Engineered Systems

About Engineered systems

An engineered system is a system that is specifically designed and crafted for there to be an interaction with a proposed operational environment. It is done for the sole aim of achieving one or more purposes from it while abiding by applicable constraints, rules, and regulations. An engineered system comprises people, products, services, information, processes, and natural components that can provide a standard or means that satisfy a specific customer’s needs or objectives.

An engineered system is not necessarily a technological type of system that has always been engineered for a design or will be instead engineered for a purpose. Such a system’s required and characteristic behaviour will be gotten by influence and self-organization instead of a top-down direction. Systems engineering is an intertwined and interdisciplinary field of engineering management and engineering that focuses on designing, integrating, and managing complex systems with their life cycles. Systems engineering uses systems thinking principles to put together a body of knowledge if you consider the basics. Such engineered systems’ efforts will then be defined as a totality and coming together of different components that will work together to perform a particular needed function collectively.

The individual people component can be individuals, government structures, roles, organizational units, organizations, etc. The unique products component might be hardware, facilities, software, firmware, data, etc. Also, this engineering system’s processes component can be in the form of procedures, directives, methods, work instructions, techniques, policies, etc. The categories of an engineered system comprise the sub-categories of products, enterprise, and services. Services and enterprises depend on technological developments, but they are essentially forms of social-technical systems.

In summary, an engineered system collects different individual components that work in harmony to perform a proper function collectively. The engineered system could end up becoming a new technology for a new product, new manufacturing or designing process, a technology to improve the delivery of a service, or an infrastructural system. Some of the complexity that an engineered systems research gets from integrating factors that represent their usefulness in products or services is factoring their effectiveness on manufacturing efficiency. It also includes how they factor in their effectiveness on the environment, society, or the human body, as it applies to the referenced system. Therefore, consideration of the different complex interactions and the system’s operational effectiveness is also factored into the components’ development, integration, and ongoing management. The vision, mission, strategic research plan, and research programs of ERCs enable several essential steps. It implies that exploring the obstacles that stand in the route of realizing the engineered system. It also means enabling an academic-scale proof-of-concept exploration of the system and also testing its objectives, performance, and balancing the complexity of its impacts. Standard quality research every enabling technological component of an engineered system is crucial and essential to investigate the functionality of such a system properly, ERCs focus on ways and methods required in integrating each element into an engineered system.