Integrated GPS/GIS Mapping
    Roadside Features Inventory Program.

Photo/Video Log
    Automated road sign inventory system based on stereo vision and tracking.
    Automatic road extraction from dense urban area by integrated processing of high resolution imagery and lidar data.
    Enhanced Roadway Geometry Data Collection Using an Effective Video Log Image-Processing Algorithm.
    Ground-based Image and Data Acquisition Systems for Roadway Inventories in New England A Synthesis of Highway Practice.
    Image-based 3D reconstruction and Recognition for Enhanced Highway Condition Assessment.
    Mobile Digital Cameras for As-Built Surveys of Roadside Features.
    Mobile highway inventory and measurement system.
    Technology Transfer of As-Built and Preliminary Surveys Using GPS, Soft Photogrammetry, and Video Logging.
    Using Image Pattern Recognition Algorithms for Processing Video Log Images to Enhance Infrastructure Data Collection.
    Video based Asset Data Collection at NJDOT.

Satellite/Aerial Imagery
    Evaluating Remotely Sensed Images for Use in Inventorying Roadway Infrastructure Features.
    Roadway Intersection Inventory and Remote Sensing.
    3D laser scanning for road safety and accident reconstruction.
    Terrestrial Laser Scanning Specifications.
    Evaluation of 3-D Laser Scanning for Construction Application

Airborne LiDAR
    Application of light detection and ranging technology to highway safety.
    Airborne Laser Terrain Mapping for Expediting Highway Projects: Evaluation of Accuracy and Cost.
    Airborne LIDAR digital terrain mapping for transportation infrastructure asset management.
    Automatic road extraction from dense urban area by integrated processing of high resolution imagery and lidar data.
    Effects of lidar post-spacing and DEM resolution to mean slope estimation.
    Extraction of road geometry parameters from laser scanning and existing databases.
    Geometrical aspects of airborne laser scanning and terrestrial laser scanning.
    Grade and cross slope estimation from LiDAR-based surface models.
    Integration of LIDAR and stereoscopic imagery for route corridor surveying.
    Remote sensing of urban/suburban infrastructure and socio-economic attributes.
    Road grade estimation for on-road vehicle emission modeling using LIDAR data.
    Utilization of LiDAR technology for highway inventory.

Mobile Terrestrial Laser Scanning (Mobile LiDAR)
    3D object detection from roadside data using laser scanners.
    Automation and Mobile Mapping for Safe and Accurate Pavement Analysis.
    Detection of vertical pole-like objects in a road environment using vehicle-based laser scanning data.
    Engineering monitoring of rockfall hazards along transportation corridors: using mobile terrestrial LiDAR.
    Feature Level Fusion of Laser Scanner and Video Data for Advanced Driver Assistance Systems
    Geometric validation of a ground-based mobile laser scanning system.
    Geometrical aspects of airborne laser scanning and terrestrial laser scanning.
    Grammar supported facade reconstruction from mobile LIDAR mapping.
    Implementation of IP-S2 Mobile Mapping Technology for Highway Asset Visualization in Data Collection to Benefit VT-VDOT TAMS Project.
    LiDAR for Data Efficiency.
    Mobile Mapping Systems Overview.
    Recognising structure in laser scanner point clouds.
    Recognizing basic structures from mobile laser scanning data for road inventory studies.
    Using Mobile Laser Scanning to Produce Digital Terrain Models of Pavement Surfaces.
    Automated mobile mapping for asset managers.
    Mobile mapping technology for road network data acquisition.

Comprehensive Studies
    Collection and presentation of roadway inventory data, National Academy Press.
    An Evaluation of Commercially Available Remote Sensors for Assessing Highway Bridge Condition.
    Highway Feature and Characteristics Database Development Using Commercial Remote Sensing Technologies, Combined with Mobile Mapping, GIS and GPS.
    Inventory and Assessing Conditions of Roadside Features Statewide.
    Light Detection and Ranging (LiDAR) Technology Evaluation.
    New and existing roadway inventory data acquisition methods.