Adaptive systems and models at runtime refer to the ability of a system or model to dynamically adjust its behavior or parameters based on changing conditions and feedback during runtime. This allows the system or model to better adapt to its environment, improve its performance, and enhance its overall effectiveness.

Some technical details about adaptive systems and models at runtime include:

1. Feedback loops: Adaptive systems and models rely on feedback loops to gather data and adjust their behavior. These feedback loops can be either explicit or implicit, and they typically involve collecting data from sensors or other sources, analyzing the data, and using it to make decisions about how to adjust the system or model.

2. Machine learning algorithms: Machine learning algorithms are often used in adaptive systems and models to analyze feedback data and make predictions about future behavior. These algorithms can be supervised, unsupervised, or reinforcement learning-based, depending on the type of feedback data available and the desired outcomes.

3. Parameter tuning: In adaptive systems and models, parameters are often adjusted dynamically to optimize performance. This can involve changing things like thresholds, time constants, or weighting factors based on feedback data.

4. Self-organizing systems: Some adaptive systems and models are designed to be self-organizing, meaning that they can reconfigure themselves in response to changing conditions without requiring external input. Self-organizing systems typically use decentralized decision-making and distributed control to achieve their goals.

5. Context awareness: Adaptive systems and models often incorporate context awareness, meaning that they can adapt their behavior based on situational factors like time of day, location, or user preferences. This requires the use of sensors and other data sources to gather information about the environment in real-time.

Overall, adaptive systems and models at runtime are complex and dynamic, requiring sophisticated algorithms and techniques to function effectively. However, the benefits of these systems can be significant, including improved performance, increased flexibility, and better overall outcomes.