To reduce the integration and test effort for high-tech multi-disciplinary systems, we are developing a method called model-based integration and testing. The method allows integration of models of not yet realized components (e.g. mechanics, electronics, software) with available realizations of other components. The combination of models and realizations is then used for early system analysis by means of validation, verification, and testing. The analysis enables early detection and prevention of problems that would otherwise occur during real integration, resulting in a significant reduction of effort invested in the real integration and testing phases. This paper concerns the application of the method to a relevant industrial case study,...