High-density thermal sensitivity maps of the human body
High-density thermal sensitivity maps of the human body
‘Personal comfort systems’ and thermally active clothing are able to warm and cool individual building occupants by transferring heat directly to and from their body surfaces. Such systems would ideally target local body surfaces with high temperature sensitivities. Such sensitivities have not been quantified in detail before. Here we report local thermal sensations and sensitivities for 318 local skin spots distributed over one side of the body, measured on a large number of subjects. Skin temperature changes were induced with a thermal probe 14 mm in diameter, and subjective thermal sensations were surveyed after 10 s. Our neutral base temperature was 31 °C and the spot stimulus was ±5 °C. Cool and warm sensitivities are seen to vary widely by body part. The foot, lower leg and upper chest are much less sensitive than average; in comparison, the cheek, neck back, and seat area are 2–3 times as sensitive to both cooling and warming stimuli. Every body part exhibits stronger sensitivity to cooling (1.3–1.6 times stronger) than to warming. Inter-personal differences and regional variance within body parts were observed to be 2–3 times greater than potential sex differences. These high-density thermal sensitivity maps with appended dataset provide the most comprehensive distributions of cold and warm sensitivity across the human body.
Luo, Maohui
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Wang, Zhe
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Zhang, Hui
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Arens, Edward
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Filingeri, Davide
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Jin, Ling
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Ghahramani, Ali
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Chen, Wenhua
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He, Yingdong
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Si, Binghui
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1 January 2020
Luo, Maohui
bb7e2541-2fff-499e-8c7f-7e238a492eb9
Wang, Zhe
cd5ba2f9-2c1b-48c7-bd9d-30b8708fd7de
Zhang, Hui
1e37a974-1ead-4938-ae86-40ef96de017a
Arens, Edward
cd6fedbe-0766-470b-9341-61591405d1e6
Filingeri, Davide
42502a34-e7e6-4b49-b304-ce2ae0bf7b24
Jin, Ling
8e169321-5e6b-4a16-9fab-3f533cd16aa8
Ghahramani, Ali
dde0ff5c-6354-485d-beb2-105bb3a330b5
Chen, Wenhua
17f3104a-9275-40db-b6f4-57a77ac0001d
He, Yingdong
6dd639ec-16e0-4319-bb70-535adc787e24
Si, Binghui
8005f7d1-a56b-4eb9-9037-fd749bce07bc
Luo, Maohui, Wang, Zhe, Zhang, Hui, Arens, Edward, Filingeri, Davide, Jin, Ling, Ghahramani, Ali, Chen, Wenhua, He, Yingdong and Si, Binghui
(2020)
High-density thermal sensitivity maps of the human body.
Building and Environment, 167, [106435].
(doi:10.1016/j.buildenv.2019.106435).
Abstract
‘Personal comfort systems’ and thermally active clothing are able to warm and cool individual building occupants by transferring heat directly to and from their body surfaces. Such systems would ideally target local body surfaces with high temperature sensitivities. Such sensitivities have not been quantified in detail before. Here we report local thermal sensations and sensitivities for 318 local skin spots distributed over one side of the body, measured on a large number of subjects. Skin temperature changes were induced with a thermal probe 14 mm in diameter, and subjective thermal sensations were surveyed after 10 s. Our neutral base temperature was 31 °C and the spot stimulus was ±5 °C. Cool and warm sensitivities are seen to vary widely by body part. The foot, lower leg and upper chest are much less sensitive than average; in comparison, the cheek, neck back, and seat area are 2–3 times as sensitive to both cooling and warming stimuli. Every body part exhibits stronger sensitivity to cooling (1.3–1.6 times stronger) than to warming. Inter-personal differences and regional variance within body parts were observed to be 2–3 times greater than potential sex differences. These high-density thermal sensitivity maps with appended dataset provide the most comprehensive distributions of cold and warm sensitivity across the human body.
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Published date: 1 January 2020
Identifiers
Local EPrints ID: 449224
URI: http://eprints.soton.ac.uk/id/eprint/449224
ISSN: 0360-1323
PURE UUID: bb3d7e62-e6c0-4b69-8984-21849a94017d
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Date deposited: 20 May 2021 16:30
Last modified: 17 Mar 2024 04:05
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Contributors
Author:
Maohui Luo
Author:
Zhe Wang
Author:
Hui Zhang
Author:
Edward Arens
Author:
Ling Jin
Author:
Ali Ghahramani
Author:
Wenhua Chen
Author:
Yingdong He
Author:
Binghui Si
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