https://github.com/cwi-dis/cwipc_test

https://github.com/cwi-dis/cwipc_test

Science Score: 26.0%

This score indicates how likely this project is to be science-related based on various indicators:

  • CITATION.cff file
  • codemeta.json file
    Found codemeta.json file
  • .zenodo.json file
    Found .zenodo.json file
  • DOI references
  • Academic publication links
  • Academic email domains
  • Institutional organization owner
  • JOSS paper metadata
  • Scientific vocabulary similarity
    Low similarity (9.0%) to scientific vocabulary
Last synced: 10 months ago · JSON representation

Repository

Basic Info
  • Host: GitHub
  • Owner: cwi-dis
  • Language: Python
  • Default Branch: master
  • Size: 364 MB
Statistics
  • Stars: 3
  • Watchers: 5
  • Forks: 0
  • Open Issues: 1
  • Releases: 0
Created over 4 years ago · Last pushed 10 months ago
Metadata Files
Readme

readme.md

cwipc_test

Repo for pointcloud tests and other miscellaneous stuff.

Samples

Various sets of compressed and uncompressed point cloud sequences. See Samples/readme.md.

doc

Historical significance: documentation of the VRTogether pipeline.

pointcloud-color-test

Documents for testing point cloud capture color matching.

pointcloud-registration-test

Documents for testing point cloud registration.

test

Helper scripts

Installing developer dependencies

There is a script checkinstall-win.sh that tries to check whether all VRtogether modules and all third-party dependencies have been installed and are on PATH correctly.

There is a script installall-win.sh that will try to install all VRtogether releases.

Installing the third party dependencies has to be done manually. Currently the information on what to install is scattered around the various README files of all the modules.

Building everything from source

The are scripts buildall.sh, cleanall.sh and buildall-win.sh which build and clean checked out copies of the cwipc_* modules, but probably only if your layout is the same as for Jack.

Doc

Some documents by Jack on the architecture (because he can't get his head around Google Docs for anything but the simplest word processing and spreadsheet documents).

Sync testing

The arduino program in neopixelsync should be built and flashed onto an Arduino Nano. Attach a strip of 18 neopixels (pin 6 is the data connection). Connect to USB power supply. The first two pixels will light up red and orangeish, the third pixel will be off. The rest will be a strip of green ones, with each next pixel lit up 3ms after the previous one.

The script in synch-scripts/dumpframes.sh will capture 10 pointclouds from all attached cameras, and in addition it will dump the PNG images from the RGB data. Point all cameras at the led strip. Compare the corresponding images to see whether the cameras are in sync.

sandbox

Random junk that may be useful.

Owner

  • Name: cwi-dis
  • Login: cwi-dis
  • Kind: organization
  • Location: Amsterdam, the Netherlands

CWI Distributed and Interactive Systems Group

GitHub Events

Total
  • Issues event: 2
  • Watch event: 1
  • Push event: 64
Last Year
  • Issues event: 2
  • Watch event: 1
  • Push event: 64