less than a predetermined threshold value; and When the length is equal to or less than a predetermined threshold, reduced straight line storage means for storing information for specifying the short straight line, and approximating the straight line before projection conversion to a straight line group by a predetermined method. And a second straight line approximating unit that deletes an end point of the straight line specified by the information specifying the short straight line stored in the reduced straight line storage unit from the straight line group and generates a new straight line group. Linear approximation of a characteristic curve Location.
の直線近似手段は、3次ベジェ曲線の定義式の媒介変数
を等分割して得られる点列を結んで直線群とすることを
特徴とする請求項2に記載の曲線の直線近似装置。3. The first linear approximation means and the second linear approximation means.
3. The straight line approximating apparatus according to claim 2, wherein the straight line approximating means connects a series of points obtained by equally dividing the parameters of the definition formula of the cubic Bezier curve into a straight line group.
短い直線を特定する情報は、3次ベジェ曲線の定義式の
媒介変数で記憶されることを特徴とする請求項2に記載
の曲線の直線近似装置。4. The curve according to claim 2, wherein the information for specifying the short straight line stored in the reduced straight line storage unit is stored as a parameter of a definition equation of a cubic Bezier curve. Linear approximation device.
Priority Applications (1)
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---|---|---|---|
JP29415395A JP2768331B2 (en) | 1995-11-13 | 1995-11-13 | Curve linear approximation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP29415395A JP2768331B2 (en) | 1995-11-13 | 1995-11-13 | Curve linear approximation device |
Publications (2)
Publication Number | Publication Date |
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JPH09134441A JPH09134441A (en) | 1997-05-20 |
JP2768331B2 true JP2768331B2 (en) | 1998-06-25 |
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JP29415395A Expired - Lifetime JP2768331B2 (en) | 1995-11-13 | 1995-11-13 | Curve linear approximation device |
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US7873218B2 (en) | 2004-04-26 | 2011-01-18 | Canon Kabushiki Kaisha | Function approximation processing method and image processing method |
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JP6140498B2 (en) * | 2013-03-26 | 2017-05-31 | 株式会社ブリヂストン | Behavior analysis apparatus and behavior analysis method |
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