systems model
简明释义
系统模型,系统模式
英英释义
例句
1.The systems model 系统模型 helped us understand the complex dynamics of the ecosystem.
这个系统模型 systems model帮助我们理解生态系统的复杂动态。
2.Using a systems model 系统模型 can improve decision-making in urban planning.
使用系统模型 systems model可以改善城市规划中的决策。
3.The engineer developed a systems model 系统模型 to simulate the performance of the new bridge design.
工程师开发了一个系统模型 systems model来模拟新桥设计的性能。
4.In our research, we utilized a systems model 系统模型 to analyze the interactions between different environmental factors.
在我们的研究中,我们利用了一个系统模型 systems model来分析不同环境因素之间的相互作用。
5.The systems model 系统模型 revealed inefficiencies in the supply chain process.
这个系统模型 systems model揭示了供应链过程中的低效率。
作文
In the field of systems thinking, the term systems model refers to a conceptual framework that represents the interactions and relationships within a complex system. By utilizing a systems model, researchers and practitioners can analyze how different components of a system work together to achieve a common goal or outcome. This approach is particularly useful in understanding dynamic systems where variables are interdependent and can influence one another over time.For instance, consider the ecosystem of a forest. A systems model of this environment would include various elements such as trees, animals, soil, water, and climate. Each of these components interacts with the others; for example, trees provide oxygen, which is essential for animals, while animals contribute to seed dispersal, which helps trees reproduce. By creating a systems model of the forest ecosystem, scientists can better understand the impact of changes in one part of the system on the whole. If a disease affects a particular species of tree, the systems model can help predict how this will affect animal populations and overall biodiversity.Moreover, systems models are not limited to natural environments. They are also widely used in social sciences, engineering, and organizational management. For example, in business, a systems model might illustrate how different departments within an organization interact, highlighting the flow of information and resources. Understanding these interactions can lead to improved efficiency and better decision-making.Additionally, the use of systems models allows for simulation and scenario analysis. By manipulating variables within the model, stakeholders can visualize potential outcomes of different decisions. This aspect is particularly valuable in policy-making, where the consequences of decisions can be far-reaching and complex. A well-constructed systems model provides a safe environment to explore 'what-if' scenarios without real-world repercussions.In education, teaching students about systems models fosters critical thinking and problem-solving skills. Students learn to view problems holistically rather than in isolation, recognizing that solutions may require coordinated efforts across multiple areas. This perspective is essential in today’s interconnected world, where challenges such as climate change, public health crises, and economic instability cannot be addressed by looking at individual components alone.In conclusion, the concept of a systems model serves as a powerful tool for understanding and managing complexity in various fields. By illustrating the relationships and interactions within a system, it enables better analysis, decision-making, and problem-solving. As we continue to face increasingly complex challenges, the importance of employing systems models will only grow, highlighting the need for a comprehensive approach to understanding the world around us.
在系统思维领域,术语系统模型指的是一种概念框架,用于表示复杂系统内的相互作用和关系。通过利用系统模型,研究人员和从业者可以分析系统中不同组件如何协同工作以实现共同目标或结果。这种方法对于理解动态系统尤为有用,因为这些系统中的变量是相互依存的,并且可以随着时间的推移相互影响。例如,考虑一个森林的生态系统。该环境的系统模型将包括各种元素,如树木、动物、土壤、水和气候。这些组件彼此之间相互作用;例如,树木提供氧气,这对动物至关重要,而动物则有助于种子的传播,从而帮助树木繁殖。通过创建森林生态系统的系统模型,科学家可以更好地理解系统中某一部分变化对整体的影响。如果某种树木的特定物种受到疾病影响,系统模型可以帮助预测这将如何影响动物种群和整体生物多样性。此外,系统模型不仅限于自然环境。它们也广泛应用于社会科学、工程和组织管理等领域。例如,在商业中,系统模型可能会展示组织内不同部门之间的互动,突出信息和资源的流动。理解这些互动可以提高效率并改善决策。此外,使用系统模型还允许进行模拟和情景分析。通过操控模型中的变量,利益相关者可以可视化不同决策的潜在结果。这一特性在政策制定中尤其有价值,因为决策的后果可能是深远和复杂的。一个构建良好的系统模型提供了一个安全的环境,可以探索“如果……会怎样”的情景,而不产生现实世界的后果。在教育中,教学生关于系统模型的知识培养了批判性思维和解决问题的能力。学生学习从整体上看待问题,而不是孤立地看待,认识到解决方案可能需要跨多个领域的协调努力。这种视角在当今相互关联的世界中至关重要,因为气候变化、公共卫生危机和经济不稳定等挑战无法仅通过查看单个组件来解决。总之,系统模型的概念作为理解和管理各个领域复杂性的强大工具。通过阐明系统内的关系和互动,它使得更好的分析、决策和解决问题成为可能。随着我们继续面临日益复杂的挑战,采用系统模型的重要性只会增加,这突显了全面理解我们周围世界的必要性。
