electronic autopilot

简明释义

电子式自动舵

英英释义

例句

1.The electronic autopilot 电子自动驾驶仪 can automatically adjust altitude during turbulence.

在颠簸期间，电子自动驾驶仪 electronic autopilot 可以自动调整高度。

2.Many commercial airlines rely on electronic autopilot 电子自动驾驶仪 systems for efficient navigation.

许多商业航空公司依赖于电子自动驾驶仪 electronic autopilot 系统进行高效导航。

3.During long flights, the electronic autopilot 电子自动驾驶仪 allows pilots to take breaks without compromising safety.

在长途飞行中，电子自动驾驶仪 electronic autopilot 使飞行员可以休息而不影响安全。

4.Pilots must be trained to override the electronic autopilot 电子自动驾驶仪 in case of emergencies.

飞行员必须接受培训，以便在紧急情况下能够覆盖电子自动驾驶仪 electronic autopilot。

5.The new aircraft is equipped with an electronic autopilot 电子自动驾驶仪 that enhances flight safety.

新型飞机配备了一个电子自动驾驶仪 electronic autopilot，提高了飞行安全性。

作文

In the rapidly evolving world of technology, the term electronic autopilot (电子自动驾驶仪) has gained significant attention, especially in the fields of aviation and automotive industries. An electronic autopilot is a sophisticated system designed to control the trajectory of vehicles without constant input from a human operator. This technology not only enhances safety but also improves efficiency, making it a pivotal component in modern transportation.The concept of an electronic autopilot can be traced back to the early days of aviation. Initially, pilots had to manually control every aspect of flight, which was both challenging and tiring. The introduction of autopilot systems allowed pilots to delegate certain tasks to machines, thus reducing their workload and allowing them to focus on more critical aspects of flying. Today, these systems have evolved into highly advanced technologies that can perform complex maneuvers with remarkable precision.In aviation, an electronic autopilot assists pilots by managing altitude, speed, and direction, enabling them to maintain a steady course. For instance, during long-haul flights, pilots can activate the autopilot to handle routine operations, allowing them to rest and remain alert for any unexpected situations. Modern aircraft are equipped with autopilot systems that can even land the plane automatically under specific conditions, showcasing the incredible advancements in this technology.Similarly, in the automotive industry, the development of self-driving cars has brought the electronic autopilot concept to the forefront. These vehicles utilize a combination of sensors, cameras, and artificial intelligence to navigate roads and traffic without human intervention. Companies like Tesla have pioneered the integration of electronic autopilot features in their cars, providing drivers with a glimpse of the future of transportation. With features such as lane-keeping assistance and adaptive cruise control, the electronic autopilot system is transforming the way we think about driving.However, the rise of electronic autopilot technology has also sparked debates regarding safety and ethics. While these systems are designed to reduce human error, there have been incidents where reliance on autopilot features led to accidents. Critics argue that over-dependence on technology may result in a decline in essential driving skills among humans. Therefore, it is crucial to strike a balance between leveraging the benefits of electronic autopilot systems and ensuring that operators remain engaged and capable.Moreover, regulatory frameworks must evolve to address the challenges posed by electronic autopilot technology. Governments and aviation authorities are tasked with establishing guidelines to ensure that these systems are safe and reliable. As the technology continues to advance, there will be a need for comprehensive testing and validation processes to ensure that electronic autopilot systems can handle various scenarios effectively.In conclusion, the electronic autopilot (电子自动驾驶仪) represents a remarkable achievement in technological innovation, fundamentally changing how we approach transportation. While the benefits of increased safety and efficiency are undeniable, it is essential to remain vigilant about the potential risks associated with this technology. As we move towards a future where electronic autopilot systems become increasingly prevalent, ongoing discussions about safety, ethics, and regulation will be vital to ensuring that we harness this technology responsibly and effectively.

在快速发展的科技世界中，术语电子自动驾驶仪（电子自动驾驶仪）引起了广泛关注，特别是在航空和汽车行业。电子自动驾驶仪是一种复杂的系统，旨在在没有人类操作员持续输入的情况下控制车辆的轨迹。这项技术不仅提高了安全性，还提高了效率，使其成为现代交通运输中的关键组成部分。电子自动驾驶仪的概念可以追溯到航空的早期。最初，飞行员必须手动控制飞行的每个方面，这既具有挑战性又令人疲惫。自动驾驶系统的引入使飞行员能够将某些任务委托给机器，从而减轻他们的工作负担，并使他们能够专注于飞行的更关键方面。如今，这些系统已经发展成为高度先进的技术，能够以惊人的精确度执行复杂的操作。在航空领域，电子自动驾驶仪通过管理高度、速度和方向来协助飞行员，使他们能够保持稳定的航向。例如，在长途飞行中，飞行员可以激活自动驾驶仪来处理常规操作，从而使他们能够休息并保持警惕，以应对任何意外情况。现代飞机配备的自动驾驶系统甚至可以在特定条件下自动降落，展示了这项技术的巨大进步。同样，在汽车工业中，自动驾驶汽车的发展将电子自动驾驶仪的概念推到了前沿。这些车辆利用传感器、摄像头和人工智能的组合，在没有人类干预的情况下导航道路和交通。特斯拉等公司在其汽车中率先整合了电子自动驾驶仪功能，为驾驶者提供了未来交通的前景。凭借车道保持辅助和自适应巡航控制等功能，电子自动驾驶仪系统正在改变我们对驾驶的看法。然而，电子自动驾驶仪技术的崛起也引发了关于安全性和伦理的辩论。虽然这些系统旨在减少人为错误，但也发生过依赖自动驾驶功能导致事故的事件。批评者认为，过度依赖技术可能导致人类基本驾驶技能的下降。因此，找到利用电子自动驾驶仪系统的好处与确保操作员保持参与和能力之间的平衡至关重要。此外，监管框架必须随着电子自动驾驶仪技术的发展而演变。政府和航空当局负责建立指导方针，以确保这些系统是安全可靠的。随着技术的持续进步，需要全面的测试和验证过程，以确保电子自动驾驶仪系统能够有效应对各种场景。总之，电子自动驾驶仪（电子自动驾驶仪）代表了技术创新的显著成就，根本改变了我们对交通运输的看法。尽管提高安全性和效率的好处不容忽视，但我们必须对与这项技术相关的潜在风险保持警惕。随着我们朝着越来越普遍的电子自动驾驶仪系统的未来迈进，关于安全、伦理和监管的持续讨论对于确保我们负责任和有效地利用这项技术至关重要。