====== Rhino en Arquitectura ======

**Un lugar para aprender a utilizar Rhino en la industria de la construcción...**

=====Contenido=====
Hay muchas maneras de usar Rhino en Arquitectura. Este conjunto de guías pueden ayudarle:
  * [[#using_rhino_in_architecture|Usar Rhino en Arquitectura]]
  * [[#rhino_to_bim_and_back|Rhino a BIM y viceversa]]
  * [[rhino:architecture:vray:tutorials|Renderizado de arquitectura en Rhino]]
  * [[grasshopper:home|Grasshopper]]
  * [[https://www.e-zigurat.com/blog/en/enhancing-cross-platform-bim-workflows-with-rhino-grasshopper/|Mejora de los flujos de trabajo BIM multiplataforma con Rhino y Grasshopper]]

----
=== Uso de Rhino en Arquitectura ===
  * ¿Cuál es el flujo de trabajo típico con el que la gente utiliza Rhino?
      * [[http://coarchitects.com/biosciences-partnership-building-facade-panelization/|Biosciences Partnership Building: Façade Panelization]]
      * [[webinars:morpheus|The Morpheus Hotel: From Design to Production]]
      * [[http://coarchitects.com/kansas-university-medical-center-eyelid-ceiling-design-to-construction-automation/|From Modeling to Building: Translating Freeform Geometry for Construction]]
      * [[https://youtu.be/HzzteQgk4m8|SHoP Architects Digital Fabrication Integration]]
      * [[https://www.youtube.com/watch?v=aYaUiMmvLyM&feature=youtu.be|"Rhino in your BIM toolkit" at 2018 Shape to Fabrication]]
  * ¿Por qué se utiliza Rhino en AEC?
      * [[https://www.youtube.com/watch?v=torfQYrbIug|Nature and Complexity in Architectural Form by ProArchitect]]
      * [[https://www.google.com/url?q=https%3A%2F%2Fwww.rhino3d.com%2Fen%2Freseller%2Fsupport%2F2016_Rhino_AEC_EN.pdf&sa=D&sntz=1&usg=AFQjCNFz8z3eT4Y_QoF4JhXaOwGItY4Maw|Rhino in Architecture Flyer (PDF)]]
      * [[https://www.australiandesignreview.com/architecture/the-evolution-of-computational-design/|The evolution of computational design]]
      * [[https://www.youtube.com/watch?v=jwRPQrxxNDA|What is your profession? Architecture automated.]]
      * [[https://www.linkedin.com/pulse/next-generation-aec-design-eli-daher/|Next Generation of AEC Design by Eli Daher]]
      * [[https://www.youtube.com/watch?v=4-BCf1z74WQ|The Future of Architecture by ProArchitect]]
      * [[https://www.youtube.com/watch?v=vxfVPaj89Ns|The Future of Structural Engineering]]
      * [[https://lmnarchitects.com/tech-studio/parametrics/grasshopper-space-planner/|Grasshopper Space Planner at LMNTts]]
      * [[https://lmnarchitects.com/tech-studio/featured/cloud-based-daylight-simulations-1/|CoudBased Daylight Simulation]]
      * [[https://www.youtube.com/playlist?list=PLop4Isy6Y0PHfXefwkbp5yIPAuIBJ8Pip|Core Studio AEC Technology Symposium 2016]]
  * ¿Cuáles son los proyectos típicos realizados en Rhino?
      * [[http://coarchitects.com/shaping-roof-solar-analysis/|CO Architects Shaping a Roof with Solar Analysis]]
      * [[http://blog.visualarq.com/2015/06/04/discover-an-astute-seduction-with-rhino-architecture/|Louisiana Sports Hall of Fame and Northwest Louisiana History Museum]]
      * [[http://www.programmingarchitecture.com/projects_iop.html|Grid Geometry for the Institute of Peace]]
      * [[http://www.programmingarchitecture.com/projects_apple.html|Study for Apple Store Stair]]
      * [[http://www.programmingarchitecture.com/projects_expo.html|Expo Axis Shanghai]]
      * [[https://www.hdrinc.com/insights/using-data-wrangler-design-impact| Data Driven Design Tamed a case study]]. HDR se asoció con Proving Ground para desarrollar nuevas herramientas de diseño para Rhino que integran datos externos y procesos computacionales. Data Wrangler permite a los diseñadores crear y analizar libremente la arquitectura utilizando métodos basados en datos y evaluar el impacto de las ideas de diseño. Lea el blog de HDR para saber cómo utilizan Data Wrangler con Rhino en su proceso de diseño.

----
===Aprender Rhino en Arquitectura===
  * [[https://howtorhino.com/masterclass|How to Rhino MasterClass for Rhino]]
  * [[https://howtorhino.com/grasshopper-guide|Introduction to Grasshopper in Architecture]]
  * [[rhino:architecture:learn:model-building|Floors and Structure]]


----
===De Rhino a BIM y viceversa===
En el proceso de arquitectura intervienen muchas herramientas y diferentes equipos, por lo que la interoperabilidad con otros productos BIM es bastante importante.  Puede leer el artículo [[https://wowad.in/top-3-computational-bim-workflows-for-architects/|Computation workflows in a BIM process]].
  * [[rhino:architecture:bim:rhino-to-revit|Rhino to Revit]]
  * [[http://www.graphisoft.com/archicad/rhino-grasshopper/|Archicad Plugins]] - Great Plugins for Rhino and Archicad to create a live connection between the products.
  * Conexiones basadas en la nube:
    * [[https://flux.io/|Flux]]
    * [[https://www.youtube.com/watch?v=XGtuQjtNeOI|Kunstru]] for Structural engineering.
      * [[https://youtu.be/B7T9fhjw_UM|Why was Konstru Created?]]
      * [[https://youtu.be/gyBX-tefvmU|What is Konstru?]]
      * [[https://youtu.be/vfG56KtUxS8|Using Konstru with Grasshopper]]
      * [[https://konstru.zendesk.com/hc/en-us/articles/115002980951-Konstru-to-VisualArq-Sample|Konstru to VisuaArq and Back]]
      * [[https://konstru.zendesk.com/hc/en-us/sections/115000356291-Grasshopper|Using Konstru with Grasshopper/ Rhino]]
    * [[https://streams.speckle.xyz/#!/|Speckle]]

----
===Ingeniería estructural con Rhino===

==Interoperabilidad con software estructural==
  * [[https://teklastructures.support.tekla.com/not-version-specific/en/ext_grasshopperteklalink|Tekla Live Link]]
  * [[https://geometrygym.wordpress.com/|Geometry Gym]]
    * [[https://www.buildingsmart.org/|IFC (OpenBIM)]]
    * [[http://www.oasys-software.com/products/engineering/gsa-analysis.html|Oasys GSA]]
    * [[http://www.autodesk.co.uk/products/simulation/features/robot-structural-analysis/all/gallery-view|Autodesk Robot]]
    * [[http://www.csiamerica.com/products/sap2000|SAP2000]]
    * [[http://www.sofistik.com/|Sofistik]]
    * [[http://www.spacegass.com/|Spacegass]]
    * [[http://www.strand7.com/|Strand7/Straus7]]
    * [[http://nemetschek-scia.com/|SCIA]]
  * [[https://www.grasshopper3d.com/|Grasshopper]]

==Análisis rápido con Rhino==
  * Karamba
  * Kangaroo
  * [[http://kiwi3d.com/|Kiwi3D]]: el análisis isogeométrico es un enfoque computacional desarrollado recientemente que ofrece la posibilidad de integrar el análisis de elementos finitos (FEA) en las herramientas de diseño CAD convencionales basadas en NURBS. 
  * [[http://block.arch.ethz.ch/brg/tools/rhinovault|RhinoVault]]
  * [[https://parametricismcouk.wordpress.com/2016/06/01/freeform-geometries-in-wood-construction/|FREEFORM GEOMETRIES IN WOOD CONSTRUCTION]]
  * [[https://parametricismcouk.wordpress.com/2016/06/01/freeform-reciprocal-frame-system/|FREEFORM RECIPROCAL FRAME SYSTEM]]


==Optimización==
  * Plugin de Grasshopper [[http://www.build-opt.org|Computational Design Optimization of Building Structures]]. Complemento muy interesante para optimización topológica.
  * [[https://www.grasshopper3d.com/group/intralattice|Lattice structural optimization]]
  * [[https://www.karamba3d.com/projects/structural-optimisation-workshop-detmold/|Ground structure grid using Karumba]]
  * [[http://www.interactivearchitecture.org/architectural-optimisation-and-evolutionary-systems-with-genetic-algorithms.html|Architectural Optimization and Evolutionary Systems with Genetic Algorithms]]
  * [[https://parametricismcouk.wordpress.com/2017/09/26/optimized-quad-gridshell-from-stress-field-and-curvature-field/|OPTIMIZED QUAD GRIDSHELL FROM STRESS FIELD AND CURVATURE FIELD]]

==Aprendizaje automático==
  * [[https://provingground.io/2017/08/01/machine-learning-with-lunchboxml/|Machine Learning with LunchBoxML]]
  * [[https://www.food4rhino.com/app/owl|Owl Machine Learning in Rhino]]
  * [[https://www.food4rhino.com/app/dodo|Dodo]]: Dodo es un conjunto de herramientas para el aprendizaje automático, la optimización y la manipulación geométrica. En cuanto a la IA, cuenta con redes neuronales, descenso de gradiente, descenso de gradiente estocástico y optimización por enjambre. Dodo dispone de herramientas para la manipulación de campos escalares, vectoriales y tensoriales que pueden visualizarse mediante isosuperficies. Algunos componentes son implementaciones de documentos, puede encontrar más información y referencias en su descripción html.
  * [[https://parametricismcouk.wordpress.com/2018/07/21/machine-learning-and-optimization-techniques-for-steel-connections/|MACHINE LEARNING AND OPTIMIZATION TECHNIQUES FOR STEEL CONNECTIONS]]

----
===Diseño computacional===
Rhino y, en especial, Grasshopper han liderado la revolución del diseño computacional en arquitectura y fabricación.

  * [[https://www.rhino3d.com/download/rhino/5.0/essentialmathematicsthirdedition/|Essential Mathematics For Computational Design]]
  * [[https://www.youtube.com/playlist?list=PLvxxYImPCApUXhX3te3IK32ileXHpzKY4|Havard GSD Introduction to Computational Design Course]]
  * [[http://bim-sim.org/ARCH655/index.html|Texas A&M Course ARCH 655 Parametric Modeling in Design]]

==Aprender Grasshopper==
Es importante aprender Grasshopper.

Tutoriales:
  * [[https://vimeo.com/78868366|Intro to Grasshopper with David Rutten.]]
  * [[https://www.youtube.com/playlist?list=PL0D5Ey-kk6E25jFAYO1WeZubBpzCnZ2iU|Learning Grasshopepr from Andrew Huemann]]
  * [[https://parametrichouse.com/|Learning Grasshopper for Architectural students - Parametric House.]]
  * [[https://howtorhino.com/grasshopper-guide/|Grasshopper Quick Start Guide from howtorhino.com]]
  * (De pago) [[http://shop.oreilly.com/product/0636920051985.do|Visual Programming in Rhino3D with Grasshopper by Luis Fraguada]]

----
===Uso de Rhino para topografía===
Rhino se puede utilizar para crear mapas topográficos. La parte difícil del proceso es entender la información que se tiene para empezar y cómo procesar esa información para obtener un mapa topográfico.

  * Obtener un mapa topográfico de Google Earth.
  * Crear un mapa topográfico a partir de puntos.
  * Crear un mapa topográfico a partir de curvas.
  * Crear un mapa topográfico a partir de información de una encuesta.
  * Crear un mapa topográfico a partir de una malla.


----
===Análisis con Rhino===

==Análisis medioambiental==

**Luz solar:**


  * [[https://wiki.mcneel.com/rhino/architecture/home/lux|Difference between Luminance and Illuminance]]
  * [[https://wiki.mcneel.com/rhino/architecture/daylight|Introduction to Daylight Analysis]]
  * [[https://wiki.mcneel.com/rhino/architecture/home/Daylignt_plugins|Software and plugins used for Daylight Analysis]]

**Tutoriales:**

  * [[https://www.youtube.com/playlist?list=PLruLh1AdY-Sj_XGz3kzHUoWmpWDXNep1O|Ladybug Tools]]
  * [[https://www.youtube.com/playlist?list=PLruLh1AdY-SgW4uDtNSMLeiUmA8YXEHT_|HoneyBee Tools]]
  * [[http://www.solemma.net/TrainingRhino.html|Diva for Rhino]]
  * [[http://www.solemma.net/TrainingGH.html|Diva for Grasshopper]]
  * [[https://www.radiance-online.org/learning/tutorials|Radiance]]
  * {{:rhino:architecture:project2-elektra_house.pdf|Example Tutorial with Diva for Rhino}}
 
 
**Enlaces a los plugins de luz solar para Rhino y Grasshopper: **.

  * [[http://diva4rhino.com/|Diva for Rhino]] - Highly optimized Daylighting and Energy Modeling.
  * [[http://www.ladybug.tools/|Ladybug Tools]] - Daylighting, Environmental Analysis. 
      * [[http://www.ladybug.tools/ladybug.html|Ladybug]] - Climate Data for Environmentally Informed Design.
      * [[http://www.ladybug.tools/honeybee.html|Honeybee]] - Daylight, Energy and Heat Flow using Radiance, OpenStudio and Therm.
  * [[http://www.anyhere.com/|Photosphere]] (MAC) and [[http://courses.washington.edu/hdrscope/download.html|HDRscope]] (WIN) for Computational photography and lighting analysis

==Viento y CFD==
  * [[http://blog.rhino3d.com/2017/11/new-cfd-webinars-with-simscale-and-rhino.html|CFD Analysis with Rhino]]
  * [[http://www.food4rhino.com/app/rhinocfd|RhinoCFD]]
  * [[https://www.simerics.com/|Simerics CFD]]
  * [[http://www.ladybug.tools/butterfly.html|Butterfly]] - CFD analysis using OpenFOAM

==Estudios sobre peatones con Grasshopper==
  * [[https://vimeo.com/110358993|Example pedestrian weather video]]
  * [[http://api.ning.com/files/LkCkzR8kYllpk1iKWlQhk5nHtG2WFCYihhuMG2me4Zdssjl8F-3Q28wtHqok8uUA*UwIAdCQV7lhPHMaZW4Xv8NdhZ*LT7SU/queleaflock.png|Quelea Agent Based simulation]]
  * [[https://www.youtube.com/watch?v=W7_LFXz2Z38|Egress from a space study Kangaroo]]
  * [[https://www.youtube.com/watch?v=QWuHTXufElU|Movement study in space]]
  * [[http://doi.ieeecomputersociety.org/cms/Computer.org/dl/trans/tg/2011/12/figures/ttg20111223647.gif|Path Map in Grasshopper]]

----
===Rhino y la Planificación urbana===
  * [[https://utdl.org/video-tutorials/|Urban Terrains Digital Lab Tutorials]]
  * [[http://a.co/gISKafM|Codify: Parametric and Computational Design in Landscape Architecture]] by Bradley Cantrell et al. Enlace: 


----
===Visualización de arquitectura===

==Creación de dibujos de estilo arquitectónico==

  * [[https://wiki.mcneel.com/rhino/architecture/home/schematic|Schematic Diagrams]]
  * [[https://www.youtube.com/watch?v=ABzjtpvGDXc|BIG inspired axonometric diagrams - (Bjarke Ingels Group)]]
  * [[https://www.youtube.com/watch?v=681UCNt9Pdw|Tips and tricks with Adobe Illustrator for Architectural Styled drawings]]
  * [[https://www.youtube.com/watch?v=aS1O_OdO_sU|Rhino to Illustrator Tutorial]]

==Secciones y dibujos con Rhino==
  * [[https://wiki.mcneel.com/es/rhino/layouts5|Diseños]]

==Utilizar Rhino con RV==

  * IrisVr
  * Enscape
  * [[https://modelo.io/architecture-interior.html|Modelo]]
  * RMIT Hololens with Rhino direct

==Renderizado==

  * [[rhino:architecture:vray:tutorials|Rendering Architecture in Rhino]]
  * Materiales en Rhino
    * [[https://vimeo.com/242114784|Materially better in Rhino]]
  * Librerías de materiales
    * [[https://flyingarchitecture.com/|Flying Architecture]]
    * [[https://www.pixplant.com/|PixPlant]]
  * Archivos de modelos de personas
    * [[https://grabcad.com/|GradCad]]
    * [[https://www.designconnected.com/Freebies/|Design Connected]]
    * [[https://renderpeople.com/free-3d-model/|3D People]]
    * [[http://clipped.io/|Cutouts]]
    * Cielos HDRI: [[https://hdrihaven.com/hdris/category/?c=all&o=popular|HDR Haven]], [[https://www.viz-people.com/product-category/hdri-skies/?sidebar=no-sidebar|VisPeople]]
    * Modelos de iluminación: [[http://www.rendl.com/|Rendl light studio]]

  * Postprocesado para renderizados de calidad
    * http://www.samilolab.it/news/workshop-post-editing-adobe-photoshop-dicembre-2017-samilolab/

----
=== Fabricación ===

  * Anidado
  * Desplegado
  * Modelos topográficos
  * Panelado
  * [[https://vimeopro.com/rhino/preparing-to-3d-print|Preparación para impresión 3D]]
  * [[https://wiki.mcneel.com/es/rhino/3dprinting|Más información sobre impresión 3D...]]

----
=== Material adicional de formación en arquitectura ===

  * [[https://www.youtube.com/channel/UCihik4ourUSKX2YSRzZcXoQ|Nick Senske Computational Design Courses YouTube]]
  * [[https://www.youtube.com/channel/UCk-taU3sDSSyM6qehAJmTRg|Paramarch Rhino and Grasshopper Architecture Courses]]
  * [[https://www.plethora-project.com/education/|Jose Sanchez would like to share a series of online videos on Rhino modeling in architecture: Modeling the LF-ONE by Zaha Hadid]]

----
=== Libros de arquitectura y fabricación ===

== Hacia una nueva práctica ==
  * [[http://a.co/cwC3K1i|Digital Workflows in Architecture]] Design-Assembly-Industry, by Scott Marble
  * [[https://www.amazon.com/SHoP-Out-Practice-Architects/dp/1580932711/ref=sr_1_2?s=books&ie=UTF8&qid=1510941985&sr=1-2|SHoP: Out of Practice]] - An insider's look into one of contemporary architecture's most cutting-edge firms.
  * [[http://a.co/cX1osaU|Yes Is More: An Archicomic on Architectural Evolution]] - A manifesto of architecture as seen by the Copenhagen-based group BIG, told in comic book form
  * [[http://a.co/crGZOp4|Architectural Transformations Via Bim]] A+u Special Issue (English and Japanese Edition)
  * [[http://a.co/5qzJ9dC|Informal]] by Cecil Balmond. Balmond is making the transition from structural engineer working alongside other architects to an architect in his own right.
  * [[http://a.co/b8iW0Up|Eric Owen Moss: The New City: I'll See It When I Believe It]] by Eric Owen Moss (Author),‎ Frank Gehry (Contributor),‎ Jeff Kipnis (Contributor).
  * [[http://a.co/ep3kKIb|Public Natures: Evolutionary Infrastructures]] by Marion Weiss et al. explores the potential to shape a new public realm.
  * [[http://a.co/aqjZ1My|Morphosis]] Covering nearly a decade of visionary research and design.
  * [[https://www.idda.com.au/tutorials|A wide variety of posts on current issues in the new architecture]] by the institute of digital design Australia.
  * [[http://a.co/dCtUFz4|BIG, HOT TO COLD: An Odyssey of Architectural Adaptation]]

== Fabricación digital ==
  * [[http://a.co/7MrRhhU|Digital Fabrication in Architecture]] by Nick Dunn
  * [[http://a.co/dAIAJrK|Data-Driven Design and Construction: 25 Strategies for Capturing, Analyzing and Applying Building Data]] by Randy Deutsch 
  * [[http://a.co/f5EVyrC|Digital Fabrications: Architectural and Material Techniques (Architecture Briefs)]] by Lisa Iwamoto 
  * [[http://a.co/jaN3mXW|Material Strategies in Digital Fabrication 2nd Edition]] by Christopher Beorkrem
  * [[http://a.co/g8sP70q|Advancing Wood Architecture: A Computational Approach 1st Edition]] by Achim Menges et al. 

== Teoría del diseño y los algoritmos ==
  * [[http://www.routledge.com/books/The-Possibility-of-an-Architecture-isbn9780415774956|The Possibility of (an) Architecture]] Collected Essays by Mark Goulthorpe, dECOi Architects By Mark Goulthorpe
  * [[http://www.grasshopper3d.com/page/Architectural%20Principles%20in%20the%20Age%20of%20Cybernetics|Architectural Principles in the Age of Cybernetics]] By Christopher Hight
  * [[http://www.routledge.com/books/Rethinking-Technology-isbn9780415346542|Rethinking Technology]] A Reader in Architectural Theory Edited by William W Braham, Jonathan A Hale
  * [[https://www.amazon.com/Kostas-Terzidis/e/B001HD119S|Kostas Terzidis library of books]] is one of the major architects working on that subject.
      * [[http://a.co/7HvWS5N|Algorithms for Visual Design]] using the processing language
      * [[http://a.co/g8bL4KY|Algorythmic Architecture]]
      * [[http://a.co/hW5ClX0|Expressive Form]]
      * [[https://www.amazon.com/gp/offer-listing/B01K3RIDX0|Permutation Design]] - Building, Texts, and Contexts


== Diseño computacional práctico ==
  * [[http://a.co/j5xE75F|AAD Algorithms-Aided Design. Parametric strategies using Grasshopper]] by Arturo Tedeschi 
  * [[http://a.co/7XKgOjR|Informed Architecture: Computational Strategies in Architectural Design]]
  * [[http://a.co/0Os3MnJ|Parametric Design for Architecture]] by Wassim Jabi  (Author),‎ Brian Johnson (Afterword),‎ Robert Woodbury (Foreword)
  * [[http://a.co/ajVmoo7|Architectural Geometry]] by Helmut Pottmann et al.  
  * [[http://www.amazon.com/Algorithmic-Architecture-Kostas-Terzidis/dp/0750667257/ref=sr_1_3?ie=UTF8&s=books&qid=1257287089&sr=1-3|Algorithmic Architecture]] ~ Kostas Terzidis
  * [[http://www.routledge.com/books/Architecture-in-the-Digital-Age-isbn9780415381413|Architecture in the Digital Age Design and Manufacturing]] Edited by Branko Kolarevic
  * [[http://www.routledge.com/books/Innovative-Surface-Structures-isbn9780415419673|Innovative Surface Structures Technologies and Applications]] By Martin Bechthold
  * [[http://www.routledge.com/books/Autogenic-Structures-isbn9780415776905|Autogenic Structures]] Edited by Evan Douglis
  * [[http://www.routledge.com/books/Practice-isbn9780415776257|Practice Architecture, Technique and Representation, 2nd Edition]] By Stan Allen
  * [[http://a.co/iE98Eag|Pamphlet Architecture 27: Tooling]] by Benjamin Aranda et al.

==Formas orgánicas y naturaleza==
  * [[http://www.amazon.com/Growth-Form-Complete-Revised/dp/0486671356|On Growth and Form: The Complete Revised Edition]] by D'Arcy Wentworth Thompson - The classic
  * [[http://amzn.com/0316813311|Patterns in Nature]] -  by Peter S. Stevens Quite an amazing publication by Stephen Wolfram. The book can be viewed online free from here: http://www.wolframscience.com/nksonline/toc.html
  * [[http://algorithmicbotany.org/papers/abop/abop.pdf|The Algorithmic Beauty of Plants]] - A PDF download that is a great resource for L-systems, plant growth, etc. In addition there is a extensive library of [[http://algorithmicbotany.org/papers/#abop|papers at U of Calgary's Algorithmic Botany Page]]
  * [[http://amzn.com/0199237964|Shapes by Philip Ball]] is supposedly picking up where D'Arcy Thompson left off.
  * [[http://amzn.com/0471296511|Life's Other Secret: New Mathematics of the Living World]] - by Ian Stewart
  * [[http://www.amazon.com/Structure-Nature-Strategy-Design-Pearce/dp/0262660458/ref=ntt_at_ep_dpi_1|Structure in Nature is a Strategy for Design]] by Peter Pearce
  * [[http://amzn.com/0198502435|The Self-Made Tapestry: Pattern Formation in Nature]]  ~ Philip Ball 
  * [[http://caliban.mpiz-koeln.mpg.de/haeckel/kunstformen/natur.html|Ernst Haeckel: Kunstformen der Natur 1899-1904]] - HTML version of the book

==Otros enlaces de interés==
  * [[http://www.michael-hansmeyer.com/#2|Michael Hansmeyer site]], but it's always worth to check it out again
  * [[http://www.aaschool.ac.uk/VIDEO/lecture.php?ID=2718|An evolutionary architecture]] - a lecture by John Frazer AA school (video)
  * [[http://www.aaschool.ac.uk/VIDEO/lecture.php?ID=1633|Intentionality: the coding of a design concept]] by John Frazer, lecture (video)
  * [[http://a.co/gTcqoTQ|Digital Ground, Architecture, Pervasive Computing, and Environmental Knowing]] by Malcolm McCullough, MIT press
  * [[http://a.co/aT0k8Cu|From Control to Design: Parametric/Algorithmic Architecture]] by Tomoko Sakamoto
  * [[https://scriptedbypurpose.wordpress.com/|Scripted by Purpose]] most of the work exhbited here was curated by skylar tibbits marc fornes of theverymany.
  * [[https://youtu.be/50-d_J0hKz0|Deleuze and the Use of the Genetic Algorithm in Architecture]] lecture by Manuel Delanda
  * [[http://papers.cumincad.org/data/works/att/caadria2015_108.content.pdf|Proceedural Building Information Modeling for Digital Fabrication]] by Dritsas, S. Association for Computer-Aided Architectural Design Research in Asia, Daegu, South Korea. (PDF)
  * [[http://extras.springer.com/2007/978-1-4020-6527-9/CAADFutures2007.pdf|Computer-Aided Architectural Design Futures 2007]] multiple papers including Davis Marques and Robert Woodbury (PDF)
  * [[http://www.patrikschumacher.com/index.htm|The writings of Patrik Schumacher]] are quite useful for understanding an approach towards advanced digital design methods.
  * [[http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1554-2769|Architectural Design Journal]] edited by Helen Castle published by Wiley.  An Excellent set of publications on current cutting edge architectural issues.