virtual height

简明释义

有效高度

英英释义

例句

1.The engineer explained how virtual height (虚拟高度) could impact the performance of the communication system.

工程师解释了虚拟高度 (虚拟高度) 如何影响通信系统的性能。

2.In radar technology, virtual height (虚拟高度) is used to determine the altitude of an object based on its signal return time.

在雷达技术中，虚拟高度 (虚拟高度) 用于根据信号返回时间确定物体的高度。

3.The weather forecast included a section on virtual height (虚拟高度) to predict cloud formations more accurately.

天气预报中包括了一节关于虚拟高度 (虚拟高度) 的内容，以更准确地预测云层形成。

4.The pilot adjusted the aircraft's altitude based on the calculated virtual height (虚拟高度) to ensure a safe landing.

飞行员根据计算出的虚拟高度 (虚拟高度) 调整了飞机的高度，以确保安全着陆。

5.Using virtual height (虚拟高度), we can simulate various flying conditions for pilot training.

使用虚拟高度 (虚拟高度)，我们可以模拟各种飞行条件以进行飞行员培训。

作文

In today's world, technology has transformed various aspects of our lives, including how we perceive and interact with the environment around us. One fascinating concept that has emerged from advancements in technology is the idea of virtual height. This term refers to the perceived elevation or altitude of objects or environments created through virtual reality (VR) and augmented reality (AR) technologies. In this essay, I will explore the significance of virtual height in enhancing user experiences and its applications in different fields.The concept of virtual height can be particularly observed in virtual reality environments. When users wear VR headsets, they are transported into a digitally created world where the laws of physics can be manipulated. For instance, a user might find themselves standing on the edge of a virtual cliff, looking down at a vast valley below. The sensation of height is amplified by the immersive visuals and sounds, making the experience feel incredibly real. This manipulation of perception is what makes virtual height such a compelling aspect of VR. It allows users to experience heights they may never encounter in real life, offering thrills and adventures that would otherwise be impossible.Moreover, virtual height plays a crucial role in training simulations, especially in fields like aviation and medicine. Pilots, for example, use flight simulators that incorporate virtual height to practice landing and takeoff procedures from various altitudes. These simulations provide a safe environment for pilots to gain experience without the risks associated with real flights. Similarly, medical professionals can use AR tools that simulate surgical procedures at varying virtual heights, allowing them to refine their skills before performing actual surgeries.In architecture and design, the concept of virtual height is equally significant. Architects use virtual reality to present their designs to clients, allowing them to walk through buildings before they are constructed. By simulating virtual height, clients can gain a better understanding of how spaces will feel, including ceiling heights and the overall scale of a project. This not only enhances communication between architects and clients but also helps in making informed decisions about design elements.Furthermore, virtual height has implications in gaming and entertainment. Video games often utilize this concept to create thrilling experiences for players. For example, in a first-person shooter game, players may navigate through a skyscraper, experiencing the sensation of climbing to great heights as they move through the levels. This immersion is heightened by the realistic graphics and sound effects, making players feel as if they are genuinely scaling tall structures. Such experiences can evoke emotions ranging from excitement to fear, showcasing the power of virtual height in storytelling and gameplay.In conclusion, the concept of virtual height is a remarkable illustration of how technology can alter our perceptions and experiences. Whether in virtual reality, training simulations, architecture, or gaming, virtual height enhances our understanding and interaction with the world around us. As technology continues to evolve, the applications of virtual height will undoubtedly expand, offering even more innovative ways to engage with our environments. The future holds exciting possibilities for this concept, and it will be intriguing to see how it shapes our experiences in the years to come.

在当今世界，科技已经改变了我们生活的各个方面，包括我们如何感知和与周围环境互动。一个随着科技进步而出现的迷人概念是虚拟高度。这个术语指的是通过虚拟现实（VR）和增强现实（AR）技术创建的物体或环境的感知高度或海拔。在这篇文章中，我将探讨虚拟高度在增强用户体验中的重要性及其在不同领域的应用。虚拟高度的概念可以在虚拟现实环境中特别观察到。当用户佩戴VR头显时，他们被传送到一个数字创建的世界，在那里物理定律可以被操控。例如，用户可能发现自己站在一个虚拟悬崖的边缘，向下看着广阔的山谷。由于身临其境的视觉和声音，身高的感觉被放大，使得体验感觉非常真实。这种对感知的操控就是为什么虚拟高度成为VR一个引人注目的方面。它让用户体验到他们在现实生活中可能永远不会遇到的高度，提供了在其他情况下不可能的刺激和冒险。此外，虚拟高度在培训模拟中发挥着至关重要的作用，尤其是在航空和医学等领域。例如，飞行员使用飞行模拟器，其中包含虚拟高度，以练习从不同海拔进行的着陆和起飞程序。这些模拟为飞行员提供了一个安全的环境，让他们在没有实际飞行风险的情况下获得经验。同样，医疗专业人员可以使用增强现实工具，在不同的虚拟高度上模拟外科手术程序，从而在进行实际手术之前完善他们的技能。在建筑和设计中，虚拟高度的概念同样重要。建筑师利用虚拟现实向客户展示他们的设计，使客户能够在建筑完成之前走进建筑中。通过模拟虚拟高度，客户可以更好地理解空间的感觉，包括天花板的高度和项目的整体规模。这不仅增强了建筑师与客户之间的沟通，还帮助做出关于设计元素的明智决策。此外，虚拟高度在游戏和娱乐中也有影响。视频游戏通常利用这一概念为玩家创造刺激的体验。例如，在第一人称射击游戏中，玩家可能在一栋摩天大楼中穿行，随着他们在各个关卡中的移动，体验攀登到高处的感觉。这种沉浸感通过逼真的图形和音效得到了提升，使玩家感觉他们真的在攀爬高大的建筑物。这种体验可以激发从兴奋到恐惧的情感，展示了虚拟高度在叙事和游戏玩法中的力量。总之，虚拟高度的概念是科技如何改变我们的感知和体验的一个显著例证。无论是在虚拟现实、培训模拟、建筑还是游戏中，虚拟高度增强了我们对周围世界的理解和互动。随着科技的不断发展，虚拟高度的应用无疑会扩大，提供更多创新的方式来与我们的环境互动。未来对这一概念的可能性充满了令人兴奋的前景，看到它在未来几年如何塑造我们的体验将是令人期待的。