System engineering requires verification as a critical step in assuring the performance and dependability of complex systems. Robust verification procedures are now more important than ever due to the complexity and integration of contemporary systems, such as those in the aerospace, automotive, and telecommunications industries. This abstract summarises the importance of verification in system engineering and draws attention to its most important features. Verification's main goal is to ensure that a system, or each of its individual components, satisfies the requirements and performs as intended. In order to ensure compliance with design requirements, standards, and safety laws, it entails thorough testing, analysis, and assessment of system behaviour under different operating settings. The many methods used in verification operations include testing, formal methods, simulation, model-based approaches, and more. Verification is used in the field of system engineering to solve a variety of system development issues, such as functional correctness, performance, safety, security, and interoperability. It is essential for lowering risks, avoiding expensive failures, and enhancing user trust in the system's functionality. Engineers may find and fix design faults, unearth unanticipated dependencies, and improve system robustness by testing system components and their interactions.
Compliance Verification, Robust Verification, System Engineers, Traceability.
[Dr. Lakshmi Prasanna Pagadala (2022) A Brief Discussion on Verification] (ISSN 2347 - 5552). www.ijircst.org
Dr. Lakshmi Prasanna Pagadala
Associate Professor, Masters In Business Administration (General Management), Presidency University, Bangalore, India,