Tim Heikkinen

Doctoral Student

Industrial Product development, Production and Design , School of Engineering

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D1411
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+46 36-10 1687
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HEITIM
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Product development can be defined as a business process, turning a market opportunity to a product available for sale. Throughout this process different disciplines create, modify, and re-use product information, such as requirements, conceptual descriptions, functional attributes, geometric parameters, constraints etc. Collaboration between these disciplines is crucial as they often work with the same product information but with different agendas, often resulting in conflicting aspirations. Product development is therefore often an iterative process and is propelled by an increased demand on mass customisation and integration of new complex technologies.

Tim Heikkinen’s research focuses on the development of computer supported methods and tools for the collaboration between disciplines. It has been shown that by extending some of the traditional product information, such as 3D CAD models, with multidisciplinary information it can be used as a core within an automated process. 

Article

Heikkinen, T., Stolt, R., Elgh, F. (2020). Incorporating Design for Additive Manufacturing in Multidisciplinary Design Automation – Challenges Identified Computer-Aided Design and Applications, 17(5), 936-947. More information
Heikkinen, T., Johansson, J., Elgh, F. (2018). Review of CAD-model Capabilities and Restrictions for Multidisciplinary use Computer-Aided Design and Applications, 15(4), 509-519. More information

Conference paper

Heikkinen, T., Stolt, R., Elgh, F. (2019). Incorporating Design for Additive Manufacturing in Multidisciplinary Design Automation – Challenges Identified. CAD'19, Singapore, June 24-26, 2019.. More information
Stolt, R., Elgh, F., Heikkinen, T. (2019). Design and Evaluation of Aerospace Components for SLM. Amsterdam: IOS Press, 26th ISTE International Conference on Transdisciplinary Engineering, held at the University of Tokyo, Kashiwa Campus, July 30 – August 1, 2019, Japan. More information
Heikkinen, T., Johansson, J., Elgh, F. (2018). Extended design assets enabling automated tool development as a part of a product platform approach. 15th International Design Conference - DESIGN 2018, May 21st-24th, 2018, Dubrovnik, Croatia. More information
Elgh, F., Johansson, J., Stolt, R., Lennartsson, M., Heikkinen, T., Raudberget, D. (2018). Platform Models for Agile Customization – What's Beyond Modularization?. 25th ISPE International Conference on Transdisciplinary EngineeringIntegrating (TE2018), 3-6 July, Modena, Italy. More information
Stolt, R., Heikkinen, T., Elgh, F. (2018). Integrating Additive Manufacturing in the Design of Aerospace Components. 25th ISPE International Conference on Transdisciplinary EngineeringIntegrating (TE2018), 3-6 July, Modena, Italy. More information
Heikkinen, T., Johansson, J., Elgh, F. (2017). Review of CAD-model Capabilities and Restrictions for Multidisciplinary use. CAD'17, Okayama, August 10-12, 2017.. More information
Heikkinen, T., Johansson, J., Elgh, F. (2017). Extended CAD-models – State of Practice within Three Companies. IEEM2017, International Conference on Industrial Engineering and Engineering Management, 10-13 December, 2017, Singapore. More information
Stolt, R., Johansson, J., André, S., Heikkinen, T., Elgh, F. (2016). How to Challenge Fluctuating Requirements: Results from Three Companies. Proceedings of the 23rd ISPE Inc. International Conference on Transdisciplinary Engineering, Parana, Curitiba, October 3–7, 2016.. More information
Heikkinen, T., Stolt, R., Elgh, F., Andersson, P. (2016). Automated Producibility Assessment Enabling Set-Based Concurrent Engineering. Proceedings of the 23rd ISPE Inc. International Conference on Transdisciplinary Engineering, Parana, Curitiba, October 3–7, 2016.. More information
Heikkinen, T., Johansson, J., Elgh, F. (2016). Assessment of Simulation Ready CAD Models in a Set Based Concurrent Engineering Context. DESIGN 2016, 14th International Design Conference. More information

Licentiate thesis

Heikkinen, T. (2018). Multidisciplinary design automation: Working with product model extensions (Licentiate thesis, Jönköping: Jönköping University, School of Engineering). More information

Other publications

Heikkinen, T., Johansson, J., Elgh, F. . Multidisciplinary design automation – A conceptual framework for working with product model extensions. More information

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