AI for Good-Innovate for Impact



               enjoy convenient charging services. Allocate funds for technological research and innovation to
               continuously improve the performance and functionality of the battery swapping system. This
               can involve further optimizing the design of charging and swapping equipment to enhance
               safety, stability, and durability. Additionally, invest in research on advanced technologies such    31 - YUGU
               as IoT, big data analytics, and artificial intelligence to enhance the intelligence level of the
               system and user experience. Market promotion and advertising: Increase efforts in marketing
               and promoting battery swapping projects to enhance awareness and acceptance among
               urban electric vehicle users, replacing home charging with battery swapping to reduce energy
               consumption and safety hazards. Collaboration and expansion: Actively seek cooperation
               with government departments, transportation enterprises, and shared mobility platforms to
               jointly promote the popularization and adoption of electric transportation and facilitate the
               development of electric mobility.


               31�3� Use case requirement

               ITU-T Supplement Y.71 ITU-T Y.3000 series – Use Cases for Energy Saving for Energy Service
               Technology

               •    SC-EG-UC31-REQ-001: It is critical that a smart city energy grid infrastructure based on
                    big data of lithium batteries utilizes AIoT (Artificial Intelligence of Things) technology to
                    achieve functions such as active battery balancing, efficient battery endurance, energy
                    consumption management, fault diagnosis, and fault-tolerant control, ensuring battery
                    safety and endurance.
               •    SC-EG-UC31-REQ-002: It is critical that the system builds a city-wide battery swapping
                    network that changes the consumption mode of instant delivery through technological
                    innovation, realizing a mode of swap instead of charge, thereby improving energy supply
                    efficiency by separating vehicle and battery.
               •    SC-EG-UC31-REQ-003: It is critical that the system addresses the sustainable development
                    issues of safety, efficiency, and environmental friendliness in the social consumption
                    and service sectors of new  energy  low-speed vehicles, promoting the  intelligence
                    and digitization of the entire industry and significantly enhancing social and economic
                    benefits.
               •    SC-EG-UC31-REQ-004: It is critical that the system provides innovative solutions for smart
                    energy consumption for 35 million low-speed vehicles in China.
               •    SC-EG-UC31-REQ-005: It is critical that the system faces challenges such as establishing,
                    maintaining, and popularizing extensive battery swapping networks which require
                    substantial financial investment and policy support. At the same time, it is also necessary
                    to establish a unified battery swapping standard system to promote the healthy, orderly,
                    and sustainable development of the industry.

























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