Justin E. Jackson Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
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Biography and Research Information
OverviewAI-generated summary
Justin E. Jackson's research investigates the intersection of engineering and health, with a recent focus on cybersecurity for grid-connected devices and advanced semiconductor applications. He has published on topics including cyber protection of grid-connected devices through embedded online security, the development of digital twins for inverters, and rapid prototyping of SiC-based motor drives for aerospace applications. His work also extends to fault detection in three-phase motor drive systems. In addition to his engineering pursuits, Jackson has explored the physiological effects of physical activity, specifically studying the relationship between self-efficacy and lower body power. His scholarly contributions are reflected in an h-index of 4 and 257 total citations across 8 publications. Jackson collaborates with several researchers at the University of Arkansas at Fayetteville, including Kenneth Mordi and Chris Farnell, with whom he shares four co-authored publications.
Metrics
- h-index: 5
- Publications: 8
- Citations: 264
Selected Publications
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Envelope-Based Fault Detection and Identification in Three-Phase Motor Drive Systems (2025)
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Rapid Prototyping of a SiC-Based PMSM Motor Drive for Aerospace Applications (2023)
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Digital Twin of an ANPC inverter with integrated Design-For-Trust (2022)
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Cyber Protection of Grid-Connected Devices Through Embedded Online Security (2021)
Collaboration Network
Top Collaborators
- Cyber Protection of Grid-Connected Devices Through Embedded Online Security
- Digital Twin of an ANPC inverter with integrated Design-For-Trust
- Rapid Prototyping of a SiC-Based PMSM Motor Drive for Aerospace Applications
- Envelope-Based Fault Detection and Identification in Three-Phase Motor Drive Systems
- Cyber Protection of Grid-Connected Devices Through Embedded Online Security
- Digital Twin of an ANPC inverter with integrated Design-For-Trust
- Rapid Prototyping of a SiC-Based PMSM Motor Drive for Aerospace Applications
- Envelope-Based Fault Detection and Identification in Three-Phase Motor Drive Systems
- Rapid Prototyping of a SiC-Based PMSM Motor Drive for Aerospace Applications
- Envelope-Based Fault Detection and Identification in Three-Phase Motor Drive Systems
- Cyber Protection of Grid-Connected Devices Through Embedded Online Security
- Digital Twin of an ANPC inverter with integrated Design-For-Trust
- Digital Twin of an ANPC inverter with integrated Design-For-Trust
- Digital Twin of an ANPC inverter with integrated Design-For-Trust
- Digital Twin of an ANPC inverter with integrated Design-For-Trust
- Digital Twin of an ANPC inverter with integrated Design-For-Trust
- Envelope-Based Fault Detection and Identification in Three-Phase Motor Drive Systems
- Envelope-Based Fault Detection and Identification in Three-Phase Motor Drive Systems
- Envelope-Based Fault Detection and Identification in Three-Phase Motor Drive Systems
- Envelope-Based Fault Detection and Identification in Three-Phase Motor Drive Systems
- Envelope-Based Fault Detection and Identification in Three-Phase Motor Drive Systems
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