Article: Advancement in electromechanical systems for innovative product design Journal: International Journal of Information and Communication Technology (IJICT) 2025 Vol.26 No.48 pp.60 - 79 Abstract: This paper presents advancements in electromechanical systems aimed at enhancing the precision and reliability of innovative product design through embedded sensing and intelligent control. A self-sensing electromechanical system is developed by integrating embedded time-grating displacement sensors into traditional mechanical structures, enabling high-resolution position detection of motors, worm gears, and bearings. Methods for current reconstruction using a single resistance sensor and error suppression through optimised light-field structures are proposed to improve detection accuracy. Experimental validation demonstrates significant improvements in measurement precision and error reduction through adaptive weighted data fusion. The findings highlight the potential of combining electromechanical design, sensing integration, and intelligent algorithms to support next-generation innovative product service systems (PSS). Inderscience Publishers - linking academia, business and industry through research

Title: Advancement in electromechanical systems for innovative product design

Authors: Yang Yang

Addresses: Department of Basic, Liaoning University of Science and Technology, Benxi, Liaoning, 117004, China

Abstract: This paper presents advancements in electromechanical systems aimed at enhancing the precision and reliability of innovative product design through embedded sensing and intelligent control. A self-sensing electromechanical system is developed by integrating embedded time-grating displacement sensors into traditional mechanical structures, enabling high-resolution position detection of motors, worm gears, and bearings. Methods for current reconstruction using a single resistance sensor and error suppression through optimised light-field structures are proposed to improve detection accuracy. Experimental validation demonstrates significant improvements in measurement precision and error reduction through adaptive weighted data fusion. The findings highlight the potential of combining electromechanical design, sensing integration, and intelligent algorithms to support next-generation innovative product service systems (PSS).

Keywords: electromechanical systems; smart product service systems; embedded sensors; time-grating displacement; error correction; data fusion; MEMS actuators; condition monitoring.

DOI: 10.1504/IJICT.2025.150953

International Journal of Information and Communication Technology, 2025 Vol.26 No.48, pp.60 - 79

Received: 30 Aug 2025
Accepted: 12 Sep 2025
Published online: 05 Jan 2026 *

Title: Advancement in electromechanical systems for innovative product design

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