simulators
简明释义
英[/sɪˈmjʊleɪtəz/]美[/sɪˈmjuːləˌtɚz/]
n. [自]模拟器(simulator 的复数形式);[自]仿真器
英英释义
Devices or programs that mimic the operation of a real-world process or system for training, research, or entertainment purposes. | 模拟真实世界过程或系统的设备或程序,用于培训、研究或娱乐目的。 |
单词用法
训练模拟器 | |
飞行模拟器;飞行模拟装置;飞行练习器 |
同义词
| 仿真器 | 飞行仿真器为飞行员提供逼真的训练。 |
反义词
| 现实 | In real life, the realities can be much different from simulations. | 在现实生活中,现实可能与模拟大相径庭。 | |
| 实际情况 | The actuals of the situation were far more complex than the simulators suggested. | 情况的实际情况比模拟器所暗示的要复杂得多。 |
例句
1.On most of the simulators, you'll notice that rotating the viewport causes the image to be scaled out to match the new 480-pixel width of the device.
在大多数模拟器中,您将注意到旋转视窗后将向外扩展图像以匹配设备的480像素的新宽度。
2.They will also use simulators to learn how to dock with the ISS and how to fly the new lunar lander, Altair, down to the moon's surface.
他们也将用模拟器学习如何与国际空间站接合和如何驾驶新的月球登陆车“牵牛星”号登陆月球表面。
3.All the components, including the integration components and system simulators (SYSTEMA, SYSTEMB, SYSTEMC), are deployed on the same server.
在同一服务器上部署所有组件,其中包括集成组件和系统模拟器(SYSTEMA、SYSTEMB和SYSTEMC)。
4.Simulation of generated code on third party host simulators for early design validation.
第三方主机模拟器对于早期设计确认生成代码的模拟。
5.As mentioned above, one of the challenges in SOA testing is creating stubs and simulators.
正如前面提到的,SOA测试中的一个挑战是创建存根和模拟器。
6.Simulators provide an efficient alternative for testing rare scenarios or negative test cases that are difficult to produce using live back-end systems.
模拟器会提供有效的替代方法测试不常见的场景或难以使用活动后台系统实现的反向(negative)测试案例。
7.The lunar-lander simulators for the Apollo missions looked like flying bed frames, Melroy says, and all of them crashed during training.
“阿波罗”任务中的月球登陆模拟器看起来像个飞行床架,梅尔罗伊说到,在训练中就被撞毁。
8.Identify the need for creating stubs and simulators for testing.
标识为测试创建存根和模拟器的需求。
9.Virtual reality simulators provide immersive experiences for gamers.
虚拟现实模拟器为游戏玩家提供身临其境的体验。
10.Pilots use flight simulators to practice emergency procedures.
飞行员使用飞行模拟器来练习应急程序。
11.The military uses combat simulators for training exercises.
军方使用战斗模拟器进行训练演习。
12.Driving simulators can help new drivers gain confidence behind the wheel.
驾驶模拟器可以帮助新司机在驾驶时增强信心。
13.Medical students train on surgical simulators to improve their skills.
医学生在外科模拟器上进行训练,以提高他们的技能。
作文
In today's rapidly evolving technological landscape, the use of simulators (模拟器) has become increasingly prevalent across various fields. From aviation to medicine, simulators (模拟器) offer a safe and cost-effective way to train individuals and test systems without the risks associated with real-life scenarios. This essay explores the significance of simulators (模拟器) in different industries, their benefits, and the future potential they hold.Firstly, one of the most notable applications of simulators (模拟器) is in the field of aviation. Pilots undergo extensive training using flight simulators (模拟器) that replicate the experience of flying an aircraft. These simulators (模拟器) provide an immersive environment where pilots can practice maneuvers, handle emergency situations, and familiarize themselves with cockpit instruments without the danger of actual flight. The realism offered by modern flight simulators (模拟器) has significantly improved pilot training, resulting in safer skies.Similarly, in the medical field, simulators (模拟器) play a crucial role in training healthcare professionals. Surgical simulators (模拟器) allow surgeons to practice complex procedures on virtual patients, honing their skills and techniques before operating on real individuals. This not only enhances the proficiency of medical practitioners but also minimizes the risk of errors during actual surgeries. Moreover, medical simulators (模拟器) can be used for patient assessment and diagnosis, providing valuable insights into various medical conditions.The automotive industry has also embraced the use of simulators (模拟器) for driver training and vehicle testing. Driving simulators (模拟器) create realistic road conditions that help new drivers develop their skills in a controlled environment. Additionally, automotive engineers utilize simulators (模拟器) to test vehicle performance under different scenarios, ensuring safety and reliability before launching new models. This not only saves time and resources but also accelerates the development process.Furthermore, the gaming industry has seen significant advancements in simulators (模拟器) as well. Video game developers create realistic simulators (模拟器) that allow players to experience everything from flying fighter jets to managing cities. These entertainment simulators (模拟器) enhance user engagement and provide an avenue for individuals to explore different careers or hobbies in a virtual setting.As technology continues to advance, the future of simulators (模拟器) looks promising. Virtual reality (VR) and augmented reality (AR) are set to revolutionize the way we interact with simulators (模拟器). With VR headsets, users can immerse themselves in lifelike environments, making training even more effective. In addition, machine learning algorithms could be integrated into simulators (模拟器) to create adaptive training programs that cater to individual learning paces and styles.In conclusion, simulators (模拟器) have become indispensable tools across various industries, providing safe and efficient training solutions while minimizing risks. Their applications in aviation, medicine, automotive, and gaming demonstrate their versatility and effectiveness. As technology evolves, the potential for simulators (模拟器) will only expand, paving the way for innovative training methods and enhanced experiences. Embracing these advancements will undoubtedly lead to improved performance and safety in numerous fields, highlighting the importance of simulators (模拟器) in our modern world.
在当今快速发展的科技环境中,模拟器 的使用在各个领域变得越来越普遍。从航空到医学,模拟器 提供了一种安全且经济有效的方式来培训个人和测试系统,而无需承担现实场景中的风险。本文探讨了 模拟器 在不同工业中的重要性、它们的好处以及它们所拥有的未来潜力。首先,模拟器 最显著的应用之一是在航空领域。飞行员通过使用飞行 模拟器 进行广泛的培训,这些 模拟器 重现了飞行飞机的体验。这些 模拟器 提供了一个沉浸式的环境,让飞行员可以练习机动、处理紧急情况,并熟悉驾驶舱仪器,而不必担心实际飞行的危险。现代飞行 模拟器 所提供的真实感显著提高了飞行员培训的质量,从而使天空更加安全。同样,在医学领域,模拟器 在培训医疗专业人员方面发挥着至关重要的作用。外科手术 模拟器 允许外科医生在虚拟病人身上练习复杂的手术程序,磨练他们的技能和技术,然后再对真实患者进行手术。这不仅增强了医疗从业者的能力,还最小化了在实际手术中出现错误的风险。此外,医学 模拟器 可用于患者评估和诊断,为各种医疗状况提供有价值的见解。汽车工业也开始采用 模拟器 来进行驾驶培训和车辆测试。驾驶 模拟器 创建了逼真的道路条件,帮助新司机在受控环境中发展技能。此外,汽车工程师利用 模拟器 在不同场景下测试车辆性能,确保新车型在推出前的安全性和可靠性。这不仅节省了时间和资源,还加快了开发过程。此外,游戏行业也在 模拟器 方面取得了重大进展。视频游戏开发者创建了逼真的 模拟器,让玩家体验从驾驶战斗机到管理城市的各种活动。这些娱乐 模拟器 提高了用户参与度,并为个人在虚拟环境中探索不同职业或爱好的机会提供了途径。随着科技的不断进步,模拟器 的未来看起来充满希望。虚拟现实(VR)和增强现实(AR)将彻底改变我们与 模拟器 的互动方式。通过 VR 头盔,用户可以沉浸在逼真的环境中,使培训更加有效。此外,机器学习算法可以集成到 模拟器 中,创建适应性的培训程序,以满足个人学习节奏和风格。总之,模拟器 已成为各个行业不可或缺的工具,提供安全有效的培训解决方案,同时最小化风险。它们在航空、医学、汽车和游戏中的应用展示了它们的多功能性和有效性。随着科技的发展,模拟器 的潜力只会扩大,为创新的培训方法和增强的体验铺平道路。拥抱这些进步无疑会导致多个领域的绩效和安全性提高,突显了 模拟器 在我们现代世界中的重要性。
