Understanding since the initial stages of designing new products (such as work machinery) the dynamic loads (forces and moments) acting at critical points of structures, leads to significant time to market reduction and cost savings. However, the adoption of commercial capable of simulating the dynamic behavior of various physical systems, remains limited due to the specialized knowledge required to operate with such software. Consequently, many companies forego using these programs, compromising the efficiency of new product development and falling into the iterative design-test loop. The Python-based tool developed in this study, used here to simulate the dynamics of an aerial work platform, aims to make such simulations accessible with relative ease.
A python software development for dynamic simulation of mobile elevating work platform
Cangi Giacomo;Palmieri Massimiliano;Cianetti Filippo
2024
Abstract
Understanding since the initial stages of designing new products (such as work machinery) the dynamic loads (forces and moments) acting at critical points of structures, leads to significant time to market reduction and cost savings. However, the adoption of commercial capable of simulating the dynamic behavior of various physical systems, remains limited due to the specialized knowledge required to operate with such software. Consequently, many companies forego using these programs, compromising the efficiency of new product development and falling into the iterative design-test loop. The Python-based tool developed in this study, used here to simulate the dynamics of an aerial work platform, aims to make such simulations accessible with relative ease.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.