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Indoor-reconstruction-plus-plus

This is a fork of Henry Hansen's repository at https://github.com/henryhansen23/Indoor-reconstruction-plus-plus

Indoor reconstruction with Velodyne Lidar and IMU.

Notes:

Requires:

  • C++ compiler
  • boost
  • PCL with dependencies
  • CMake

Setup

Install a C++ compiler, CMake and PCL with dependencies. Compile by running $ sh compile.sh

Information:

interpolation_data_collection:

build:

This script is built upon UnaNancyOwen's simple program and uses his VelodyneCapture class. It retrieves data from the VLP-16 in forms of datapackets, which is approximately 2.38° of a full 360° scan at 300 RPM. One datapacket contains data from 24 firing sequences of the 16 lasers, which results in a maximum of 384 points per packet.

All data packets are written to a binary pcd file the moment it is retrieved, and an IMU measurement is addressed to a separate line in a CSV file. The point cloud is colored based on the intensity return, where the intensity value is converted to RGB float with a color mapping procedure.

A fragment is a stationary sweep while an odometry is a measurement done while moving to estimate the displacement. Odometry measurements can be done with normal walking speed.

The captured data will be stored in the build folder.

How to use this script with command line arguments:

Syntax Description
-h Prints a help message
-d Directory name of where to save the pcds
-f Specify fragment number (0,1,2,...,n)
-o Specify odometry number (01,12,23,...,n)
-start Specify field of view start degree [0-359]
-end Specify field of view end degree [0-359]

Example usage:

./interpolation_vlp -d data_dir -f 0 -start 270 -end 90

press ctrl c to stop the data collection.

build:

This program processes all collected point cloud data and IMU data in a data folder. Datapackets are turned into fragments and each fragment is then visualized. The odometry translation between the fragments is estimated with non-linear ICP. A rough computation time estimate for odometry is 1 minute for every 5 meters. The estimated translations are used for initial alignment for the Generalized ICP whichs align the fragments.

To reconstruct the captured scene, run the "reconstruct"-execuatable by:

./reconstruct data_dir

or with "v" for visualization of the fragment registration:

./reconstruct data_dir v