Effect of Spatial Proximity and Human Thermal Plume on the Design of a DIY Human-Centered Thermohygrometric Monitoring System

Salamone, Francesco; Danza, Ludovico; Sibilio, Sergio; Masullo, Massimiliano

doi:10.3390/app13084967

Applied Sciences

2023

DOI: 10.3390/app13084967

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Effect of Spatial Proximity and Human Thermal Plume on the Design of a DIY Human-Centered Thermohygrometric Monitoring System

Francesco Salamone

Ludovico Danza

Sergio Sibilio

et al.

Abstract: Wearable devices have been introduced for research purposes and especially for environmental monitoring, with the aim of collecting large amounts of data. In a previous study, we addressed the measurement reliability of low-cost thermohygrometers. In this study, we aim to find out how human thermal plume could affect the measurement performance of thermohygrometers. For this purpose, we used a Do-It-Yourself device that can be easily replicated. It consists of 10 iButtons with 3D-printed brackets to position t… Show more

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Cited by 2 publications

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“…This represents a significant improvement of 37%, compared to conventional approaches. Finally, in [7], the objective of the study was to examine the impact of human thermal plume on the measurement performance of thermohygrometers. To achieve this, a simple and replicable "Do-It-Yourself" device was utilized.…”

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confidence: 99%

New Trends in Efficient Buildings

Salamone,

Belussi,

Danza

et al. 2023

Applied Sciences

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confidence: 99%

New Trends in Efficient Buildings

Salamone,

Belussi,

Danza

et al. 2023

Applied Sciences

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Integrated Approach for Human Wellbeing and Environmental Assessment Based on a Wearable IoT System: A Pilot Case Study in Singapore

Salamone,

Sibilio,

Masullo

2024

Sensors

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This study presents the results of the practical application of the first prototype of WEMoS, the Wearable Environmental Monitoring System, in a real case study in Singapore, along with two other wearables, a smart wristband to monitor physiological data and a smartwatch with an application (Cozie) used to acquire users’ feedback. The main objective of this study is to present a new procedure to assess users’ perceptions of the environmental quality by taking into account a multi-domain approach, considering all four environmental domains (thermal, visual, acoustic, and air quality) through a complete wearable system when users are immersed in their familiar environment. This enables an alternative to laboratory tests where the participants are in unfamiliar spaces. We analysed seven-day data in Singapore using a descriptive and predictive approach. We have found that it is possible to use a complete wearable system and apply it in real-world contexts. The WEMoS data, combined with physiology and user feedback, identify the key comfort features. The transition from short-term laboratory analysis to long-term real-world context using wearables enables the prediction of overall comfort perception in a new way that considers all potentially influential factors of the environment in which the user is immersed. This system could help us understand the effects of exposure to different environmental stimuli thus allowing us to consider the complex interaction of multi-domains on the user’s perception and find out how various spaces, both indoor and outdoor, can affect our perception of IEQ.

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Effect of Spatial Proximity and Human Thermal Plume on the Design of a DIY Human-Centered Thermohygrometric Monitoring System

Cited by 2 publications

References 48 publications

New Trends in Efficient Buildings

New Trends in Efficient Buildings

Integrated Approach for Human Wellbeing and Environmental Assessment Based on a Wearable IoT System: A Pilot Case Study in Singapore

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