LiDAR Applications in Surveying and Engineering

Similar documents
LIDAR MAPPING FACT SHEET

ENY-C2005 Geoinformation in Environmental Modeling Lecture 4b: Laser scanning

Light Detection and Ranging (LiDAR)

N.J.P.L.S. An Introduction to LiDAR Concepts and Applications

LIDAR an Introduction and Overview

CLASSIFICATION OF NONPHOTOGRAPHIC REMOTE SENSORS

LIDAR and Terrain Models: In 3D!

Lecture 11. LiDAR, RADAR

Microwave. Infrared. Preprogrammed Chip

Course Outline (1) #6 Data Acquisition for Built Environment. Fumio YAMAZAKI

About LIDAR Data. What Are LIDAR Data? How LIDAR Data Are Collected

Overview. 1. Aerial LiDAR in Wisconsin (20 minutes) 2. Demonstration of data in CAD (30 minutes) 3. High Density LiDAR (20 minutes)

USE OF DRONE TECHNOLOGY AND PHOTOGRAMMETRY FOR BEACH MORPHODYNAMICS AND BREAKWATER MONITORING.

Merging LiDAR Data with Softcopy Photogrammetry Data

The Use of UAV s for Gathering Spatial Information. James Van Rens CEO MAPPS Winter Conference January, 2015

An Introduction to Lidar & Forestry May 2013

UAS based laser scanning for forest inventory and precision farming

2/9/2016. Session Agenda: Implementing new Geospatial Technologies for more efficient data capture

Jeffrey A. Schepers P.S. EIT Geospatial Services Holland Engineering Inc. 220 Hoover Blvd, Suite 2, Holland, MI Desk

EVOLUTION OF POINT CLOUD

Airborne Laser Scanning: Remote Sensing with LiDAR

Light Detection and Ranging (LiDAR) Radiohead House of Cards

Using Mobile LiDAR To Efficiently Collect Roadway Asset and Condition Data. Pierre-Paul Grondin, B.Sc. Surveying

APPENDIX E2. Vernal Pool Watershed Mapping

Classify Multi-Spectral Data Classify Geologic Terrains on Venus Apply Multi-Variate Statistics

Snow cover change detection with laser scanning range and brightness measurements

LiForest Software White paper. TRGS, 3070 M St., Merced, 93610, Phone , LiForest

Intelligent photogrammetry. Agisoft

Trimble Business Center Software, v3.30

2010 LiDAR Project. GIS User Group Meeting June 30, 2010

Workshops funded by the Minnesota Environment and Natural Resources Trust Fund

Terrestrial GPS setup Fundamentals of Airborne LiDAR Systems, Collection and Calibration. JAMIE YOUNG Senior Manager LiDAR Solutions

Lidar Sensors, Today & Tomorrow. Christian Sevcik RIEGL Laser Measurement Systems

2/19/2018. Who are we? Who am I? What is Scanning? How does scanning work? How does scanning work? Scanning for Today s Surveyors

9/14/2011. Contents. Lecture 3: Spatial Data Acquisition in GIS. Dr. Bo Wu Learning Outcomes. Data Input Stream in GIS

QUALITY CONTROL METHOD FOR FILTERING IN AERIAL LIDAR SURVEY

LiDAR AT PennDOT Michael Loose, C.P. BOPD Photogrammetry and Surveys

ANALYSIS OF MIDDLE PULSE DATA BY LIDAR IN THE FOREST

UNIT 22. Remote Sensing and Photogrammetry. Start-up. Reading. In class discuss the following questions:

Contents of Lecture. Surface (Terrain) Data Models. Terrain Surface Representation. Sampling in Surface Model DEM

Introduction Photogrammetry Photos light Gramma drawing Metron measure Basic Definition The art and science of obtaining reliable measurements by mean

Hamilton County Enhances GIS Base Mapping with 1-foot Contours

Todd King, PLS, LEED AP Business Developer

UTILIZACIÓN DE DATOS LIDAR Y SU INTEGRACIÓN CON SISTEMAS DE INFORMACIÓN GEOGRÁFICA

Remote Sensing Sensor Integration

GIS Data Collection. This chapter reviews the main methods of GIS data capture and transfer and introduces key practical management issues.

Surveying like never before

Watershed Sciences 4930 & 6920 ADVANCED GIS

Technical Considerations and Best Practices in Imagery and LiDAR Project Procurement

Learning Objectives LIGHT DETECTION AND RANGING. Sensing. Blacksburg, VA July 24 th 30 th, 2010 LiDAR: Mapping the world in 3-D Page 1

Corridor Survey of Both Existing and New to be Built Pipelines on Land Using LiDAR Scanning

Feel4U TerrEye. Tactical decision-support solutions for land management (for a better and cost-efficiency & environmental friendly land stewardship)

Geomatic & Information Technologies for Ports and Navigable Waterways. Expanding Our Global Opportunities

QUANTIFICATION OF AVAILABLE SOLAR IRRADIATION ON ROOFTOPS USING ORTHOPHOTOGRAPH AND LIDAR DATA

FREE TUTORING. Digitizing a Map. 8 Geographers Tools: Automated Mapping. The Digitized Map. Revising a Digitized Map 9/28/2018. Next class: First Exam

THE COLORED COMPARISON OF THE WALL SCULPTURE WITH 3D LASER SCANNER AND ORTHOPHOTO

GeoSmart Asia Locate 18

First Exam Thurs., Sept 28

Terrain Modeling and Mapping for Telecom Network Installation Using Scanning Technology. Maziana Muhamad

Assessing the Accuracy of Stockpile Volumes Obtained Through Aerial Surveying

Photogrammetry: DTM Extraction & Editing

8 Geographers Tools: Automated Mapping. Digitizing a Map IMPORTANT 2/19/19. v Tues., Feb. 26, 2019.

Remote Sensing Introduction to the course

Comparing Aerial Photogrammetry and 3D Laser Scanning Methods for Creating 3D Models of Complex Objects

a Geo-Odyssey of UAS LiDAR Mapping Henno Morkel UAS Segment Specialist DroneCon 17 May 2018

Comparing Aerial Photogrammetry and 3D Laser Scanning Methods for Creating 3D Models of Complex Objects

LiDAR data overview. Dr. Keiko Saito Global Facility for Disaster Reduction and Recovery (GFDRR)

Chapters 1 7: Overview

Open Pit Mines. Terrestrial LiDAR and UAV Aerial Triangulation for. Figure 1: ILRIS at work

UAV Flight Operations for Mapping. Precision. Accuracy. Reliability

MODERNIZING THE MODEL FOR STREAMBANK, WATERSHED, STORMWATER MANAGEMENT, AND FLOODPLAIN PLANNING AND RESTORATION

TLS Parameters, Workflows and Field Methods

Case Study for Long- Range Beyond Visual Line of Sight Project. March 15, 2018 RMEL Transmission and Planning Conference

8 Geographers Tools: Automated Mapping. Digitizing a Map 2/19/19 IMPORTANT. Revising a Digitized Map. The Digitized Map. vtues., Feb. 26, 2019.

TLS Parameters, Workflows and Field Methods

Photo based Terrain Data Acquisition & 3D Modeling

PRODUCING AN ORIENTEERING MAP Bill Anderson, May 2012

UAS for Surveyors. An emerging technology for the Geospatial Industry. Ian Murgatroyd : Technical Sales Rep. Trimble

Drones for research - Observing the world in 3D from a LiDAR-UAV

Using ArcGIS Server Data to Assist in Planimetric Update Process. Jim Stout - IMAGIS Rick Hammond Woolpert

GeoLas Consulting All rights reserved. LiDAR GeocodeWF Rev. 03/2012 Specifications subject to change without notice.

LiDAR Engineering and Design Applications. Sample Data

Payloads. Which one(s) are right for your organization?

Harris County Flood Control District HEC-RAS 2D Modeling Guidelines (Standardizing HEC-RAS 2D Models for Submittal Within Harris County)

Aerial and Mobile LiDAR Data Fusion

A 3D Scanner Based Technology for Land Levelling

COMPUTING SOLAR ENERGY POTENTIAL OF URBAN AREAS USING AIRBORNE LIDAR AND ORTHOIMAGERY

InSAR DEM; why it is better?

trimble unmanned aircraft systems

UAS to GIS Utilizing a low-cost Unmanned Aerial System (UAS) for Coastal Erosion Monitoring

Sensor Integration and Image Georeferencing for Airborne 3D Mapping Applications

Digital Elevation Model & Surface Analysis

LIDAR 101 & 2014 MO/AR LIDAR PARTNERS PROJECT. NEMO GIS Workshop

HYPACK HYPACK SURVEY DESIGN: HYPACK SURVEY: HYPACK EDITING: FINAL PRODUCTS: HYPACK HYPACK

Trimble MX2 mobile mapping

MODELLING FOREST CANOPY USING AIRBORNE LIDAR DATA

FOR 474: Forest Inventory. Plot Level Metrics: Getting at Canopy Heights. Plot Level Metrics: What is the Point Cloud Anyway?

Airborne Laser Survey Systems: Technology and Applications

Trimble S6. General. The Trimble S6 Total Station provides the power and flexibility required by today\'s surveying professionals.

STARTING WITH DRONES. Data Collection and Remote Sensing with UAVs, etc. Dr. Bill Hazelton LS

Transcription:

LiDAR Applications in Surveying and Engineering 2013 NC GIS Conference Raleigh, NC Frank A. Alex Rankin, III PE, PLS

What is LiDAR? Light Detection and Ranging Analogous to RADAR, but using a different part of the electromagnetic spectrum RADAR uses radio waves or microwaves

What is LiDAR? LiDAR uses light at or near the visible spectrum (Visible spectrum occupies 390 nm - 700 nm) Aerial mapping LiDAR generally uses 1064 nm Yttrium-Aluminum-Garnet lasers

What is LiDAR? LiDAR uses the laser to illuminate a target and then analyzes the reflection The narrow laser beam makes it possible to map objects with a high degree of resolution

What is LiDAR? The basic technology has been around since the 1970s, but --- Because of size, cost and complexity had limited (government) application, but --- Recent dramatic advances in laser and detection technology, computational speed, and memory storage have made commercial applications possible

What is LiDAR? Smaller, faster, smarter LiDAR makes possible direct measurement of complex and hard to access structures

What is LiDAR Depending on the wavelength laser used, LiDAR can develop 3D point clouds of a wide range of objects, such as rocks, non-metallic objects, rain, chemical compounds, aerosols, clouds, and even single molecules

What is LiDAR For Surveying and Civil Engineering the most important applications are aerial scanning and terrestrial scanning

What is LiDAR Terrestrial Scanning creates 3D models of complex objects: piping networks, roadways, archeological sites, buildings, bridges, etc.

What is LiDAR One of the advantages of Terrestrial Lidar is that objects can be measured remotely making operations such as measuring roadways under traffic much safer.

What is LiDAR Aerial Scanning has many uses - measuring agricultural productivity, distinguishing faint archeological remains, measuring tree canopy heights, determining forest biomass values, advancing the science of geomorphology, measuring volcano uplift and glacier decline, measuring snow pack, and providing data for topographic maps - to name a few

Topographic Mapping In the past decade, because of the advantages of LiDAR, it has largely displaced Photogrammetry as the process for development of large scale topographic maps

Topographic Mapping (LiDAR Advantages) LiDAR sensors can be operated in any weather (not so with cameras- the clouds get in the way) LiDAR sensors are not affected by low sun angles - which would prevent useful photos

Topographic Mapping (LiDAR Advantages) IN FACT LiDAR can actually operate at night! More hours of useful flying per day means LiDAR offers greater efficiency, faster results, and can cover more ground than photogrammetry

Topographic Mapping (LiDAR Advantages) Rural and remote areas are easier and quicker to survey with LiDAR because each point has georeferenced location and elevation no orthorectification of image no network of photo panels required

Topographic Mapping (LiDAR Advantages) Photogrammetry needs to be able to see the ground to create contours LiDAR returns come from every object illuminated the lowest being the ground wherever the sunlight hits LiDAR will return XYZ

Topographic Mapping (LiDAR Advantages) LiDAR creates a 3D model directly from the returns Photogrammetry requires the incremental comparison of a pair of stereoscopic photographs indirect and much more labor intensive

Topographic Mapping (LiDAR Advantages) Photogrammetry requires contrast to see ground surfaces desert, wetlands, beaches, coasts are difficult or impossible LiDAR results come directly from the returned signal contrast not required

Public LiDAR Resources Public sources of existing LiDAR are valuable resources for engineering and surveying firms some addresses are: http://www.ncfloodmaps.com/ https://connect.ncdot.gov/resources/gis/pa ges/cont-elev_v2.aspx http://www.nconemap.com/

Public LiDAR Resources These public sources are excellent for large scale planning processes However!

Public LiDAR Resources North Carolina Board of Examiners for Engineers and Surveyors, says..in its Spring 2012 newsletter

Public LiDAR Resources As to the use of floodplain mapping LiDAR elevation data should not be used for final design or it could lead to disciplinary action

Public LiDAR Resources But properly used these public sources provide the base information for all types of planning processes, such as developing project specific hydrology models for large areas

Public LiDAR Resources or for developing land use plans for large residential, commercial, industrial, or mixed use areas.

Public LiDAR Resources..or for view sheds for parks, trails, and other large outdoor recreational areas.

Public LiDAR Resources.evaluating the relationship to environmental sites.

Public LiDAR Resources planning for greenways and other recreational amenities.

Public LiDAR Resources planning industrial sites.

Public LiDAR Resources industrial site selection by site selection consultants (hired guns).

Public LiDAR Resources and beyond initial planning the public sources can be used for large scale schematic grading exercises

LiDAR in Civil/Surveying Firm Terrestrial LiDAR (Scanning) can rapidly map complex sites in much more detail than is possible with conventional means this makes a better base sheet for design.

LiDAR in Civil/Surveying Firm and even if not complex, it covers areas that are large (but too small to fly) quickly.

LiDAR in Civil/Surveying Firm Imagine a building filled with piping.

LiDAR in Civil/Surveying Firm imagine crawling around that piping trying to locate it by direct measurement

LiDAR in Civil/Surveying Firm and the cost (and time) savings become obvious.

LiDAR in Civil/Surveying Firm For larger areas, site specific aerial LiDAR provides base sheets for all types of project specific civil engineering design such as

LiDAR in Civil/Surveying Firm Master Planning

LiDAR in Civil/Surveying Firm Grading...

LiDAR in Civil/Surveying Firm Utilities...

LiDAR in Civil/Surveying Firm Drainage Analysis.

LiDAR in Civil/Surveying Firm Erosion Control and Stormwater Treatment

LiDAR in Civil/Surveying Firm Roadway Design

LiDAR in Civil/Surveying Firm and much, much, more. The End!

LiDAR in Civil/Surveying Firm

2024 © technodocbox.com Privacy Policy | Terms of Service | Feedback