state parameter

简明释义

状态参数

英英释义

例句

1.In the context of control systems, the state parameter refers to the variables that define the current status of the system.

在控制系统的背景下，状态参数指的是定义系统当前状态的变量。

2.Understanding the state parameter helps in predicting the future behavior of the system.

理解状态参数有助于预测系统的未来行为。

3.When tuning the algorithm, it is crucial to adjust the state parameter for optimal performance.

在调整算法时，调整状态参数以获得最佳性能是至关重要的。

4.In a Markov process, the state parameter is essential for determining transition probabilities.

在马尔可夫过程中，状态参数对于确定转换概率至关重要。

5.The simulation requires you to input the state parameter at each time step.

模拟要求你在每个时间步输入状态参数。

作文

In the realm of science and engineering, the term state parameter plays a crucial role in understanding the behavior of systems. A state parameter refers to a variable that describes the state of a system at a given moment. It provides essential information about the system's condition, enabling scientists and engineers to predict how it will respond to various inputs or changes in its environment. For example, in thermodynamics, temperature, pressure, and volume are all considered state parameters because they define the state of a gas or liquid. By analyzing these parameters, one can derive important insights into the system's properties and behavior.The significance of state parameters extends beyond just physical sciences. In economics, the term is used to describe variables that reflect the current economic conditions, such as inflation rates, unemployment rates, and gross domestic product (GDP). These state parameters help economists assess the health of an economy and make informed decisions regarding fiscal policies and interventions.Moreover, in the field of computer science, particularly in systems design and analysis, state parameters are vital for modeling the behavior of software applications. They represent the current status of an application, such as user authentication status, data input states, or configuration settings. By monitoring these state parameters, developers can ensure that the application behaves as expected and can troubleshoot issues effectively.Understanding state parameters is not only important for professionals in technical fields but also for students and researchers who aim to delve deeper into their respective disciplines. By grasping the concept of state parameters, individuals can develop a more comprehensive understanding of how systems operate and interact with their environments.In practical applications, the manipulation and analysis of state parameters allow for optimization and enhancement of systems. For instance, in control systems engineering, adjusting state parameters can lead to improved performance and stability of processes. Engineers often use feedback loops to monitor state parameters continuously, making real-time adjustments to maintain desired outcomes.Furthermore, the role of state parameters is evident in environmental studies. Researchers track state parameters like air quality indices, water levels, and biodiversity metrics to assess ecological health and inform conservation efforts. By understanding the interplay between various state parameters, scientists can identify trends and formulate strategies to mitigate environmental degradation.In conclusion, the concept of state parameters is fundamental across various disciplines, providing a framework for understanding and analyzing the state of systems. Whether in physics, economics, computer science, or environmental studies, recognizing the importance of state parameters can lead to better decision-making and improved outcomes. As we continue to explore complex systems in our world, mastering the concept of state parameters will undoubtedly contribute to advancements in technology, policy-making, and scientific research.

在科学和工程领域，术语状态参数在理解系统行为方面发挥着至关重要的作用。状态参数是指描述系统在给定时刻状态的变量。它提供了有关系统条件的基本信息，使科学家和工程师能够预测系统如何响应各种输入或环境变化。例如，在热力学中，温度、压力和体积都被视为状态参数，因为它们定义了气体或液体的状态。通过分析这些参数，可以得出关于系统属性和行为的重要见解。状态参数的重要性不仅限于物理科学。在经济学中，该术语用于描述反映当前经济状况的变量，如通货膨胀率、失业率和国内生产总值（GDP）。这些状态参数帮助经济学家评估经济的健康状况，并就财政政策和干预措施做出明智的决策。此外，在计算机科学领域，尤其是在系统设计和分析中，状态参数对于建模软件应用程序的行为至关重要。它们表示应用程序的当前状态，例如用户身份验证状态、数据输入状态或配置设置。通过监控这些状态参数，开发人员可以确保应用程序按预期运行，并有效地排除问题。理解状态参数不仅对技术领域的专业人士重要，对希望深入研究各自学科的学生和研究人员也至关重要。通过掌握状态参数的概念，个人可以更全面地理解系统如何运作和与环境互动。在实际应用中，对状态参数的操作和分析可以优化和增强系统。例如，在控制系统工程中，调整状态参数可以改善过程的性能和稳定性。工程师通常使用反馈回路持续监控状态参数，实时进行调整以维持期望的结果。此外，状态参数在环境研究中的作用也很明显。研究人员跟踪状态参数如空气质量指数、水位和生物多样性指标，以评估生态健康并通知保护工作。通过理解各种状态参数之间的相互作用，科学家可以识别趋势并制定减缓环境退化的策略。总之，状态参数的概念在各个学科中都是基础，为理解和分析系统的状态提供了框架。无论是在物理学、经济学、计算机科学还是环境研究中，认识到状态参数的重要性都可以带来更好的决策和改进的结果。随着我们继续探索世界上复杂的系统，掌握状态参数的概念无疑将有助于技术、政策制定和科学研究的进步。