Non-coupled
The term "non-coupled" describes a state of being disconnected, independent, or not associated with something else. It signifies a lack of connection, linkage, or dependency between two or more entities, whether physical, informational, or functional. This independence allows for separate operation and control, with minimal or no influence exerted by one element on another. The degree of coupling, or lack thereof, significantly impacts the complexity, maintainability, and scalability of systems and relationships. A non-coupled system can be more modular and adaptable.
Non-coupled meaning with examples
- In a non-coupled software architecture, different modules operate independently. Each can be updated or modified without affecting the others, leading to greater flexibility and reduced risk of widespread system failures. This is especially true of a non-coupled database. Such separation improves scalability and facilitates faster development cycles. This strategy benefits overall system robustness and maintainability.
- The research team decided to use a non-coupled experimental design, where the independent variable manipulation didn't directly impact the measuring instrument's function. This allowed them to isolate the effect of the independent variable effectively. It gave them a more controlled environment for their analysis. No cross-contamination occurred, leading to more reliable results.
- A non-coupled power transmission system would involve independent energy generation and distribution networks. Each portion of the system acts autonomously, minimizing the potential for cascading failures and improving overall resilience. This also streamlines repair and maintenance efforts, allowing for greater energy security. This approach prioritizes system stability.
- In a non-coupled supply chain, individual suppliers and distributors interact based on their own needs and operations, with minimal integrated dependencies. Although less integrated, such a system provides agility in responding to market fluctuations and reduces the risk of disruptions spreading. This is especially true of a global supply chain.
