The Smart Dispatching Technical Support System (E8000) is a new generation system developed with a Service-Oriented Architecture (SOA). It complies with international standards IEC 61970/IEC 61968 and fully incorporates specifications from systems such as the State Grid Corporation of China's power grid dispatching and control system and China Southern Power Grid's integrated smart grid operation system. As a highly integrated system for dispatching operations, the E8000 system achieves horizontal integration of various specialized application systems within the power grid dispatching and control center. It consolidates traditionally separate business applications—such as dispatching, centralized control, distribution, relay protection, and security automation—into a single system. Concurrently, it facilitates vertical connection across dispatching control centers at all levels as well as plants and substations, enabling the sharing and coordination of information for planning, data management, analysis, and control in dispatching operations. It serves as a comprehensive solution for power dispatching and control centers of all types and levels to realize smart grid operation control and optimized management.

The Elastic Dispatching and Control Support Platform is based on the advanced "Cloud-Native" design philosophy. It reconstructs traditional platform architecture using technologies such as containers, container orchestration, microservices, and service mesh to establish a data processing model and application support framework compatible with cloud computing. The platform breaks away from the centralized or grouped active/standby processing models of traditional monitoring software, implementing a cluster-based parallel processing model. This provides application systems with dynamic scalability for data acquisition, processing, and business services. Resource Layer: Provides the physical or virtual resources required for system operation, corresponding to conventional deployment and cloud computing deployment modes, respectively. In the cloud computing deployment mode, virtual resources are uniformly scheduled and managed through a cloud operating system.

The Real-time Power Balance and Optimized Dispatching Control System is a support system for real-time generation dispatching operations under electricity spot market conditions. As a highly integrated and specialized system for professional dispatching operations, it enables horizontal data integration among various specialized application systems within grid dispatching. It features dispatch plan modification management and proactive power balance dispatching functions adapted to electricity spot market operations. Key functions include dispatch plan modification management, security checks for plan modifications, plan review, basic data management and monitoring, real-time power balance, unified grid-provincial peak shaving, and information aggregation and dissemination.

When the 110kV busbar of a 220kV plant or substation is de-energized, the smart restoration system uses real-time collected information to calculate a restoration path for the de-energized busbar. It fully considers factors such as main transformer current, 220kV busbar voltage, 110kV busbar voltage, station-level automatic transfer switches, line current margins, and data anomalies. The system generates a sequence of switch operations for open-loop or closed-loop control to quickly restore power to the busbar. If the restoration path indicates a current limit violation, it activates the interconnected overload shedding function, considering load priorities, load current magnitudes, and the amount of load that needs to be shed.

The Power Grid Operation Cockpit (POC) is the top-level application and user portal for the power grid dispatching and control system. Centered on Key Performance Indicators (KPIs) of grid operation, it provides users with KPI monitoring, early warning, information mining, decision analysis, and control functions by aggregating and extracting various grid operation information, invoking relevant calculation and analysis services, and centralizing various operational and control functions. It offers operators a comprehensive, intuitive, and closed-loop environment for managing the power grid.

Dongfang Electronics Corporation's E8000 (V6.0) new-generation resilient grid dispatch and control system is built on a "cloud-native" elastic regulation platform and operational data center, adhering to IEC 61970/IEC 61968 international standards. It fulfills the requirements of the State Grid's new-generation dispatch technical support system and the CEP systematic specifications of China Southern Power Grid. As a new-generation intelligent dispatch technical support system, it offers all functionalities for traditional grid master stations and emerging market entity monitoring. The E8000 V6.0 system enables horizontal integration of professional application systems within grid dispatch control centers while vertically interconnecting business operations across all levels of dispatch control centers and substations. It facilitates bidirectional data and service interaction, delivering comprehensive solutions for smart grid operation control and optimization at all levels of power regulation centers.

The transmission-distribution coordination fault diagnosis and self-healing control system resolves large-scale, prolonged feeder load outages during transmission network faults through comprehensive element coordination. By systematically analyzing distribution network operation data, it implements feeder load transfer for transmission network faults, provides multiple feeder transfer options, automatically selects optimal schemes, enhances transmission network fault transfer capability, and reduces operational risks.

The "Automatic safety information monitoring and management system" technical support system achieves operational status monitoring, information analysis, and release functions for safety automation devices through communication with substation-end devices. It includes multiple functional modules such as data acquisition, real-time data monitoring, real-time event monitoring, setting value downloading, soft plate switching, remote reset, remote zone switching, data forwarding, intelligent inspection, underfrequency load shedding statistics, operation process management, basic data management, and system management. The system aims to establish a unified monitoring platform for automatic safety devices at municipal and provincial levels, ensuring efficient and accurate support for municipal and provincial users, thereby robustly supporting the operational needs of various professional departments in monitoring automatic safety equipment. Ultimately, the system will develop into a new, highly reliable, versatile, and scalable platform for automatic safety information monitoring and management.

The "Two Rules" technical support system is the core platform for grid-connected operation and ancillary service management, encompassing conventional power plants, wind farms, photovoltaic power stations, and electrochemical energy storage stations. The system integrates grid-connected operation monitoring, ancillary service market management, assessment and compensation settlement, and intelligent data analysis to fully ensure standardized implementation and efficient execution of the "Two Rules." Through data monitoring and in-depth analysis, the system effectively aligns power generation operations with dispatch requirements, enhances grid safety and response capabilities, and provides strong support for stable operation, market reform, and green low-carbon development of the power system.

A virtual power plant is a digital energy regulation and management system that integrates "Internet + source-grid-load-storage". It integrates advanced energy and communication technologies to achieve panoramic monitoring of distributed flexible resources, significantly enhancing grid flexibility, economy, and sustainability through efficient resource aggregation, intelligent optimal dispatch, and flexible market participation. This technology promotes renewable energy consumption, reduces user costs, facilitates energy transition, and serves as a key support for future energy internet and power system upgrades.

The dispatcher training simulation system (DTS system) is a digital simulation platform based on power system mathematical models. By simulating multi-dimensional operating conditions of the grid in steady state, dynamic state, and post-fault scenarios without interfering with actual grid operations, it provides dispatchers with a highly realistic training environment, effectively enhancing their normal dispatching and emergency decision-making capabilities. The system features transmission-distribution coordination, enabling linkage between transmission and distribution DTS.

The two-factor security authentication system (DK8701) employs algorithms recommended by the State Cryptography Administration and registered cryptographic equipment. In accordance with the "Regulations on Security Protection of Power Monitoring Systems" and "Technical Specifications for Security Protection of Power Monitoring Systems in China Southern Power Grid," it features a self-developed two-factor identity authentication system with public key infrastructure (PKI) based on digital certificates as its core architecture, ensuring the security, reliability, and cost-efficiency of master station and dispatch system operations.