• Title/Summary/Keyword: 윤곽 오차

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공작기계의 곡선형 경로에 대한 오차모델을 이용한 제어기설계

  • 길형균;이건복
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2004.05a
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    • pp.189-189
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    • 2004
  • 본 논문은 CNC 밀링머신을 이용한 절삭가공 등 2축시스템의 위치제어 시스템을 대상으로 한다. 기존의 제어방식은 크게 독립축제어와 상호결합제어로 분류할 수 있다. 독립축제어는 두 축의 통합된 운동을 각각의 독립된 축에 대한 추적제어를 수행하여 원하는 공구경로의 위치 정밀성을 향상시키고자 하는 것이고, 상호결합제어는 지령경로에 대한 추적성능보다는 현재의 윤곽오차를 감소시키는 방향으로 제어입력을 인가하여 가공윤곽의 오차를 감소시키는데 주목적이 있다. 또한 최근의 작업공정의 고속화 경향은 윤곽오차를 감소시키면서도 추적성능이 우수한 제어방식을 요구하고 있다.(중략)

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A Neuro-contouring controller for High-precision CNC Machine Tools (고정밀 CNC 머신을 위한 신경망 윤과제어)

  • 이현철;주정홍;전기준
    • Journal of the Korean Institute of Intelligent Systems
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    • v.7 no.5
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    • pp.1-7
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    • 1997
  • In this paper, a neuro-contouring control scheme for the high precision machining of CNC machine tools is descrihed. The proposed control system consists of a conventional controller for each axis and an additional neuro-controller. For contouring control, the contour error must be computed during realtime motion, but generally the contour error for nonlinear contours is difficult to he directly computed. We, therefore, propose a new contour error model to approximate real error more exactly, and here we also introduce a cost function for better contouring performance and derive a learning law to adjust the weights of the neuro-controller. The derived learning law guarantees good contouring performance. Usefulness of the proposed control scheme is demonstrated hy computer simulations.

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Design of Fuzzy Logic Controllers for High-Speed and High-Accuracy CNC machines (고정밀 고속가공을 위한 CNC머신의 퍼지 제어기 설계)

  • Cho, Jung-Hwan;Lee, Seung-Soo;Jeon, Gi-Joon
    • Proceedings of the KIEE Conference
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    • 2002.11c
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    • pp.50-53
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    • 2002
  • 이 논문에서는 CNC 머시닝 센터의 두 서보축을 대상으로 가공정밀도를 유지하면서 최고의 이송속도로 가공 속도를 증가시키는 퍼지 제어 기법을 제안한다. 또한 기존의 오차 모델링 방식이 아닌 비선형 궤적에서도 적용이 가능한 최근의 윤곽오차 모델을 사용한다. 퍼지 소속함수의 입력 변수가 허용 오차에 따라 스케링되고 이송속도와 윤곽오차와의 관계를 퍼지제어룰에 기초하여 허용 오차안에서 매 시간마다 보다 빠른 이송속도를 찾는다. 모의 실험 결과들이 제안한 방법이 기존의 고정된 이송속도를 사용하는 방법과 유사한 윤곽오차를 보이면서도 빠른 가공을 할 수 있음을 보여준다.

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Transform Coding of Error Signals in Polygonal Approximation to Contour (윤곽선 다각근사화시 오차신호에 대한 변환 부호화 기법)

  • 민병석;김승종;정제창;최병욱
    • Proceedings of the Korean Society of Broadcast Engineers Conference
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    • 1997.11a
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    • pp.55-62
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    • 1997
  • 본 논문에서는 윤곽선의 다각근사화시 발생하는 오차신호를 표본화하고 표본화된 신호를 부호화하기 위한 새로운 변환을 제안한다. 제안하는 방법은 다각근사화시 발생하는 윤곽선의 단편들이 완만한 곡선의 형태를 갖고 양 끝점이 0이라는 특징을 고려해서 르장드르 다항식에 기반한 새로운 변환을 제안한다. 제안한 방법은, 기존의 방법인 이산여현변환, 이산정현변환 등과 변환부호화 이득면에서 비교해 볼 때 우수한 결과를 얻었다.

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A Two-Step Vertex Selection Method for Minimizing Polygonal Approximation Error (다각형 근사 오차를 최소화하기 위한 2단계 정점 선택 기법)

  • 윤병주;이훈철;고윤호;이시웅;김성대
    • Journal of the Institute of Electronics Engineers of Korea SP
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    • v.40 no.6
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    • pp.114-123
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    • 2003
  • The current paper proposes a new vertex selection scheme for polygon-based contour coding. To efficiently characterize the shape of an object, we incorporate the curvature information in addition to the conventional maximum distance criterion in vertex selection process. The proposed method consists of "two-step procedure." At first, contour pixels of high curvature value are selected as key vortices based on the curvature scale space (CSS), thereby dividing an overall contour into several contour-segments. Each segment is considered as an open contour whose end points are two consecutive key vortices and is processed independently. In the second step, vertices for each contour segment are selected using progressive vertex selection (PVS) method in order to obtain minimum number of vertices under the given maximum distance criterion ( $D_{max}$$^{*}$). Furthermore, the obtained vortices are adjusted using the dynamic programming (DP) technique to optimal positions in the error area sense. Experimental results are presented to compare the approximation performances of the proposed and conventional methods.imation performances of the proposed and conventional methods.

A Multi-Axis Contour Error Controller for High-Speed/High-Precision Machining of Free form Curves (고속 고정밀의 자유곡선 가공을 위한 다축 윤곽오차 제어)

  • 이명훈;최정희;이영문;양승한
    • Journal of the Korean Society for Precision Engineering
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    • v.21 no.4
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    • pp.64-71
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    • 2004
  • The growing need for higher precision and productivity in manufacturing industry has lead to an increased interest in computer numerical control (CNC) systems. It is well known fact that the cross-coupling controller (CCC) is an effective method for contouring applications. In this paper, a multi-axis contour error controller (CEC) based on a contour error vector using parametric curve interpolator is introduced. The contour error vector is a vector from the actual tool position to the nearest point on the desired path. The contour error vector is the closest error model to the contour error. The simulation results show that the CEC is more accurate than the conventional CCC for a biaxial motion system. In addition, the experimental results on 3-axis motion system show that the CEC is simply applied to 3-axis motions and contouring accuracy is significantly improved.

Design of Contour Error Models using Contour Error Vector (윤곽오차 벡터를 이용한 윤곽오차 모델 설계)

  • 최정희;이명훈;양승한
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2003.06a
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    • pp.895-898
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    • 2003
  • The higher precision is demanded in modem manufacturing and it requires the more accurate servo controller. Cross-coupling control (CCC) has been developed to improve contouring motion. In this paper we introduce a new nonlinear CCC that is based on contour-error-vector using a parametric curve interpolator. A vector from the actual tool position to the nearest point on the desire path is directly adopted. The contour-error-vector is determined by constructing a tangential vector of nearest point on desired curve and determining the vector perpendicular to this tangential vector from the actual tool position. Moreover, the vector CCC can apply directly and easily to free-form curves include convex and concave form. The experimental results on a three-axis CNC machine center show that the present approach significantly improves motion accuracy in multi-axis motion

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A new transform coding for contours in object-based image compression (객체지향 영상압축에 있어서 윤곽선에 대한 새로운 변환 부호화)

  • 민병석;정제창;최병욱
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.23 no.4
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    • pp.1087-1099
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    • 1998
  • In the content-based image coding, where each object in the scene is encoded independently, the shape, texture and motion information are very important factors. Though the contours representing the shape of an object occupy a great amount of data in proportion to the whole information, they strongly affect the subjective image quaility. Therefore, the distortion of contour coding has to be minimized as much as possible. In this paper, we propose a new method for the contour coding in which the contours are approximated to polygon and the eorror signal occurring from polygonal approximation are transformed with new basis functions. Considering the facts that confour segments occurring from polygonal approximation are smooth curves and error signals have two zero-ending points, we design new basis functions based on the Legendre polynomial and then transform the error signals with them. When applied to synthetic images such as circles, ellipses and etc., the proposed method provides, in overall, outstanding results in respect to the transform coding gain compared with DCT and DST. And in the case when applied to natural images, the proposed method gives better image quality over DCT and comparable results with DST.

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Reduction of Dynamic False Contours based on Gray Level Selection method in PDP (계조 수 감소를 이용한 PDP내에서 의사 윤곽 제거 기법)

  • Ahn Sang-Jun;Eo Yoon-Phil;Lee Sang-Uk
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.30 no.7C
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    • pp.716-725
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    • 2005
  • In this paper, we propose a new approach for the reduction of the dynamic false contours, which detects and compensates false contour artifacts adaptively. First, we develop a simple but effective method to select the pixels that are likely to cause the motion artifacts, based on the distribution of pixel values. Then, we merge the selected pixels into several regions using tree structure. Next, we reduce number of gray levels within the regions slightly to reduce the false contours. Note that reducing number of gray levels yield the distortion, thus it is applied only to the selected regions, instead of the whole picture. Intensive simulations on real moving image show that the proposed algorithm alleviates the dynamic false contours effectively with tolerable computational complexity.