haptic

简明释义

英[ˈhæptɪk]美[ˈhæptɪk]

adj. 触觉的

英英释义

单词用法

同义词

反义词

例句

1.Players use a haptic device such as a joystick to control the game.

游戏者用游戏杆之类的触觉设备玩游戏。

2.HAPTION designs, manufactures and sells haptic devices with professional quality, suited to the needs of its customers, both industrial and academic.

HAPTION在设计、制造和销售触觉装置方面具有专业品质，独树一帜，能满足不同的客户需求，在工业界和学术界都受到好评。

3.Use enhanced 64-slice spiral CT as data input, do a study to building the haptic elastic model of complicated hepatobiliary.

利用增强的64排螺旋CT数据，对肝胆脏器进行了力觉弹性模型建模研究。

4.But it's all digital, and the software translates the feedback through the haptic tool.

但它的全数字化，并通过触觉转换软件工具的反馈。

5.Existing haptic devices use rotary motors with off-centre weights to generate such tremors.

现有的触感设备均采用重量不对称的旋转电机来产生震动效果。

6.E - book titles cannot use this haptic quality indicator.

电子书不能采用这种触觉指示器。

7.The haptic feedback in touchscreens provides a more immersive experience when typing.

触摸屏中的触觉反馈在打字时提供了更沉浸的体验。

8.The new smartphone features advanced haptic feedback technology that enhances user interaction.

这款新智能手机具有先进的触觉反馈技术，增强了用户互动。

9.The gaming controller uses haptic vibrations to simulate realistic sensations during gameplay.

游戏控制器使用触觉震动来模拟游戏过程中的真实感觉。

10.In virtual reality, haptic gloves allow users to feel the objects they interact with.

在虚拟现实中，触觉手套允许用户感受到他们互动的物体。

11.Some fitness devices incorporate haptic alerts to notify users about their workout progress.

一些健身设备结合了触觉提醒，以通知用户他们的锻炼进度。

作文

In today's rapidly evolving technological landscape, the term haptic (触觉的) has gained significant importance. The concept of haptic technology refers to the use of touch sensation in communication with computers and virtual environments. This technology allows users to interact with digital devices in a more intuitive manner, bridging the gap between the physical and digital worlds. As we delve deeper into the implications of haptic technology, it becomes evident that it is transforming various fields, including gaming, education, and even healthcare.One of the most prominent applications of haptic technology can be found in the gaming industry. Gamers are constantly seeking immersive experiences, and haptic feedback enhances this by providing tactile sensations that correspond to in-game actions. For instance, when a player drives a car in a racing game, they can feel vibrations through the controller that mimic the sensation of driving on different terrains. This level of interaction not only makes the gaming experience more enjoyable but also helps players develop better reflexes and spatial awareness.Moreover, haptic technology is making its way into educational settings. Interactive learning tools that incorporate haptic feedback allow students to engage with complex subjects in a hands-on manner. For example, in a biology class, students can use haptic devices to explore 3D models of human anatomy. By feeling the textures and shapes of organs, students gain a deeper understanding of the subject matter, which can lead to improved retention of information. This multisensory approach to learning caters to various learning styles, making education more inclusive and effective.In the realm of healthcare, haptic technology is revolutionizing surgical training and telemedicine. Surgeons can practice intricate procedures using haptic simulators that provide realistic feedback. This enables them to refine their skills in a controlled environment before performing actual surgeries. Additionally, haptic devices can assist in remote surgeries, allowing surgeons to manipulate instruments with precision while feeling the resistance and texture of tissues, even from miles away. This advancement not only enhances the quality of care but also expands access to specialized medical expertise in underserved areas.Despite the numerous benefits of haptic technology, there are challenges that need to be addressed. One major concern is the accessibility of haptic devices for individuals with disabilities. Developers must ensure that haptic technology is designed to be inclusive, allowing everyone to benefit from these advancements. Furthermore, as haptic technology continues to evolve, ethical considerations regarding its use in various sectors must be taken into account. For instance, how can we ensure that haptic feedback does not manipulate user behavior in harmful ways?In conclusion, the rise of haptic technology is reshaping our interactions with the digital world. Its applications in gaming, education, and healthcare highlight its potential to enhance user experiences and improve outcomes across various domains. As we embrace this innovative technology, it is crucial to remain vigilant about accessibility and ethical implications. By doing so, we can harness the power of haptic technology to create a more engaging, inclusive, and effective future for all.

在当今快速发展的技术环境中，术语haptic（触觉的）变得越来越重要。haptic技术的概念是指在与计算机和虚拟环境的交流中使用触觉感知。这项技术使用户能够以更直观的方式与数字设备互动，缩小了物理世界与数字世界之间的差距。当我们深入探讨haptic技术的影响时，可以明显看出它正在改变多个领域，包括游戏、教育，甚至医疗保健。haptic技术最显著的应用之一可以在游戏行业中找到。玩家不断寻求沉浸式体验，而haptic反馈通过提供与游戏内动作相对应的触觉感受来增强这一体验。例如，当玩家在赛车游戏中驾驶汽车时，他们可以通过控制器感受到模拟不同地形的振动。这种互动水平不仅使游戏体验更加愉快，还帮助玩家提高反应能力和空间意识。此外，haptic技术正逐渐进入教育领域。结合haptic反馈的互动学习工具使学生能够以动手的方式参与复杂的学科。例如，在生物课上，学生可以使用haptic设备探索人体解剖的3D模型。通过感受器官的纹理和形状，学生对学科内容有更深刻的理解，这可能导致信息的更好记忆。这种多感官的学习方法迎合了各种学习风格，使教育更加包容和有效。在医疗领域，haptic技术正在革新外科培训和远程医疗。外科医生可以使用提供真实反馈的haptic模拟器练习复杂的手术。这使他们能够在受控环境中精炼技能，然后再进行实际手术。此外，haptic设备可以协助远程手术，使外科医生能够在感受到组织的阻力和纹理的同时精确操作仪器，即使相距数英里。这一进步不仅提高了护理质量，还扩大了在服务不足地区获得专业医疗专长的机会。尽管haptic技术带来了众多好处，但仍然存在需要解决的挑战。一个主要问题是确保残疾人士能够获得haptic设备。开发者必须确保haptic技术的设计具有包容性，使每个人都能从这些进步中受益。此外，随着haptic技术的不断发展，必须考虑其在各个领域使用的伦理问题。例如，我们如何确保haptic反馈不会以有害的方式操纵用户行为？总之，haptic技术的崛起正在重塑我们与数字世界的互动。它在游戏、教育和医疗保健中的应用突显了它增强用户体验和改善各个领域成果的潜力。随着我们拥抱这项创新技术，保持对可及性和伦理影响的警惕至关重要。通过这样做，我们可以利用haptic技术的力量，为所有人创造一个更具吸引力、包容性和有效的未来。