Product complexity in modern engineering is rising at an ever-increasing rate for several reasons. On the one hand, designers are aimed at extending the functionality of products, thus, integrating them in human living environments and optimizing their interaction with humans. On the other hand, this functionality extension results from the synergetic integration of different disciplines. However, an important prerequisite for the market launch of these products is their ability to meet the previously defined requirements, particularly safety and reliability. In this perspective, we proposed a framework for the early analysis of the functional behavior of cognitive products. We assume that the failure of a function is linked with a system internal state transition. It is then possible to model the sequencing of different possible states, and by this means different functional failures which lead to critical feared states, thus, taking into account the random nature of the occurring failures. The approach presented is explained using an extended stochastic petri net with switching time to model the failure behavior of a cognitive walker    «

Product complexity in modern engineering is rising at an ever-increasing rate for several reasons. On the one hand, designers are aimed at extending the functionality of products, thus, integrating them in human living environments and optimizing their interaction with humans. On the other hand, this functionality extension results from the synergetic integration of different disciplines. However, an important prerequisite for the market launch of these products is their ability to meet the prev...    »