Date of Award

2024

Degree Type

Open Access Dissertation

Degree Name

Engineering and Computational Mathematics Joint PhD with California State University Long Beach, PhD

Program

Institute of Mathematical Sciences

Advisor/Supervisor/Committee Chair

Emel Demircan

Dissertation or Thesis Committee Member

I-Hung Khoo

Dissertation or Thesis Committee Member

Marina Chugunova

Dissertation or Thesis Committee Member

Ali Nadim

Terms of Use & License Information

Terms of Use for work posted in Scholarship@Claremont.

Rights Information

© 2024 Elsa J Harris

Keywords

ctivity recognition, artificial intelligence, energy harvesting, human gait, smart insoles, triboelectric nanogenerator

Subject Categories

Artificial Intelligence and Robotics | Biomedical Engineering and Bioengineering | Nanoscience and Nanotechnology

Abstract

Triboelectric nanogenerators are devices that harvest mechanical energy from the environment and turn it into electricity. By coupling the effect of contact electrification and electrostatic induction between two materials that come into contact and then separate they can convert the irregular, low frequency, waste biomechanical energy of human motion into useful electrical energy to run small body-worn electronics. This has shown promising results in multiple applications such as self-powered motion and haptic sensing, self-charging micro-storage devices, neuromorphic computing, and designing batteryless circuits to power small wearables. This work will investigate a smart energy-efficient hybrid gait monitoring system that is powered by triboelectric nanogenerators integrated into the shoe insoles and employs a machine learning algorithm to perform human activity recognition. Two scenarios were evaluated. First, where the triboelectric nanogenerators are used as the sensing unit, and the output voltage of the harvested energy serves as the gait signal for the machine learning algorithm. Second, where triboelectric nanogenerators are used as the power source for an Inertial Measurement Unit and microcontroller. The results will be important in industry 4.0 and competitive sports training applications, where long-term reliable and accurate monitoring is crucial to people’s health, safety, and performance, and renewable energy sources are desired over current commercial battery-powered systems. This research should aid the advancement of work in the field with the goal of commercial adoption of the technology.

ISBN

9798384469063

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