autostereoscopic display

简明释义

自动立伐显示;

英英释义

例句

1.The latest television models include autostereoscopic displays for a better viewing experience.

最新的电视机型号包括自动立体显示器，提供更好的观看体验。

2.The new gaming console features an advanced autostereoscopic display that provides a more immersive experience.

这款新游戏机配备了先进的自动立体显示器，提供更身临其境的体验。

3.In the museum, visitors can enjoy 3D exhibits without glasses thanks to the autostereoscopic display technology.

在博物馆，参观者可以享受无须眼镜的3D展品，这要归功于自动立体显示器技术。

4.Architects use autostereoscopic displays to present their designs in a more realistic way.

建筑师使用自动立体显示器以更真实的方式展示他们的设计。

5.The smartphone's autostereoscopic display allows users to view 3D content directly on their screens.

这款智能手机的自动立体显示器使用户能够直接在屏幕上查看3D内容。

作文

In recent years, technology has advanced at an unprecedented pace, leading to the development of various display technologies. One of the most intriguing innovations in this field is the autostereoscopic display, which provides a three-dimensional viewing experience without the need for special glasses. This technology utilizes a combination of optics and digital imaging to create the illusion of depth, allowing viewers to perceive images in a more lifelike manner. The autostereoscopic display works by directing light from different angles to each eye, mimicking the way our eyes naturally perceive depth in the real world.The appeal of autostereoscopic displays lies in their ability to enhance user experiences across various applications. In the realm of entertainment, for instance, movies and video games can become significantly more immersive when viewed on a autostereoscopic display. Imagine watching an action-packed film where the characters seem to leap off the screen or playing a video game where the environment feels so real that you can almost reach out and touch it. This level of immersion not only captivates audiences but also creates a more engaging narrative experience.Moreover, autostereoscopic displays have potential applications in fields such as education and training. For example, medical students can benefit from 3D visualizations of human anatomy, allowing them to better understand complex structures and relationships within the body. Similarly, engineers can use autostereoscopic displays to visualize intricate designs and simulations, improving their ability to analyze and innovate.Despite the many advantages, there are challenges associated with autostereoscopic displays. One significant issue is the viewing angle; users must be positioned correctly to experience the full effect of the 3D imagery. If they move outside of the optimal viewing zone, the image may appear distorted or flat. This limitation can make it difficult to implement autostereoscopic displays in larger settings, such as classrooms or public exhibitions, where multiple viewers may be present.Additionally, the cost of producing autostereoscopic displays can be higher than traditional display technologies. As manufacturers work to refine the technology and reduce production costs, we may see more widespread adoption in the consumer market. Companies are exploring ways to integrate autostereoscopic displays into various devices, from smartphones to large televisions, making 3D viewing accessible to a broader audience.In conclusion, the autostereoscopic display represents a fascinating advancement in display technology, offering new possibilities for entertainment, education, and design. While there are challenges to overcome, the potential benefits are immense. As technology continues to evolve, we can expect autostereoscopic displays to play a significant role in shaping how we interact with digital content, bringing our virtual experiences closer to reality.

近年来，科技以空前的速度发展，导致了各种显示技术的出现。其中一个最引人注目的创新是无眼镜立体显示器，它提供了无需特殊眼镜即可获得三维观看体验的技术。这项技术利用光学和数字成像的结合来创造深度的错觉，使观众能够以更逼真的方式感知图像。无眼镜立体显示器通过将光从不同角度引导到每只眼睛，模仿我们眼睛自然感知深度的方式。无眼镜立体显示器的吸引力在于它能够增强各个应用中的用户体验。例如，在娱乐领域，电影和视频游戏在无眼镜立体显示器上观看时，可以变得更加沉浸。想象一下观看一部动作片，角色似乎从屏幕上跳出来，或者玩一款视频游戏，环境真实得让你几乎可以伸手去触摸。这种沉浸程度不仅吸引观众，还创造了更具参与感的叙事体验。此外，无眼镜立体显示器在教育和培训等领域也有潜在应用。例如，医学生可以受益于人类解剖学的三维可视化，帮助他们更好地理解复杂的结构和身体内的关系。同样，工程师可以利用无眼镜立体显示器来可视化复杂的设计和模拟，提高他们的分析和创新能力。尽管有许多优点，但无眼镜立体显示器也面临着挑战。一个重要的问题是观看角度；用户必须正确定位才能体验到3D图像的全部效果。如果他们移动到最佳观看区之外，图像可能会失真或变得平坦。这一限制使得在教室或公共展览等较大场所实施无眼镜立体显示器变得困难，因为可能会有多个观众在场。此外，生产无眼镜立体显示器的成本可能高于传统显示技术。随着制造商努力完善技术并降低生产成本，我们可能会看到更广泛的消费者市场采用这种技术。公司正在探索将无眼镜立体显示器集成到各种设备中，从智能手机到大型电视，使3D观看对更广泛的受众可及。总之，无眼镜立体显示器代表了显示技术的一个迷人进步，为娱乐、教育和设计提供了新的可能性。虽然还有挑战需要克服，但潜在的好处是巨大的。随着技术的不断发展，我们可以期待无眼镜立体显示器在塑造我们与数字内容互动的方式中发挥重要作用，使我们的虚拟体验更接近现实。