System lifecycle in systems engineering primarily refers to the proposed system or a view of a system that mainly addressed all the phases of the existence of the system that includes the system design and development, conception, construction or production, distribution, operation, retirement, phase-out and disposal, and maintenance and support (Ross, McEvilley, & Oren, 2018). The healthcare technology undergoes all these processes to make sure that the system is adequate for use, and it will provide the expected results.
Primarily, currently, is being faced by challenges in safety, access, affordability, and the means of the systems producing reliably positive outcomes for all patients. Likewise, the healthcare professions are challenged by several threats such as behavioral and environmental norms, acute and chronic conditions, and emerging and natural infections (Ross, McEvilley, & Oren, 2018). Re-engineering healthcare to solve these challenges require a systematic approach. Primarily, the approach should develop solutions that are contending with economics, technology, dynamics, and complexity if the healthcare system (Hignett et al., 2018). To achieve the intended solution the system approach should follow the system engineering life cycle that includes stakeholder and system requirements, verification and validation, system architecture and design and system integration.
Why Is It Relevant to Understand the Systems Engineering Life Cycle for Your Current or Future Position?
It is essential to understand the system engineering life cycle because it is crucial to understand what the client needs to help them understand the program. Moreover, I will be able to solve any problems that may arise in the future and decide which system is best to perform the tasks (Ross et al., 2018). Additionally, the system requires change and it essential to manage change and configuration effectively through the system lifecycle.
References
Hignett, S., Lang, A., Pickup, L., Ives, C., Fray, M., McKeown, C., ... & Bowie, P. (2018). More holes than cheese. What prevents the delivery of effective, high quality and safe health care in England? Ergonomics, 61(1), 5-14. https://doi.org/10.1080/00140139.2016.1245446
Ross, R. S., McEvilley, M., & Oren, J. C. (2018). Systems security engineering: Considerations for a multidisciplinary approach in the engineering of trustworthy secure systems [including updates as of 1-03-2018] (No. Special Publication (NIST SP)-800-160). https://doi.org/10.6028/NIST.SP.800-160
Sodhro, A. H., Pirbhulal, S., & Sangaiah, A. K. (2018). The convergence of IoT and product lifecycle management in medical health care. Future Generation Computer Systems, 86, 380-391. https://www.researchgate.net/profile/Ali_Sodhro/publication/324514103_Convergence_of_IoT_and_product_lifecycle_management_in_medical_health_care/links/5ad33e05a6fdcc29357ed8bd/Convergence-of-IoT-and-product-lifecycle-management-in-medical-health-care.pdf
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Essay on System Lifecycle in Healthcare Tech: Design, Operate, Maintain. (2023, Feb 12). Retrieved from https://proessays.net/essays/essay-on-system-lifecycle-in-healthcare-tech-design-operate-maintain
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