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Main Authors: Latsch, Bastian, Herbst, Felix, Suppelt, Mark, Seiler, Julian, Schaumann, Stephan, Suppelt, Sven, Altmann, Alexander A., Grimmer, Martin, Kupnik, and Mario
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.00260
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author Latsch, Bastian
Herbst, Felix
Suppelt, Mark
Seiler, Julian
Schaumann, Stephan
Suppelt, Sven
Altmann, Alexander A.
Grimmer, Martin
Kupnik, and Mario
author_facet Latsch, Bastian
Herbst, Felix
Suppelt, Mark
Seiler, Julian
Schaumann, Stephan
Suppelt, Sven
Altmann, Alexander A.
Grimmer, Martin
Kupnik, and Mario
contents Plantar pressure measurement, or pedobarography, is an essential tool for analyzing human motion in healthy individuals and patients. Across the reviewed literature, sensor insoles are motivated as wearable, mobile solutions for assessing pressure distribution in applications including diabetic foot monitoring, rehabilitation guidance, assistive device control, and sports performance analysis. This review evaluates the current state of the art with particular attention to sensor technologies, sensor quantity and placement, participant cohorts, and reference standards. The focus lies on original works with innovative designs, preferably supported by ambulation experiments. The modalities covered include resistive, capacitive, inductive, piezoelectric, triboelectric, and optical sensing approaches. We identify a lack of proper sensor calibration, gait-based verification, and human study validation, and propose a gold standard based on testing machines and instrumented treadmills to ensure comparability across studies. The bidirectional interaction between insole insertion and foot-sole mechanics is examined, with tissue stiffness identified as a key source of uncertainty in sensor signals. Guidelines are provided for sensor dimensions and unobtrusive insole designs to foster natural gait. Finally, future directions include the development of multimodal sensors to compensate for the limitations of individual modalities and the emerging trend of multiaxial sensing for capturing shear components in pressure distributions.
format Preprint
id arxiv_https___arxiv_org_abs_2509_00260
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Sensor Insoles: A Review
Latsch, Bastian
Herbst, Felix
Suppelt, Mark
Seiler, Julian
Schaumann, Stephan
Suppelt, Sven
Altmann, Alexander A.
Grimmer, Martin
Kupnik, and Mario
Signal Processing
Plantar pressure measurement, or pedobarography, is an essential tool for analyzing human motion in healthy individuals and patients. Across the reviewed literature, sensor insoles are motivated as wearable, mobile solutions for assessing pressure distribution in applications including diabetic foot monitoring, rehabilitation guidance, assistive device control, and sports performance analysis. This review evaluates the current state of the art with particular attention to sensor technologies, sensor quantity and placement, participant cohorts, and reference standards. The focus lies on original works with innovative designs, preferably supported by ambulation experiments. The modalities covered include resistive, capacitive, inductive, piezoelectric, triboelectric, and optical sensing approaches. We identify a lack of proper sensor calibration, gait-based verification, and human study validation, and propose a gold standard based on testing machines and instrumented treadmills to ensure comparability across studies. The bidirectional interaction between insole insertion and foot-sole mechanics is examined, with tissue stiffness identified as a key source of uncertainty in sensor signals. Guidelines are provided for sensor dimensions and unobtrusive insole designs to foster natural gait. Finally, future directions include the development of multimodal sensors to compensate for the limitations of individual modalities and the emerging trend of multiaxial sensing for capturing shear components in pressure distributions.
title Sensor Insoles: A Review
topic Signal Processing
url https://arxiv.org/abs/2509.00260