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Malodour classification with low-cost flexible electronics

Author

Listed:
  • Emre Ozer

    (Pragmatic Semiconductor)

  • Jedrzej Kufel

    (Pragmatic Semiconductor)

  • John Biggs

    (Pragmatic Semiconductor
    Arm)

  • Anjit Rana

    (Pragmatic Semiconductor)

  • Francisco J. Rodriguez

    (Pragmatic Semiconductor)

  • Thomas Lee-Clark

    (Pragmatic Semiconductor)

  • Antony Sou

    (Pragmatic Semiconductor)

  • Catherine Ramsdale

    (Pragmatic Semiconductor)

  • Scott White

    (Pragmatic Semiconductor)

  • Suresh Kumar Garlapati

    (Indian Institute of Technology Hyderabad)

  • Palaniappan Valliappan

    (University of Manchester, University of Manchester)

  • Aiman Rahmanudin

    (University of Manchester, University of Manchester)

  • Venuskrishnan Komanduri

    (University of Manchester, University of Manchester)

  • Glenn Sunley Saez

    (University of Manchester, University of Manchester)

  • Sankara Gollu

    (University of Manchester, University of Manchester)

  • Gavin Brown

    (University of Manchester, University of Manchester)

  • Piotr Dudek

    (University of Manchester, University of Manchester)

  • Krishna C. Persaud

    (University of Manchester, University of Manchester)

  • Michael L. Turner

    (University of Manchester, University of Manchester)

  • Stephanie Murray

    (Unilever, Port Sunlight Lab)

  • Susan Bates

    (Unilever, Port Sunlight Lab)

  • Robert Treloar

    (Unilever, Port Sunlight Lab)

  • Brian Newby

    (Unilever, Port Sunlight Lab)

  • Jane Ford

    (Unilever, Port Sunlight Lab)

Abstract

Understanding body malodour in a measurable manner is essential for developing personal care products. Body malodour is the result of bodily secretion of a highly complex mixture of volatile organic compounds. Current body malodour measurement methods are manual, time consuming and costly, requiring an expert panel of assessors to assign a malodour score to each human test subject. This article proposes a technology-based solution to automate this task by developing a custom-designed malodour score classification system comprising an electronic nose sensor array, a sensor readout interface and a machine learning hardware fabricated on low-cost flexible substrates. The proposed flexible integrated smart system is to augment the expert panel by acting like a panel assessor but could ultimately replace the panel to reduce the test and measurement costs. We demonstrate that it can classify malodour scores as good as or even better than half of the assessors on the expert panel.

Suggested Citation

  • Emre Ozer & Jedrzej Kufel & John Biggs & Anjit Rana & Francisco J. Rodriguez & Thomas Lee-Clark & Antony Sou & Catherine Ramsdale & Scott White & Suresh Kumar Garlapati & Palaniappan Valliappan & Aima, 2023. "Malodour classification with low-cost flexible electronics," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36104-z
    DOI: 10.1038/s41467-023-36104-z
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