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相关概念视频

Errors in Global Positioning System01:26

Errors in Global Positioning System

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Global Positioning System (GPS) technology has revolutionized navigation and positioning, but its accuracy is often compromised by various errors. These errors, stemming from environmental, satellite, and receiver-related factors, require careful mitigation to ensure reliable performance across applications.Atmospheric ErrorsGPS signals travel through the Earth’s ionosphere and troposphere, introducing delays which affect accuracy. The ionosphere is strongly influenced by charged particles,...
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Introduction to Global Positioning System01:30

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The Global Positioning System (GPS) revolutionized positioning on Earth, providing precise location data through satellite ranging. The GPS system was developed in 1978 by the U.S. Department of Defense  for military use, and it became available for civilian applications in 1983, transforming fields including navigation, fleet management, and time synchronization for telecommunications systems.GPS consists of satellites in medium Earth orbit, about 20,200 kilometers above the surface,...
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Design Example: Identifying the Locations of Monuments in the Field Using Global Positioning System Device01:30

Design Example: Identifying the Locations of Monuments in the Field Using Global Positioning System Device

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Surveyors use Global Positioning System (GPS) technology to measure the precise location and elevation of points on Earth. In a recent survey, GPS receivers were used to determine the coordinates and elevations of two park monuments. The process involved careful mission planning, data collection, and correction to ensure accuracy. The survey began with mission planning to identify optimal satellite visibility and minimize Position Dilution of Precision (PDOP). A geodetic control point...
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Field Application of Global Positioning System01:28

Field Application of Global Positioning System

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The Global Positioning System (GPS) has become an indispensable tool in fieldwork, offering unparalleled precision and efficiency for surveying, navigation, and infrastructure development. By harnessing signals from a constellation of satellites, GPS receivers determine the location of objects with remarkable speed and accuracy, often completing calculations within a second.Advantages of Modern GPS TechnologyContemporary GPS receivers are designed to meet the practical demands of field...
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Doppler Effect - II01:05

Doppler Effect - II

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The Doppler effect has several practical, real-world applications. For instance, meteorologists use Doppler radars to interpret weather events based on the Doppler effect. Typically, a transmitter emits radio waves at a specific frequency toward the sky from a weather station. The radio waves bounce off the clouds and precipitation and travel back to the weather station. The radio frequency of the waves reflected back to the station appears to decrease if the clouds or precipitation are moving...
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Relative Motion Analysis using Rotating Axes-Problem Solving01:29

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Consider a crane whose telescopic boom rotates with an angular velocity of 0.04 rad/s and angular acceleration of 0.02 rad/s2. Along with the rotation, the boom also extends linearly with a uniform speed of 5 m/s. The extension of the boom is measured at point D, which is measured with respect to the fixed point C on the other end of the boom. For the given instant, the distance between points C and D is 60 meters.
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A Protocol for Real-time 3D Single Particle Tracking
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通过TDOA进行紫外线定位:错误分析和系统原型.

Shihui Yu, Chubing Lv, Yueke Yang

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    此摘要是机器生成的。

    这项研究介绍了一种使用到达时间差异 (TDOA) 的新型紫外通信定位系统. 实验结果验证了系统的有效性.

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    相关实验视频

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    科学领域:

    • 光学通信系统 光学通信系统
    • 定位和导航技术 定位和导航技术
    • 光子学和信号处理.

    背景情况:

    • 准确的定位对于各种应用至关重要.
    • 现有系统在某些环境中面临限制.
    • 紫外线 (UV) 通信为新型定位解决方案提供了潜力.

    研究的目的:

    • 设计,实现和评估基于紫外线通信的定位系统.
    • 使用到达时间差异 (TDOA) 原则调查定位错误.
    • 用硬件实验验证理论模型.

    主要方法:

    • 使用紫外线 (UV) 通信进行信号传输.
    • 实施到达时差 (TDOA) 定位原则.
    • 使用来自三个发射器的基于时间划分的同步序列.
    • 使用现场可编程网关数组 (FPGA) 实现实时硬件实现.

    主要成果:

    • 理论平均误差与模拟结果非常接近.
    • 基于FPGA的TDOA定位系统成功实现.
    • 户外实验结果与理论和模拟预测一致.
    • 将定位错误分解为发射端的定时和接收端的同步错误.

    结论:

    • 理论模型为硬件实验提供了可靠的指导.
    • 开发的紫外线通信定位系统证明了实验的可行性.
    • 该系统实现了通过户外试验验证的准确定位.