CHENGDU QINCHUAN IOT TECHNOLOGY CO., LTD. (20240318790). SYSTEMS AND METHODS FOR SAFETY MONITORING OF DURABILITY OF GAS PIPELINE CORRIDORS BASED ON MONITORING INTERNET OF THINGS SYSTEMS simplified abstract

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SYSTEMS AND METHODS FOR SAFETY MONITORING OF DURABILITY OF GAS PIPELINE CORRIDORS BASED ON MONITORING INTERNET OF THINGS SYSTEMS

Organization Name

CHENGDU QINCHUAN IOT TECHNOLOGY CO., LTD.

Inventor(s)

Zehua Shao of Chengdu (CN)

Yaqiang Quan of Chengdu (CN)

Lei He of Chengdu (CN)

Xiaojun Wei of Chengdu (CN)

SYSTEMS AND METHODS FOR SAFETY MONITORING OF DURABILITY OF GAS PIPELINE CORRIDORS BASED ON MONITORING INTERNET OF THINGS SYSTEMS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240318790 titled 'SYSTEMS AND METHODS FOR SAFETY MONITORING OF DURABILITY OF GAS PIPELINE CORRIDORS BASED ON MONITORING INTERNET OF THINGS SYSTEMS

The present disclosure outlines a method for monitoring the safety and durability of a gas pipeline corridor using an Internet of Things system. This involves collecting durability monitoring data, traffic vibration data, and road traffic data through sensor networks.

  • Obtaining durability monitoring data and traffic vibration data through a gas company sensor network platform.
  • Obtaining road traffic data through a government safety monitoring management platform via a government safety monitoring sensor network platform.
  • Determining traffic correlation based on the collected data.
  • Identifying traffic-affected pipeline corridors based on traffic vibration data or traffic correlation.
  • Reporting the identified traffic-affected pipeline corridors to a government safety monitoring service platform for further action.

Potential Applications: - Enhancing safety monitoring of gas pipeline corridors. - Improving maintenance and repair scheduling based on traffic impact. - Optimizing resource allocation for pipeline maintenance.

Problems Solved: - Lack of real-time monitoring for pipeline durability. - Inefficient response to traffic-related issues affecting pipeline safety. - Limited integration of data from different sources for comprehensive analysis.

Benefits: - Early detection of potential safety hazards. - Enhanced decision-making for maintenance and repair activities. - Increased overall safety and reliability of gas pipeline corridors.

Commercial Applications: Title: Enhanced Safety Monitoring System for Gas Pipeline Corridors This technology can be utilized by gas companies, government agencies, and safety monitoring service providers to improve the safety and durability of gas pipeline corridors. It can also be integrated into existing infrastructure monitoring systems for enhanced efficiency.

Questions about Enhanced Safety Monitoring System for Gas Pipeline Corridors: 1. How does this system improve the overall safety of gas pipeline corridors? - The system enhances safety by providing real-time data on durability, traffic impact, and potential hazards, allowing for proactive measures to be taken.

2. What are the key benefits of integrating traffic data into the safety monitoring of gas pipeline corridors? - Integrating traffic data allows for a more comprehensive analysis of potential risks and enables better decision-making for maintenance and repair activities.


Original Abstract Submitted

the present disclosure provides a method for safety monitoring of durability of a gas pipeline corridor based on a monitoring internet of things system, comprising obtaining durability monitoring data and traffic vibration data of the pipeline corridor through a gas company sensor network platform, and obtaining road traffic data through a government safety monitoring management platform via a government safety monitoring sensor network platform; determining a traffic correlation based on at least one of the durability monitoring data, the traffic vibration data, or the road traffic data; determining a traffic-affected pipeline corridor based on at least one of the traffic vibration data or the traffic correlation, and reporting the traffic-affected pipeline corridor to a government safety monitoring service platform via the government safety monitoring sensor network platform and the government safety monitoring management platform, and determining whether to carry out traffic control via the government safety monitoring service platform.

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