Venice2020 Building Heights Detection: Difference between revisions

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Building height is one of the most important information to consider for urban planning, economic analysis, digital twin implementation, and so on. For Time Machine implementation, it is important to compare different historical data and current data based on different times. Drones and Google Maps provide 3D views of buildings and surroundings in detail which are useful resources to keep track of changes in a target place. In this project, we aim to detect the building heights of Venice. Many geographical areas, which are either not famous or not accessible easily are accessible by Google Earth 3D views. We aim to make a 3D model of Venice with every detail of the city and calculate point clouds to detect the heights of the city. This information can be used to understand current details of the city and also will be useful in the future as historical data to compare with.
Building height is one of the most important information to consider for urban planning, economic analysis, digital twin implementation, and so on. For Time Machine implementation, it is important to compare different historical data and current data based on different times. Drones and Google Maps provide 3D views of buildings and surroundings in detail which are useful resources to keep track of changes in a target place. In this project, we aim to detect the building heights of Venice. Many geographical areas, which are either not famous or not accessible easily are accessible by Google Earth 3D views. We aim to make a 3D model of Venice with every detail of the city and calculate point clouds to detect the heights of the city. This information can be used to understand current details of the city and also will be useful in the future as historical data to compare with.
= Data Collection =
To build three dimensional point cloud models
=== Youtube video ===
=== Google earth ===


= Milestones =
= Milestones =
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* Build the digital elevation model of Venice and align the model with open street map and cadaster in the 16th century to obtain building heights
* Build the digital elevation model of Venice and align the model with open street map and cadaster in the 16th century to obtain building heights
* Assess the accuracy of the building heights detection
* Assess the accuracy of the building heights detection


= Planning =
= Planning =

Revision as of 22:38, 6 December 2021

Introduction

The main goal of our project is to obtain the height information of buildings in Venice. In order to achieve this goal, we construct a point cloud model of Venice with drone video from youtube and google earth with the help of a photogrammetry tool developed at DHLAB.

Motivation

Building height is one of the most important information to consider for urban planning, economic analysis, digital twin implementation, and so on. For Time Machine implementation, it is important to compare different historical data and current data based on different times. Drones and Google Maps provide 3D views of buildings and surroundings in detail which are useful resources to keep track of changes in a target place. In this project, we aim to detect the building heights of Venice. Many geographical areas, which are either not famous or not accessible easily are accessible by Google Earth 3D views. We aim to make a 3D model of Venice with every detail of the city and calculate point clouds to detect the heights of the city. This information can be used to understand current details of the city and also will be useful in the future as historical data to compare with.

Data Collection

To build three dimensional point cloud models

Youtube video

Google earth

Milestones

Milestone 1

  • Get familiar with OpenMVG, Open3D, OpenGM, Point Cloud Library, Agisoft Metashape, Blender, CloudCompare and QGIS
  • Collect high resolution venice drone videos on youtube and record Google Earth birdview videos as supplementary materials

Milestone 2

  • Align photos of the same location in Venice, derive sparse point clouds made up of only high-quality tie points and repeated optimize the camara model by reconstruction uncertainty filtering, projection accuracy filtering and reprojection error filtering.
  • Build dense point clouds using the estimated camera positions generated during sparse point cloud based matching and the depth map for each camera
  • Evaluate point clouds objective quality and select high quality models by point-based approaches which can assess both geometry and color distortions

Milestone 3

  • Align and compose dense point clouds of different spots to generate an integrated Venice dense cloud model (implement registration with partially overlapping terrestrial point clouds)
  • Build Venice 3D model (mesh) and tilted model according to dense point cloud data
  • Generate plane of the surface ground

Milestone 4

  • Build the digital elevation model of Venice and align the model with open street map and cadaster in the 16th century to obtain building heights
  • Assess the accuracy of the building heights detection


Planning

Week Tasks Completion
week 5
  • Brainstorm and present initial ideas for the project
week 6-7
  • Configure the environment and master the related softwares and libraries
  • Find suitable drone videos on YouTube and obtain photos for further photogrammetry work
week 8-9
  • Align photos, generate and denoise dense point clouds
  • Assess the quality of point clouds both subjectively and objectively
week 10
  • Implement ground segmentation
  • Collect screenshots of buildings from Venice on Google Earth
  • Prepare for the midterm presentation
week 11
  • Calculate the height of buildings and generate map layers with building height information
  • Evaluate the models based on the overlapped parts in the map layer with building height information
week 12
  • Build 3D model, tiled model of Venice
  • Align the height information layers with OpenStreetMap
week 13
  • Write final report, refine the map layers with building height information and the final models
week 14
  • Refine the final report and code
  • Prepare for final presentation