avionic

简明释义

英[ˌeɪviˈɒnɪk]美[ˌeɪviˈɑːnɪk]

adj. 航空电子学的；航电

英英释义

单词用法

同义词

反义词

例句

1.To meet the needs of certain type of aircraft avionic system ground test, a set of air data computer stimulating system was designed.

针对某型飞机航电系统地面试验的需要，设计了一套大气数据计算机激励器系统。

2.An enlarged dorsal spine accommodates additional avionic for the second pilot.

放大以适应增加的武器装备和第二位飞行员。

3.Avionic sensor system is a complex system consisting of multiple subsystems, and the traditional evaluation methods for sensor system are not fit for it.

航空电子传感器系统是由多个子系统组成的复杂的系统，传统的传感器系统评估方法不适合评估航空电子传感器系统。

4.This paper designs an automatic test system of avionic device base on GPIB bus, include the hardware and software structure, and the controlling method of the system.

文中设计了基于GPIB总线结构的航空电子设备自动测试系统，包括硬件组成、软件框架以及控制方式。

5.Based on existent conditions of flight control system and avionic system for an aircraft. The paper presents three schemes of automatic terrain anti-collision according to the radar operating way.

本文立足于某飞机飞行控制系统和航空电子系统的现有条件，依据雷达天线的工作方式，提出了三种自动地形防撞的原理方案。

6.Inspects, tests, aligns, repairs and installs aircraft electrical and avionic system components.

检查、测试、校准、维修并安装电气和航空电子系统部件。

7.As the extent of integration of avionic system on large civil aircraft goes deeper, the design and development task for it is becoming more complicated.

随着民机航电系统综合化程度的不断提高，其设计开发工作也日益复杂。

8.This product can enhance the performance of a broad spectrum of hard surface cleaner formulations for use in household, institutional, automotive, avionic, food, hygiene and industrial applications.

该产品可加强用于硬表面清洁产品的效能，用途十分广泛，包括家居护理、工业清洗、汽车清洗、飞机清洗和食品卫生方面。

9.Modularization's integration is an important method of improving avionic system's general performance, reconfiguration is the key technology in modular integrated systems.

航空电子的模块化综合是提升系统综合性能的重要途径之一，重构是模块化综合系统的关键技术。

10.The new aircraft features advanced avionic 航空电子设备 systems that improve navigation accuracy.

这架新飞机配备了先进的航空电子设备系统，提高了导航精度。

11.Engineers are working on the avionic 航空电子设备 upgrades to enhance safety features.

工程师们正在进行航空电子设备的升级，以增强安全特性。

12.The avionic 航空电子设备 systems in modern jets allow for automated flight operations.

现代喷气式飞机中的航空电子设备系统允许自动飞行操作。

13.Pilots must be trained to operate the complex avionic 航空电子设备 installed in their aircraft.

飞行员必须接受培训，以操作安装在他们飞机上的复杂航空电子设备。

14.The integration of new avionic 航空电子设备 has significantly reduced pilot workload.

新航空电子设备的集成显著减少了飞行员的工作负担。

作文

The field of aviation has undergone tremendous advancements over the past century, and one of the most significant areas of development is in the realm of technology known as avionic (航空电子设备). Avionic systems encompass a wide array of electronic components, including navigation, communication, and monitoring systems that are essential for the safe and efficient operation of aircraft. These systems have revolutionized the way pilots interact with their aircraft, providing them with real-time data and automated functionalities that enhance flight safety and operational efficiency. In the early days of aviation, pilots relied on basic instruments and visual cues to navigate and operate their aircraft. However, as air travel became more complex and the number of flights increased, the need for sophisticated avionic systems emerged. Today, modern aircraft are equipped with advanced avionic technologies such as GPS navigation, autopilot systems, and digital displays that provide critical information at a glance. One of the key components of avionic systems is the flight management system (FMS), which automates many of the tasks associated with flight planning and navigation. The FMS integrates data from various sources, allowing pilots to optimize their flight paths, manage fuel consumption, and ensure timely arrivals. This level of automation not only improves efficiency but also reduces the workload on pilots, allowing them to focus on other important aspects of flying. Another vital aspect of avionic technology is communication. Modern aircraft are equipped with advanced communication systems that allow for seamless interaction between pilots and air traffic control. This includes voice communication, data link systems, and satellite communications, all of which contribute to improved safety and coordination in the skies. With the implementation of avionic technologies, pilots can receive real-time updates about weather conditions, air traffic, and other critical information, enabling them to make informed decisions during flights. Safety is paramount in aviation, and avionic systems play a crucial role in ensuring it. Many aircraft are now equipped with enhanced vision systems (EVS) and synthetic vision systems (SVS) that provide pilots with a clearer view of their surroundings, especially in low-visibility conditions. These technologies utilize infrared cameras and advanced algorithms to create a comprehensive picture of the environment, allowing pilots to navigate safely even in challenging situations. Moreover, the integration of avionic systems with artificial intelligence (AI) is paving the way for the future of aviation. AI can analyze vast amounts of data from various avionic systems to predict potential issues before they arise, enhancing preventive maintenance and reducing downtime. As this technology continues to evolve, we can expect even greater levels of safety and efficiency in air travel. In conclusion, the advancements in avionic technology have transformed the aviation industry, making air travel safer, more efficient, and more reliable. From navigation and communication to safety enhancements, avionic systems are an integral part of modern aviation. As we look to the future, the continued development of these technologies will undoubtedly shape the way we fly, ensuring that air travel remains one of the safest modes of transportation available today.

航空领域在过去一个世纪经历了巨大的进步，其中最重要的发展领域之一就是被称为avionic（航空电子设备）的技术。Avionic系统包括一系列电子组件，包括导航、通信和监控系统，这些系统对于飞机的安全和高效运行至关重要。这些系统彻底改变了飞行员与飞机的互动方式，为他们提供实时数据和自动化功能，从而提高了飞行安全性和操作效率。 在航空的早期阶段，飞行员依靠基本仪器和视觉线索来导航和操作他们的飞机。然而，随着航空旅行变得更加复杂和航班数量的增加，对复杂的avionic系统的需求应运而生。如今，现代飞机配备了先进的avionic技术，如GPS导航、自动驾驶系统和数字显示屏，这些都能一目了然地提供关键信息。 Avionic系统的一个关键组成部分是飞行管理系统（FMS），它自动化了与飞行计划和导航相关的许多任务。FMS整合来自各种来源的数据，使飞行员能够优化飞行路径、管理燃料消耗并确保准时到达。这种自动化水平不仅提高了效率，还减少了飞行员的工作负担，使他们能够专注于飞行的其他重要方面。 Avionic技术的另一个重要方面是通信。现代飞机配备了先进的通信系统，使飞行员与空中交通管制之间能够无缝互动。这包括语音通信、数据链系统和卫星通信，所有这些都促进了空中的安全和协调。通过实施avionic技术，飞行员可以实时接收有关天气状况、空中交通和其他关键信息的更新，使他们能够在飞行中做出明智的决策。 安全在航空中至关重要，avionic系统在确保安全方面发挥着关键作用。许多飞机现在配备了增强视景系统（EVS）和合成视景系统（SVS），为飞行员提供更清晰的周围环境视图，特别是在能见度低的情况下。这些技术利用红外摄像机和先进算法创建环境的综合图像，使飞行员即使在困难情况下也能安全导航。 此外，将avionic系统与人工智能（AI）相结合，为航空的未来铺平了道路。AI可以分析来自各种avionic系统的大量数据，以预测潜在问题，增强预防性维护并减少停机时间。随着这项技术的不断发展，我们可以期待航空旅行在安全性和效率方面达到更高的水平。 总之，avionic技术的进步已彻底改变了航空行业，使航空旅行变得更加安全、高效和可靠。从导航和通信到安全增强，avionic系统是现代航空不可或缺的一部分。展望未来，这些技术的持续发展无疑将塑造我们的飞行方式，确保航空旅行始终是今天可用的最安全的交通方式之一。