haptics

简明释义

英[ˈhæptɪks]美[ˈhæptɪks]

n. 触觉论，触觉学

英英释义

单词用法

同义词

反义词

例句

1.Results (1) There were 6 eyes with peripheral anterior synechia of the iris, 12 eyes with abnormal pupillary configuration, which were related to the position of IOL haptics.

结果虹膜周边前粘连6只眼，瞳孔变形12只眼，均与人工晶体襻的位置有关；

2.Acer's Iconia dual-screen tablet lacks haptics, but is it a reasonable facsimile of the future of laptops?

宏碁的iconia双屏幕平板没有触觉，但是这给未来的笔记本一个很好的摹本了吧？ 一个拥有全虚拟键盘的笔记本不就是一个对折的电脑么。

3.Haptics provide micro vibration pulses to a device that has smooth input methods like touch screens.

触觉技术会提供微小的震动脉冲给设备。

4.Even if virtual keyboards don't displace physical ones in all situations — and they won't — touch screens and haptics may change how we interact with a keyboard — especially on tablets, says Hsu.

徐指出，即使虚拟键盘无法当然也不会在所有情况下取代物理键盘，触屏和触觉技术可能改变我们使用键盘操作的方式，尤其是在我们使用平板电脑时。

5.Haptics include both our perceptions when we relate passively to our surroundings, and when we move and act.

触觉既包括当我们被动的与环境发生联系时的感知，也包括我们主动改变环境的感知。

6.We turned the sound down on the game but Mark amazingly the haptics is still carrying on.

我们把游戏的声音调小，但是马克，令人吃惊的是，虚拟触觉还在延续。

7.Based on the relevant knowledge of Haptics and force feedback of ergonomics, design of Haptic Master Manipulator in Microsurgery Robot System is analyzed and researched.

基于人机工程学中触觉和力反馈的相关知识，针对显微外科机器人中带力反馈的主操作手进行了设计、分析和研究。

8.Even if virtual keyboards don't displace physical ones in all situations — and they won't — touch screens and haptics may change how we interact with a keyboard — especially on tablets, says Hsu.

徐指出，即使虚拟键盘无法当然也不会在所有情况下取代物理键盘，触屏和触觉技术可能改变我们使用键盘操作的方式，尤其是在我们使用平板电脑时。

9.The new gaming console features advanced haptics for a more immersive experience.

这款新游戏机配备了先进的触觉技术，提供更沉浸的体验。

10.Smartphones are now incorporating haptics to enhance user interaction.

智能手机现在开始采用触觉技术来增强用户互动。

11.In virtual reality, haptics plays a crucial role in simulating real-world sensations.

在虚拟现实中，触觉技术在模拟现实世界感受方面扮演着关键角色。

12.The surgeon used haptics in robotic surgery to feel the texture of tissues.

外科医生在机器人手术中使用触觉技术来感知组织的质地。

13.The design team focused on improving the haptics of the wearable device.

设计团队专注于改善可穿戴设备的触觉技术。

作文

In the rapidly evolving world of technology, the term haptics refers to the science of touch and the technology that simulates the sense of touch through vibrations, motions, or forces. This fascinating field has garnered significant attention in recent years, particularly with the rise of virtual reality (VR) and augmented reality (AR) applications. As we delve deeper into the concept of haptics, it becomes evident that it plays a crucial role in enhancing user experiences across various platforms. The essence of haptics lies in its ability to create a more immersive experience for users. For instance, when playing a video game, the feedback provided by a controller that vibrates upon impact or interaction with objects adds a layer of realism that visual and auditory stimuli alone cannot achieve. This tactile feedback helps players feel more connected to the game environment, making their experience more engaging and enjoyable. In addition to gaming, haptics has found applications in fields such as medicine, robotics, and education. Surgeons can utilize haptic technology during remote operations, allowing them to feel the texture and resistance of tissues, which is critical for precision and safety. Similarly, in robotics, haptics enables operators to manipulate robotic arms with greater accuracy, as they can perceive the physical sensations associated with their movements. This technology bridges the gap between the digital and physical worlds, making it an invaluable tool in various industries. Moreover, haptics is revolutionizing the way we interact with devices. Smartphones and tablets now incorporate haptic feedback to enhance user interfaces. For example, when typing on a touchscreen, subtle vibrations can mimic the feeling of pressing a physical key, providing users with reassurance and improving typing accuracy. This integration of haptics into everyday devices demonstrates its potential to enrich our interactions and make technology more intuitive. However, the development of haptics technology is not without challenges. One major hurdle is the need for standardization across devices and platforms. Currently, different manufacturers implement haptic feedback in varying ways, which can lead to inconsistencies in user experience. For haptics to reach its full potential, a collaborative effort among industry leaders is necessary to establish common standards that ensure compatibility and quality. Another challenge lies in the complexity of human touch perception. The sense of touch is intricate and multifaceted, influenced by factors such as pressure, texture, and temperature. Replicating these sensations through technology requires advanced algorithms and sophisticated hardware. As research in haptics continues to progress, we can expect to see more refined and realistic tactile experiences that mimic real-life interactions. In conclusion, haptics is a dynamic field that holds immense promise for the future of technology. By bridging the gap between the digital and physical realms, it enhances user experiences in gaming, healthcare, robotics, and beyond. As we continue to explore and innovate within this domain, the potential for haptics to transform our interactions with technology is boundless. Embracing this technology will not only improve how we engage with devices but also pave the way for new possibilities in various industries, ultimately enriching our lives in profound ways.

在快速发展的科技世界中，术语触觉技术指的是触摸科学以及通过振动、运动或力来模拟触觉的技术。近年来，随着虚拟现实（VR）和增强现实（AR）应用的兴起，这一迷人的领域引起了广泛关注。当我们深入探讨触觉技术的概念时，可以明显看出它在增强各种平台用户体验方面发挥着至关重要的作用。 触觉技术的本质在于其能够为用户创造更身临其境的体验。例如，在玩视频游戏时，控制器在撞击或与物体互动时提供的反馈，通过振动使得玩家感受到更真实的体验，这种触觉反馈帮助玩家与游戏环境建立更紧密的联系，使他们的体验更加吸引人和愉悦。 除了游戏之外，触觉技术在医学、机器人和教育等领域也找到了应用。外科医生可以在远程手术中利用触觉技术，使他们能够感知组织的质地和阻力，这对精确性和安全性至关重要。同样，在机器人技术中，触觉技术使操作员能够更准确地操控机器人臂，因为他们可以感知与其动作相关的物理感觉。这项技术弥合了数字世界与物理世界之间的鸿沟，使其成为各个行业中不可或缺的工具。 此外，触觉技术正在革新我们与设备的互动方式。智能手机和平板电脑现在都集成了触觉反馈，以增强用户界面。例如，在触摸屏上打字时，微妙的振动可以模拟按下物理键的感觉，为用户提供 reassurance，并提高打字准确性。这种触觉技术的日常设备集成展示了其丰富我们互动潜力，使技术变得更直观。 然而，触觉技术的发展并非没有挑战。一个主要障碍是需要在设备和平台之间实现标准化。目前，不同制造商以不同的方式实现触觉反馈，这可能导致用户体验的不一致。为了让触觉技术充分发挥其潜力，行业领导者之间需要进行合作，以建立确保兼容性和质量的共同标准。 另一个挑战在于人类触觉感知的复杂性。触觉是一种复杂且多面的感官体验，受压力、纹理和温度等因素的影响。通过技术复制这些感觉需要先进的算法和复杂的硬件。随着对触觉技术的研究持续进展，我们可以期待看到更精细和逼真的触觉体验，模拟现实生活中的互动。 总之，触觉技术是一个充满活力的领域，对未来科技具有巨大的承诺。通过弥合数字领域与物理领域之间的鸿沟，它在游戏、医疗、机器人等领域增强用户体验。随着我们继续探索和创新这一领域，触觉技术改变我们与科技互动的潜力是无限的。拥抱这项技术不仅将改善我们与设备的互动，还将为各个行业的新可能性铺平道路，最终以深刻的方式丰富我们的生活。