@article{ART003231169},
author={Xiong Chang and Seung In Kim},
title={Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions},
journal={Industry Promotion Research},
issn={2466-1139},
year={2025},
volume={10},
number={3},
pages={541-554},
doi={10.21186/IPR.2025.10.3.541}
TY - JOUR
AU - Xiong Chang
AU - Seung In Kim
TI - Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions
JO - Industry Promotion Research
PY - 2025
VL - 10
IS - 3
PB - Industrial Promotion Institute
SP - 541
EP - 554
SN - 2466-1139
AB - With the rapid growth of new energy vehicles (NEVs), improving energy supply systems is crucial for better user experience and sustainable industry development. Traditional centralized energy networks struggle to meet diverse and changing user needs, requiring more flexible and intelligent designs. This study uses decentralized Product-Service System Design (PSSD) to propose a localized, multi-stakeholder framework for smart and adaptive energy supply networks. Through user interviews and a Kano-model survey, key user needs and priorities were identified. The study integrates the roles of governments, enterprises, communities, and users to create a sustainable and resilient service model that optimizes resource allocation and enhances user satisfaction. This research extends PSSD theory in the energy field and offers practical guidance for designing future NEV energy services, benefiting urban planning and policy development.
KW - Sustainable Service design;PSSD;Kano model;New Energy Veh
DO - 10.21186/IPR.2025.10.3.541
ER -
Xiong Chang and Seung In Kim. (2025). Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions. Industry Promotion Research, 10(3), 541-554.
Xiong Chang and Seung In Kim. 2025, "Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions", Industry Promotion Research, vol.10, no.3 pp.541-554. Available from: doi:10.21186/IPR.2025.10.3.541
Xiong Chang, Seung In Kim "Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions" Industry Promotion Research 10.3 pp.541-554 (2025) : 541.
Xiong Chang, Seung In Kim. Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions. 2025; 10(3), 541-554. Available from: doi:10.21186/IPR.2025.10.3.541
Xiong Chang and Seung In Kim. "Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions" Industry Promotion Research 10, no.3 (2025) : 541-554.doi: 10.21186/IPR.2025.10.3.541
Xiong Chang; Seung In Kim. Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions. Industry Promotion Research, 10(3), 541-554. doi: 10.21186/IPR.2025.10.3.541
Xiong Chang; Seung In Kim. Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions. Industry Promotion Research. 2025; 10(3) 541-554. doi: 10.21186/IPR.2025.10.3.541
Xiong Chang, Seung In Kim. Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions. 2025; 10(3), 541-554. Available from: doi:10.21186/IPR.2025.10.3.541
Xiong Chang and Seung In Kim. "Decentralized System Design for NEVs Energy Networks: Advancing Sustainable Service Solutions" Industry Promotion Research 10, no.3 (2025) : 541-554.doi: 10.21186/IPR.2025.10.3.541
