The thesis explores various aspects of the application that extend from a rapid modeling method of gyroid structure, experiments, and simulations along with theoretical values for mechanical and thermal properties of gyroid, to topology optimization...
This paper presents a design strategy for a lightweight steel structure assembled by two robots. The developed structure describes a novel typology of spatial structures and consists of steel tubes that form spatial configurations.
This toolkit by joncorrod focuses on the versatile nature of meshes, providing various effective functionalities for working with and editing mesh topology.
In this research by Ehsan Bazafkan, Ladybug and Honeybee, two building performance simulation plugins for Grasshopper, were used within the context of scenarios that mimic real-world architectural design problems. The application of the plugins was analysed.
With this Master Thesis by Thomas Stephan Dirk Dührsen, author is showing how the power and benefits of reusable and interchangeable logic and algorithms can be applied to the workflow of designing membrane structures.
In this paper, authors explore the various constraints in robotic fabrication and assembly processes, analyze their influence on design, and propose a methodology which bridges the gap between parametric design and robotic production.
In this thesis, the central proposition is that further detailed architectural exploration, focused on design for construction 3D printing combined with off-site fabrication methods and digital design tools, is necessary to tease out the potentials...
In this paper by Felix Raspall and Carlos Banon, authors propose and discuss the application of Additive Manufacturing in complex space frames and the theoretical and practical implications.
It is the aim of this article by Ignacio Basterrechea to investigate the possibilities of an adaptable (and/or responsive) system that allows the constructions made today to morphologically adapt to future unforeseen requirements.
This paper by Jae Wan Park, Kostas Terzidis and Takehiko Nagakura, proposes an interactive façade system capable of displaying the meaningful information extracted from this interaction using RFID.
This paper attempts to go beyond existing capabilities in 4D printing to create precise and universal folding techniques that approach a wider range of applications through a series of radically new physical models.
This paper by Andreas Thoma, David Jenny, Matthias Helmreich, Augusto Gandia, Fabio Gramazio and Matthias Kohler, presents a novel constructive system made solely of wood, enabled by a cooperative robotic fabrication process.
This thesis by Jonathan Michael Broyles, performs an investigation of structural and acoustic behavior for shaped concrete slabs with curved, non-standard geometry. Nine unique geometric variables were used to define and shape concrete slabs.
This research by Yomna Saad ElGhazi and Ayman Hassaan Ahmed Mahmoud, explores the possibilities of kinetic composition afforded by Origami different techniques using squared module.
The aim of this doctoral thesis by Isolda Agusti Juan, is to identify the sustainability risks and opportunities associated with the implementation of digital fabrication in construction.
This research focuses on an approximate control over the fundamental geometric characteristics of a reticular system such as node density and directionality. The proposal frames the favorable result of the weave to be three-dimensional and volumetric...
This paper introduces concepts and methodologies for multiscale modeling in architecture, and demonstrates their application to support bi-directional information flows in the design of a panelized, thin skinned metal structure.
The research presented here by Paul Nicholas, David Stasiuk and Tim Schork, describes the context of open-ended design spaces, and distinguishes between two characteristic modeling approaches...
The aim of this thesis by Azadeh Rabbani Rankouhi, is the systemization of biomimicry application in the field of architecture. The methods utilized herein rely on the analysis of successful samples of biomimicry in other fields.
This paper positions the development and performance of a responsive acoustic envelope system, called Resonant Chamber, within discourses in ecology, systems theory and cybernetics.
This thesis by Phillip Hampton Ewing, Jr., proposes both a physical platform and analytical model for implementing phototherapy in the context of architectural space and dynamic user behavior.
This paper, describes the implementation of a discrete in situ construction process using a location-aware mobile robot. An undulating dry brick wall is semi-autonomously fabricated in a laboratory environment set up to mimic a construction site.
In this paper, authors present a computational technique that aids with the design of structurally-sound metal frames, tailored for robotic fabrication using an existing process that integrates automated bar bending, welding, and cutting.
This thesis by Yvonne Rebecca Stürz, deals with two main aspects of digital fabrication: Firstly, the automation of complex construction tasks through efficient distributed control of multi-robot systems, and secondly...
In this paper, authors will discuss the use of a real-time programming environment for robot simulation/control and introduce a virtual robot, that allows architects to digitally prototype fabrication processes.
This research by Sumaiya Mehjabeen, presents an analysis of daylighting ingress relating to urban street canyon configurations of high-rise residential buildings in the dense urban context of Dhaka, Bangladesh.
This paper by Christoph Schindler and Kyeni Mbiti, discusses a design course covering the complete process chain from parametric modelling to digital fabrication.
This article, presents one possible application, a novel fabrication process that combines large-scale robotic fused deposition modeling 3D printing with simultaneous casting of a fast-hardening, set-on-demand concrete.
This project by Jeffrey Sroka and Kihong Ku, aimed to expand the area of responsive shading systems through the novel application of a volumetric origami geometry – the flexagon.
This thesis investigates biomimicry in architecture for the purpose of functionality rather than morphology, to achieve biomimetic building systems that provide improved building behaviour efficiency.
The limitations of additive manufacturing of ceramics are quickly evolving and will soon create new potentials for architectural products and applications. This paper offers an overview of these limitations that are tested and examined through a case study.
This research, explores the use of ice formwork textures on complex concrete architectural elements. The use of ice formwork, allows the production of architectural elements with complex geometries in a highly controlled offsite production process.
In the course of this thesis by Anna Vasileiou, author aims to explore ways of introducing computational tools into design processes of advanced geometry for a more creative and open-ended human-machine symbiosis.
This document by Enrico Pontello, Martin Tamke and Vasily Sitnikov, focuses on the exploration of casting complex concrete architectural elements with ice formwork.
This thesis by Janne Keskinen, presents a textbook example of a digital design approach for architecture through the creation and implementation of an algorithmic design tool.
This paper presents a craft-based approach to computation and its contribution to support artisans' development in India. It is demonstrated through ongoing research on customising bricks and utilization of computationally generated asymmetrical Catalan vault.
In this paper by Steffen Reichert, Achim Menges and David Correa, the authors present research into autonomously responsive architectural systems that adapt to environmental changes using hygroscopic material properties.
In this thesis by Ardavan Bidgoli, author has investigated the architectural robotics opportunities by reviewing its design space and characteristics in academia and practice.
In this thesis by Nicolas Ruffray, the impact of PCE superplasticisers on the nucleation and formation of hydrates in fresh model cement pastes was investigated by using cryo-FIB-SEM nano-tomography.
Loop by Antonio Turiello is a simple component to iterate generative shapes with Grasshopper
This thesis, explores computation as a communicative device between the physical and the digital, establishing a conversation between a material assembly and a digital model as a tool to inform the logic of the assembly's internal organization.
The Greenhouse and Cabinet of Future Fossils was commissioned by the American Philosophical Society Museum, funded by Heritage Philadelphia Program, a program of The Pew Center for Arts & Heritage.
This thesis by Berfin Evrim, presents research that combines weaving and 3D Printing to fabricate a textile that will be used for supporting the weight of a person sitting on a stool or chair. This textile uses carbon-reinforced polymers and jute fibers.
Chameleon by MWG creates a live link between Grasshopper and Zbrush to quickly exchange geometry and parametrically set up command sequences. You can quickly send preset commands or your own custom ZScript to Zbrush.
In this paper by Olga Mesa, Saurabh Mhatre and Martin Bechthold, Simple fabrication and economic actuation principles are proposed to transform planar fabrics into three-dimensional configurations without using expensive molds.
This research by Obando Erik, evaluates a methodology where PD and BIM modelling are coupled since the conceptual design stage. For this purpose, a residential building with a pixel/pop-out architectural concept is developed in its conceptual phase.
This article, demonstrates the design potentials of a recently developed approach for generating smooth poly-hypar surfaces, freeform surfaces made of combinations of hyperbolic paraboloids (hypars).
The topic of this research by Anna Szabo is thin folded concrete structures that provide a material-efficient solution for spanning large distances due to the increased load-bearing capacity of their folded form.
Borne from the complex negotiation between liquid mass and tensile constraint, flexible formwork castings are resonant with material energy. Hard as stone, yet visually supple and fluid, the pre- cast architectural assemblies produced using flexible formwork techniques.
This thesis by Judyta M. Cichocka presents a design-oriented methodology for the design, optimization and construction of sequentially erected elastic timber gridshells. A multi-objective approach toward simultaneous optimization of the overall size and grid configurations.
This paper by Isak Worre Foged and Esben Skouboe Poulsen, illustrates responsive systems, which focus on the implementation of multi-objective adaptive design prototypes from sensored environments.
This thesis by Sen Dai proposes a modularized mechanism for designing transformable materials, as well as a design tool to help the designer make reconfigurable transformable material structures.
Monoceros was developed at studio Subdigital by Ján Toth and Ján Pernecký. Monoceros is an implementation of the Wave Function Collapse (WFC) algorithm developed for game design by Maxim Gumin and extended and promoted by Oskar Stålberg with his game Townscaper.
This paper discusses certain modes of research and their derivatives through a case study, Spülenkorb, as an entry into a digital fabrication competition by Texfab, in which the project received honorable mention.
This paper investigates the development of "3D printed ceramic green wall", a technological Nature Based Solution (NBS) aimed at regenerating urban areas by improving spatial quality and sustainability through clean and autonomous energy production.
This thesis by Mathias Bernhard seeks to provide a map of the current computational design landscape. The theoretical first part constructs a series of five dualities around design, geometry representation and their related data structures.
The intent of this paper by Jenny E. Sabin and Peter Lloyd Jones, is to jointly investigate fundamental processes in living systems, their potential application in the novel design of responsive surfaces and spatial structures, and their applicability in biomedicine.
This paper introduces double through tenon joints, which allow for the rapid, precise and fully integral assembly of doubly-curved folded surface structures with two inter- connected layers of cross-laminated engineered wood panels.
This study by Prageeth Jayathissa, first presents a performative design environment that combines multiple technological branches into a single automated work-flow.
By integrating responsive sensing systems, this paper demonstrates real-time feedback loops that consider the spontaneous agency and intuition of the architect (or craftsperson) rather than the execution of static or predetermined designs.