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Homepage>BS Standards>35 INFORMATION TECHNOLOGY. OFFICE MACHINES>35.240 Applications of information technology>35.240.99 IT applications in other fields>PD CEN/CLC/TR 17602-80-04:2021 Space product assurance. Software metrication programme definition and implementation
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PD CEN/CLC/TR 17602-80-04:2021 Space product assurance. Software metrication programme definition and implementation

PD CEN/CLC/TR 17602-80-04:2021

Space product assurance. Software metrication programme definition and implementation

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Standard number:PD CEN/CLC/TR 17602-80-04:2021
Pages:104
Released:2021-11-05
ISBN:978 0 539 17792 3
Status:Standard
PD CEN/CLC/TR 17602-80-04:2021 Space Product Assurance

PD CEN/CLC/TR 17602-80-04:2021 Space Product Assurance

Software Metrication Programme Definition and Implementation

Standard Number: PD CEN/CLC/TR 17602-80-04:2021

Pages: 104

Released: 2021-11-05

ISBN: 978 0 539 17792 3

Status: Standard

Overview

The PD CEN/CLC/TR 17602-80-04:2021 is a comprehensive standard that provides detailed guidelines and methodologies for the definition and implementation of a software metrication programme specifically tailored for space product assurance. Released on November 5, 2021, this standard is an essential resource for professionals in the aerospace industry who are involved in software development, quality assurance, and project management.

Why This Standard is Essential

In the highly specialized field of aerospace, ensuring the reliability and quality of software is paramount. The PD CEN/CLC/TR 17602-80-04:2021 standard addresses this critical need by providing a structured approach to software metrication. This involves the systematic measurement and analysis of software attributes to ensure they meet predefined criteria for quality and performance.

Key Features

  • Comprehensive Guidelines: The standard offers a detailed framework for defining and implementing a software metrication programme, covering all aspects from initial planning to final execution.
  • Industry-Specific: Tailored specifically for the aerospace sector, ensuring that the guidelines are relevant and applicable to the unique challenges faced in this field.
  • Quality Assurance: Focuses on enhancing the reliability and quality of software products, which is crucial for the success of space missions.
  • Performance Metrics: Provides methodologies for measuring various software attributes, including performance, reliability, and maintainability.
  • Best Practices: Incorporates industry best practices and lessons learned from previous projects, ensuring that users benefit from the collective experience of the aerospace community.

Who Should Use This Standard?

The PD CEN/CLC/TR 17602-80-04:2021 standard is designed for a wide range of professionals in the aerospace industry, including:

  • Software Engineers: To ensure that their code meets the highest standards of quality and reliability.
  • Quality Assurance Specialists: To implement effective metrication programmes that enhance software quality.
  • Project Managers: To oversee the implementation of software metrication programmes and ensure that project goals are met.
  • Regulatory Bodies: To establish and enforce standards for software quality in the aerospace sector.

Benefits of Implementing This Standard

Adopting the PD CEN/CLC/TR 17602-80-04:2021 standard offers numerous benefits, including:

  • Enhanced Software Quality: By following the guidelines, organizations can significantly improve the quality and reliability of their software products.
  • Risk Mitigation: Systematic metrication helps identify potential issues early in the development process, reducing the risk of costly errors and failures.
  • Increased Efficiency: A well-defined metrication programme streamlines the software development process, leading to more efficient use of resources and faster project completion.
  • Compliance: Ensures that software products meet industry standards and regulatory requirements, facilitating smoother approval processes.
  • Competitive Advantage: Organizations that implement this standard can demonstrate their commitment to quality, giving them a competitive edge in the aerospace market.

Conclusion

The PD CEN/CLC/TR 17602-80-04:2021 standard is an invaluable resource for anyone involved in the development and assurance of software for the aerospace industry. By providing a structured approach to software metrication, it helps organizations enhance the quality, reliability, and performance of their software products, ultimately contributing to the success of space missions. With its comprehensive guidelines and industry-specific focus, this standard is a must-have for aerospace professionals committed to excellence in software development and quality assurance.

DESCRIPTION

PD CEN/CLC/TR 17602-80-04:2021


This standard PD CEN/CLC/TR 17602-80-04:2021 Space product assurance. Software metrication programme definition and implementation is classified in these ICS categories:
  • 35.240.99 IT applications in other fields
  • 49.140 Space systems and operations

The scope of this Handbook is the software metrication as part of a space project, i.e. a space system, a subsystem including hardware and software, or ultimately a software product. It is intended to complement the [ECSS-Q-80] with specific guidelines related to use of different software metrics including their collection, analysis and reporting. Tailoring guidelines for the software metrication process are also provided to help to meet specific project requirements.

This Handbook provides recommendations, methods and procedures that can be used for the selection and application of appropriate metrics, but it does not include new requirements with respect to those provided by ECSS-ST-Q-80C Standard.

The scope of this Handbook covers the following topics:

  • Specification of the goals and objectives for a metrication programme.

  • Identification of criteria for selection of metrics in a specific project / environment (goal driven).

  • Planning of metrication in the development life cycle.

  • Interface of metrication with engineering processes.

  • Data collection aspects (including use of tools).

  • Approach to the analysis of the collected data.

  • Feedback into the process and product based on the analysis results.

  • Continuous improvement of measurement process.

  • Use of metrics for process and product improvement.

This Handbook is applicable to all types of software of all major parts of a space system, including the space segment, the launch service segment and the ground segment software.