maneuverability trial

简明释义

操纵性试验

英英释义

例句

1.The maneuverability trial was crucial for determining the suitability of the boat for rescue operations.

这次机动性试验对确定该船只是否适合救援行动至关重要。

2.The results of the maneuverability trial indicated that the new model was significantly more agile than its predecessor.

这次机动性试验的结果表明，新型号比其前身灵活得多。

3.The engineers conducted a maneuverability trial to assess the vehicle's handling in tight spaces.

工程师们进行了机动性试验以评估车辆在狭小空间中的操控能力。

4.A successful maneuverability trial can lead to better performance ratings for military vehicles.

成功的机动性试验可以为军用车辆带来更好的性能评级。

5.During the maneuverability trial, the team noted how well the aircraft could change direction quickly.

在机动性试验期间，团队注意到飞机快速改变方向的能力。

作文

In the realm of engineering and vehicle design, the term maneuverability trial holds significant importance. This trial is designed to evaluate how well a vehicle can perform various maneuvers under different conditions. The essence of a maneuverability trial lies in its ability to assess the responsiveness and agility of a vehicle, which are critical factors for both safety and performance. During a typical maneuverability trial, engineers and testers put the vehicle through a series of tests that simulate real-world driving scenarios. These tests often include sharp turns, sudden stops, and rapid acceleration. The objective is to determine how well the vehicle maintains control and stability during these maneuvers. For instance, a sports car may be expected to handle tight corners with precision, while an off-road vehicle should demonstrate resilience in navigating uneven terrain. The results from a maneuverability trial can provide valuable insights into the design and functionality of a vehicle. Engineers analyze data collected during the trial to identify any weaknesses in the vehicle's handling characteristics. If a vehicle struggles with stability during high-speed turns, it may indicate the need for design modifications, such as adjusting the suspension system or improving tire grip. Moreover, maneuverability trials are not limited to traditional vehicles. They are also crucial for assessing the performance of military vehicles, drones, and even autonomous vehicles. For military applications, the ability to maneuver effectively in combat situations can mean the difference between success and failure. In the case of drones, a thorough maneuverability trial ensures that they can navigate complex environments safely and efficiently. In the context of autonomous vehicles, maneuverability trials play a pivotal role in testing the algorithms that govern their navigation systems. These trials help developers understand how well the vehicle can interpret its surroundings and make real-time decisions. For example, if an autonomous car encounters an unexpected obstacle, its ability to maneuver around it safely is paramount. Furthermore, the importance of maneuverability trials extends beyond just performance assessment. They also contribute to regulatory compliance and consumer safety standards. Many countries have stringent regulations regarding vehicle safety, and passing a maneuverability trial is often a prerequisite for obtaining certification. This ensures that vehicles on the road meet minimum safety requirements, ultimately protecting drivers and passengers alike. In conclusion, the concept of maneuverability trial is integral to the development and evaluation of vehicles across various domains. Whether it’s enhancing a sports car’s cornering ability or ensuring the reliability of an autonomous vehicle, these trials provide essential data that informs design improvements and safety measures. As technology continues to evolve, the methods and techniques used in maneuverability trials will likely advance as well, further pushing the boundaries of what vehicles can achieve. Ultimately, a well-executed maneuverability trial not only enhances vehicle performance but also contributes to safer roads for everyone.

在工程和车辆设计领域，术语机动性试验具有重要意义。该试验旨在评估车辆在不同条件下执行各种机动的能力。机动性试验的本质在于评估车辆的响应能力和灵活性，这些都是安全和性能的关键因素。在典型的机动性试验中，工程师和测试人员将车辆置于一系列模拟现实驾驶场景的测试中。这些测试通常包括急转弯、突然停车和快速加速。目标是确定车辆在这些机动过程中如何保持控制和稳定。例如，一辆跑车应该能够精确地处理紧急转弯，而一辆越野车则应在不平坦的地形中表现出韧性。来自机动性试验的结果可以提供有关车辆设计和功能的宝贵见解。工程师分析试验期间收集的数据，以识别车辆操控特性的任何弱点。如果一辆车辆在高速转弯时不稳定，这可能表明需要进行设计修改，例如调整悬挂系统或改善轮胎抓地力。此外，机动性试验不仅限于传统车辆。它们对于评估军事车辆、无人机甚至自动驾驶车辆的性能也至关重要。对于军事应用而言，在战斗情况下有效机动的能力可能意味着成功与失败之间的区别。在无人机的情况下，全面的机动性试验确保它们能够安全高效地导航复杂环境。在自动驾驶车辆的背景下，机动性试验在测试其导航系统所依据的算法中发挥着关键作用。这些试验帮助开发人员了解车辆如何理解其周围环境并做出实时决策。例如，如果一辆自动驾驶汽车遇到意外障碍物，其安全绕过障碍物的能力至关重要。此外，机动性试验的重要性不仅限于性能评估。它们也有助于法规合规和消费者安全标准。许多国家对车辆安全有严格的规定，通过机动性试验往往是获得认证的前提。这确保了上路的车辆符合最低安全要求，从而最终保护驾驶员和乘客。总之，机动性试验的概念对于各个领域的车辆开发和评估至关重要。无论是增强跑车的转弯能力还是确保自动驾驶车辆的可靠性，这些试验提供了必要的数据，指导设计改进和安全措施。随着技术的不断发展，机动性试验中使用的方法和技术也可能会不断进步，进一步推动车辆所能达到的极限。最终，成功的机动性试验不仅提高了车辆性能，还为每个人贡献了更安全的道路。