Guangdong ShunChang Technology Applies for Patent on "Blockchain-Based Power Quality Traceability Method" to Enhance Efficiency and Accuracy

Guangdong ShunChang Technology Applies for Patent on "Blockchain-Based Power Quality Traceability Method" to Enhance Efficiency and AccuracyOn January 31, 2025, the State Intellectual Property Office of China (SIPO) revealed that Guangdong ShunChang Technology Co., Ltd

Guangdong ShunChang Technology Applies for Patent on "Blockchain-Based Power Quality Traceability Method" to Enhance Efficiency and Accuracy

On January 31, 2025, the State Intellectual Property Office of China (SIPO) revealed that Guangdong ShunChang Technology Co., Ltd. submitted a patent application for a "Blockchain-Based Power Quality Traceability Method," with publication number CN119379097A and an application date of October 2024. This patent application aims to revolutionize power quality traceability technology, improving its efficiency and accuracy, and providing strong technical support for the stable operation and optimization of power systems.

The patent abstract details the technical solution. The core of this method lies in leveraging blockchain technology to build a secure, transparent, and traceable power quality data management platform. The process primarily involves five steps:

Step 1: Blockchain Recording and Consensus Verification

This method first processes standardized power quality data, packages it into data blocks, and records it onto the blockchain network. Through the blockchain's consensus mechanism, such as Proof-of-Work (PoW) or Proof-of-Stake (PoS), it ensures that all participants agree on the authenticity and integrity of this data, preventing data tampering and forgery. This step forms the foundation of the entire method, ensuring the reliability of the data in subsequent steps. Standardized data formats and efficient consensus mechanisms are key to ensuring the system's efficient operation, requiring in-depth understanding of both underlying blockchain technology and power quality data characteristics.

Step 2: Smart Contract Deployment and Automated Assessment

After recording power quality data on the blockchain, the system deploys smart contracts. Smart contracts are pre-written codes that automatically execute specific operations based on predefined rules. In this invention, smart contracts automatically assess the input power quality data based on preset standards, determining whether they meet the criteria. Automated assessment reduces manual intervention, improves efficiency, and lowers the likelihood of human error. Smart contract design needs to consider various possible power quality anomalies and establish corresponding processing logic.

Step 3: Multi-Dimensional Analysis and Visualization

The assessment results from the smart contract are fed into multi-dimensional analysis algorithms. This algorithm can perform in-depth data analysis, extracting valuable information from multiple dimensions, such as power quality fluctuation trends and the frequency of anomalous events. The analysis results are presented visually, such as through charts and reports, for easy understanding and use by relevant personnel. Clear and intuitive visualization is key to improving the efficiency of applying the analysis results.

Step 4: Collaborative Diagnosis and Problem Solving

If the analysis results show power quality anomalies, the system issues an anomaly alert. To solve problems quickly and effectively, this method introduces a collaborative diagnostic platform. This platform allows relevant personnel (e.g., power companies, equipment manufacturers) to work together to diagnose the causes of problems and develop solutions. The establishment of a collaborative diagnostic platform leverages the expertise of various parties, improving problem-solving efficiency.

Step 5: Traceability Analysis, Trend Prediction, and Improvement Suggestions

All power quality data, analysis reports, and processing records are stored on the blockchain, facilitating traceability analysis. By analyzing historical data, the system can predict future power quality trends and provide improvement suggestions and optimization schemes. This is crucial for the long-term stable operation of the power system. Effective analysis of historical data provides data support for power system optimization.

Guangdong ShunChang Technology Co., Ltd., established in 2005 and located in Jiangmen, Guangdong Province, primarily engages in building and installation. Public information shows that the company has a registered capital of 120 million RMB and a paid-in capital of 32 million RMB. Tianyancha data shows that the company has participated in 1307 bidding projects, holds 2 trademarks, and possesses 40 patents and 29 administrative licenses. This application for a "Blockchain-Based Power Quality Traceability Method" patent represents another significant step in the company's technological innovation and demonstrates its commitment to exploring new technologies and enhancing its competitiveness.

The application of this patented technology is expected to significantly improve the efficiency and accuracy of power quality traceability, providing more reliable data support for power systems, helping to prevent and resolve power quality issues, and ensuring the stable operation of power systems. Furthermore, the technology will contribute to the digital transformation of the power industry and enhance the intelligence level of power systems. The introduction of blockchain technology makes the entire traceability process more secure and reliable; the immutability of the data ensures the safe operation of the power system.

The successful application of this patent not only reflects Guangdong ShunChang Technology Co., Ltd.'s strength in technological innovation but also provides a new direction for technological development in the power industry. As the technology matures and is further applied, it is expected to bring greater benefits to the power industry and drive continuous optimization and development of power systems. In the future, we can expect more innovative applications based on blockchain technology to bring new development opportunities to various industries. The promotion and application of this technology also need to consider its compatibility with existing power system architectures and the formulation of relevant standards.