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심해저 환경인자를 고려한 시험집광기 주행장치의 곱분해 기법 기반의 통계 모멘트를 이용한 효율적인 강건 최적설계
조수길(Su-gil Cho),이민욱(Minuk Lee),임우철(Woochul Lim),최종수(Jong-Su Choi),김형우(Hyung Woo Kim),홍섭(Sup Hong),이태희(Tae Hee Lee) 대한기계학회 2011 대한기계학회 춘추학술대회 Vol.2011 No.10
A deep-sea manganese nodule miner consists of 4 parts: pickup device, crusher, disposal device and tracked vehicle. The tracked vehicle is an essential component in the self-propelled mining system moving on soft soil. Performances of the tracked vehicle are influenced by noise factors; track speed, seafloor slope, shear stress, bottom currents and reaction forces of flexible hose. It is necessary to adopt robust design method that improves performances as well as minimize the variation of performances due to noise factors. Robust design optimization using statistical moments based on multiplicative decomposition method, calculate statistical moments using explicit integral of kriging metamodel and probability density functions of noise factors, can accurately and efficiently search for the robust optimum. In this paper, we adopt robust design optimization using statistical moments based on multiplicative decomposition method for test miner tracked vehicle on collecting operation.
곱분해 기법 기반의 통계 모멘트를 이용한 효율적인 강건 최적설계
조수길(Su-gil Cho),이민욱(Minuk Lee),이태희(Tae Hee Lee) 대한기계학회 2012 大韓機械學會論文集A Vol.36 No.10
제품 생산 시 발생하는 제작 공차, 항복강도와 탄성계수 등 재료 물성치의 불확실성, 온도와 습도같이 시스템에 작용하는 환경인자 등은 시스템의 성능에 영향을 미친다. 강건 최적설계는 이러한 인자들이 시스템에 미치는 영향을 최소화하면서 성능을 개선하는 설계기법으로 최근 많은 연구가 이루어지고 있다. 하지만 기존의 강건 최적설계 기법은 여러 인자들의 분포를 고려해야 하기 때문에 막대한 계산비용이 드는 문제가 있다. 본 논문에서는 이러한 문제점을 개선하기 위하여 곱분해 기법을 이용한 강건 최적설계를 제안한다. 제안된 기법을 이용하여 설계영역을 크리깅 메타모델로 근사하고 곱분해 기법을 적용하여 평균과 분산을 효율적이고 정확하게 계산하여 강건 최적설계를 수행한다. 제안된 방법을 수학예제와 공학예제에 적용하여 유용성을 검증한다. The performance of a system can be affected by various variables such as manufacturing tolerances, uncertainties of material properties, and environmental factors acting on the system. Robust design optimization has attracted much attention in the design of products because it can find the best design solution that minimizes the variance of the response while considering the distribution of the variables. However, the computational cost and accuracy of optimization have thus far been a challenging problem. In this study, robust design optimization using the multiplicative decomposition method is proposed in order to solve these problems. Because the proposed method calculates the mean and variance of the system directly from the kriging metamodel using the multiplicative decomposition method, it can be used to search for a robust optimum design accurately and efficiently. Several mathematical and engineering examples are used to demonstrate the feasibility of the proposed method.
심해 잡음인자를 고려한 망간단괴 시험집광기의 채집운용시 주행장치 다구치 강건설계
조수길(Su-gil Cho),이민욱(Minuk Lee),임우철(Woochul Lim),최종수(Jong-Su Choi),김형우(Hyung-Woo Kim),이창호(Chang-Ho Lee),홍섭(Sup Hong),이태희(Tae Hee Lee) 한국해양공학회 2012 韓國海洋工學會誌 Vol.26 No.1
A deep-sea manganese nodule miner consists of 4 parts: the pickup device, crusher, disposal device, and tracked vehicle. The tracked vehicle is an essential component to keep the self-propelled miner moving across deep-sea soil. The performances of the tracked vehicle are influenced by noise factors: the shear strength of the seafloor, bottom current, seafloor slope, track speed, reaction forces of flexible hose, etc. It is necessary to adopt a robust design method that improves the performances and minimizes the variation caused by noise factors. Taguchi’s method, the most widely known robust design method, searches for the robust optimum using an orthogonal array composed of the product of the inner array and outer array. In this paper, we propose a new screening technique to reduce the number of input factors and apply the MRSN (Multi-Response Signal to Noise) ratio to convert multiple performances into single one in order to overcome the difficulties and limitations of using Taguchi’s method in a case with many input factors and multiple performances. A test miner was already designed and tested. It has about 1/10 the capacity of a commercial one and was successfully operated at an in-shore area. Taguchi’s robust design was applied to the tracked vehicle of the test miner, and design improvements were implemented for the vehicle.