simulation
简明释义
英[ˌsɪmjuˈleɪʃ(ə)n]美[ˌsɪmjuˈleɪʃn]
n. 模拟,仿造物;假装,冒充
英英释义
单词用法
[化]数值模拟 | |
计算机模拟 |
同义词
反义词
| 现实 | In reality, things are often more complex than they appear in simulations. | 在现实中,事物往往比模拟中看起来更复杂。 | |
| 实际情况 | The actualities of life can differ greatly from theoretical models. | 生活的实际情况与理论模型可能大相径庭。 |
例句
1.The simulation tool is called the Synthetic Environment Core.
模拟工具被叫做合成环境中心。
2.A small intestinal villosity microvessels model and a circulatory simulation system were made.
制作了一个小肠绒毛微血管模型和一个循环模拟系统。
3.This mission is just a simulation.
本次任务只是一场模拟。
4.Training includes realistic simulation of casualty procedures.
训练包括伤亡处理程序的实际模拟。
5.In this example, the simulation may not work accurately.
本示例中,该模拟可能不会准确工作。
6.This group included user simulation with built-in reports.
该组包含有构建报告模拟的用户。
7.The first lesson from this is that you can go too far in simulation; locking access to individual dice is, frankly, just silly.
从中我们得到的第一个教训是,您可以深究模拟情况;坦白地说,锁定单个骰子的机会是愚蠢的。
8.The simulation tool is called the Synthetic Environment Core.
模拟工具被叫做合成环境中心。
9.If the simulation can plug directly into a satellite database, it might even help future tugboat pilots safely steer with an iceberg in tow.
如果模拟可以直接连入卫星数据库,它甚至可能帮助未来的拖船驾驶员安全地拖动冰山。
10.The military uses simulation exercises to prepare for real combat situations.
军方使用模拟演习来为真实战斗情况做好准备。
11.We ran a financial simulation to predict the company's future performance.
我们进行了财务模拟以预测公司的未来表现。
12.The video game features realistic simulation of city management.
这款视频游戏具有城市管理的真实模拟功能。
13.The flight instructor used a simulation to train the pilots on emergency procedures.
飞行教练使用了一个模拟来训练飞行员应对紧急情况的程序。
14.In the lab, we conducted a simulation of chemical reactions to observe their outcomes.
在实验室里,我们进行了化学反应的模拟以观察其结果。
作文
In today's rapidly advancing technological landscape, the concept of simulation (模拟) has become increasingly significant across various fields. From education to healthcare, and even in entertainment, simulation (模拟) serves as a powerful tool that enhances our understanding and experience of complex systems. This essay explores the various applications of simulation (模拟) and its impact on society, highlighting its importance in both practical and theoretical contexts.One of the most prominent areas where simulation (模拟) plays a crucial role is in education. In traditional learning environments, students often find it challenging to grasp abstract concepts without practical experience. However, with the advent of virtual reality (VR) and computer-based simulation (模拟), educators can create immersive learning experiences that allow students to engage with the material in a more interactive manner. For instance, medical students can practice surgical procedures through realistic simulation (模拟) programs, enabling them to hone their skills in a risk-free environment before treating real patients.Furthermore, simulation (模拟) has revolutionized the field of engineering. Engineers often rely on simulation (模拟) software to model complex systems and predict their behavior under various conditions. For example, aerospace engineers use simulation (模拟) tools to test the aerodynamics of aircraft designs before they are built. This not only saves time and resources but also ensures that potential issues are identified and addressed early in the design process. The ability to conduct simulation (模拟) tests allows for innovation and efficiency, ultimately leading to safer and more effective engineering solutions.In addition to education and engineering, simulation (模拟) is also widely used in the field of healthcare. Medical professionals utilize simulation (模拟) techniques to train for emergency situations, such as surgeries or disaster response scenarios. By participating in realistic simulation (模拟) exercises, healthcare workers can improve their decision-making skills and teamwork, which are critical during high-pressure situations. Moreover, patients can benefit from simulation (模拟) as well; for example, virtual health platforms allow individuals to visualize and understand their treatment plans better, leading to improved patient outcomes.The entertainment industry has also embraced simulation (模拟) technology, particularly in video games and movies. Game developers create intricate virtual worlds that allow players to immerse themselves in different scenarios, providing an engaging way to experience stories and challenges. Similarly, filmmakers use simulation (模拟) effects to create stunning visuals that captivate audiences. These applications of simulation (模拟) not only entertain but also push the boundaries of creativity and storytelling.Despite the numerous benefits of simulation (模拟), it is essential to acknowledge some of the challenges associated with its implementation. For instance, the accuracy of a simulation (模拟) depends heavily on the quality of the data and algorithms used. If the underlying models are flawed, the results of the simulation (模拟) may lead to incorrect conclusions. Additionally, there is a growing concern about the ethical implications of simulation (模拟) in areas such as warfare or surveillance, where the potential for misuse exists.In conclusion, simulation (模拟) has emerged as a vital component in modern society, influencing various sectors from education to healthcare and entertainment. Its ability to provide realistic representations of complex systems facilitates learning, innovation, and creativity. As technology continues to evolve, the potential applications of simulation (模拟) will undoubtedly expand, offering new opportunities and challenges. Embracing the power of simulation (模拟) while being mindful of its limitations will be crucial in harnessing its full potential for the benefit of society.
在当今迅速发展的技术环境中,simulation(模拟)的概念在各个领域变得越来越重要。从教育到医疗保健,甚至在娱乐中,simulation(模拟)作为一种强大的工具,增强了我们对复杂系统的理解和体验。本文探讨了simulation(模拟)的各种应用及其对社会的影响,强调了它在实践和理论背景下的重要性。simulation(模拟)发挥关键作用的一个显著领域是教育。在传统的学习环境中,学生常常发现很难在没有实践经验的情况下掌握抽象概念。然而,随着虚拟现实(VR)和基于计算机的simulation(模拟)的出现,教育工作者可以创造身临其境的学习体验,使学生以更互动的方式参与材料。例如,医学学生可以通过真实的simulation(模拟)程序练习外科手术,从而在无风险的环境中磨练他们的技能,然后再去治疗真正的病人。此外,simulation(模拟)彻底改变了工程领域。工程师通常依赖simulation(模拟)软件来建模复杂系统,并预测其在各种条件下的行为。例如,航空航天工程师使用simulation(模拟)工具在飞机设计建造之前测试其空气动力学。这不仅节省了时间和资源,还确保潜在问题在设计过程早期就被识别和解决。进行simulation(模拟)测试的能力促进了创新和效率,最终导致更安全、更有效的工程解决方案。除了教育和工程,simulation(模拟)在医疗保健领域也被广泛使用。医疗专业人员利用simulation(模拟)技术进行紧急情况的培训,例如手术或灾难响应场景。通过参与真实的simulation(模拟)演习,医疗工作者可以提高他们的决策能力和团队合作能力,这在高压情况下至关重要。此外,患者也可以从simulation(模拟)中受益;例如,虚拟健康平台允许个人更好地可视化和理解他们的治疗计划,从而改善患者结果。娱乐行业也采用了simulation(模拟)技术,特别是在视频游戏和电影中。游戏开发者创建复杂的虚拟世界,让玩家沉浸在不同的场景中,提供了一种引人入胜的体验故事和挑战的方式。类似地,电影制片人使用simulation(模拟)效果来创造令人惊叹的视觉效果,吸引观众。这些simulation(模拟)的应用不仅娱乐了人们,还推动了创造力和讲故事的界限。尽管simulation(模拟)有许多好处,但必须承认其实施所面临的一些挑战。例如,simulation(模拟)的准确性在很大程度上取决于所使用的数据和算法的质量。如果基础模型存在缺陷,simulation(模拟)的结果可能会导致错误的结论。此外,关于simulation(模拟)在战争或监视等领域的伦理影响的担忧日益加剧,存在滥用的潜在可能。总之,simulation(模拟)已成为现代社会的重要组成部分,影响着从教育到医疗保健和娱乐等各个部门。它提供复杂系统的现实表现的能力促进了学习、创新和创造力。随着技术的不断发展,simulation(模拟)的潜在应用无疑将扩展,提供新的机遇和挑战。在充分利用simulation(模拟)的力量时,注意其局限性对于充分发挥其对社会的益处至关重要。
