manual simulation

简明释义

人工模拟

英英释义

例句

1.For the software workshop, participants were asked to perform a manual simulation of the user interface.

在软件研讨会上，参与者被要求对用户界面进行手动模拟。

2.The engineering team used a manual simulation to test the new design before moving to automated processes.

工程团队使用手动模拟来测试新设计，然后再转向自动化流程。

3.In the training session, we conducted a manual simulation to practice emergency response procedures.

在培训课程中，我们进行了一个手动模拟来练习应急响应程序。

4.During the class, the students engaged in a manual simulation of market trading to understand economic principles.

在课堂上，学生们参与了一个手动模拟市场交易，以理解经济原理。

5.The flight school incorporates manual simulation exercises to enhance pilot training.

飞行学校纳入了手动模拟练习以增强飞行员培训。

作文

In recent years, the field of technology has advanced at an unprecedented rate, leading to the development of various sophisticated simulation tools. However, despite the convenience and efficiency offered by these digital solutions, there remains a significant value in traditional methods such as manual simulation. This approach involves the physical or theoretical replication of processes or systems without the use of automated software, allowing for a deeper understanding and hands-on experience.One of the primary advantages of manual simulation is its ability to foster critical thinking and problem-solving skills. When students engage in manual simulation, they are required to analyze situations, make decisions, and predict outcomes based on their understanding of the underlying principles. For instance, in engineering education, students might manually simulate the forces acting on a bridge design using simple materials like straws or clay. This tactile experience not only reinforces theoretical knowledge but also encourages creativity and innovation.Furthermore, manual simulation can serve as an excellent teaching tool in various disciplines. In science classes, teachers often use manual simulation to demonstrate complex concepts such as chemical reactions or physical laws. By conducting experiments manually, students can observe firsthand the effects of their actions, leading to a more profound grasp of scientific principles. This experiential learning is particularly effective for visual and kinesthetic learners who may struggle with abstract concepts when presented solely through lectures or textbooks.Additionally, manual simulation promotes teamwork and collaboration among students. Many manual simulation activities require participants to work together to achieve a common goal. For example, in a business management course, students might engage in a manual simulation of market competition, where they must negotiate prices, allocate resources, and strategize with their peers. This collaborative environment not only enhances communication skills but also prepares students for real-world scenarios where teamwork is essential.Moreover, while technology continues to evolve, the importance of manual simulation remains relevant in professional settings. Many industries still rely on manual processes to test new ideas or products before fully implementing them. For instance, in the field of aviation, pilots often undergo manual simulation training in flight simulators that replicate the conditions of flying an actual aircraft. This method allows them to practice emergency procedures and decision-making skills in a controlled environment, ensuring their readiness for real-life situations.In conclusion, while modern technology provides numerous advantages in simulation and modeling, the significance of manual simulation should not be overlooked. It cultivates essential skills such as critical thinking, teamwork, and practical application of knowledge. As educators and professionals continue to explore innovative teaching and training methods, incorporating manual simulation into curricula and practices can enhance learning outcomes and prepare individuals for the complexities of the modern world. Therefore, it is crucial to strike a balance between digital tools and traditional methods, ensuring that the benefits of manual simulation are harnessed alongside technological advancements.

近年来，科技领域以空前的速度发展，催生了各种复杂的模拟工具。然而，尽管这些数字解决方案提供了便利和效率，传统方法如手动模拟仍然具有重要价值。这种方法涉及在不使用自动化软件的情况下，对过程或系统进行物理或理论复制，从而深入理解和获得实践经验。手动模拟的主要优势之一是它能够培养批判性思维和解决问题的能力。当学生参与手动模拟时，他们需要分析情况、做出决策，并根据对基本原理的理解预测结果。例如，在工程教育中，学生可能会使用简单材料如吸管或粘土手动模拟桥梁设计上施加的力量。这种触觉体验不仅强化了理论知识，还鼓励创造力和创新。此外，手动模拟可以作为各学科的优秀教学工具。在科学课上，教师经常使用手动模拟来演示复杂概念，如化学反应或物理定律。通过手动进行实验，学生可以亲身观察他们行为的影响，从而更深入地掌握科学原理。这种体验式学习对于视觉和动觉学习者尤为有效，因为他们在仅通过讲座或教科书呈现抽象概念时可能会感到困难。此外，手动模拟促进了学生之间的团队合作与协作。许多手动模拟活动要求参与者共同努力以实现共同目标。例如，在商业管理课程中，学生可能会参与市场竞争的手动模拟，在其中他们必须与同伴谈判价格、分配资源并制定策略。这种协作环境不仅增强了沟通技巧，还为学生准备了现实世界中的团队合作场景。此外，尽管技术不断发展，但手动模拟在专业环境中的重要性仍然相关。许多行业仍依赖手动流程在全面实施新想法或产品之前进行测试。例如，在航空领域，飞行员通常在飞行模拟器中接受手动模拟训练，这些模拟器重现了飞行实际飞机的条件。这种方法使他们能够在受控环境中练习紧急程序和决策技能，确保他们为现实生活中的情况做好准备。总之，虽然现代技术在模拟和建模方面提供了众多优势，但手动模拟的重要性不应被忽视。它培养了批判性思维、团队合作和知识的实际应用等基本技能。随着教育工作者和专业人士继续探索创新的教学和培训方法，将手动模拟纳入课程和实践可以增强学习成果，并为个人应对现代世界的复杂性做好准备。因此，在数字工具和传统方法之间取得平衡至关重要，以确保同时利用手动模拟的好处和技术进步。