Global Positioning System Interference and Satellite Anomalous Event Monitor

Marti, Lukas

January 2004

No description available.

Global Positioning Systems

Satellite Anomalous Event Monitor

A high fidelity global positioning system receiver simulation

Seitz, Andrew C.

January 2000

No description available.

high fidelity

global positioning system

receiver simulation

Global Positioning System based runway instrumentation system

Mitrovic, Predrag Stanimir

January 2001

No description available.

Global Positioning System

Runway Instrumentation System

Averaging correlation for weak Global Positioning System signal processing

Zhu, Zhen

January 2002

No description available.

Correlation

Global Positioning System

Signal Processing

Investigating global positioning system helibowl antenna performance sensitivity with variation in design parameters

Surathu, Mahesh

January 1999

No description available.

global positioning system

helibowl

Numerical Electromagnetic Code

Block processing techniques for the global positioning system

Feng, Gang

January 2003

No description available.

block processing

block techniques

global positioning system

Error sources affecting differential or ground monitored operation of the navstar global positioning system

Sharma, Sanjaya

January 1987

No description available.

Ground Monitored Operation

Navstar Global Positioning System

Image processing & robot positioning

Fung, Hong Chee

January 1990

No description available.

Engineering, Mechanical

Image Processing

Robot Positioning

Fault detection algorithm for Global Positioning System receivers

Choi, Sang-Sung

January 1991

No description available.

Fault Detection Algorithm

Global Positioning System

Field Evaluation Methodology for Quantifying Network-wide Efficiency, Energy, Emission, and Safety Impacts of Operational-level Transportation Projects

Sin, Heung Gweon

28 September 2001

This thesis presents a proposed methodology for the field evaluation of the efficiency, energy, environmental, and safety impacts of traffic-flow improvement projects. The methodology utilizes Global Positioning System (GPS) second-by-second speed measurements using fairly inexpensive GPS units to quantify the impacts of traffic-flow improvement projects on the efficiency, energy, and safety of a transportation network. It should be noted that the proposed methodology is incapable of isolating the effects of induced demand and is not suitable for estimating long-term impacts of such projects that involve changes in land-use. Instead, the proposed methodology can quantify changes in traffic behavior and changes in travel demand. This thesis, also, investigates the ability of various data smoothing techniques to remove such erroneous data without significantly altering the underlying vehicle speed profile. Several smoothing techniques are then applied to the acceleration profile, including data trimming, Simple Exponential smoothing, Double Exponential smoothing, Epanechnikov Kernel smoothing, Robust Kernel smoothing, and Robust Simple Exponential Smoothing. The results of the analysis indicate that the application of Robust smoothing (Kernel of Exponential) to vehicle acceleration levels, combined with a technique to minimize the difference between the integral of the raw and smoothed acceleration profiles, removes invalid GPS data without significantly altering the underlying measured speed profile The methodology has been successfully applied to two case studies provided insights as to the potential benefits of coordinating traffic signals across jurisdictional boundaries. More importantly two case studies demonstrate the feasibility of using GPS second-by-second speed measurements for the evaluation of operational-level traffic flow improvement projects. To identify any statistically significant differences in traffic demand along two case study corridors before and after traffic signal condition, tube counts and turning counts were collected and analyzed using ANOVA technique. The ANOVA results of turning volume counts indicated that there is no statistically significant difference in turning volumes between the before and after conditions. Furthermore, the ANOVA results of tube counts also confirmed that there did not appear to be a statistically significant difference (5 percent level of significance) in the tube counts between the before and after conditions. / Ph. D.

Smoothing Techniques

Global Positioning System

Field Evaluation