METHOD AND SYSTEM FOR PRESSURIZED COMPONENT TEST PLAN OPTIMIZATION

Organization Name

Hecate Software, Inc.

Inventor(s)

Eric A. Livesay of Richland WA (US)

Brian Lamarche of Richland WA (US)

METHOD AND SYSTEM FOR PRESSURIZED COMPONENT TEST PLAN OPTIMIZATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240044749 titled 'METHOD AND SYSTEM FOR PRESSURIZED COMPONENT TEST PLAN OPTIMIZATION

Simplified Explanation

The abstract describes a method for generating a pressure test plan using a computing system. The method involves generating a first set of tests for a set of pressurized components in a pressurized system. The computing system then determines fitness scores for the tests in the first set and generates an updated set of tests based on these fitness scores.

• The method involves using a computing system to generate and update a pressure test plan.
• The pressure test plan is specifically designed for a set of pressurized components in a pressurized system.
• The computing system determines fitness scores for the tests in the first set, indicating their effectiveness.
• The updated set of tests is generated based on the fitness scores, potentially improving the test plan.

Potential applications of this technology:

• Manufacturing industry: This method can be used in the manufacturing industry to generate effective pressure test plans for pressurized components, ensuring their quality and reliability.
• Oil and gas industry: The method can be applied in the oil and gas industry to develop pressure test plans for pipelines, valves, and other pressurized equipment, ensuring their safety and integrity.
• Aerospace industry: This technology can be utilized in the aerospace industry to generate pressure test plans for pressurized systems in aircraft, spacecraft, and other aerospace vehicles, ensuring their performance and safety.

Problems solved by this technology:

• Inefficient test planning: This method addresses the problem of inefficient test planning by using fitness scores to generate an updated set of tests, improving the effectiveness of the pressure test plan.
• Inadequate test coverage: The technology helps solve the problem of inadequate test coverage by generating a comprehensive set of tests for the pressurized components, ensuring that all potential failure scenarios are considered.

Benefits of this technology:

• Improved testing efficiency: By generating an updated set of tests based on fitness scores, the method improves the efficiency of pressure testing, reducing time and resources required.
• Enhanced test coverage: The technology ensures comprehensive test coverage for pressurized components, increasing the likelihood of identifying potential issues or failures.
• Increased reliability and safety: By generating effective pressure test plans, the method improves the reliability and safety of pressurized systems, reducing the risk of failures and accidents.

Original Abstract Submitted

provided is a method for generating a pressure test plan comprising generating, by a computing system, a first set of tests for a set of pressurized components of a pressurized system; determining, by the computing system, a fitness scores for the tests of the first set; and generating an updated set of tests based on the fitness scores of the tests.