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Application of Visual Assistant System in Smart Grid
This program fully incorporates high-definition, smart, Internet of Things (IoT), and 3G technologies. It is designed to integrate with distribution network business processes under the principles of standardization, integration, and intelligent design, enabling visualized operation and maintenance management. This system is ideal for city and municipal companies looking to implement smart grid solutions in their distribution networks.
First, industry needs analysis.
As one of the most user-friendly components in power transmission, transformation, and distribution, power distribution plays a critical role in both social production and daily life. Enhancing the reliability and quality of power supply in the distribution network is essential for ensuring people's peaceful living and working conditions, as well as supporting economic growth and stability.
In recent years, incidents of theft involving electrical distribution facilities have occurred frequently. Additionally, overheating due to overloading of aging equipment has led to fires. As a result, anti-theft and fire prevention have become key concerns in power distribution operations. The integrated auxiliary system can comprehensively monitor the operating environment of the distribution network, providing support for reliable power supply. Because of this, power companies are placing higher demands on the integrated auxiliary system, particularly in the following areas:
During the design and implementation of the integrated auxiliary system, strict compliance with the "Grid Video Surveillance System and Interface" standards and other relevant power regulations is required. Hardware products and monitoring platforms must meet these standards.
In key distribution areas, high-definition cameras can be deployed as needed, allowing detailed monitoring of critical equipment and reducing the workload of field inspection teams. Intelligent analysis tools can also be installed to shift from passive monitoring to proactive surveillance, thereby easing the pressure on the monitoring center.
During inspections, field workers can use mobile video devices such as individual soldier systems or on-board systems to interact with the back office. They can upload videos in real-time as part of the inspection workflow after checking in.
In high-voltage cabinet areas, wireless temperature sensors can be deployed to achieve full sensing of equipment status and detect abnormalities promptly.
The integrated auxiliary system should support multi-level monitoring, with different permissions assigned to various levels, departments, and users. It should also enable data synchronization between different levels.
The main platform of the integrated auxiliary system should implement unified access management for front-end systems. Front-end subsystems should be configured with smart plans, and when an alarm is triggered, appropriate actions can be initiated.
The main platform must interact with the distribution network production and repair command platform via standard power protocols. It should also communicate with the information system and the distribution automation system (DSCADA) to allow the control center to verify video tasks.
The integrated auxiliary system’s main station should support client and browser access methods, offering different functions and supporting handheld terminal modes. This enables leaders and experts to conduct emergency command anytime and anywhere.
The system must include comprehensive operation and maintenance management features, including automatic inspection of numerous video surveillance devices and generating reports automatically after each inspection, so that the maintenance team can respond quickly.
Second, intelligent distribution network integrated auxiliary system solutions.
The intelligent distribution network integrated auxiliary system solution is primarily used in the construction and renovation of the company's smart distribution network integrated auxiliary systems across cities within the grid.
The Smart Distribution Network Integrated Auxiliary System is a large-scale network monitoring system that combines hardware, software, and networking. It focuses on the iVMS-8800 platform software for the energy sector, enabling multi-level networking and cross-regional monitoring. It allows centralized monitoring and unified management of front-end systems from the control or operation and maintenance centers, ensuring the intelligence of the smart grid.