Indoor 3D Reconstruction from Laser Scanner Data

Slides:

Advertisements

Similar presentations

One Point Perspective A step-by-step guide.

Advertisements

- Enabling Ubiquitous Positioning and Navigation Through Crowdsourcing

Real-time, low-resource corridor reconstruction using a single consumer grade RGB camera is a powerful tool for allowing a fast, inexpensive solution to.

SPONSORED BY SA2014.SIGGRAPH.ORG Annotating RGBD Images of Indoor Scenes Yu-Shiang Wong and Hung-Kuo Chu National Tsing Hua University CGV LAB.

NUS CS5247 Motion Planning for Camera Movements in Virtual Environments By Dennis Nieuwenhuisen and Mark H. Overmars In Proc. IEEE Int. Conf. on Robotics.

WINDOWS An opening especially in the wall of a building for admission of light and air that is usually closed by casements or sashes containing transparent.

A vision-based system for grasping novel objects in cluttered environments Ashutosh Saxena, Lawson Wong, Morgan Quigley, Andrew Y. Ng 2007 Learning to.

A Distributed Indoor Navigation System Leaving the Trails Thomas Wießflecker Terena Networking Conference 2009.

Extracting Minimalistic Corridor Geometry from Low-Resolution Images Yinxiao Li, Vidya, N. Murali, and Stanley T. Birchfield Department of Electrical and.

Constructing Popular Routes from Uncertain Trajectories Ling-Yin Wei 1, Yu Zheng 2, Wen-Chih Peng 1 1 National Chiao Tung University, Taiwan 2 Microsoft.

Atomic Volumes for Mesh Completion Joshua Podolak Szymon Rusinkiewicz Princeton University.

Workshop on Earth Observation for Urban Planning and Management, 20 th November 2006, HK 1 Zhilin Li & Kourosh Khoshelham Dept of Land Surveying & Geo-Informatics.

GATE D Object Representations (GATE-540) Dr.Çağatay ÜNDEĞER Instructor Middle East Technical University, GameTechnologies & General Manager SimBT.

3D Mapping Robots Intelligent Robotics School of Computer Science Jeremy Wyatt James Walker.

reconstruction process, RANSAC, primitive shapes, alpha-shapes

Geometric Probing with Light Beacons on Multiple Mobile Robots Sarah Bergbreiter CS287 Project Presentation May 1, 2002.

PLANOMETRIC VIEW OF A KITCHEN.

EL-E: Assistive Mobile Manipulator David Lattanzi Dept. of Civil and Environmental Engineering.

10 Energy Saving Advices. 1- Lowering of the temperature at night Limit the lowering of the temperature at night. If the temperature is reduced too much,

Multi-Layered Navigation Meshes Wouter G. van Toll, Atlas F. Cook IV, Roland Geraerts ICT.OPEN 2011.

IMPLEMENTATION ISSUES REGARDING A 3D ROBOT – BASED LASER SCANNING SYSTEM Theodor Borangiu, Anamaria Dogar, Alexandru Dumitrache University Politehnica.

1 Intelligent Robotics Research Centre (IRRC) Department of Electrical and Computer Systems Engineering Monash University, Australia Visual Perception.

The SmartWheeler platform Collaboration between McGill, U.Montreal, Ecole Polytechnique Montreal + 2 clinical rehab centers. Standard commercial power.

A Bayesian Approach For 3D Reconstruction From a Single Image

Gwangju Institute of Science and Technology Intelligent Design and Graphics Laboratory Multi-scale tensor voting for feature extraction from unstructured.

Localisation & Navigation

1 HVACR116 – Trade Skills Plan Views Elevations Plan Views Elevations.

On-line Space Sculpturing for 3D Shape Manipulation

SURFACE RECONSTRUCTION FROM POINT CLOUD Bo Gao Master’s Thesis December, 2007 Thesis Committee: Professor Harriet Fell Professor Robert Futrelle College.

Figure 6.1 A scan (or point cloud) created by a laser scanner.

Automated Reconstruction of Industrial Sites Frank van den Heuvel Tahir Rabbani.

Urban Building Damage Detection From Very High Resolution Imagery By One-Class SVM and Shadow Information Peijun Li, Benqin Song and Haiqing Xu Peking.

Chapter 10, Part II Edge Linking and Boundary Detection The methods discussed in the previous section yield pixels lying only on edges. This section.

Drawing & Drafting Tools. T-Square Why is the letter “T” in its name? Why is the word “square” in its name?

HVACR116 – Trade Skills Plan Views Elevations. Plan Views.

Using RouteGraphs as an Appropriate Data Structure for Navigational Tasks SFB/IQN-Kolloquium Christian Mandel, A1-[RoboMap] Overview Goal scenario.

Departments of Radiology and Medical Physics University of Wisconsin-Madison Vessel Branch Segmentation of Phase Contrast Vastly undersampled PRojection.

Image-Based Segmentation of Indoor Corridor Floors for a Mobile Robot

Image-Based Segmentation of Indoor Corridor Floors for a Mobile Robot Yinxiao Li and Stanley T. Birchfield The Holcombe Department of Electrical and Computer.

Sonar Scans of the Seabed Why?  Creating height maps, nautical depth charts.  Terrain analysis: search for oil, inspection of pipelines. How?  LIDAR.

Vision-Guided Humanoid Footstep Planning for Dynamic Environments P. Michel, J. Chestnutt, J. Kuffner, T. Kanade Carnegie Mellon University – Robotics.

® IndoorGML Introduction to the OGC Standard for Indoor Spatial Information and several applications Ki-Joune Li, IndoorGML Chair George Percivall, OGC.

3D Perception and Environment Map Generation for Humanoid Robot Navigation A DISCUSSION OF: -BY ANGELA FILLEY.

EE368 Final Project Spring 2003

A Globally Optimal Algorithm for Robust TV-L 1 Range Image Integration Christopher Zach VRVis Research Center Thomas Pock, Horst Bischof.

Indoor surveying method for 3D indoor topology retrieval for escape route planning Geo-spatioal information infra-structure Lab, Faculty of Geoinformation.

Self-Navigation Robot Using 360˚ Sensor Array

Trimble LaserAce 1000 Accuracy Evaluation for Indoor Data Acquisition

Vision-Guided Humanoid Footstep Planning for Dynamic Environments

Group 3 Corey Jamison, Joel Keeling, & Mark Langen

Danfoss Visual Inspection System

WP3 INERTIA Local Control and Automation Hub

CACTUS-Clustering Categorical Data Using Summaries

Bitmap Image Vectorization using Potrace Algorithm

Geodesics on Implicit Surfaces and Point Clouds

Real-time Wall Outline Extraction for Redirected Walking

3D Object Representations

INDOOR 3D MODEL RECONSTRUCTION TO SUPPORT

Indoor 3D Reconstruction from Laser Scanner Data

INTD 503- Materials Topic: Partition Walls

Jianping Fan Dept of CS UNC-Charlotte

Image Based Modeling and Rendering (PI: Malik)

Radio Propagation Simulation Based on Automatic 3D Environment Reconstruction D. He A novel method to simulate radio propagation is presented. The method.

DAISY Friend or Foe? Your Wearable Devices Reveal Your Personal PIN

Wood Frame Construction

Silhouette Intersection

Video Compass Jana Kosecka and Wei Zhang George Mason University

D. Girardeau-Montaut1,2, M. Roux1, R. Marc2, G. Thibault2

Topological Signatures For Fast Mobility Analysis

Point Cloud Processing

Presentation transcript:

Indoor 3D Reconstruction from Laser Scanner Data 2/28/2019 Indoor 3D Reconstruction from Laser Scanner Data Smart Indoor Models in 3D (SIMs3D) Shayan Nikoohemat November 2018 Promoter: Prof. Dr. Ir. George Vosselman

Smart Indoor Models in 3D (SIMs3D) 2/28/2019 Indoor 3D Model Reconstruction to Support Disaster Management in Large Buildings Smart Indoor Models in 3D (SIMs3D)

List of improvements to the current algorithms: 2/28/2019 Exploiting MLS Trajectory for Interpretation of Indoor laser Scanner Data List of improvements to the current algorithms: Floor separation using the trajectory Extracting the stair cases Trying the algorithm on non-Manhattan World buildings (slanted wall, sloped ceiling) Recovery of reflected points caused by reflective surfaces Improving the space partitioning to 3D instead of 2.5D … and of course write all of it in a paper  Shayan Nikoohemat

2/28/2019 Exploiting MLS Trajectory for Interpretation of Indoor laser Scanner Data Floors Separation: Use the z-histogram to find the picks as floors Turner et al. (2015) Oesau et al. (2014) Shayan Nikoohemat

2/28/2019 Exploiting MLS Trajectory for Interpretation of Indoor laser Scanner Data Floors Separation: Use the z-histogram to find the picks as floors Point clouds of a-three-floor building (Mezzanine Architecture) Floor separation by z-histogram Shayan Nikoohemat

Floors and Stairs Separation: 2/28/2019 Exploiting MLS Trajectory for Interpretation of Indoor laser Scanner Data Floors and Stairs Separation: The trajectory is used for floor separation. The trajectory is segmented. Associated points of each trajectory segment are selected as a space partition. Segmented trajectory Shayan Nikoohemat

Towards Smart Indoor 3D Models Reconstructed from Point Clouds 2/28/2019 Towards Smart Indoor 3D Models Reconstructed from Point Clouds Structure Detection in non-Manhattan World Buildings: data from Mura et al (2016) Using the support relation between two almost-vertical wall candidates to detect slanted walls supported supporter Adjacency graph Slanted Wall and non-horizontal ceiling detection based on different angle threshold Shayan Nikoohemat

Towards Smart Indoor 3D Models Reconstructed from Point Clouds 2/28/2019 Towards Smart Indoor 3D Models Reconstructed from Point Clouds Structure Detection in non-Manhattan World Buildings Case 1, 2, 3 and 4 could be handled. Case 5 can be problematic. Because the lower ceiling could be removed during the process. Ceiling Floor Wall Slanted Wall Shayan Nikoohemat

Removing reflected points caused by glass surfaces: 2/28/2019 Removing reflected points caused by glass surfaces: Top view of a room with reflected surfaces, yellow area. Top view of the same area, colored by time. Top view. Reflected segments are green. Shayan Nikoohemat

Recovering reflected points caused by glass surfaces: 2/28/2019 Recovering reflected points caused by glass surfaces: Trajectory Ghost Wall Wall Glass (a) (b) (c) (d) (e) Perspective view of a wall, glass and a reflected surface Top view of the same area Top view: recovery process Shayan Nikoohemat

Towards Smart Indoor 3D Models Reconstructed from Point Clouds 2/28/2019 Towards Smart Indoor 3D Models Reconstructed from Point Clouds Improving Space partitioning and navigable space: Intersection of the space partitions with the trajectory Perspective view Bottom view of partitions and the trajectory Removing partitions outside the building Shayan Nikoohemat

Towards Smart Indoor 3D Models Reconstructed from Point Clouds 2/28/2019 Towards Smart Indoor 3D Models Reconstructed from Point Clouds Detecting Misclassified Walls: Misclassified Walls Detection Correction Shayan Nikoohemat

Towards Smart Indoor 3D Models Reconstructed from Point Clouds 2/28/2019 Towards Smart Indoor 3D Models Reconstructed from Point Clouds Tested MLS Devices: ITC backpack NavVis M6 Zeb1 ZebRevo Shayan Nikoohemat

2/28/2019

2/28/2019 Indoor 3D Model Reconstruction to Support Disaster Management in Large Buildings WP3. Use Case Scanning a complex multi-storey building Compare the result with the BIM model ITC backpack Leica P20 iMS3D-Viametris Shayan Nikoohemat

2/28/2019 Indoor 3D Model Reconstruction to Support Disaster Management in Large Buildings WP3. Use Case Flexible Space Subdivision (FSS) for accessibility analysis (TUD method) Making a final 3D model BIM Model Space partitions first floor second floor Shayan Nikoohemat

(Geometry Extraction) 2/28/2019 Indoor 3D Model Reconstruction to Support Disaster Management in Large Buildings Smart Indoor Models in 3D (SIMs3D) Integration of WP1 and WP2 WP2 (Space Subdivision) indoor point clouds Walls, floor, ceiling Doors, openings Free space Navigable space Clutter, obstacles WP1 (Geometry Extraction)

Smart Indoor Models in 3D (SIMs3D) 2/28/2019 Indoor 3D Model Reconstruction to Support Disaster Management in Large Buildings Smart Indoor Models in 3D (SIMs3D) WP2. 3D Models and Algorithms User Centered Space Subdivision Functional Space The Flexible Space Subdivision (FSS) Framework Object-Space, Functional-Space and Remaining-Space (navigable space) FSS of a BIM model Shayan Nikoohemat

Smart Indoor Models in 3D (SIMs3D) 2/28/2019 Indoor 3D Model Reconstruction to Support Disaster Management in Large Buildings Smart Indoor Models in 3D (SIMs3D) Integration of WP1 and WP2 Motivation: using the real data to subdivide the space based on the permanent structures and dynamic objects (furniture) and agents Ongoing Publication: Automation in Construction (5 yrs impact factor 4.4) Fixing undershooting problems e.g. walls are not connected Generate volumetric walls Expected submission: End of January Shayan Nikoohemat

Smart Indoor Models in 3D (SIMs3D) 2/28/2019 Indoor 3D Model Reconstruction to Support Disaster Management in Large Buildings Smart Indoor Models in 3D (SIMs3D) Conclusion: The methods are tested successfully in different scenarios and various MLS devices. The manual corrections are trivial for an expert The accuracy of results is strongly dependent on the sensor accuracy and the noise. Future Work: Further work will be done for consistency check of the model during the integration process. Possibility of doing an internship abroad. Valorisation of the results in the future spin-off Shayan Nikoohemat