Current challenges of the manufacturing industry require modular and
changeable manufacturing systems that can be adapted to variable conditions
with little effort. At the same time, production recipes typically represent
important company know-how that should not be directly tied to changing plant
configurations. Thus, there is a need to model general production recipes
independent of specific plant layouts. For execution of such a recipe however,
a binding to then available production resources needs to be made. In this
contribution, select a suitable modeling language to model and execute such
recipes. Furthermore, we present an approach to solve the issue of recipe
modeling and execution in modular plants using semantically modeled
capabilities and skills as well as BPMN. We make use of BPMN to model
\emph{capability processes}, i.e. production processes referencing abstract
descriptions of resource functions. These capability processes are not bound to
a certain plant layout, as there can be multiple resources fulfilling the same
capability. For execution, every capability in a capability process is replaced
by a skill realizing it, effectively creating a \emph{skill process} consisting
of various skill invocations. The presented solution is capable of
orchestrating and executing complex processes that integrate production steps
with typical IT functionalities such as error handling, user interactions and
notifications. Benefits of the approach are demonstrated using a flexible
manufacturing system.Comment: To be submitted to ETFA 202