multiple object phase tracking and ranging

简明释义

多目标相位跟踪和测距系统

英英释义

例句

1.Using multiple object phase tracking and ranging, the drone can avoid collisions with multiple obstacles.

通过使用多目标相位跟踪与测距，无人机可以避免与多个障碍物发生碰撞。

2.The research team developed a new algorithm for multiple object phase tracking and ranging to enhance surveillance capabilities.

研究小组开发了一种新算法用于多目标相位跟踪与测距，以增强监控能力。

3.In autonomous vehicles, multiple object phase tracking and ranging allows for precise navigation around pedestrians and other cars.

在自动驾驶汽车中，多目标相位跟踪与测距能够精确导航，避开行人和其他车辆。

4.The military uses multiple object phase tracking and ranging to track enemy movements in real-time.

军方使用多目标相位跟踪与测距实时跟踪敌方动向。

5.The new radar system utilizes multiple object phase tracking and ranging to monitor several aircraft simultaneously.

新雷达系统利用多目标相位跟踪与测距同时监控多架飞机。

作文

In the realm of modern technology, the ability to track and measure multiple objects simultaneously has become increasingly important. One of the most significant advancements in this area is the concept of multiple object phase tracking and ranging. This technology allows for precise monitoring and distance measurement of various objects in real-time, which is crucial for applications ranging from autonomous vehicles to advanced robotics. Understanding the intricacies of multiple object phase tracking and ranging can provide valuable insights into how we interact with our environment and the future of technological innovations.At its core, multiple object phase tracking and ranging involves the use of advanced algorithms and sensors to detect and analyze multiple targets. By utilizing phase information from signals, such as radar or lidar, systems can accurately determine not only the position of each object but also its velocity and trajectory. This capability is particularly vital in scenarios where many objects are moving simultaneously, such as in busy urban environments or during complex manufacturing processes.One of the primary benefits of multiple object phase tracking and ranging is its application in autonomous vehicles. These vehicles rely on sophisticated sensor systems to navigate safely through traffic. By employing this technology, they can identify pedestrians, cyclists, and other vehicles around them, allowing for safer decision-making and improved traffic flow. The ability to track multiple objects ensures that the vehicle can respond appropriately to dynamic changes in its surroundings, significantly reducing the risk of accidents.Moreover, multiple object phase tracking and ranging plays a crucial role in the field of robotics. In industrial settings, robots equipped with this technology can work alongside humans and other machines without colliding or causing disruptions. For instance, in a warehouse, robots can navigate through aisles filled with products while constantly monitoring their environment for obstacles. This not only enhances efficiency but also promotes workplace safety.Additionally, the military and defense sectors have recognized the significance of multiple object phase tracking and ranging. In combat scenarios, being able to track multiple targets accurately is essential for strategic planning and execution. Advanced surveillance systems can utilize this technology to monitor enemy movements and assess threats in real-time, providing a tactical advantage.Despite its numerous advantages, implementing multiple object phase tracking and ranging comes with challenges. The complexity of processing large volumes of data from various sources can be overwhelming. Engineers and researchers must develop robust algorithms capable of filtering out noise and ensuring accurate readings. Furthermore, environmental factors such as weather conditions can affect the performance of sensors, necessitating continuous improvements in technology.In conclusion, the concept of multiple object phase tracking and ranging represents a significant leap forward in our ability to monitor and interact with the world around us. Its applications span various industries, from autonomous vehicles to robotics and defense, highlighting its versatility and importance. As technology continues to evolve, the potential for multiple object phase tracking and ranging to enhance our daily lives and improve safety will undoubtedly grow. Understanding this technology will not only help us appreciate its current applications but also inspire future innovations that could revolutionize how we perceive and engage with our environment.

在现代科技领域，同时跟踪和测量多个物体的能力变得越来越重要。其中一个最显著的进展是多目标相位跟踪和测距的概念。这项技术允许实时精确监控和测量各种物体的距离，这对于从自动驾驶汽车到先进机器人等应用至关重要。理解多目标相位跟踪和测距的复杂性可以为我们如何与环境互动以及技术创新的未来提供宝贵的见解。多目标相位跟踪和测距的核心在于使用先进的算法和传感器来检测和分析多个目标。通过利用信号的相位信息，例如雷达或激光雷达，系统不仅可以准确确定每个物体的位置，还可以确定其速度和轨迹。这种能力在许多物体同时移动的情况下尤为重要，例如在繁忙的城市环境或复杂的制造过程中。多目标相位跟踪和测距的主要好处之一是它在自动驾驶汽车中的应用。这些车辆依赖复杂的传感器系统安全地穿行于交通中。通过采用这项技术，它们可以识别周围的行人、自行车和其他车辆，从而允许更安全的决策和改善交通流量。跟踪多个物体的能力确保车辆能够适当地响应其周围环境的动态变化，从而显著降低事故风险。此外，多目标相位跟踪和测距在机器人领域也发挥着至关重要的作用。在工业环境中，配备此技术的机器人可以在人类和其他机器旁边工作，而不会发生碰撞或造成干扰。例如，在仓库中，机器人可以在充满产品的通道中导航，同时不断监测其环境中的障碍物。这不仅提高了效率，还促进了工作场所的安全。此外，军队和国防部门也认识到多目标相位跟踪和测距的重要性。在作战场景中，准确跟踪多个目标对于战略规划和执行至关重要。先进的监视系统可以利用这项技术实时监控敌方动向并评估威胁，从而提供战术优势。尽管有众多优点，实施多目标相位跟踪和测距仍面临挑战。处理来自各种来源的大量数据的复杂性可能会令人不知所措。工程师和研究人员必须开发出强大的算法，能够过滤噪声并确保读数的准确性。此外，天气等环境因素可能会影响传感器的性能，因此需要不断改进技术。总之，多目标相位跟踪和测距的概念代表了我们监测和与周围世界互动能力的重大飞跃。它的应用跨越多个行业，从自动驾驶汽车到机器人和国防，突显了其多功能性和重要性。随着技术的不断发展，多目标相位跟踪和测距增强我们日常生活和提高安全性的潜力无疑将不断增长。理解这项技术不仅有助于我们欣赏其当前应用，还能激励未来的创新，这些创新可能会彻底改变我们感知和参与环境的方式。