The current ways of coping with uncertainty such as changes during product design or use have been through methods such as easy restructuring (e.g., modularity with buffer in interface definition), by overdesign and so on. The present investments on maintaining products in the economy for as long as possible is challenging these strategies from a cost and environmental perspective. Moreover, these strategies often lead to highly overdesigned products. An alternative strategy is to introduce features in a design, called resilient objects, which are able to absorb such uncertainties without wasteful overdesign of other parts. By applying a 'text-mining' approach on patents, this paper has identified 5,552 candidates for such resilient objects that can be recombined and inserted in regions of the product that are likely to be most affected by current and future uncertainties. The application of resilient objects is demonstrated on a case study (a cooling system for battery electric vehicles). The case study highlights the ability of these objects to 1) significantly increase protection against uncertainties without the need for restructuring, 2) reduce the risk for overdesign and 3) dampen effects of change propagation. © The Author(s), 2023. Published by Cambridge University Press.

TEXT MINING OF RESILIENT OBJECTS ABSORBING CHANGE AND UNCERTAINTY

Panarotto M.
Primo
;
Giordano V.
Secondo
;
Chiarello F.;Fantoni G.
Ultimo
2023-01-01

Abstract

The current ways of coping with uncertainty such as changes during product design or use have been through methods such as easy restructuring (e.g., modularity with buffer in interface definition), by overdesign and so on. The present investments on maintaining products in the economy for as long as possible is challenging these strategies from a cost and environmental perspective. Moreover, these strategies often lead to highly overdesigned products. An alternative strategy is to introduce features in a design, called resilient objects, which are able to absorb such uncertainties without wasteful overdesign of other parts. By applying a 'text-mining' approach on patents, this paper has identified 5,552 candidates for such resilient objects that can be recombined and inserted in regions of the product that are likely to be most affected by current and future uncertainties. The application of resilient objects is demonstrated on a case study (a cooling system for battery electric vehicles). The case study highlights the ability of these objects to 1) significantly increase protection against uncertainties without the need for restructuring, 2) reduce the risk for overdesign and 3) dampen effects of change propagation. © The Author(s), 2023. Published by Cambridge University Press.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/1220175
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