Title :
Reliability-based design optimization for pressure shell of remotely operated vehicle with discrete and continuous variables
Author :
Shunqi Yang ; Yutao Zhou ; Dong Song
Author_Institution :
Kunming Shipborne Equip. Res. & Test Center, Kunming, China
Abstract :
Ring-stiffened cylinder is one of the most structure types in pressure shell of remotely operated vehicle (ROV). In pressure shell optimization design problem, both discrete and continuous variables are involved and uncertainties are ubiquitous in any stage of the ROV development. However, pressure shell of ROV presently designed via the static strength and the rounding method which might result in more redundancy than required. In this paper, reliability-based design optimization (RBDO) with mixed discrete and continuous random variables is proposed to handle the pressure shell design and first-order reliability method (FORM) is used to calculate reliability of the pressure shell performance functions. The effectiveness of the proposed method for pressure shell design is validated by an engineering example.
Keywords :
autonomous underwater vehicles; design engineering; mechanical strength; optimisation; reliability; shapes (structures); shells (structures); FORM; RBDO; ROV development; continuous random variables; discrete random variables; first-order reliability method; pressure shell design; pressure shell performance functions; reliability-based design optimization; remotely operated vehicle; ring-stiffened cylinder; rounding method; static strength; underwater ROV; Design optimization; Random variables; Reliability engineering; Ribs; Uncertainty; discrete and continuous variables; first-order reliability method; pressure shell; reliability-based design optimization;
Conference_Titel :
Quality, Reliability, Risk, Maintenance, and Safety Engineering (ICQR2MSE), 2012 International Conference on
Conference_Location :
Chengdu
Print_ISBN :
978-1-4673-0786-4
DOI :
10.1109/ICQR2MSE.2012.6246416
