The surface is not superficial: Utilizing hyper-local thermal photogrammetry for pedestrian thermal comfort inquiry

Logan Steinharter; Peter Christian Ibsen; Priyanka deSouza; Melissa R. McHale

doi:10.3390/rs18020348

The surface is not superficial: Utilizing hyper-local thermal photogrammetry for pedestrian thermal comfort inquiry

Remote Sensing

By: Logan Steinharter, Peter Christian Ibsen, Priyanka deSouza, and Melissa R. McHale

https://doi.org/10.3390/rs18020348

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Abstract

The scale and magnitude of urban heating are often assessed using Satellite-Derived Land Surface Temperature (SD-LST). Yet, discrepancies in spatial resolution limit SD-LST’s ability to reflect pedestrian thermal experience, potentially leading to ineffective mitigation strategies. Hyper-local measurements of urban heat, defined as surface temperatures (T_S) at the scale of pedestrian activity (e.g., bus stops or street segments), may provide more accurate insights into thermal comfort. This study compares hyper-local ~0.01 m resolution T_S collected via consumer-grade Forward-Looking Infrared (FLIR) thermography with resampled 30 m resolution SD-LST from Landsat 8 and 9 images to evaluate their utility in predicting thermal comfort indices across 60 bus stops in Denver, Colorado. During the summer of 2023, 270 FLIR measurements were collected over 19 dates, with a four-day subset (n = 33) coinciding with Landsat imagery. FLIR T_S averaged 25.12 ± 5.39 °C, while SD-LST averaged 35.90 ± 12.56 °C, a significant 10.77 °C difference (95% CI: 6.81–14.73; p < 0.001). FLIR T_S strongly correlated with biometeorological metrics such as air temperature and mean radiant temperature (r > 0.8; p < 0.001), while SD-LST correlations were weak (r < 0.3). Linear mixed-effects models using FLIR T_S explained 50–66% of the variance in thermal comfort indices and met ISO 7726 standards. Each 1 °C increase in FLIR TS predicted a 0.75 °C rise in mean radiant temperature. These results highlight hyper-local thermography as a reliable, low-cost tool for urban heat resilience planning.

Suggested Citation

Steinharter, L., Ibsen, P.C., deSouza, P., McHale, M.R., 2026, The surface is not superficial: Utilizing hyper-local thermal photogrammetry for pedestrian thermal comfort inquiry: Remote Sensing, v. 18, no. 2, 348, 25 p., https://doi.org/10.3390/rs18020348.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	The surface is not superficial: Utilizing hyper-local thermal photogrammetry for pedestrian thermal comfort inquiry
Series title	Remote Sensing
DOI	10.3390/rs18020348
Volume	18
Issue	2
Publication Date	January 20, 2026
Year Published	2026
Language	English
Publisher	MDPI
Contributing office(s)	Geosciences and Environmental Change Science Center
Description	348, 25 p.
Country	United States
State	Colorado
City	Denver