focus of attention of the scientific community and the electric vehicle industry. The intelligent charging pile is equipped with a perfect remote communication monitoring system, which can realize the rapid charging of electric
In order to optimize the charging and discharging problem of complex intelligent charging piles, Long G et al. introduced a multi-objective automatic scheduling algorithm for the charging and discharging of electric vehicle charging piles based on automatic power monitoring and control.
By ranking the weights of the product design features, the main charging pile design features can be better identified in order to focus on the core design features in the subsequent design practice, so as to design a product that meets the users’ needs. 3.4. Analysis of Product Sustainability Factors Based on the TBL Approach
This study contributes a sustainable framework for the development and design of smart charging piles and related products, further promoting the adoption of green design principles and symmetry design concepts within the supporting infrastructure of new energy vehicles.
Then, through the remapping analysis of the core meaning cluster-product, the core design needs of product modeling and interaction were obtained. By breaking down key user behaviors, studying their real needs and analyzing core design needs, an improved design scheme for intelligent charging piles that could meet users′ needs was proposed.
This integrated approach effectively promotes the harmonization of users’ needs and product sustainability, contributing to the successful design of smart charging piles. Furthermore, it supports the sustainable development and innovation of the charging pile industry.