On the applicability of a scan-based mobile mapping system for monitoring the planarity and subsidence of road surfaces – Pilot study on the A44n motorway in Germany
暂无分享,去创建一个
Erik Heinz | Christian Eling | Lasse Klingbeil | Heiner Kuhlmann | L. Klingbeil | C. Eling | H. Kuhlmann | E. Heinz
[1] Alberto Holgado-Barco,et al. Semiautomatic Extraction of Road Horizontal Alignment from a Mobile LiDAR System , 2015, Comput. Aided Civ. Infrastructure Eng..
[2] Jouko Lampinen,et al. Object Classification and Recognition From Mobile Laser Scanning Point Clouds in a Road Environment , 2016, IEEE Transactions on Geoscience and Remote Sensing.
[3] Luca Vittuari,et al. A Comparative Study of the Applied Methods for Estimating Deflection of the Vertical in Terrestrial Geodetic Measurements , 2016, Sensors.
[4] George Vosselman,et al. Pole-Like Road Furniture Detection and Decomposition in Mobile Laser Scanning Data Based on Spatial Relations , 2018, Remote. Sens..
[5] Diego González-Aguilera,et al. Road safety evaluation through automatic extraction of road horizontal alignments from Mobile LiDAR System and inductive reasoning based on a decision tree , 2018, ISPRS Journal of Photogrammetry and Remote Sensing.
[6] Ying Li,et al. Mobile Laser Scanned Point-Clouds for Road Object Detection and Extraction: A Review , 2018, Remote. Sens..
[7] Hans-Gerd Maas,et al. Development of a Multi-Sensor System for Road Condition Mapping , 2014 .
[8] Zhenwei Shi,et al. Voxel-Based Extraction and Classification of 3-D Pole-Like Objects From Mobile LiDAR Point Cloud Data , 2018, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing.
[9] Wang Jin,et al. Automatic Estimation of Road Slopes and Superelevations Using Point Clouds , 2017 .
[10] L. Klingbeil,et al. Development, Calibration and Evaluation of a Portable and Direct Georeferenced Laser Scanning System for Kinematic 3D Mapping , 2015 .
[12] Cheng Wang,et al. Using mobile laser scanning data for automated extraction of road markings , 2014 .
[13] Juha Hyyppä,et al. Benchmarking the Performance of Mobile Laser Scanning Systems Using a Permanent Test Field , 2012, Sensors.
[14] Erik Heinz,et al. Strategy for Determining the Stochastic Distance Characteristics of the 2D Laser Scanner Z + F Profiler 9012A with Special Focus on the Close Range , 2018, Sensors.
[15] Burcu Akinci,et al. A semi-automated method for extracting vertical clearance and cross sections in tunnels using mobile LiDAR data , 2016 .
[16] Roderik Lindenbergh,et al. MOBILE LASER SCAN DATA FOR ROAD SURFACE DAMAGE DETECTION , 2019, The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences.
[17] Jaehoon Jung,et al. Efficient and robust lane marking extraction from mobile lidar point clouds , 2019 .
[18] Renzhong Guo,et al. Localization and Extraction of Road Poles in Urban Areas from Mobile Laser Scanning Data , 2019, Remote. Sens..
[19] Volker Schwieger,et al. Engineering Geodesy - Definition and Core Competencies , 2014 .
[20] A. Grimm,et al. THE RAILMAPPER – A DEDICATED MOBILE LIDAR MAPPING SYSTEM FOR RAILWAY NETWORKS , 2012 .
[21] Robert C. Bolles,et al. Random sample consensus: a paradigm for model fitting with applications to image analysis and automated cartography , 1981, CACM.
[22] Cheng Wang,et al. A deep learning framework for road marking extraction, classification and completion from mobile laser scanning point clouds , 2019, ISPRS Journal of Photogrammetry and Remote Sensing.
[23] Valentina Bonora,et al. Examination of Indoor Mobile Mapping Systems in a Diversified Internal/External Test Field , 2018 .
[24] Craig L. Glennie,et al. Synthesis of Transportation Applications of Mobile LIDAR , 2013, Remote. Sens..
[25] Pedro Arias,et al. Automatic Inventory of Road Cross‐Sections from Mobile Laser Scanning System , 2017, Comput. Aided Civ. Infrastructure Eng..
[26] J. Riecken,et al. Der Satellitenpositionierungsdienst der deutschen Landesvermessung – SAPOS® , 2017 .
[27] Valeria Vignali,et al. Mobile Laser Scanning System for Assessment of the Rainwater Runoff and Drainage Conditions on Road Pavements , 2015 .
[28] Tomasz Barszcz,et al. Mobile Laser Scanning Systems for Measuring the Clearance Gauge of Railways: State of Play, Testing and Outlook , 2016, Sensors.
[29] David S. Hurwitz,et al. Guidelines for the Use of Mobile LIDAR in Transportation Applications , 2013 .
[30] Yuwei Chen,et al. Semantic segmentation of road furniture in mobile laser scanning data , 2019, ISPRS Journal of Photogrammetry and Remote Sensing.
[31] Werner Lienhart,et al. Efficient and Large Scale Monitoring of Retaining Walls along Highways using a Mobile Mapping System. , 2017 .
[32] Jaehoon Jung,et al. Object Recognition, Segmentation, and Classification of Mobile Laser Scanning Point Clouds: A State of the Art Review , 2019, Sensors.
[33] On the improvement of the orthometric heights via GNSS-levelling: The case of Drama area in Greece , 2018 .
[34] Sarah Smith-Voysey,et al. Geometric validation of a ground-based mobile laser scanning system , 2008 .
[35] Gunnar Gräfe,et al. High precision kinematic surveying with laser scanners , 2007 .
[36] Alexander Schlichting,et al. Bewertung von Inertial/GNSS-Modulen mittels Laserscannern und bekannter Landmarken Evaluation of inertial measurement systems using laser scanners and known landmarks , 2014 .
[37] Yuwei Chen,et al. Multiplatform Mobile Laser Scanning: Usability and Performance , 2012, Sensors.
[38] Jens-André Paffenholz,et al. HIGH ACCURATE POINTWISE (GEO-)REFERENCING OF A K-TLS BASED MULTI-SENSOR-SYSTEM , 2018, ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences.
[39] Werner Lienhart,et al. Large-scale monitoring of retaining structures: new approaches on the safety assessment of retaining structures using mobile mapping , 2019, Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.
[40] Jonathan Li,et al. Use of mobile LiDAR in road information inventory: a review , 2016 .
[41] Erik Heinz,et al. Analysis of Different Reference Plane Setups for the Calibration of a Mobile Laser Scanning System , 2017 .
[42] Pablo Rodríguez-Gonzálvez,et al. ACCURACY EVALUATION OF A MOBILE MAPPING SYSTEM WITH ADVANCED STATISTICAL METHODS , 2015 .
[43] Paul H. Lewis,et al. PARAMETERIC ANALYSIS FOR AUTOMATED EXTRACTION OF ROAD EDGES FROM MOBILE LASER SCANNING DATA , 2015 .
[44] Alberto Holgado-Barco,et al. An automated approach to vertical road characterisation using mobile LiDAR systems: Longitudinal profiles and cross-sections , 2014 .
[45] Antero Kukko,et al. Mobile mapping of night-time road environment lighting conditions , 2018 .