A Networked Dynamical Systems Approach to Enable Optimal Design for Product Evolution (DfP — NSF Award to Purdue University (IN, $
This award supports research with the primary objective to establish an approach for Design for Product Evolution (DfPE) considering the dynamic nature of customers' preferences, and how they are affected by the information received through their social network. The central hypothesis is that a computational framework
| Award title | A Networked Dynamical Systems Approach to Enable Optimal Design for Product Evolution (DfP |
|---|---|
| Award ID | 2535574 |
| Awardee | Purdue University |
| City | WEST LAFAYETTE |
| State | IN |
| Amount obligated | $500,000 |
| Principal investigator | Philip Pare |
| Program | EDSE-Engineering Design and Sy |
| Start date | 01/01/2026 |
| Abstract | This award supports research with the primary objective to establish an approach for Design for Product Evolution (DfPE) considering the dynamic nature of customers' preferences, and how they are affected by the information received through their social network. The central hypothesis is that a computational framework for DfPE can be accomplished by integrating dynamic models of decision-making at multiple resolutions, specifically, Decision-Field Theory (DFT) for individual level customer decis |
| Source | NSF Awards |
$799/mo
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