System Adaptability Measure
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An System Adaptability Measure is a system measure for its ability to adapt in response to changes, perturbations, or new conditions in its environment or goals while still maintaining desired functionality.
- Context:
- It can range from System Robustness—Maintaining Measures (for under perturbations) to being a System Flexibility—Handling Measures for a variety of conditions or tasks.
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- It can be used to design more versatile and autonomous systems.
- It can be tested empirically or analyzed theoretically to understand adaptive mechanisms.
- It can require consideration of trade-offs with other properties like Efficiency, Simplicity, and Specialization.
- It can be challenging to formalize and operationalize in many domains, making it an active area of research.
- It can evaluate how well a system adjusts to external or internal changes without significant degradation in performance.
- It can assess a system's ability to handle unexpected events or disturbances, such as changes in input data, environmental factors, or operational conditions.
- It can be a critical factor in the design of resilient systems, particularly in dynamic or uncertain environments.
- It can contribute to a system's long-term viability and sustainability by ensuring it can evolve and adapt over time, known as System Evolvability.
- It can be part of a broader framework for evaluating System Resilience, as adaptability is a key component of resilience.
- It can be linked to System Learning Capacity, where a system adapts by improving its performance based on past experiences or new information.
- It can help in optimizing systems for scalability, where adaptability ensures that a system can grow and change without loss of functionality.
- It can support decision-making processes in complex and dynamic environments by providing insights into the potential future states of a system under various scenarios.
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- Example(s):
- System Robustness Measures that evaluate how well a system maintains performance despite external shocks.
- System Flexibility Measures that assess the ability of a system to adapt to a wide range of operational conditions.
- System Resilience Measures focusing on the capacity to recover and adapt after disruptions.
- System Reconfigurability Measures that gauge how efficiently a system can alter its configuration in response to new demands.
- System Learning Measures that assess a system's ability to improve or adapt based on new data or experiences.
- Adaptive Navigation Measures, of a Robotic System that modifies its behavior based on sensor feedback to navigate new terrains.
- Dynamic Parameter Adjustment Measures, of a Machine Learning Model that adjusts its parameters to improve performance on new data types.
- System Scalability Measures, which evaluate how well a system can grow and adapt to increasing demands without losing performance.
- Adaptive Behavior Measures of a Robotic System that modify its behavior based on sensor feedback to navigate new terrains.
- Parameter Adaptation Measures of a Machine Learning Model that adjust its parameters to improve performance on new data types.
- System Recovery Time Measures, which assess the duration required for a system to return to its normal state after a disruption.
- Resource Allocation Efficiency Measures, which evaluate how effectively a system allocates resources during adaptation to new conditions.
- Reconfiguration Capability Measures, which gauge a system's ability to change its structure or operations in response to new challenges or opportunities.
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- Counter-Example(s):
- System Stability Measures, which focus on maintaining stability rather than adapting to changes.
- Static Performance Measures that do not account for the ability to adapt over time or in response to changes.
- System Predictions that anticipate future behavior without evaluating the system's adaptability to unforeseen conditions.
- Fixed Algorithms, which do not alter their behavior despite changes in input or environment,
- See also: Robustness (systems), Versatility (systems), Resilience (systems), Evolvability, Transferability, Generalization (machine learning).
References
2024
- (Wikipedia, 2024) ⇒ https://en.wikipedia.org/wiki/Adaptability Retrieved:2024-5-3.
- Adaptability ("fit to, adjust") is a feature of a system or of a process. This word has been put to use as a specialised term in different disciplines and in business operations. Word definitions of adaptability as a specialised term differ little from dictionary definitions. According to Andresen and Gronau [1] adaptability in the field of organizational management can in general be seen as an ability to change something or oneself to fit to occurring changes. In ecology, adaptability has been described as the ability to cope with unexpected disturbances in the environment. With respect to business and manufacturing systems and processes, adaptability has come to be seen increasingly as an important factor for their efficiency and economic success. In contrast, adaptability and efficiency are held to be in opposition to each other in biological and ecological systems, requiring a trade-off, since both are important factors in the success of such systems.[2] To determine the adaptability of a process or a system, it should be validated concerning some criteria.
- ↑ Andresen, K., Gronau, N.: An Approach to Increase Adaptability in ERP Systems. In: Managing Modern Organizations with Information Technology : Proceedings of the 2005 Information Resources Management Association International Conference, 2005.
- ↑ Cite error: Invalid
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