Control Chart is a graph which dots the characteristic values of a process. It is the tool of statistical technique to keep a process in controlled condition. It is also used for investigating the state of a process. Therefore many companies have used Control Chart as the tool of statistical process control (SPC). Products from a production process represent accidental dispersion values around a certain reference value. Fluctuations cause of quality dispersion is classified as a chance cause and a assignable cause. Chance cause refers unmanageable practical cause such as operator proficiency differences, differences in work environment, etc. Assignable cause refers manageable cause which is possible to take actions to remove such as operator inattention, error of production equipment, etc. Traditionally x-R control chart or x-s control chart is used to find and remove the error cause. Traditional control chart is to determine whether the measured data are in control or not, and lets us to take action. On the other hand, RNELCC (Reflected Normal Expected Loss Control Chart) is a control chart which, even in controlled state, indicates the information of economic loss if a product is in inconsistent state with process target value. However, contaminated process can cause control line sensitive and cause problems with the detection capabilities of chart. Many studies on robust estimation using trimmed parameters have been conducted. We suggest robust RNELCC which used the idea of trimmed parameters with RNEL control chart. And we demonstrate effectiveness of new control chart by comparing with ARL value among traditional control chart, RNELCC and robust RNELCC.

1. 서 론
 2. 이론적 배경
  2.1 x - R관리도
  2.2 로버스트 추정치
  2.3 기대손실 관리도
  2.4 역정규 기대손실 관리도
 3. 로버스트 기대손실 관리도의 설계
  3.1 로버스트 기대손실 관리도
  3.2 관리선 설정
 4. 실험 및 분석
  4.1 공정변화 설계
  4.2 수치 예
 5. 결 론
 References

• 이형준(인천대학교 산업경영공학과) | Hyeung-Jun Lee
• 정영배(인천대학교 산업경영공학과) | Young-Bae Chung Corresponding Author