The Features of Standards
Members of various organizations, such as the International Organization for Standardization (ISO), have constantly been working to improve system engineering standards to mitigate future risks. Some of the most recent and significant system engineering standards are ISO/IEC/IEEE 15288:2015, replaced with ISO/IEC/IEEE DIS 15288, ISO/IEC/IEEE 42010:2011, and ISO/IEC TR 247448-1:2010. Each of these standards has its features and performs different functions.
ISO/IEC/IEEE 15288:2015, for instance, presents a well-developed and comprehensive description of the cycle of human-created systems. It is utilized to control engineering systems and aid in improving the life cycle of a system (Martin, 2021).
ISO/IEC/IEEE 42010:2011 provides organizations with the analysis of the most applicable practices to maximize their use. It focuses on the Architectural model’s usability, cost of ownership, and capability.
ISO/IEC TR 247448-1:2010 predicts a possible outcome, describes the purpose of life process representatives and considers the need to advise organizations on using an environmentally friendly model that suits a particular project.
The Differences between Standards
The primary differences between the standards are caused by the fact that they have various purposes and functions. As for the ISO/IEC/IEEE 15288:2015 and its substitute ISO/IEC/IEEE DIS 15288, there are only a few differences between them since one standard completes gaps in the other one. They have one purpose: to supply an analysis of architecture related to processes in software. In contrast to other considered standards, the ISO/IEC/IEEE 15288:2015 presents the relevant procedures to operate a system with the most suitable materials.
While ISO/IEC/IEEE 42010:2011 focuses on architecture descriptions, ISO/IEC TR 247448-1:2010 gives procedures to be followed on the life process model (Saputri & Lee, 2021). These two standards have various aims: the first strives to provide systems with the ability to analyze the different architecture descriptions; the second helps companies commit a transition from one ISO to another.
Guidelines about System Integration
All these standards can be used during forming of the strategy of system integration. Due to the endless flow of information, all organizations are forced to find new ways to systematize it and need to utilize recently-developed standards providing higher productivity, efficiency, and uniformity.
ISO/IEC/IEEE 15288:2015 supplies companies with architecture guidelines about system integration. These instructions consider concept, development, production, utilization, support, and retirement.
ISO/IEC/IEEE 42010:2011 gives specifications on integrating architecture frameworks and ADLs based on common ontology for identifying their concepts.
ISO/IEC TR 247448-1:2010 provides procedures that need to be followed and concern the life process model, which can be widely utilized by specialists of the various disciplines and spheres (Saputri & Lee, 2021). It makes this standard one of the most relevant for any company working on a project.
Conclusion
Since the standards contribute to minimizing risks associated with low criteria quality goods to customers and reducing competition between the organizations, applying universally known Engineering standards is essential to any organization.
It would be wrong to reject the importance of ISO/IEC TR 247448-1:2010 standard, which represents systems and software engineering-life cycle management. Due to its ability to help organizations find the most suitable standard and adapt to the new version of standards by guiding them, ISO/IEC TR 247448-1:2010 is beneficial.
Thus, utilizing engineering standards raises the company’s chances of success because the appropriate use of these standards contributes to saving cost, increasing productivity, and ensuring quality goods are delivered to customers.
References
Martin, J. N. (2021). Overview of the revised standard on architecture description–ISO/IEC 42010. INCOSE international symposium, 31(1), 1363-1376.
Saputri, T. R. D., & Lee, S. W. (2021). Integrated framework for incorporating sustainability design in software engineering life-cycle: An empirical study. Information and Software Technology, 129, 106407.