The new power system with new energy as the major energy resources has become the development direction of the future power grid. In the distribution system, it is manifested in the high penetration of distributed generation (DG), e.g., photovoltaic, wind power and electric vehicles (EVs). The carrying capacity of the distribution system for DG and EV is of great significance to the planning of the system. This paper firstly analyzes and summarizes the theoretical basis for evaluating the carrying capacity of distribution systems for DG and EV from four perspectives: the modeling method for DG and EV uncertainty, the site selection strategy of DG and EV charging pile/station, the evaluation index of distribution system’s carrying capacity, and the carrying capacity evaluation method. Then the paper analyzes the key technologies for improving the carrying capacity of the distribution system from the four aspects of source, network, load and storage. Finally, combined with the development trend and characteristics of China's new power system, the research on the carrying capacity of distribution systems is prospected. This review provides a useful reference for the planning of large-scale distributed new energy and new loads in distribution systems.

In order to achieve the dual carbon development goals and support the development of new power system, it is necessary to gradually realize the digital transformation of decision-making business. For this purpose, the typical characteristics, development blueprint and digital transformation requirements of the new power system were analyzed, the “three stages” digital transformation system of development business was constructed, and the digital transformation idea of “from far to near, and then from near to far” was proposed. The transformation path deduction scheme based on “informatization-digitization-intellectualization” was formulated. Finally, taking the planning business as an example, the digital transformation path and implementation strategy of the planning business was deduced, the effectiveness of the method was verified. It has reference significance for the promotion of the development of the whole business digital transformation.

In the background of new power systems, advanced information and communication technology have been effectively applied in the field of power distribution systems. The distribution system has developed into a typical cyber-physical one. The traditional distribution network planning method can not meet the development needs of interdependent systems. In this study, the planning technology of cyber-physical distribution systems is summarized. Firstly, the basic structure, technical characteristics, and application scenarios of the cyber-physical distribution system are discussed, and the relationship between the cyber-physical distribution system and distribution Internet of Things is analyzed. Subsequently, the core elements of cyber-physical distribution system planning are analyzed from the perspective of double-layer coupling characteristics, multiple uncertainties, and multiple types of constraints. Thereafter, the current status of cyber-physical distribution system planning is reviewed. Finally, the framework of cyber-physical distribution system planning technology is established, and the key technologies for planning the distribution information physical systems are prospected.