positioning precision
简明释义
定位准确度
英英释义
Positioning precision refers to the accuracy and exactness with which an object or system can be placed or oriented in a specific location or direction. | 定位精度是指一个物体或系统在特定位置或方向上被放置或定向的准确性和精确性。 |
例句
1.The surveyor emphasized the importance of positioning precision when mapping the land.
测量员强调在绘制土地地图时定位精度的重要性。
2.To ensure safety, the aircraft requires a positioning precision of within a few meters.
为了确保安全,飞机要求的定位精度在几米之内。
3.In robotics, achieving high positioning precision is crucial for successful operations.
在机器人技术中,实现高定位精度对成功操作至关重要。
4.The new GPS technology has significantly improved our positioning precision in urban environments.
新型GPS技术显著提高了我们在城市环境中的定位精度。
5.Our drone's positioning precision allows it to capture detailed aerial images.
我们无人机的定位精度使其能够捕捉到详细的空中图像。
作文
In today's rapidly evolving technological landscape, the importance of positioning precision cannot be overstated. As industries continue to embrace automation and advanced technologies, the need for accurate positioning systems has become paramount. Whether in manufacturing, logistics, or even healthcare, the ability to pinpoint locations with high accuracy is crucial for optimizing operations and ensuring safety.To begin with, positioning precision refers to the degree of accuracy with which a system can determine the location of an object. This concept is particularly significant in fields such as robotics, where machines must navigate complex environments. For instance, autonomous vehicles rely on precise positioning data to avoid obstacles and make informed decisions. Any deviation in this data could lead to catastrophic consequences, highlighting the need for reliable positioning systems.Furthermore, the rise of the Internet of Things (IoT) has amplified the demand for positioning precision. With countless devices interconnected, the need for accurate location tracking is essential for effective communication and coordination among these devices. In smart cities, for example, traffic management systems utilize precise positioning to monitor vehicle movements and optimize traffic flow, thereby reducing congestion and improving overall urban mobility.Moreover, industries such as agriculture have also recognized the value of positioning precision. Precision farming techniques leverage advanced positioning technologies to enhance crop yields and minimize resource wastage. By using GPS-guided equipment, farmers can ensure that their machinery operates in the most efficient manner possible, applying fertilizers and pesticides only where needed. This not only increases productivity but also promotes sustainable agricultural practices.In addition to its applications in various sectors, positioning precision plays a vital role in scientific research. For example, in environmental monitoring, researchers require accurate positioning data to study changes in ecosystems over time. By utilizing precise positioning tools, scientists can track wildlife movements, monitor climate change effects, and assess the impact of human activities on natural habitats. This data is invaluable for informing conservation efforts and policy decisions.However, achieving high levels of positioning precision is not without its challenges. Factors such as signal interference, atmospheric conditions, and multipath effects can all impact the accuracy of positioning systems. To address these issues, researchers and engineers are continually developing new technologies and methodologies. For instance, advancements in satellite-based positioning systems, such as the Global Navigation Satellite System (GNSS), have significantly improved positioning accuracy. Additionally, the integration of complementary technologies like inertial navigation systems and computer vision can further enhance positioning precision in challenging environments.In conclusion, the significance of positioning precision in modern society cannot be ignored. As we continue to advance technologically, the demand for accurate positioning will only grow. From improving efficiency in industries to enabling groundbreaking scientific research, precise positioning is a cornerstone of innovation. It is imperative that we invest in developing and refining these technologies to meet the ever-increasing demands of our dynamic world. As we look towards the future, we must prioritize positioning precision to unlock new possibilities and drive progress across various fields.
在当今快速发展的技术背景下,定位精度的重要性不容小觑。随着各行业不断采用自动化和先进技术,对准确定位系统的需求变得至关重要。无论是在制造业、物流还是医疗保健中,能够高精度地确定位置对于优化操作和确保安全至关重要。首先,定位精度是指一个系统能够确定物体位置的准确程度。这个概念在机器人等领域尤为重要,因为机器必须在复杂的环境中导航。例如,自动驾驶汽车依赖精确的定位数据来避免障碍物并做出明智的决策。任何数据的偏差都可能导致灾难性的后果,这突显了可靠定位系统的必要性。此外,物联网(IoT)的兴起进一步加大了对定位精度的需求。随着无数设备的互联互通,准确的位置信息追踪对于这些设备之间的有效沟通和协调至关重要。在智慧城市中,例如,交通管理系统利用精确定位来监控车辆移动并优化交通流,从而减少拥堵,提高整体城市流动性。此外,农业等行业也认识到了定位精度的价值。精准农业技术利用先进的定位技术来提高作物产量并最小化资源浪费。通过使用GPS引导的设备,农民可以确保他们的机械以最有效的方式运作,仅在需要的地方施用肥料和农药。这不仅提高了生产力,还促进了可持续农业实践。除了在各个领域的应用外,定位精度在科学研究中也发挥着重要作用。例如,在环境监测中,研究人员需要准确的定位数据来研究生态系统随时间的变化。通过利用精确的定位工具,科学家可以跟踪野生动物的移动,监测气候变化的影响,并评估人类活动对自然栖息地的影响。这些数据对于指导保护工作和政策决策至关重要。然而,实现高水平的定位精度并非没有挑战。信号干扰、大气条件和多路径效应等因素都可能影响定位系统的准确性。为了解决这些问题,研究人员和工程师不断开发新的技术和方法。例如,基于卫星的定位系统,如全球导航卫星系统(GNSS),已显著提高了定位精度。此外,结合惯性导航系统和计算机视觉等互补技术可以进一步增强在复杂环境中的定位精度。总之,定位精度在现代社会中的重要性不容忽视。随着我们技术的不断进步,对准确定位的需求只会增长。从提高各行业的效率到推动开创性的科学研究,精确定位是创新的基石。我们必须投资于开发和完善这些技术,以满足我们动态世界日益增长的需求。当我们展望未来时,必须优先考虑定位精度,以解锁新的可能性并推动各个领域的进步。
相关单词
