careen grid

简明释义

格子板;船架

英英释义

例句

1.The roller coaster careen grid down the tracks, thrilling all the passengers.

过山车在轨道上急速倾斜，让所有乘客感到兴奋。

2.The toddler accidentally careen grid into the playground equipment while running.

小孩在奔跑时不小心急速倾斜撞向游乐设施。

3.The car began to lose control and started to careen grid down the slope.

汽车开始失去控制，沿着坡道急速倾斜而下。

4.As the wind picked up, the sailboat began to careen grid across the waves.

随着风力增强，帆船开始在波浪上急速倾斜。

5.During the race, the motorcycle careen grid around the corner, narrowly avoiding a crash.

在比赛中，摩托车在转角处急速倾斜，险些发生碰撞。

作文

In the world of technology and engineering, terms often emerge that encapsulate complex ideas in just a few words. One such term is careen grid, which refers to a specific framework or system used to manage the movement of objects, often in a chaotic or unpredictable environment. This concept can be applied in various fields, including robotics, computer science, and even urban planning. Understanding the implications of a careen grid can significantly enhance our ability to design efficient systems that can adapt to changing conditions.To illustrate the importance of a careen grid, consider the example of autonomous vehicles navigating through a busy city. These vehicles must constantly assess their surroundings and make split-second decisions to avoid obstacles while adhering to traffic rules. The careen grid serves as a conceptual model that allows engineers to develop algorithms capable of predicting potential paths and outcomes based on real-time data. By utilizing this framework, developers can create safer and more reliable navigation systems that improve the overall efficiency of transportation.Furthermore, in the context of robotics, a careen grid can help robots understand their spatial environment. For instance, when a robot is tasked with picking up items in a cluttered room, it must navigate around various obstacles. A well-defined careen grid provides a structured approach for the robot to analyze its surroundings, plan its movements, and execute tasks effectively. This not only enhances the robot's performance but also ensures that it can operate in dynamic settings where conditions may change rapidly.The application of a careen grid is not limited to technological advancements; it can also be observed in nature. Animals often exhibit behaviors that resemble the principles of a careen grid. For example, schools of fish move in synchrony, adjusting their paths to avoid predators while maintaining group cohesion. This natural phenomenon mirrors the concepts found in a careen grid, where individual components must work together to navigate a complex environment successfully.Moreover, understanding the careen grid can also have social implications. In urban planning, city planners can use this concept to design public spaces that accommodate the flow of people and vehicles. By analyzing patterns of movement and interaction, planners can create environments that promote safety and accessibility. This strategic approach allows cities to evolve and adapt to the needs of their inhabitants, ultimately leading to a more harmonious coexistence.In conclusion, the term careen grid encapsulates a multifaceted concept that extends across various disciplines. Whether in technology, nature, or urban planning, the principles behind a careen grid highlight the importance of adaptability and efficiency in navigating complex environments. As we continue to innovate and explore new frontiers, embracing the ideas represented by a careen grid will undoubtedly play a crucial role in shaping the future of our societies and technologies.

在科技和工程的世界中，术语常常出现，用几个词概括复杂的思想。一个这样的术语是careen grid，它指的是一种特定的框架或系统，用于管理物体的运动，通常是在混乱或不可预测的环境中。这个概念可以应用于多个领域，包括机器人技术、计算机科学甚至城市规划。理解careen grid的含义可以显著增强我们设计高效系统的能力，使其能够适应变化的条件。为了说明careen grid的重要性，考虑一下自动驾驶汽车在繁忙城市中导航的例子。这些车辆必须不断评估周围环境，并做出瞬间决策，以避免障碍，同时遵守交通规则。careen grid作为一个概念模型，允许工程师开发能够基于实时数据预测潜在路径和结果的算法。通过利用这一框架，开发人员可以创建更安全、更可靠的导航系统，从而提高交通的整体效率。此外，在机器人技术的背景下，careen grid可以帮助机器人理解其空间环境。例如，当一个机器人被指派在杂乱的房间中拾取物品时，它必须绕过各种障碍物。一个定义良好的careen grid为机器人提供了一种结构化的方法，以分析其周围环境、规划其运动并有效执行任务。这不仅提高了机器人的性能，还确保它能够在条件可能迅速变化的动态环境中操作。careen grid的应用不仅限于技术进步；它也可以在自然界中观察到。动物经常表现出类似于careen grid原则的行为。例如，鱼群以同步的方式移动，调整其路径以避免捕食者，同时保持群体的凝聚力。这种自然现象与careen grid中发现的概念相似，其中各个组件必须共同努力，成功地在复杂环境中导航。此外，理解careen grid还可以具有社会意义。在城市规划中，城市规划者可以利用这一概念设计公共空间，以适应人和车辆的流动。通过分析运动和互动模式，规划者可以创造出促进安全和可达性的环境。这种战略方法使城市能够发展并适应居民的需求，最终导致更加和谐的共存。总之，术语careen grid概括了一个多方面的概念，扩展到多个学科。无论是在技术、自然还是城市规划中，careen grid背后的原则强调了在导航复杂环境中适应性和效率的重要性。随着我们继续创新和探索新领域，接受careen grid所代表的思想无疑将在塑造我们社会和技术的未来中发挥关键作用。