joysticks
简明释义
n. [航]操纵杆(joystick 的复数)
英英释义
单词用法
飞行模拟器操纵杆 | |
游戏操纵杆 | |
模拟操纵杆 | |
使用操纵杆操作 | |
连接到操纵杆 | |
操纵杆和按钮 |
同义词
反义词
| 按钮 | 这个游戏可以使用按钮而不是操纵杆来玩。 | ||
| 键盘 | Many computer users prefer keyboards over joysticks for typing. | 许多计算机用户更喜欢使用键盘而不是操纵杆进行打字。 |
例句
1.We are sitting comfortably and reaching for the start button here at London's Science Museum where 40 years of computer game history is laid out before our very joysticks.
现在,我们正舒适地坐在伦敦科技博物馆里,面对着操纵杆前40年的电脑游戏史,找寻着开始的按钮。
2.The port and starboard command chairs have built-in joysticks for controlling the ship, " Wright says."
“港口和邮轮右舷指挥椅都有内置的控制邮轮的操纵杆,”赖特说。
3.Magic Rampage supports Joysticks, gamepads and physical keyboard for even more accurate gameplay responsiveness.
魔法狂暴支持游戏杆,游戏手柄和物理键盘进行更准确的游戏响应速度。
4.Pointing devices include mice, trackballs, joysticks, light pens, digitizing tablets, and so on.
指示装置包括鼠标、跟踪球、操纵杆、光笔、数字化书写板等等。
5.We are sitting comfortably and reaching for the start button here at London's Science Museum where 40 years of computer game history is laid out before our very joysticks.
现在,我们正舒适地坐在伦敦科技博物馆里,面对着操纵杆前40年的电脑游戏史,找寻着开始的按钮。
6.You can setup joysticks, gamepads, keyboard, and mouse, then access them all through one simple scripting interface.
用户可以设置操纵杆,游戏手柄,键盘和鼠标,然后可以通过简单的脚本接口访问它们。
7.The arcade machine features large joysticks for multiplayer games.
这台街机机器配有大型操纵杆,适合多人游戏。
8.Many flight simulators use joysticks to provide a realistic flying experience.
许多飞行模拟器使用操纵杆来提供真实的飞行体验。
9.The new gaming console comes with two high-precision joysticks.
这款新游戏主机配备了两个高精度的操纵杆。
10.You can customize the sensitivity of the joysticks in the game settings.
你可以在游戏设置中自定义操纵杆的灵敏度。
11.Some people prefer joysticks over gamepads for better control.
有些人更喜欢操纵杆而不是游戏手柄,以获得更好的控制。
作文
In the world of gaming and technology, few devices have made as significant an impact as the joysticks. These input devices, often used in video games and simulations, allow users to control movements with precision and ease. The joystick was originally designed for flight simulation, enabling pilots to navigate aircraft with a level of control that was previously unattainable. Over the years, it has evolved into a versatile tool used across various platforms, from arcade machines to home consoles and even personal computers.The design of joysticks typically includes a stick that pivots on a base, allowing for multidirectional movement. This movement is translated into signals that are sent to the gaming system, which then interprets them as actions in the game. For instance, pushing the stick forward might move a character forward, while pulling it back could make them retreat. This intuitive control scheme has made joysticks a favorite among gamers, particularly in genres that require precise movements, such as flight simulators and racing games.Moreover, the tactile feedback provided by joysticks enhances the gaming experience. Many modern joysticks come equipped with vibration motors that simulate realistic sensations, adding another layer of immersion. Gamers can feel the rumble of an explosion or the subtle vibrations of a car engine, making the gameplay more engaging and lifelike.In addition to gaming, joysticks have found applications in various fields, including robotics and virtual reality. In robotics, joysticks are used to control robotic arms or drones, allowing operators to manipulate these machines with great accuracy. The same principle applies in virtual reality, where joysticks serve as a means to navigate immersive environments, enhancing user interaction and experience.Despite their many advantages, joysticks also have some drawbacks. For instance, they may not be suitable for all types of games. Some players prefer keyboard and mouse setups for first-person shooters, as they offer faster response times and more precise aiming. Additionally, prolonged use of joysticks can lead to discomfort or strain in the hands and wrists, which is why ergonomic designs have become increasingly important in recent years.As technology continues to advance, the future of joysticks looks promising. Innovations such as wireless connectivity and customizable controls are becoming more common, allowing gamers to tailor their joystick experience to their preferences. Furthermore, the integration of artificial intelligence may lead to smarter joysticks that can adapt to a player’s style and provide personalized feedback.In conclusion, joysticks have revolutionized the way we interact with digital environments. Their ability to provide precise control and tactile feedback makes them an essential tool for gamers and professionals alike. As we look to the future, it will be exciting to see how joysticks continue to evolve and shape our experiences in gaming and beyond.
在游戏和技术的世界中,几乎没有其他设备能像操纵杆那样产生如此显著的影响。这些输入设备通常用于视频游戏和模拟中,使用户能够以精确和轻松的方式控制动作。操纵杆最初是为飞行模拟设计的,使飞行员能够以前所未有的控制水平导航飞机。多年来,它已经演变成一种多功能工具,广泛应用于各种平台,从街机到家用游戏机,甚至个人电脑。操纵杆的设计通常包括一个可以在底座上旋转的杆,可以实现多方向的移动。这种运动被转换为信号,发送到游戏系统,后者将其解读为游戏中的动作。例如,推动杆向前可能会使角色向前移动,而拉回则可能使他们后退。这种直观的控制方案使得操纵杆成为游戏玩家的最爱,特别是在需要精确移动的游戏类型中,如飞行模拟器和赛车游戏。此外,操纵杆提供的触觉反馈增强了游戏体验。许多现代操纵杆配备了振动马达,可以模拟现实的感觉,为游戏增添了另一层沉浸感。游戏玩家可以感受到爆炸的震动或汽车引擎的微妙振动,使游戏玩法更加引人入胜和逼真。除了游戏,操纵杆还在机器人技术和虚拟现实等多个领域找到了应用。在机器人技术中,操纵杆用于控制机械手臂或无人机,使操作员能够以极高的精确度操控这些机器。同样的原理也适用于虚拟现实,在那里,操纵杆作为导航沉浸式环境的手段,增强了用户的互动和体验。尽管有许多优点,操纵杆也存在一些缺点。例如,它们可能并不适合所有类型的游戏。一些玩家更喜欢键盘和鼠标组合来玩第一人称射击游戏,因为它们提供更快的响应时间和更精确的瞄准。此外,长时间使用操纵杆可能会导致手腕和手部的不适或疲劳,这就是为什么近年来符合人体工程学的设计变得越来越重要。随着技术的不断进步,操纵杆的未来看起来很有希望。无线连接和可自定义控制等创新变得越来越普遍,使游戏玩家能够根据自己的喜好量身定制操纵杆体验。此外,人工智能的整合可能会导致更智能的操纵杆,能够适应玩家的风格并提供个性化反馈。总之,操纵杆彻底改变了我们与数字环境的互动方式。它们提供精确控制和触觉反馈的能力,使其成为游戏玩家和专业人士的重要工具。展望未来,看到操纵杆如何继续发展并塑造我们在游戏及其他领域的体验将是令人兴奋的。
