ANALYSIS OF AIRBORNE LASER-SCANNING SYSTEM CONFIGURATIONS FOR DETECTING AIRPORT OBSTRUCTIONS By CHRISTOPHER E. PARRISH A THESIS PRESENTED TO THE GRADUATE SCHOOL OF THE UNIVERSITY OF FLORIDA IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE UNIVERSITY OF FLORIDA 2003 Copyright 2003 by Christopher E. Parrish To Deborah ACKNOWLEDGMENTS I wish to express my gratitude to Dr. Grady Tuell, chair of my supervisory committee, for his significant contributions to this thesis and his continued guidance and support. I thank Drs. Bill Carter and Ramesh Shrestha for serving on my committee and for their helpful advice and input. In addition, I am indebted to the following people who assisted me in various aspects of this work: Jim Lucas, Dr. Brent Smith, Michael Sartori, Dr. Ramu Ramaswamy, and Stu Kuper. The following members of the data collection team deserve thanks and recognition for their hard work: Bill Gutelius, Bill Kalbfleisch, Warwick Hadley, and Butch Miller. I thank Captain Jon Bailey and Steve Matula at the National Geodetic Survey for providing me the opportunity to attend graduate school. Finally, I thank Tom Accardi and Fred Anderson at the Federal Aviation Administration, Aviation System Standards for funding the data collection for this research. iv TABLE OF CONTENTS page ACKNOWLEDGMENTS.................................................................................................iv LIST OF TABLES............................................................................................................vii LIST OF FIGURES...........................................................................................................ix ABSTRACT......................................................................................................................xii CHAPTER 1 INTRODUCTION........................................................................................................1 Airport Obstruction Surveying.....................................................................................1 Airborne Laser Scanning..............................................................................................5 Background and Motivation.........................................................................................8 Organization of this Work..........................................................................................11 2 THEORY AND PREDICTIONS...............................................................................13 Laser Equation............................................................................................................13 Geometric Considerations in Obstruction Detection..................................................14 Radiometric Considerations in Obstruction Detection...............................................22 3 EXPERIMENTS.........................................................................................................27 Airborne Laser Data Collection..................................................................................27 Calibration..................................................................................................................30 Data Processing..........................................................................................................31 Field Spectrometer Data Collection............................................................................32 4 DATA ANALYSIS....................................................................................................36 Preliminary Analysis..................................................................................................36 Obstruction Detection Analysis..................................................................................42 Automated Obstruction Detection Analysis...............................................................44 Visual Analysis...........................................................................................................50 Analysis of Return Signal Strength Calculations.......................................................52 v 5 CONCLUSIONS AND RECOMMENDATIONS.....................................................56 APPENDIX A DERIVATION OF RANGE EQUATION .................................................................61 B REFLECTANCE SPECTRA FOR OBSTRUCTIONS AND OTHER OBJECTS WITHIN THE SURVEY AREAS..............................................................................65 C PHOTOGRAPHS OF FIELD-SURVEYED OBSTRUCTIONS...............................71 D OUTPUT OF AUTOMATED OBSTRUCTION DETECTION ANALYSIS SOFTWARE...............................................................................................................79 Configuration 1...........................................................................................................79 Configuration 2...........................................................................................................80 Configuration 3...........................................................................................................82 Configuration 4...........................................................................................................84 Configuration 5...........................................................................................................86 Configuration 6...........................................................................................................87 Configuration 7...........................................................................................................89 Configuration 8...........................................................................................................91 Configuration 9...........................................................................................................93 Configuration 10.........................................................................................................94 Configuration 11.........................................................................................................96 Configuration 12.........................................................................................................98 Configuration 13.......................................................................................................100 Configuration 14.......................................................................................................101 LIST OF REFERENCES.................................................................................................104 BIOGRAPHICAL SKETCH...........................................................................................108 vi LIST OF TABLES Table page 2-1 Narrow and wide beam divergences for the system used in this study, based on three different definitions of beam diameter............................................................19 3-1 The 14 data collection configurations used in this study and the predicted vertical and horizontal point spacing for each......................................................................27 3-2 Reflectance values at 1064 nm for field-surveyed obstructions and other objects in the survey areas....................................................................................................34 3-3 Reflectance values at 1064 nm for three horizontal surfaces in Survey Zone 1......35 4-1 Results of testing the airborne laser data sets using an independent data set of NGS kinematic GPS runway points.........................................................................37 4-2 Percent of obstructions detected in each airborne laser data set and the RMS difference in elevation between the field-surveyed points and “matching” laser points........................................................................................................................47 4-3 Analysis of return signal strength calculations for SPN 452...................................53 4-4 Analysis of return signal strength calculations for SPN 449...................................54 4-5 Analysis of return signal strength calculations for SPN 454...................................54 D-1 Tilt: 0; Div: N; FH:750.............................................................................................79 D-2 Tilt: 0; Div: W; FH: 750...........................................................................................80 D-3 Tilt: 10; Div: N; FH: 750..........................................................................................82 D-4 Tilt: 10; Div: W; FH: 750.........................................................................................84 D-5 Tilt: 20; Div: N; FH: 750..........................................................................................86 D-6 Tilt: 20; Div: W; FH: 1050.......................................................................................87 D-7 Tilt: 20; Div: W; FH: 1150.......................................................................................89 D-8 Tilt: 20; Div: W; FH: 750.........................................................................................91 vii D-9 Tilt: 20; Div: W; FH: 850.........................................................................................93 D-10 Tilt: 20; Div: W; FH: 950.........................................................................................94 D-11 Tilt: 30; Div: N; FH: 750..........................................................................................96 D-12 Tilt: 30; Div: W; FH: 750.........................................................................................98 D-13 Tilt: 40; Div: N; FH: 750........................................................................................100 D-14 Tilt: 40; Div: W; FH: 750.......................................................................................101 viii LIST OF FIGURES Figure page 1-1 Federal Aviation Regulation (FAR) Part 77 obstruction identification surfaces (OIS)...........................................................................................................................2 1-2 Airborne laser scanning systems produced by the two leading commercial manufacturers.............................................................................................................5 1-3 Simplified illustration of airborne laser scanning principles.....................................6 1-4 Growth in commercial use of airborne laser scanners from 1995 to 2000................8 1-5 Results of comparing the three airborne laser data sets collected during the 2001 study against field-surveyed obstruction data..........................................................10 2-1 Vertical Point Spacing..............................................................................................15 2-2 Plot of vertical point spacing versus tilt angle based on the following settings: v = 55 m/s and τ = 0.019 sec....................................................................................16 2-3 Calculation of vertical footprint diameter, A ..........................................................17 v 2-4 Illustration of vertical point spacing (VPS) and effective vertical spacing (EVS)..18 2-5 Profile of laser beam for the University of Florida airborne laser scanning system and a fitted gaussian.................................................................................................19 2-6 Effective vertical spacing versus tilt angle based on the following parameters: H = 750 m, v = 55 m/s, τ = 0.019 s, and γ = 0.60 mrad...........................................20 2-7 Definition of horizontal point spacing (HPS)..........................................................21 2-8 Schematic Illustration of the detection and measurement system............................23 2-9 Received power vs. tilt angle...................................................................................25 3-1 Survey project areas overlaid on a digital orthophoto and USGS quadrangles.......28 3-2 Variable-tilt sensor mount designed for this study...................................................29 ix 3-3 Obtaining reflectance measurements for a guywire of one of the towers in Survey Zone 1 using the ASD LabSpec Pro portable spectrometer.....................................33 4-1 Plot of average elevation bias for each tilt angle setting on the ordinate vs. tilt angle on the abscissa................................................................................................38 4-2 Average elevation bias vs. tilt angle and propagated systematic error in the elevation of a laser point..........................................................................................40 4-3 NGS field survey of obstructions at GNV...............................................................43 4-4 Obstruction detection analysis algorithm.................................................................45 4-5 Visual obstruction analysis............................. .........................................................51 4-6 Photograph of SPN 460, and data points on this object based on laser returns obtained using configurations 5, 8, and 12...............................................................51 4-7 A potentially more rigorous method of performing the return signal strength computations involving modeling the interaction of the incident laser radiation with a target as a convolution...................................................................................55 B-1 Reflectance spectra for SPN 445 – strobe lighted tower, a guywire for the strobe lighted tower, and SPN 446 – tower........................................................................65 B-2 Reflectance spectra for SPN 449 – pole, SPN 452 – antenna, and SPN 453 – transmission pole......................................................................................................66 B-3 Reflectance spectra for SPN 454 – flagpole, SPN 456 – pole, and a pine tree........67 B-4 Reflectance spectra for a palm tree, a pole, and a generator....................................68 B-5 Reflectance spectra for grass, concrete, and asphalt................................................69 C-1 Photographs of SPN 414 – tree, and SPN 415 – tree...............................................71 C-2 Photographs of SPN 418 – tree, and SPN 431 – obstruction light on pole..............72 C-3 Photographs of SPN 446 – tower, SPN 445 – antenna on strobe lighted tower, and SPN 448 – antenna on strobe lighted tower......................................................73 C-4 Photographs of SPN 449 – pole, SPN 453 – transmission pole, and SPN 452 – antenna...................................................................................................74 C-5 Photographs of SPN 454 – flagpole, SPN 456 – pole, SPN 455 – sign, and SPN 457 – transmission pole...................................................................................75 x