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Related Concept Videos

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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Design Example: Identifying the Locations of Monuments in the Field Using Global Positioning System Device01:30

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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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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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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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Types of Global Positioning System Surveys01:30

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GPS surveying methods vary in application, accuracy, and data collection techniques, catering to diverse surveying and mapping needs. Static GPS, kinematic GPS, and real-time kinematic (RTK) surveying are widely used. Each technique offers distinct advantages.Static GPS involves placing one receiver at a known reference point and another at the target point. It collects exact positional data by observing multiple satellite ranges over an extended period, achieving centimeter-level accuracy for...
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Design Example: Alignment of a Road Line Using GIS01:17

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The alignment of a road line using Geographic Information Systems (GIS) is a critical process in civil engineering, combining advanced technology with practical decision-making. This methodology begins with the collection of geospatial data, including information on land cover, geomorphology, drainage patterns, slope, and contour details. Such data is typically acquired through satellite imagery and GIS tools, offering a comprehensive understanding of the terrain.Once the data is gathered, it...
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Abnormal Driving Detection using GPS Data.

Charles Boateng1, Kwangsoo Yang1, Seyedeh Gol Ara Ghoreishi1

  • 1Florida Atlantic University Boca Raton, USA.

2023 IEEE 20Th International Conference on Smart Communities: Improving Quality of Life Using AI, Robotics and Iot (HONET)
|April 1, 2024
PubMed
Summary
This summary is machine-generated.

This study introduces a new method for Abnormal Driving Detection (ADD) using GPS data. The approach effectively identifies unusual driving patterns, enhancing driver safety and risk assessment.

Keywords:
GPSSingular Value Decomposition

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Area of Science:

  • Data Science
  • Transportation Engineering
  • Machine Learning

Background:

  • Abnormal Driving Detection (ADD) is crucial for road safety and risk management.
  • GPS datasets offer rich information for analyzing driving behaviors.
  • Existing methods may require complex feature engineering or lack robustness.

Purpose of the Study:

  • To develop and evaluate an integrated approach for Abnormal Driving Detection (ADD) using GPS data.
  • To leverage dimensionality reduction and clustering for identifying anomalous driving patterns.
  • To provide a robust method for driver safety and insurance risk assessment.

Main Methods:

  • Data preprocessing and aggregation of GPS records (Speed Over Ground, Course Over Ground, longitude, latitude) into minute-level segments.
  • Dimensionality reduction using Singular Value Decomposition (SVD).
  • Clustering of driving patterns using the K-means algorithm.

Main Results:

  • The integrated methodology effectively distinguishes between normal and abnormal driving behaviors.
  • Singular Value Decomposition (SVD) successfully reduced data dimensionality.
  • K-means clustering identified distinct driving patterns indicative of abnormal driving.

Conclusions:

  • The proposed integrated approach offers a promising solution for Abnormal Driving Detection (ADD).
  • This method has significant implications for improving driver safety and insurance risk assessment.
  • Further research can explore personalized interventions based on detected driving patterns.