Design for Automation in Automotive Manufacturing

• Clear Communication Protocols. Establishing clear communication protocols between different components of a system is essential for successful automation. This ensures seamless and timely interaction with data exchange between automated elements.
• Integration of Sensors and Feedback Systems. Automation systems often rely on sensors and feedback mechanisms to adapt to changing conditions. Designing with these elements in mind enables the automation system to respond intelligently to variations in the environment to verify the next part produced is of high quality.
• Ease of Maintenance. Automated systems should be designed in a way that allows for straightforward troubleshooting, repairs and updates. Where and how the technical documentation such as drawings, schematics, layouts, specifications and spare parts lists, is stored and cataloged can make it easy for technicians to find critical information for specific equipment when required.
• User Interface Design. If human interaction is still required, designing user interfaces that are intuitive and user-friendly can enhance the overall effectiveness of the automated system.
• Safety Considerations. Safety is a critical aspect of automation design, so, systems should be designed to minimize risks to operators, the equipment and the product. Incorporating safety features and fail-safes is essential, especially at man/machine interface points.
• Scalability. Systems should be able to adapt to changes in production volumes or requirements without significant redesign. Modularity and simplicity, as discussed earlier, enhance this dimension dramatically.
• Energy Efficiency. Consideration of energy consumption is crucial. Designing for automation should aim to optimize energy usage to make the automated processes environmentally sustainable. Certain technical selections can impact this dramatically. For example, optical communication is less energy-intensive than traditional methods.
• Cost-Effectiveness. While the initial investment in automation can be substantial, designing for cost-effectiveness involves considering the long-term benefits, reduced operational costs, and increased efficiency that automation can bring.

Comprehensive and Holistic Approach

Transforming design organizations for more effective automation requires a comprehensive and holistic approach that goes beyond these foundational technical aspects. It also includes broader operational and business considerations.

Collaboration between engineers, designers and other stakeholders is necessary to create systems that are automated and also effective, reliable and sustainable. A leader needs to incorporate these additional elements to complement the process work.

Here are several of these dimensions to consider that we found to be critical:

• ​Automation Programs. Manage broad automation efforts as programs with multiple “capability-building” projects or “capability-deployment” projects to clearly define “done” for each effort. Blend these efforts over time to maintain sound governance even with many overlapping projects running concurrently. Also, maintain a backlog of automation projects at each site or for each new product program, and carefully manage their execution versus expected returns/benefits.