Featured Article: Cyber-Empathic Design: A Data-Driven Framework for Product Design

Official ASME Group

Journal of Mechanical Design

The ASME Journal of Mechanical Design (JMD) serves the broad design community as a venue for scholarly, archival research in all aspects of the design activity.
Edit Post Mode

Enter the date that this post should be published.

Are you sure?

Are you sure you want to delete this file? This action is irreversible.

  • Featured Article: Cyber-Empathic Design: A Data-Driven Framework for Product Design

    Dipanjan Ghosh, Andrew Olewnik, Kemper Lewis, Junghan Kim and Arun Lakshmanan
    J. Mech. Des 139(9), 091401 (Jul 12, 2017); doi: 10.1115/1.4036780 

    Understanding consumer perceptions of products and the potential impact of those perceptions on purchase decisions is critical information that should influence product development decisions. Though firms often seek consumer feedback on products, such feedback often occurs long after product use and lacks specific details about the interaction, usage context, etc. This work introduces a novel framework – Cyber-Empathic Design – that integrates sensor data and real-time user feedback to develop a more accurate model of user perceptions. The framework is applied to a case study focused on user perceptions of shoes. The results of this work demonstrate the potential for product developers to leverage the IoT (internet-of-things) movement, real-time user feedback, and advances in machine learning to connect user perceptions to specific engineered product features. 
    Figure: Data collection method (left) and resulting perceptual model (right). 

    For the Full Article visit ASME's Digital Collection.
Please log in to comment

Comments (0)

Your comment has been posted.   Close
Thank you, your comment requires moderation so it may take a while to appear.   Close
Your avatar