line of sight kernel

简明释义

视线核

英英释义

例句

1.The line of sight kernel helps in optimizing the placement of surveillance cameras for maximum coverage.

该视线核有助于优化监控摄像头的放置，以获得最大的覆盖范围。

2.Using a line of sight kernel, the game engine calculates which characters can see each other in real-time.

游戏引擎使用视线核实时计算哪些角色可以相互看到。

3.The simulation software uses a line of sight kernel to determine visibility between objects in the environment.

该模拟软件使用视线核来确定环境中物体之间的可见性。

4.In urban planning, a line of sight kernel is essential for assessing how buildings affect each other's visibility.

在城市规划中，视线核对于评估建筑物如何影响彼此的可见性至关重要。

5.The line of sight kernel algorithm significantly improves the accuracy of radar systems in detecting targets.

该视线核算法显著提高了雷达系统检测目标的准确性。

作文

In the field of computer vision and image processing, the term line of sight kernel is often encountered. This concept plays a crucial role in understanding how visual information is transmitted from one point to another. Essentially, the line of sight kernel refers to a mathematical function that describes the visibility between points in a given space. It helps in determining which parts of an image or scene are visible from a particular viewpoint, thus allowing for better analysis and interpretation of visual data.The significance of the line of sight kernel can be seen in various applications, such as robotics, autonomous vehicles, and augmented reality. In robotics, for example, a robot needs to navigate its environment effectively, which requires an understanding of what it can see at any given moment. The line of sight kernel provides a framework for robots to compute their visibility and make informed decisions based on their surroundings.Similarly, in autonomous vehicles, the line of sight kernel is essential for safe navigation. These vehicles rely on sensors and cameras to perceive their environment. By utilizing the line of sight kernel, the vehicle can analyze which objects are visible and which are obstructed, allowing it to avoid potential collisions and navigate complex environments safely.In the realm of augmented reality, the line of sight kernel also plays a vital role. Augmented reality systems overlay digital information onto the real world, and for this to work seamlessly, the system must understand the user's perspective. By employing the line of sight kernel, these systems can determine what the user can see and adjust the digital content accordingly, ensuring that it appears realistic and contextually appropriate.Moreover, the line of sight kernel is not just limited to physical visibility; it can also extend to other domains such as telecommunications and networking. In these fields, the concept can be applied to understand signal propagation and connectivity between different nodes in a network. The line of sight kernel helps in analyzing which nodes can communicate directly with each other without interference, thereby optimizing network performance.In conclusion, the line of sight kernel is a fundamental concept that bridges various disciplines, including computer vision, robotics, autonomous systems, and networking. Its ability to define visibility and relationships between points in space makes it an invaluable tool for researchers and practitioners alike. As technology continues to advance, the importance of the line of sight kernel will only grow, leading to more innovative applications and improved systems in our increasingly interconnected world.

在计算机视觉和图像处理领域，术语视线核经常被提及。这个概念在理解视觉信息如何从一个点传输到另一个点方面起着至关重要的作用。本质上，视线核指的是一个数学函数，它描述了在给定空间中点与点之间的可见性。它有助于确定从特定视点可以看到图像或场景的哪些部分，从而允许对视觉数据进行更好的分析和解释。视线核的重要性可以在各种应用中看到，例如机器人技术、自动驾驶车辆和增强现实。在机器人技术中，例如，机器人需要有效地导航其环境，这需要了解在任何给定时刻它可以看到什么。视线核为机器人计算其可见性并根据周围环境做出明智决策提供了框架。同样，在自动驾驶车辆中，视线核对于安全导航至关重要。这些车辆依赖传感器和摄像头来感知其环境。通过利用视线核，车辆可以分析哪些物体是可见的，哪些是被遮挡的，从而避免潜在的碰撞并安全地导航复杂环境。在增强现实的领域中，视线核也发挥着重要作用。增强现实系统将数字信息叠加到现实世界中，而要使其无缝工作，系统必须理解用户的视角。通过采用视线核，这些系统可以确定用户能够看到什么，并相应地调整数字内容，确保其看起来逼真且具有上下文适宜性。此外，视线核不仅限于物理可见性；它还可以扩展到电信和网络等其他领域。在这些领域，该概念可以应用于理解信号传播和网络中不同节点之间的连接。视线核有助于分析哪些节点可以直接通信而不会干扰，从而优化网络性能。总之，视线核是一个基本概念，连接了多个学科，包括计算机视觉、机器人技术、自动化系统和网络。它定义了空间中点之间的可见性和关系，使其成为研究人员和从业者不可或缺的工具。随着技术的不断进步，视线核的重要性只会增加，导致我们日益互联的世界中出现更多创新应用和改进系统。