Improvement of utilization of ship hull block assembly jigs is one of the main issues of ship hull assembly factory. Block leveling system can be a possible solution to solve the problem. However experience based system development approach can not gu...
Improvement of utilization of ship hull block assembly jigs is one of the main issues of ship hull assembly factory. Block leveling system can be a possible solution to solve the problem. However experience based system development approach can not gummartee the success of system development especially under the lock of system development experience. In order to improve the consistent understanding of the ship hill block leveling system and the possibility of success for the system developent the acciomtic design method to design the system is adopted. In this paper the independence acciom one of two principal acioms of acciomatic design theory is applied to system development as an design critera. Using design matric sequence of design parameters compatible with the independence aciom is determised and independent components of block leveling system is revealed. As a result of aciomatic design system configuration related to the design sequence is developed. In order to verily and validate the developed block leveling system, test with real hill block leveling work in site by using total station which is used to acquin three dimensional coordinate of target point is perormed. Comparison with measured data and output data from the work block leveling system shows the system accuracy is under 1 mm.