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== Introduction == | == Introduction == | ||
− | This page lists software published under a [https://en.wikipedia.org/wiki/Free_software Free/libre] or [https://en.wikipedia.org/wiki/Open_source Open Source] (FLOSS) software license. It lists many types of packages for many purposes and is surely not comprehensive as the reach of FLOSS is extensive and always growing. If you know of anything we're missing please | + | This page lists software published under a [https://en.wikipedia.org/wiki/Free_software Free/libre] or [https://en.wikipedia.org/wiki/Open_source Open Source] (FLOSS) software license. It lists many types of packages for many purposes and is surely not comprehensive as the reach of FLOSS is extensive and always growing. If you know of anything we're missing please let us know by just adding it wherever you think it makes sense. |
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− | We are not the only group trying to promote free/libre software for AEC. Here are some other software lists: [https://help.ubuntu.com/community/UbuntuEngineering Ubuntu software list for engineering] (needs an update), [https://www.caelinux.com/CMS3/ CAELinux] is a distribution, forum and software list | + | We are not the only group trying to promote free/libre software for AEC. Here are some other software lists: [https://help.ubuntu.com/community/UbuntuEngineering Ubuntu software list for engineering] (needs an update), [https://www.caelinux.com/CMS3/ CAELinux] is a distribution, forum and software list. |
== General Purpose == | == General Purpose == | ||
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! Name | ! Name | ||
! Description | ! Description | ||
− | ! | + | ! License |
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| [[File:icon_blender_icon_64x64.png]] | | [[File:icon_blender_icon_64x64.png]] | ||
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| [https://www.blender.org/about/license/ GPLv3-only] | | [https://www.blender.org/about/license/ GPLv3-only] | ||
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| [http://dev.first-draft.xyz/ First Draft] | | [http://dev.first-draft.xyz/ First Draft] | ||
− | | A real time, web-based whiteboarding and markup tool. | + | | A real time, web-based whiteboarding and markup tool. Code: https://gitlab.com/MeldCE/first-draft |
| [https://gitlab.com/MeldCE/first-draft/-/blob/master/LICENSE GPLv3-only] | | [https://gitlab.com/MeldCE/first-draft/-/blob/master/LICENSE GPLv3-only] | ||
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| [[File:icon_FreeCAD.png]] | | [[File:icon_FreeCAD.png]] | ||
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| [[FreeCAD]] is an open-source parametric 3D modeler made primarily to design real-life objects of any size. Parametric modeling allows you to easily modify your design by going back into your model history and changing its parameters | | [[FreeCAD]] is an open-source parametric 3D modeler made primarily to design real-life objects of any size. Parametric modeling allows you to easily modify your design by going back into your model history and changing its parameters | ||
| [https://github.com/FreeCAD/FreeCAD/blob/master/LICENSE LGPLv2-only] | | [https://github.com/FreeCAD/FreeCAD/blob/master/LICENSE LGPLv2-only] | ||
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| [[File:icon_krita_icon.png]] | | [[File:icon_krita_icon.png]] | ||
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|} | |} | ||
− | == GIS | + | == GIS == |
− | Geographic Information Systems are used to interrogate GIS-level data, overlay multiple data sets, and integrate with BIM data. | + | Geographic Information Systems are used to interrogate GIS-level data, overlay multiple data sets, and integrate with BIM data. |
{| class="mw-collapsible wikitable sortable" | {| class="mw-collapsible wikitable sortable" | ||
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| [[BlenderGIS add-on|BlenderGIS]] | | [[BlenderGIS add-on|BlenderGIS]] | ||
− | + | | Blender add-on. Make the bridge between Blender and geographic data | |
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
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| [[GPL-3.0]] | | [[GPL-3.0]] | ||
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− | | [[File: | + | | [[File:Grassgis_logo_colorlogo_text_whitebg_64.png]] |
| [[GRASS GIS]] | | [[GRASS GIS]] | ||
| Geographic Resources Analysis Support System (GRASS) from the U.S. Army Corps of Engineers' Construction Engineering Research Laboratory (USA/CERL) | | Geographic Resources Analysis Support System (GRASS) from the U.S. Army Corps of Engineers' Construction Engineering Research Laboratory (USA/CERL) | ||
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| [https://josm.openstreetmap.de/ JOSM] | | [https://josm.openstreetmap.de/ JOSM] | ||
| JOSM is an extensible editor for OpenStreetMap (OSM) for Java 8+. It supports loading GPX tracks, background imagery, and OSM data from local sources as well as from online sources and allows to edit the OSM data (nodes, ways, and relations) and their metadata tags. | | JOSM is an extensible editor for OpenStreetMap (OSM) for Java 8+. It supports loading GPX tracks, background imagery, and OSM data from local sources as well as from online sources and allows to edit the OSM data (nodes, ways, and relations) and their metadata tags. | ||
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| [[GPL-2.0]] | | [[GPL-2.0]] | ||
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| [[File:Icon mago3D 64x64.png]] | | [[File:Icon mago3D 64x64.png]] | ||
− | | [http://www.mago3d.com/eng/ | + | | [http://www.mago3d.com/eng/ mago3D] |
| mago3D seamlessly integrates AEC (Architecture, Engineering, Construction) and 3D GIS in web browser using Cesium. | | mago3D seamlessly integrates AEC (Architecture, Engineering, Construction) and 3D GIS in web browser using Cesium. | ||
| [[Apache-2.0]] | | [[Apache-2.0]] | ||
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| OpenStreetMaps is a community built map of the world, powering map data about roads, trails, cafés, railway stations, and much more, on thousands of web sites, mobile apps, and hardware devices. | | OpenStreetMaps is a community built map of the world, powering map data about roads, trails, cafés, railway stations, and much more, on thousands of web sites, mobile apps, and hardware devices. | ||
| [[ODbL]] | | [[ODbL]] | ||
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| [[File:Icon_qgis_64x64.jpeg]] | | [[File:Icon_qgis_64x64.jpeg]] | ||
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| [[File:Icon_qfield-logo.svg]] | | [[File:Icon_qfield-logo.svg]] | ||
| [https://qfield.org QField] | | [https://qfield.org QField] | ||
− | | An android | + | | An android app that syncs your QGIS projects to a mobile device and allows for in the field GIS data viewing and entry. |
| [[GPL-2.0]] | | [[GPL-2.0]] | ||
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== Visualisation and Documentation == | == Visualisation and Documentation == | ||
− | Open source tools useful for all graphical work involved in the process of architecture design. 3D render generation, image manipulation, page layout, etc. For a list of relevant pages including documentation and tutorials see [[:Category:Visualization | + | Open source tools useful for all graphical work involved in the process of architecture design. 3D render generation, image manipulation, page layout, etc. For a list of relevant pages including documentation and tutorials see [[:Category:Visualization and Documentation]]. |
{| class="mw-collapsible wikitable sortable" | {| class="mw-collapsible wikitable sortable" | ||
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| [[File:Appleseed logo.png|64px]] | | [[File:Appleseed logo.png|64px]] | ||
| [https://appleseedhq.net/ Appleseed] | | [https://appleseedhq.net/ Appleseed] | ||
− | | | + | | appleseed is an open source, physically-based global illumination rendering engine primarily designed for animation and visual effects. It provides individuals and small studios with a complete, reliable, fully open rendering package built with modern technologies. |
| [[MIT]] | | [[MIT]] | ||
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| Blender is the free and open source 3D creation suite. It supports the entirety of the 3D pipeline—modeling, rigging, animation, simulation, rendering, compositing and motion tracking, video editing and 2D animation pipeline. | | Blender is the free and open source 3D creation suite. It supports the entirety of the 3D pipeline—modeling, rigging, animation, simulation, rendering, compositing and motion tracking, video editing and 2D animation pipeline. | ||
| [[GPL-2.0]] | | [[GPL-2.0]] | ||
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| [[:Category:Blender_Add-on|Blender add-on]]. A free tool developed for quickly testing and deploying virtual / interactive visualizations, by linking Blender to the Godot Engine. Blender2Godot is a Blender3D addon that exports a Blender 3D scene to a Godot Engine project. This addon is in alpha state and thus still has a lot of bugs. | | [[:Category:Blender_Add-on|Blender add-on]]. A free tool developed for quickly testing and deploying virtual / interactive visualizations, by linking Blender to the Godot Engine. Blender2Godot is a Blender3D addon that exports a Blender 3D scene to a Godot Engine project. This addon is in alpha state and thus still has a lot of bugs. | ||
| [[GPL]] | | [[GPL]] | ||
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| [[File:Icon_gimp_64x64.png]] | | [[File:Icon_gimp_64x64.png]] | ||
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| LuxCoreRender is a physically based and unbiased rendering engine. Based on state of the art algorithms, LuxCoreRender simulates the flow of light according to physical equations, thus producing realistic images of photographic quality. | | LuxCoreRender is a physically based and unbiased rendering engine. Based on state of the art algorithms, LuxCoreRender simulates the flow of light according to physical equations, thus producing realistic images of photographic quality. | ||
| [[Apache-2.0]] | | [[Apache-2.0]] | ||
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| Mitsuba 2 is a research-oriented retargetable rendering system, written in portable C++17 on top of the Enoki library. It is developed by the Realistic Graphics Lab at EPFL. | | Mitsuba 2 is a research-oriented retargetable rendering system, written in portable C++17 on top of the Enoki library. It is developed by the Realistic Graphics Lab at EPFL. | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
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+ | | [https://www.openspace3d.com/ OpenSpace3D] | ||
+ | | OpenSpace3D is a free and open-source platform, designed to create virtual and augmented-reality applications or games. | ||
+ | If you are a 3D artist, a designer, a lab researcher, or just someone with a lot of passion and curiosity, you don’t need software development skills to use our platform. | ||
+ | | [[LGPL-3.0]] | ||
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| [[File:Icon scribus 64.png]] | | [[File:Icon scribus 64.png]] | ||
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| Scribus is a page layout and desktop publishing program. Scribus supports professional publishing features, such as CMYK colors, spot colors, ICC color management and versatile PDF creation. Scribus has many unexpected touches, such as powerful vector drawing tools, support for a huge number of file types via import/export filters, emulation of color blindness or the rendering of markup languages like LaTeX or Lilypond inside Scribus. The Scribus file format is XML-based and open. | | Scribus is a page layout and desktop publishing program. Scribus supports professional publishing features, such as CMYK colors, spot colors, ICC color management and versatile PDF creation. Scribus has many unexpected touches, such as powerful vector drawing tools, support for a huge number of file types via import/export filters, emulation of color blindness or the rendering of markup languages like LaTeX or Lilypond inside Scribus. The Scribus file format is XML-based and open. | ||
| [[LGPL-2.1]] | | [[LGPL-2.1]] | ||
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|} | |} | ||
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! Description | ! Description | ||
! License | ! License | ||
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| [[File:Icon_cloudcompare.jpg|CloudCompare|64x64px]] | | [[File:Icon_cloudcompare.jpg|CloudCompare|64x64px]] | ||
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| [[GPL-3.0]] | | [[GPL-3.0]] | ||
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| [[File:Odm-logo.svg|OpenDroneMap|64x64px]] | | [[File:Odm-logo.svg|OpenDroneMap|64x64px]] | ||
| [https://www.opendronemap.org/ Open Drone Map] | | [https://www.opendronemap.org/ Open Drone Map] | ||
| Generate maps, point clouds, DEMs and 3D models from aerial images. | | Generate maps, point clouds, DEMs and 3D models from aerial images. | ||
− | | [[ | + | | [[GPL-3.0]]/[[MPL-2]] |
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| [[File:Point_cloud_visualizer.png|Point Cloud Visualizer|64x64px]] | | [[File:Point_cloud_visualizer.png|Point Cloud Visualizer|64x64px]] | ||
| [[Point Cloud Visualizer]] | | [[Point Cloud Visualizer]] | ||
− | | [[:Category:Blender_Add-on|Blender add-on]]. Display, edit, filter, render, convert, generate and export colored point cloud PLY files in Blender. | + | | [[:Category:Blender_Add-on|Blender add-on]]. Display, edit, filter, render, convert, generate and export colored point cloud PLY files in Blender. |
| [[GPL-2.0]] | | [[GPL-2.0]] | ||
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| [http://www.regard3d.org Regard3D] | | [http://www.regard3d.org Regard3D] | ||
| A free and open source structure-from-motion program. It converts photos of an object, taken from different angles, into a 3D model of this object. | | A free and open source structure-from-motion program. It converts photos of an object, taken from different angles, into a 3D model of this object. | ||
− | | [ | + | | [[MIT license]] |
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| [[File:Total_Open_Station.png|Total Open Station|64x64px]] | | [[File:Total_Open_Station.png|Total Open Station|64x64px]] | ||
| [https://tops.iosa.it/ Total Open Station] | | [https://tops.iosa.it/ Total Open Station] | ||
− | | Total Open Station (TOPS) downloads land survey data from total stations on your computer, from almost any operating system. Data you download can be archived as is, and exported to exchange formats (CSV, [[ | + | | Total Open Station (TOPS) downloads land survey data from total stations on your computer, from almost any operating system. Data you download can be archived as is, and exported to exchange formats (CSV, [[DXF]], GeoJSON, ...) for use in CAD or GIS software. |
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
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! Description | ! Description | ||
! License | ! License | ||
+ | ! Code | ||
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| [[File:Icon_ArchiPack_64.png]] | | [[File:Icon_ArchiPack_64.png]] | ||
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| [[:Category:Blender_Add-on|Blender add-on]]. Quickly model parametric architectural objects in Blender, with a real-time, on-screen editing interface, designed for speed. | | [[:Category:Blender_Add-on|Blender add-on]]. Quickly model parametric architectural objects in Blender, with a real-time, on-screen editing interface, designed for speed. | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
+ | | Not publicly hosted | ||
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− | | [[File:BHoM_icon.png | + | | [[File:BHoM_icon.png]] |
| [[BHoM]] | | [[BHoM]] | ||
| "The Buildings and Habitats object Model. A collaborative computational development project and collective experiment. By sharing and co-creating code we can better shape our environment and our future. We want technology to be open and accessible for all. And we think that by working together we can solve harder more impactful problems for the world." | | "The Buildings and Habitats object Model. A collaborative computational development project and collective experiment. By sharing and co-creating code we can better shape our environment and our future. We want technology to be open and accessible for all. And we think that by working together we can solve harder more impactful problems for the world." | ||
| [[LGPL-3.0]] | | [[LGPL-3.0]] | ||
+ | | [https://github.com/BHoM GitHub] | ||
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| [[File:BlenderBIM_Addon_logo.png|64x64px]] | | [[File:BlenderBIM_Addon_logo.png|64x64px]] | ||
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| [[:Category:Blender_Add-on|Blender add-on]]. An add-on for beautiful, detailed, and data-rich [[OpenBIM]] with [[Blender]]. Create data-rich [[Industry_Foundation_Class|IFC]]4 data to future-proof your BIM data and integrate with the rest of the [[OpenBIM]] ecosystem. | | [[:Category:Blender_Add-on|Blender add-on]]. An add-on for beautiful, detailed, and data-rich [[OpenBIM]] with [[Blender]]. Create data-rich [[Industry_Foundation_Class|IFC]]4 data to future-proof your BIM data and integrate with the rest of the [[OpenBIM]] ecosystem. | ||
| [[LGPL-2.0]] | | [[LGPL-2.0]] | ||
− | | | + | | [https://github.com/IfcOpenShell/IfcOpenShell Github] |
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| [[File:Icon_CADTransform_64.png]] | | [[File:Icon_CADTransform_64.png]] | ||
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| [[:Category:Blender_Add-on|Blender add-on]]. CAD like transform operations for blender 2.8+ | | [[:Category:Blender_Add-on|Blender add-on]]. CAD like transform operations for blender 2.8+ | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
− | | | + | | Not publicly hosted |
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| [[File:Compas_icon_white.png|64px]] | | [[File:Compas_icon_white.png|64px]] | ||
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| "A computational framework for collaboration and research in Architecture, Engineering, Fabrication, and Construction" | | "A computational framework for collaboration and research in Architecture, Engineering, Fabrication, and Construction" | ||
| [[MIT]] | | [[MIT]] | ||
− | + | | [https://github.com/compas-dev Github] | |
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− | | [https://github.com/ | ||
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| [[File:DynFreeCAD icon.svg]] | | [[File:DynFreeCAD icon.svg]] | ||
− | | [ | + | | [https://github.com/infeeeee/DynFreeCAD DynFreeCAD] |
| [[Dynamo]] nodes for the FreeCAD API | | [[Dynamo]] nodes for the FreeCAD API | ||
| [[MIT]] | | [[MIT]] | ||
+ | | [https://github.com/infeeeee/DynFreeCAD Github] | ||
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| [https://creativedesigner3d.com/ Home Builder Asset Library] | | [https://creativedesigner3d.com/ Home Builder Asset Library] | ||
| A PyClone Blender asset library designed to help with architectural and interior design | | A PyClone Blender asset library designed to help with architectural and interior design | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
+ | | [https://github.com/CreativeDesigner3D/Library_Home_Builder Github] | ||
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+ | | [[File:Icon BRL-CAD 64.png]] | ||
+ | | [https://brlcad.org/ BRL-CAD] | ||
+ | | BRL-CAD is a powerful open source cross-platform solid modeling system that includes interactive geometry editing, high-performance ray-tracing for rendering and geometric analysis, a system performance analysis benchmark suite, geometry libraries for application developers, and more than 30 years of active development. | ||
+ | | [[BSD]] / [[LGPL]] | ||
+ | | [https://sourceforge.net/projects/brlcad/ SourceForge] | ||
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− | | | + | | [[File:Icon FreeCAD.png]] |
− | | [ | + | | [[FreeCAD]] |
− | | | + | | FreeCAD is an open-source, extensible, parametric 2D and 3D modeler primarily designed for mechanical engineering but which can be used in many different fields like machining, routing, 3D printing, finite element analysis, and of course, architecture and construction. Parametric modeling allows you to modify your design by going back into your model history and changing its parameters |
− | | [[ | + | | [[LGPL-2.0]] |
+ | | [https://github.com/FreeCAD Github] | ||
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| [[File:Icon_LibreCAD_icon.png]] | | [[File:Icon_LibreCAD_icon.png]] | ||
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| LibreCAD is a free Open Source 2D CAD application for Windows, Apple and Linux. Support and documentation are free from our large, dedicated community of users, contributors and developers. | | LibreCAD is a free Open Source 2D CAD application for Windows, Apple and Linux. Support and documentation are free from our large, dedicated community of users, contributors and developers. | ||
| [[GPL-2.0]] | | [[GPL-2.0]] | ||
+ | | [https://sourceforge.net/projects/librecad/ SourceForge] | ||
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− | | [ | + | | [[LX-Viewer]] |
| LX-Viewer (Linux Drawing Viewer) is a program that will allow you to open, view, print DXF files. The most important feature is that LX-Viewer allows you to manipulate your DXF data on the Linux platform. You may zoom and pan the drawing as you would in AutoCAD. Files can be saved to BMP, SVG and PNG formats. It runs on Linux and Windows platforms. | | LX-Viewer (Linux Drawing Viewer) is a program that will allow you to open, view, print DXF files. The most important feature is that LX-Viewer allows you to manipulate your DXF data on the Linux platform. You may zoom and pan the drawing as you would in AutoCAD. Files can be saved to BMP, SVG and PNG formats. It runs on Linux and Windows platforms. | ||
| [[GPL-2.0]] | | [[GPL-2.0]] | ||
+ | | [http://lx-viewer.sourceforge.net/ SourceForge] | ||
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| [[:Category:Blender_Add-on|Blender add-on]]. An expansion of Antonio Vazquez's MeasureIt add-on to add features to create Architectural Drawings and 3D measurements in Blender 2.8. | | [[:Category:Blender_Add-on|Blender add-on]]. An expansion of Antonio Vazquez's MeasureIt add-on to add features to create Architectural Drawings and 3D measurements in Blender 2.8. | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
+ | | [https://github.com/kevancress/MeasureIt_ARCH/releases Github] | ||
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| Prism is an open source app which accelerates the design process for precision manufactured housing (PMH) for London. It is free and easy to use and combines the Mayor of London’s spatial planning rules with precision manufacturer expertise to help you to quickly determine viable PMH options for your development. | | Prism is an open source app which accelerates the design process for precision manufactured housing (PMH) for London. It is free and easy to use and combines the Mayor of London’s spatial planning rules with precision manufacturer expertise to help you to quickly determine viable PMH options for your development. | ||
| [[MIT]] | | [[MIT]] | ||
+ | | | ||
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− | | [https:// | + | | [[PyFlow]] |
− | + | | PyFlow is a general purpose visual scripting framework for python. | |
− | + | | [[Apache-2.0]] | |
+ | | [https://github.com/wonderworks-software/PyFlow Github] | ||
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| [[File:Icon QCAD.png]] | | [[File:Icon QCAD.png]] | ||
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| QCAD is a free, open source application for computer aided drafting (CAD) in two dimensions (2D). With QCAD you can create technical drawings such as plans for buildings, interiors, mechanical parts or schematics and diagrams. QCAD works on Windows, macOS and Linux. | | QCAD is a free, open source application for computer aided drafting (CAD) in two dimensions (2D). With QCAD you can create technical drawings such as plans for buildings, interiors, mechanical parts or schematics and diagrams. QCAD works on Windows, macOS and Linux. | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
+ | | [https://github.com/qcad/qcad Github] | ||
|- | |- | ||
− | | [ | + | | |
− | + | | [http://solvespace.com SolveSpace] | |
− | | Small but capable parametric | + | | Small but capable parametric 2d/3d CAD application. Highly interactive, and well documented. Modeling is currently limited to extrusions, rotational objects and boolean operations. Probably a good starting point for learning the basics of constraint-based modeling. Stable version ([https://github.com/solvespace/solvespace/releases/tag/v2.3 2.3]) in debian repository and released for Mac and Windows, more recent binaries for Linux can be found e.g. on [https://notesalexp.org notesalexp.org]. |
− | | [https://github.com/solvespace/solvespace | + | | [[GPL-3.0]] |
+ | | [https://github.com/solvespace/solvespace Github] | ||
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| [[:Category:Blender_Add-on|Blender add-on]]. Sorcar is a procedural modeling node-based system which utilizes Blender and its Python API to create a visual programming environment for artists and developers. Heavily inspired by Side-FX Houdini, it presents a node editor with a variety of modular nodes to make the modelling workflow easier and fast. | | [[:Category:Blender_Add-on|Blender add-on]]. Sorcar is a procedural modeling node-based system which utilizes Blender and its Python API to create a visual programming environment for artists and developers. Heavily inspired by Side-FX Houdini, it presents a node editor with a variety of modular nodes to make the modelling workflow easier and fast. | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
+ | | [https://github.com/aachman98/Sorcar Github] | ||
|- | |- | ||
| [[File:Icon speckle 64.png]] | | [[File:Icon speckle 64.png]] | ||
| [[Speckle]] | | [[Speckle]] | ||
− | | Speckle is an open source cloud-based data platform for AEC. It provides a method of liberating data from one platform to another in a quick, manageable, and efficient way. It works with Blender, ThreeJS, Rhino, Grasshopper, Excel, Unity, GSA, [[Revit]] | + | | Speckle is an open source cloud-based data platform for AEC. It provides a method of liberating data from one platform to another in a quick, manageable, and efficient way. It works with Blender, ThreeJS, Rhino, Grasshopper, Excel, Unity, GSA, [[Revit]], and Dynamo. |
| [[MIT]] | | [[MIT]] | ||
+ | | [https://github.com/specklesystems Github] | ||
|- | |- | ||
− | | | + | | |
| [[Sverchok]] | | [[Sverchok]] | ||
| [[:Category:Blender_Add-on|Blender add-on]]. Sverchok is a parametric tool for architects and designers for Blender. You can use it to program objects' shapes without knowing any programming languages. Sverchok has been inspired by Grasshopper from Rhino 3D and it uses a similar node-based visual programming principle. We are trying to bring this feature set to Blender users. | | [[:Category:Blender_Add-on|Blender add-on]]. Sverchok is a parametric tool for architects and designers for Blender. You can use it to program objects' shapes without knowing any programming languages. Sverchok has been inspired by Grasshopper from Rhino 3D and it uses a similar node-based visual programming principle. We are trying to bring this feature set to Blender users. | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
+ | | [https://github.com/nortikin/sverchok Github] | ||
|- | |- | ||
| | | | ||
− | | [ | + | | [http://www.co-de-it.com/wordpress/code/blender-tissue Tissue] |
− | | [[:Category:Blender_Add-on|Blender add-on]]. Create | + | | [[:Category:Blender_Add-on|Blender add-on]]. Create parametric and tessellated panels in Blender, for computational design. |
| [[GPL-2.0]] | | [[GPL-2.0]] | ||
+ | | [https://github.com/alessandro-zomparelli/tissue Github] | ||
|- | |- | ||
| [[File:Icon_topologic_64x64.png]] | | [[File:Icon_topologic_64x64.png]] | ||
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| Topologic is a software modelling library enabling hierarchical and topological representations of architectural spaces, buildings and artefacts through non-manifold topology. | | Topologic is a software modelling library enabling hierarchical and topological representations of architectural spaces, buildings and artefacts through non-manifold topology. | ||
| [[AGPL-3.0]] | | [[AGPL-3.0]] | ||
+ | | [https://github.com/NonManifoldTopology/Topologic Github] | ||
|- | |- | ||
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| [[:Category:Blender_Add-on|Blender add-on]]. Construction Lines Add-on for Blender, is currently under development (July 2020) and enables accurate modeling with a CAD-like workflow (though can be used in any modeling), building models from 2D primitives, setting out geometry with guide points and guidelines. A beta release is imminent. | | [[:Category:Blender_Add-on|Blender add-on]]. Construction Lines Add-on for Blender, is currently under development (July 2020) and enables accurate modeling with a CAD-like workflow (though can be used in any modeling), building models from 2D primitives, setting out geometry with guide points and guidelines. A beta release is imminent. | ||
| unknown | | unknown | ||
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| [[BCF-Plugin-FreeCAD]] | | [[BCF-Plugin-FreeCAD]] | ||
− | | | + | | "It is a standalone plugin for the free, open source CAD tool [[FreeCAD]]. The aim is it to integrate collaboration in the BIM space through support of [[BIM Collaboration Format (BCF)|BCF]]." |
| [[LGPL-3.0]] | | [[LGPL-3.0]] | ||
|- | |- | ||
− | | [[File:Bimdata_logo.svg|BIMData|64x64px | + | | [[File:Bimdata_logo.svg|BIMData|64x64px]] |
| [https://bimdata.io/ BIMData] | | [https://bimdata.io/ BIMData] | ||
| A simple online tool to deal with [[Industry_Foundation_Class|IFC]] and [[BIM Collaboration Format (BCF)|BCF]]. Has an electronic document management, issue management, visualise, check, and share digital models. | | A simple online tool to deal with [[Industry_Foundation_Class|IFC]] and [[BIM Collaboration Format (BCF)|BCF]]. Has an electronic document management, issue management, visualise, check, and share digital models. | ||
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| BIMserver.org is an open source development and has been a leader in the [[openBIM]] world for more than 10 years. The open source BIM community works together to create a best-of-class BIM-environment, including the Netherlands Organisation for Applied Scientific Research, TNO, who has been at the forefront of the development of this software for many years. | | BIMserver.org is an open source development and has been a leader in the [[openBIM]] world for more than 10 years. The open source BIM community works together to create a best-of-class BIM-environment, including the Netherlands Organisation for Applied Scientific Research, TNO, who has been at the forefront of the development of this software for many years. | ||
| [[AGPL-3.0]] | | [[AGPL-3.0]] | ||
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| [[MIT]] | | [[MIT]] | ||
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− | + | | [[File:Ifcopenshell logo.png|64x64px]] | |
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| [https://blenderbim.org/download.html IFCCOBie] | | [https://blenderbim.org/download.html IFCCOBie] | ||
| CLI tool to convert COBie data from an IFC file to spreadsheet format, and log all IFC errors that occur during the conversion process. | | CLI tool to convert COBie data from an IFC file to spreadsheet format, and log all IFC errors that occur during the conversion process. | ||
| [[LGPL-3.0]] | | [[LGPL-3.0]] | ||
|- | |- | ||
− | | [[File:Ifcopenshell logo.png|64x64px | + | | [[File:Ifcopenshell logo.png|64x64px]] |
| [https://blenderbim.org/download.html IFCDiff] | | [https://blenderbim.org/download.html IFCDiff] | ||
| CLI tool to compare geometric and data differences between two IFC files and produce a diff report in JSON format. | | CLI tool to compare geometric and data differences between two IFC files and produce a diff report in JSON format. | ||
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| A processing queue that uses [[IfcOpenShell]] to convert IFC input files into a graphic display using glTF 2.0 and BIMSurfer2 for web-based visualization. | | A processing queue that uses [[IfcOpenShell]] to convert IFC input files into a graphic display using glTF 2.0 and BIMSurfer2 for web-based visualization. | ||
| [[MIT]] | | [[MIT]] | ||
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| [[File:IFC%2B%2Btransparent120.png|IFC++|64x64px]] | | [[File:IFC%2B%2Btransparent120.png|IFC++|64x64px]] | ||
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See also [[Structural Analysis]] & [[Learn_about_environmental_analysis|Environmental Analysis]] | See also [[Structural Analysis]] & [[Learn_about_environmental_analysis|Environmental Analysis]] | ||
− | + | MESH GENERATOR AND SCIENTIFIC DATA VISUALISATION | |
{| class="mw-collapsible wikitable sortable" | {| class="mw-collapsible wikitable sortable" | ||
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| [https://gmsh.info/ Gmsh] | | [https://gmsh.info/ Gmsh] | ||
| Gmsh is an open source 3D finite element mesh generator with a built-in CAD engine and post-processor. Its design goal is to provide a fast, light and user-friendly meshing tool with parametric input and advanced visualization capabilities. Gmsh is built around four modules: geometry, mesh, solver and post-processing. | | Gmsh is an open source 3D finite element mesh generator with a built-in CAD engine and post-processor. Its design goal is to provide a fast, light and user-friendly meshing tool with parametric input and advanced visualization capabilities. Gmsh is built around four modules: geometry, mesh, solver and post-processing. | ||
| [[LGPL-2.0]] | | [[LGPL-2.0]] | ||
|- | |- | ||
− | | [ | + | | |
− | + | | [https://www.paraview.org/ ParaView] | |
| ParaView is an open-source, multi-platform data analysis and visualization application. ParaView users can quickly build visualizations to analyze their data using qualitative and quantitative techniques. The data exploration can be done interactively in 3D or programmatically using ParaView’s batch processing capabilities. | | ParaView is an open-source, multi-platform data analysis and visualization application. ParaView users can quickly build visualizations to analyze their data using qualitative and quantitative techniques. The data exploration can be done interactively in 3D or programmatically using ParaView’s batch processing capabilities. | ||
| [[BSD]] | | [[BSD]] | ||
|} | |} | ||
− | + | STRUCTURAL, THERMAL AND CFD ANALYSIS | |
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! License | ! License | ||
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| Code_Saturne is the free, open-source software developed and released by EDF to solve computational fluid dynamics (CFD) applications. It solves the Navier-Stokes equations for 2D, 2D-axisymmetric and 3D flows, steady or unsteady, laminar or turbulent, incompressible or weakly dilatable, isothermal or not, with scalars transport if required. | | Code_Saturne is the free, open-source software developed and released by EDF to solve computational fluid dynamics (CFD) applications. It solves the Navier-Stokes equations for 2D, 2D-axisymmetric and 3D flows, steady or unsteady, laminar or turbulent, incompressible or weakly dilatable, isothermal or not, with scalars transport if required. | ||
| [[GPL-2.0]] | | [[GPL-2.0]] | ||
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| [[GPL-2.0]] (software) and [[LGPL-2.1]] (solver) | | [[GPL-2.0]] (software) and [[LGPL-2.1]] (solver) | ||
|- | |- | ||
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− | + | | [https://energy.concord.org/energy2d/ Energy2D] | |
| "Energy2D is an interactive multiphysics simulation program that models all three modes of heat transfer—conduction, convection, and radiation, and their coupling with particle dynamics. Energy2D runs quickly on most computers and eliminates the switches among preprocessors, solvers, and postprocessors typically needed to perform computational fluid dynamics simulations." [https://github.com/charxie/multiphysics source] | | "Energy2D is an interactive multiphysics simulation program that models all three modes of heat transfer—conduction, convection, and radiation, and their coupling with particle dynamics. Energy2D runs quickly on most computers and eliminates the switches among preprocessors, solvers, and postprocessors typically needed to perform computational fluid dynamics simulations." [https://github.com/charxie/multiphysics source] | ||
| [[LGPL-3.0-only]] | | [[LGPL-3.0-only]] | ||
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| | | | ||
| [https://github.com/firemodels/fds Fire Dynamics Simulator (FDS)] | | [https://github.com/firemodels/fds Fire Dynamics Simulator (FDS)] | ||
− | | Fire Dynamics Simulator (FDS) is a large-eddy simulation (LES) code for low-speed flows, with an emphasis on smoke and heat transport from fires | + | | Fire Dynamics Simulator (FDS) is a large-eddy simulation (LES) code for low-speed flows, with an emphasis on smoke and heat transport from fires. |
− | | | + | | NIST |
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| [https://fenicsproject.org/ FEniCS] | | [https://fenicsproject.org/ FEniCS] | ||
− | | FEniCS is a computing platform for solving partial differential equations (PDEs). FEniCS enables users to quickly translate scientific models into efficient finite element code | + | | FEniCS is a computing platform for solving partial differential equations (PDEs). FEniCS enables users to quickly translate scientific models into efficient finite element code. FEniCS runs on a multitude of platforms ranging from laptops to high-performance clusters. |
| [[LGPL-3.0]] | | [[LGPL-3.0]] | ||
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|GemPy is a tool for generating 3D structural geological models in Python. As such, it enables you to create complex combinations of stratigraphical and structural features such as folds, faults, and unconformities. It was furthermore designed to enable probabilistic modeling to address parameter and model uncertainties. | |GemPy is a tool for generating 3D structural geological models in Python. As such, it enables you to create complex combinations of stratigraphical and structural features such as folds, faults, and unconformities. It was furthermore designed to enable probabilistic modeling to address parameter and model uncertainties. | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
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| [[File:OpenFoam_logo.png|64px]] | | [[File:OpenFoam_logo.png|64px]] | ||
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| XC OSS is aimed directly at civil structural engineering. The software provides a set of structural analysis tools based on the finite element method and a framework to implement the design of structural members according to structural codes (Eurocodes, ACI, ...). Our objective is to develop an open tool that provides the engineer with unlimited freedom to take control of the structural analysis and to customize procedures. | | XC OSS is aimed directly at civil structural engineering. The software provides a set of structural analysis tools based on the finite element method and a framework to implement the design of structural members according to structural codes (Eurocodes, ACI, ...). Our objective is to develop an open tool that provides the engineer with unlimited freedom to take control of the structural analysis and to customize procedures. | ||
| Project-specific FOSS | | Project-specific FOSS | ||
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− | + | ENVIRONMENTAL ANALYSIS | |
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| Ladybug Tools is a collection of free computer applications that support environmental design and education connecting 3D Computer-Aided Design (CAD) interfaces to a host of validated simulation engines. Ladybug Tools can be used as a suite of Python libraries, or as a set of visual programming nodes with Blender (via Sverchok), or with proprietary software like Rhino (via Grasshopper) or Revit (via Dynamo). | | Ladybug Tools is a collection of free computer applications that support environmental design and education connecting 3D Computer-Aided Design (CAD) interfaces to a host of validated simulation engines. Ladybug Tools can be used as a suite of Python libraries, or as a set of visual programming nodes with Blender (via Sverchok), or with proprietary software like Rhino (via Grasshopper) or Revit (via Dynamo). | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
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| Radiance is a suite of programs for the analysis and visualization of lighting in design. Input files specify the scene geometry, materials, luminaires, time, date and sky conditions (for daylight calculations). Calculated values include spectral radiance (ie. luminance + color), irradiance (illuminance + color) and glare indices. Simulation results may be displayed as color images, numerical values and contour plots. | | Radiance is a suite of programs for the analysis and visualization of lighting in design. Input files specify the scene geometry, materials, luminaires, time, date and sky conditions (for daylight calculations). Calculated values include spectral radiance (ie. luminance + color), irradiance (illuminance + color) and glare indices. Simulation results may be displayed as color images, numerical values and contour plots. | ||
| Project-specific FOSS | | Project-specific FOSS | ||
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| [[VI-Suite]] | | [[VI-Suite]] | ||
− | | [[:Category:Blender add-on|Blender Add-on]]. VI-Suite is a node-based add-on for performing environmental analysis in blender. The add-on acts as a pre/postprocessor for the EnergyPlus and Radiance simulation engines. Stable Version (0.4) released for blender 2.7, | + | | [[:Category:Blender add-on|Blender Add-on]]. VI-Suite is a node-based add-on for performing environmental analysis in blender. The add-on acts as a pre/postprocessor for the EnergyPlus and Radiance simulation engines. Stable Version (0.4) released for blender 2.7, a version for blender 2.8 ([https://github.com/rgsouthall/vi-suite06 0.6]) is awaiting release. |
| [[GPL-2.0]](citation needed) | | [[GPL-2.0]](citation needed) | ||
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− | + | ENERGY ANALYSIS | |
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| [https://cityenergyanalyst.com/ CEA] | | [https://cityenergyanalyst.com/ CEA] | ||
− | | The City Energy Analyst (CEA) is an urban energy simulation platform and one of the first open-source computational tools for the design of low-carbon and highly efficient neighborhoods and districts. The CEA combines knowledge of urban planning and energy systems engineering in an integrated framework. This allows to study the effects, trade-offs and synergies of urban design options, building retrofits and energy infrastructure plans. | + | | The City Energy Analyst (CEA) is an urban energy simulation platform and one of the first open-source computational tools for the design of low-carbon and highly efficient neighborhoods and districts. The CEA combines knowledge of urban planning and energy systems engineering in an integrated framework. This allows to study the effects, trade-offs and synergies of urban design options, building retrofits and energy infrastructure plans. https://github.com/architecture-building-systems/CityEnergyAnalyst |
| [[MIT]] | | [[MIT]] | ||
|- | |- | ||
| [[File:Eplus_logo_1.png]] | | [[File:Eplus_logo_1.png]] | ||
− | | [ | + | | [[EnergyPlus]] |
| EnergyPlus™ is a whole building energy simulation program that engineers, architects, and researchers use to model both energy consumption—for heating, cooling, ventilation, lighting and plug and process loads—and water use in buildings. | | EnergyPlus™ is a whole building energy simulation program that engineers, architects, and researchers use to model both energy consumption—for heating, cooling, ventilation, lighting and plug and process loads—and water use in buildings. | ||
| [[BSD]]-Style | | [[BSD]]-Style | ||
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| [[File:OpenStudio%2BCoalition-logo-crop.png|64px]] | | [[File:OpenStudio%2BCoalition-logo-crop.png|64px]] | ||
− | | [ | + | | [[OpenStudio]] |
− | | | + | | OpenStudio® is a cross-platform (Windows, Mac, and Linux) collection of software tools to support whole building energy modeling using [[EnergyPlus]] and advanced daylight analysis using [[Radiance]]. OpenStudio is an open source (LGPL) project to facilitate community development, extension, and private sector adoption. OpenStudio includes graphical interfaces along with a Software Development Kit (SDK). |
| LGPL-Style | | LGPL-Style | ||
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− | + | TRAFFIC AND PEDESTRIAN ANALYSIS/SIMULATION | |
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| [https://www.jupedsim.org/ JuPedSim] | | [https://www.jupedsim.org/ JuPedSim] | ||
| JuPedSim is an open source framework for simulating, analyzing and visualizing pedestrian dynamics. | | JuPedSim is an open source framework for simulating, analyzing and visualizing pedestrian dynamics. | ||
− | | | + | | LGPL-3.0 or later |
|- | |- | ||
| | | | ||
− | | [ | + | | [http://www.massisframework.com/ MASSIS] |
| MASSIS is a software framework that facilitates the simulation of scenarios with multiple agents (representing people, robots, sensors, etc.) in indoor environments (i.e., inside a building). | | MASSIS is a software framework that facilitates the simulation of scenarios with multiple agents (representing people, robots, sensors, etc.) in indoor environments (i.e., inside a building). | ||
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| [[File:Icon_ganttproject_64.png|64px]] | | [[File:Icon_ganttproject_64.png|64px]] | ||
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| Software with a data base for cost analysis and estimate. | | Software with a data base for cost analysis and estimate. | ||
| [[GPL-3.0]] | | [[GPL-3.0]] | ||
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− | == Facility Management | + | == Facility Management == |
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| [[File:Logo_openmaint.png|64px]] | | [[File:Logo_openmaint.png|64px]] | ||
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| Vi-Sense is a project that visualizes data of heating systems in a 3D model of the building they're installed in. Technicians or system administrators get an overview of all sensors located in a building, can take a closer look at the measured values of these sensors, and get information about data anomalies that indicate potential errors. The combination of the 3D representation of buildings and the visualization of measured values in a timeline makes it possible to perform detailed analyses of error sources such as the failure of heating or pump systems. In addition, sensor states in the building model are supported by color highlighting, which ensures a quick orientation and an intuitive overview. | | Vi-Sense is a project that visualizes data of heating systems in a 3D model of the building they're installed in. Technicians or system administrators get an overview of all sensors located in a building, can take a closer look at the measured values of these sensors, and get information about data anomalies that indicate potential errors. The combination of the 3D representation of buildings and the visualization of measured values in a timeline makes it possible to perform detailed analyses of error sources such as the failure of heating or pump systems. In addition, sensor states in the building model are supported by color highlighting, which ensures a quick orientation and an intuitive overview. | ||
| [[MIT]] | | [[MIT]] | ||
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