Cumincad : CUMINCAD Papers : Search Results

CumInCAD is a Cumulative Index about publications in Computer Aided Architectural Design
supported by the sibling associations ACADIA, CAADRIA, eCAADe, SIGraDi, ASCAAD and CAAD futures

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_id	ascaad2014_030
id	ascaad2014_030
authors	Langenhan, Christoph; Sahm Alexander; Petzold Frank; Seifert Arne and Teichert Astrid
year	2014
title	Mobile Application to Collect Information About Architecture to Obtain a Collective Knowledge Base: 'ar:searchbox.app'
source	Digital Crafting [7th International Conference Proceedings of the Arab Society for Computer Aided Architectural Design (ASCAAD 2014 / ISBN 978-603-90142-5-6], Jeddah (Kingdom of Saudi Arabia), 31 March - 3 April 2014, pp. 375-382
summary	During the early stages of the architectural design process, students and architects seek information for inspiration, and to evaluate design ideas or similar solutions. An essential part of design education therefore involves building up a knowledge base of already built or designed buildings. Most students gather such information by visiting or researching building designs, for example through photos taken on design studio field trips. These photos are used for studio work or archived for later use. The “ar:searchbox.app” aims to support this in two ways. Firstly, by supporting easy mobile information acquisition and sharing, as well as the semi-automatic derivation of high quality metadata; and secondly, by employing urban environment sensitive search and similarity-based browsing strategies to support mobile education as well as a web-based access to the information. To provide long-term access and to establish an information base that is not restricted to a single design studio, the “ar:searchbox.app” builds on our previous “ar:searchbox” project which uses a central media server called “mediaTUM” that provides a handling concept for flexible metadata schemas and scalable infrastructures.
series	ASCAAD
email
last changed	2016/02/15 13:09

_id	ecaade2024_167
id	ecaade2024_167
authors	Alammar, Ammar; Alymani, Abdulrahman; Jabi, Wassim
year	2024
title	Building Energy Efficiency Estimations with Random Forest for Single and Multi-Zones
doi	https://doi.org/10.52842/conf.ecaade.2024.2.365
source	Kontovourkis, O, Phocas, MC and Wurzer, G (eds.), Data-Driven Intelligence - Proceedings of the 42nd Conference on Education and Research in Computer Aided Architectural Design in Europe (eCAADe 2024), Nicosia, 11-13 September 2024, Volume 2, pp. 365–374
summary	Surrogate models (SM) present an opportunity for rapid assessment of a building's performance, surpassing the pace of simulation-based methods. Setting up a simulation for a single concept involves defining numerous parameters, disrupting the architect's creative flow due to extended simulation run times. Therefore, this research explores integrating building energy analysis with advanced machine learning techniques to predict heating and cooling loads (KWh/m2) for single and multi-zones in buildings. To generate the dataset, the study adopts a parametric generative workflow, building upon Chou and Bui's (2014) methodology. This dataset encompasses multiple building forms, each with unique topological connections and attributes, ensuring a thorough analysis across varied building scenarios. These scenarios undergo thermal simulation to generate data for machine learning analysis. The study primarily utilizes Random Forest (RF) as a new technique to estimate the heating and cooling loads in buildings, a critical factor in building energy efficiency. Following that, A random search approach is utilized to optimize the hyperparameters, enhancing the robustness and accuracy of the machine learning models employed later in the research. The RF algorithms demonstrate high performance in predicting heating and cooling loads (KWh/m2), contributing to enhanced building energy efficiency. The study underscores the potential of machine learning in optimizing building designs for energy efficiency.
keywords	Heating and Cooling loads, Topology, Machine learning, Random Forest
series	eCAADe
email
last changed	2024/11/17 22:05

_id	caadria2014_069
id	caadria2014_069
authors	Sosa, Ricardo; Qinqi Xu and Rajesh Elara Mohan
year	2014
title	The House That Roomba Built
doi	https://doi.org/10.52842/conf.caadria.2014.647
source	Rethinking Comprehensive Design: Speculative Counterculture, Proceedings of the 19th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2014) / Kyoto 14-16 May 2014, pp. 647–656
summary	The "Roomba House" (RH) is a novel generative design approach based on robotic interaction with the physical environment in order to inductively identify design opportunities for improving the design of future robot-inclusive spaces and furniture. The paper presents the theoretical and technological details of this approach, an empirical study of a cleaning robot and sample results from an evolutionary system inspired by heuristics inductively derived from the study. RH is an informed provocation based on the recognition that increasingly widespread domestic robots that roam our living spaces will infer key features and help produce creative design solutions that maintain or improve user requirements while improving their inclusiveness in everyday life.
keywords	Robots, evolutionary creativity, computational creativity
series	CAADRIA
email
last changed	2022/06/07 07:56

_id	ecaade2014_133
id	ecaade2014_133
authors	Armando Trento, Antonio Fioravanti and Francesco Rossini
year	2014
title	Health and Safety Design by means of a Systemic Approach - Linking Construction Entities and Activities for Hazard Prevention
doi	https://doi.org/10.52842/conf.ecaade.2014.1.633
source	Thompson, Emine Mine (ed.), Fusion - Proceedings of the 32nd eCAADe Conference - Volume 1, Department of Architecture and Built Environment, Faculty of Engineering and Environment, Newcastle upon Tyne, England, UK, 10-12 September 2014, pp. 633-642
summary	Education and Research in Computer Aided Architectural Design in Europe faces many urgent tasks. Among the Architecture, Engineering and Construction (AEC)international scientific societies, only few researches systematically investigate on how to integrate the design solutions with Health and Safety (HS) planning measures, enhancing a collaborative “fusion” of all involved actors in Design and Construction decision making. Process automation cannot be enhanced until design/management tools, such as Building Information Models, can rely only on entities formalised "per se" geometrical items fulfilled by isolated-object specific information. To face complex problems, BIM models should be able to implement and manipulate multiple sets of entities, qualified by clearly established relationships, belonging to organically structured and oriented (sub-) systems. This paper reports on an early stage research project, focused on the identification of operative rules for Health and Safety design. Implementation on the unique case study of Palazzo della Civiltà Italiana functional refurbishment faces two main objectives: one, more pragmatic, is concerned with boostingworkers education about non-standard operative tasks, by means of accurate ad-hoc construction narrative visualisation; another one, more challenging and theoretically complex, consists in modelling "judgment-based" rules, aimed at supporting automated reasoning in Safety Design.
wos	WOS:000361384700063
keywords	Construction hazards prevention through design; project construction management and visualization; health and safety management; risk modelling; knowledge representation
series	eCAADe
email
last changed	2022/06/07 07:54

_id	ecaade2014_146
id	ecaade2014_146
authors	Davide Ventura and Matteo Baldassari
year	2014
title	Grow: Generative Responsive Object for Web-based design - Methodology for generative design and interactive prototyping
doi	https://doi.org/10.52842/conf.ecaade.2014.2.587
source	Thompson, Emine Mine (ed.), Fusion - Proceedings of the 32nd eCAADe Conference - Volume 2, Department of Architecture and Built Environment, Faculty of Engineering and Environment, Newcastle upon Tyne, England, UK, 10-12 September 2014, pp. 587-594
summary	This paper is part of the research on Generative Design and is inspired by the ideas spread by the following paradigms: the Internet of Things (Auto-ID Center, 1999) and the Pervasive/Ubiquitous Computing (Weiser, 1993). Particularly, the research describes a number of case studies and, in detail, the experimental prototype of an interactive-design object: “Grow-1”. The general assumptions of the study are as follows: a) Developing the experimental prototype of a smart-design object (Figure 1) in terms of interaction with man, with regard to the specific conditions of the indoor environment as well as in relation to the internet/web platforms. b) Setting up a project research based on the principles of Generative Design.c) Formulating and adopting a methodology where computational design techniques and interactive prototyping ones converge, in line with the principles spread by the new paradigms like the Internet of Things.
wos	WOS:000361385100061
keywords	Responsive environments and smart spaces; ubiquitous pervasive computing; internet of things; generative design; parametric modelling
series	eCAADe
email
last changed	2022/06/07 07:55

_id	caadria2014_096
id	caadria2014_096
authors	Grobman, Yasha and Roy Kozlovsky
year	2014
title	On the Shores of Architecture
doi	https://doi.org/10.52842/conf.caadria.2014.853
source	Rethinking Comprehensive Design: Speculative Counterculture, Proceedings of the 19th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2014) / Kyoto 14-16 May 2014, pp. 853–862
summary	This paper explores the implications of complex geometry enabled by computational technology to architectural theory and practice. It reviews the different design paradigms engaged breaking the horizontality of the floor and ceiling or fusing them together. It argues that current advances in fluid dynamics simulations open a new frontier in the conception of the usable architectural surface, in which the architectural product is no longer a fixed object, but the interaction between a fluid, changing environment and built form. The paper presents a case study in which computational fluid dynamics are utilized to reconvert a disused breakwater into a ‘blue garden’. The morphology of the breakwater and its texture are calculated to produce the conditions amiable for supporting a varied marine ecosystem, and to shape the waves to generate aesthetically meaningful sensations. The essay discusses the technical and conceptual challenges of controlling the nonlinear behaviour of fluids. It then speculates on the theoretical ramifications of having the surface interact with exterior forces and the subject's imagination to produce an event enfolding in time.
keywords	Computational fluid dynamics; curvilinear surfaces; performance design theory; habitat engineering; coastal infrastructure
series	CAADRIA
email
last changed	2022/06/07 07:51

_id	ecaade2014_031
id	ecaade2014_031
authors	José Luis Menegotto
year	2014
title	Composing musical geometry with sonic objects
doi	https://doi.org/10.52842/conf.ecaade.2014.2.195
source	Thompson, Emine Mine (ed.), Fusion - Proceedings of the 32nd eCAADe Conference - Volume 2, Department of Architecture and Built Environment, Faculty of Engineering and Environment, Newcastle upon Tyne, England, UK, 10-12 September 2014, pp. 195-203
summary	This article relates an experiment linking two types of forms: geometric forms generated from algorithms by mathematical functions and sonic forms generated from algorithms and linked to the first. In order to formalize a graphical and musical object called “sonic object" were used the following tools: the environment of a graphic program, the C# language and the Midi-dot-Net musical library. Diverse equations are used to generate the geometric shapes which generate periodical, cyclical and circular movements. Other equations used in the experiment are formulas adapted from the Edward Lorenz's Strange Attractor. Current research into the problem of the generation of patterns of movement, such as that of Jules Moloney, and research which deals with algorithms which generate shapes, such as that of Robert Krawczyk, have been taken as references and parameters for comparison for this work..
wos	WOS:000361385100021
keywords	Sonic mandalas; morphogenesis; midi-dot-net
series	eCAADe
email
last changed	2022/06/07 07:52

_id	ecaade2014_088
id	ecaade2014_088
authors	Peter E.D. Love, Jingyang Zhou, Jane Matthews, Brad Carey and Chun-pong Sing
year	2014
title	Moving Beyond CAD: A Systems Information Model for Electrical and Instrumentation Engineering Design
doi	https://doi.org/10.52842/conf.ecaade.2014.2.395
source	Thompson, Emine Mine (ed.), Fusion - Proceedings of the 32nd eCAADe Conference - Volume 2, Department of Architecture and Built Environment, Faculty of Engineering and Environment, Newcastle upon Tyne, England, UK, 10-12 September 2014, pp. 395-404
summary	Documentation errors have been identified as a significant problem within the construction and engineering industry. Errors contained with contract documents can contribute to loss of profit, reduced productivity, and cost and time overruns as well as contractual disputes. Research has identified that as much as 60% of variations in construction and engineering projects are a result of errors and omissions contained within poor quality documentation. Using a case study, errors, omissions and information redundancy contained in the Electrical and Instrumentation (E&I) 'As built' drawings for a Stacker Conveyor is examined. A total of 449 errors and omissions were identified within 42 documents. In addition, 231 cables and components appeared once among the 42 documents; 86 cables and components appeared twice and 12 cables and components appeared three times. As a result of the errors, omissions and redundancy, requests for information (RFIs) are required. Retrospective analysis indicates that the indirect cost of raising the RFIs to the contractor was estimated to be 8.93% of the cost of the E&I contract. To address the problems of errors, omissions and redundancy, it is suggested that there is a need to adopt an object orientated system information model (SIM) for E&I engineering design and documentation. It is demonstrated in the case study that the use of a SIM could bring significant improvements in productivity and reduce the cost of engineering design.
wos	WOS:000361385100041
keywords	‘as-built’; cad; dad; systems information model; errors and omissions
series	eCAADe
email
last changed	2022/06/07 08:00

_id	ecaade2014_120
id	ecaade2014_120
authors	Serdar Asut
year	2014
title	Design By Making - Enhanced Human-Computer Interaction for Digital Conception and Manufacturing in Architectural Education
doi	https://doi.org/10.52842/conf.ecaade.2014.1.401
source	Thompson, Emine Mine (ed.), Fusion - Proceedings of the 32nd eCAADe Conference - Volume 1, Department of Architecture and Built Environment, Faculty of Engineering and Environment, Newcastle upon Tyne, England, UK, 10-12 September 2014, pp. 401-410
summary	This paper presents an ongoing project which aims to develop an HCI application. The purpose of the application is to introduce tactile experience into digital design cycle and to have transparent links between different phases of the design object. Thus, it will provide a hybrid design environment in which design conception and manufacturing are integrated and enhanced learning opportunities towards an architectural education where making is fundamental.
wos	WOS:000361384700040
keywords	Human-computer interaction; tactile experience in design; architectural education
series	eCAADe
email
last changed	2022/06/07 07:56

_id	sigradi2014_032
id	sigradi2014_032
authors	Gómez Zamora, Paula; Matthew Swarts, Jennifer Grimes
year	2014
title	Campus Information Model: A Participatory Design Tool to Support Qualitative Decision Making
source	SIGraDi 2014 [Proceedings of the 18th Conference of the Iberoamerican Society of Digital Graphics - ISBN: 978-9974-99-655-7] Uruguay- Montevideo 12,13,14 November 2014, pp. 39-43
summary	This paper presents our Campus Information Model from a participatory perspective. The primary goal of our Campus Information Model (CIM) is to gather several disciplinary goals into a single model as the platform for collaboration. This intermediate-scale model integrates information and expert knowledge about a university campus design, including landscape planning and building design, allowing users to obtain quantitative feedback in real time to support design facilitating their specific goals. This paper describes first, the concept of collaboration; second, the collaborative system CIM; and third, the strategies to bring quantitative and qualitative goals to the same design environment.
keywords	Campus Information Model; Participatory Design; Design Decision-making; Campus Design
series	SIGRADI
email
last changed	2016/03/10 09:53

_id	caadria2014_052
id	caadria2014_052
authors	Tai, Nan-Ching
year	2014
title	Binocular Disparity and Depth Cue of Luminance Contrast
doi	https://doi.org/10.52842/conf.caadria.2014.637
source	Rethinking Comprehensive Design: Speculative Counterculture, Proceedings of the 19th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2014) / Kyoto 14-16 May 2014, pp. 637–646
summary	Luminance contrast has been identified as an effective depth cue through perceptual studies using digital images generated by the integrated technologies of physically based lighting simulation and perceptually based tone mapping. However, the prior established framework utilizes a single camera viewpoint, failing to address the binocular vision of the human visual system. In this study, the computational framework is extended to incorporate 3-dimensional (3D) stereo display technology. Psychophysical experiments were conducted to investigate the depth effect of luminance contrast on the experimental scenes presented on conventional and stereo displays. The objective of this study was twofold: first, to investigate the effect of luminance contrast on depth perception, considering binocular vision; second, to further advance the visual realism of the computer-generated environment to reflect the perceptual reality of static pictorial and binocular disparity cues.
keywords	High dynamic range imagery; luminance contrast; binocular disparity; stereo display; depth perception
series	CAADRIA
email
last changed	2022/06/07 07:56

_id	caadria2014_254
id	caadria2014_254
authors	Tuker, Cetin and Halil Erhan
year	2014
title	An Architectural Modeling Method for Game Environments and Visualization
doi	https://doi.org/10.52842/conf.caadria.2014.605
source	Rethinking Comprehensive Design: Speculative Counterculture, Proceedings of the 19th International Conference on Computer-Aided Architectural Design Research in Asia (CAADRIA 2014) / Kyoto 14-16 May 2014, pp. 605–614
summary	Modeling 3D architectural environments for games and design visualization is different than modelling for other purposes, such as for construction. These models include only the outer surfaces as ‘skin’ structures of the facades for rendering for which existing tools are too complex. After interviewing fourteen domain experts and evaluating available modelling tools, we observed a need for new modelling methods for rapid visualizations that leaves redundant model parts out for efficiency. We have developed a surface modelling method and a formalism for modelling architectural environments by slicing a building into layers with strips of façade element sequences. In the first prototype, we focused on parametric structures using userdefined architectonic vocabulary such as voids and solids. We conducted an expert review study with four participants: two user-experience and two domain experts. All participants responded that the method is easy to learn even for non-experts. Based on the tasks completed, they agreed that the method can speed the process of modelling large continuous façades, single-mass single-storey geometries, and repetitive floor layers; they also made suggestions for improvement. The results from the initial evaluation show that the method presented has some merits to be used in practice.
keywords	3D modelling; facade reconstruction; game; visualization
series	CAADRIA
email
last changed	2022/06/07 07:57

_id	acadia14_579
id	acadia14_579
authors	Brell-Cokcan, Sigrid; Braumann, Johannes
year	2014
title	Robotic Production Immanent Design: Creative toolpath Design in Micro and Macro Scale
doi	https://doi.org/10.52842/conf.acadia.2014.579
source	ACADIA 14: Design Agency [Proceedings of the 34th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 9781926724478]Los Angeles 23-25 October, 2014), pp. 579-588
summary	This paper discusses applications of production immanent design in the context of robotic fabrication and offers an outlook to a new research project on robotic stone structuring.
keywords	production immanent design, robotic fabrication, parametric robot control, visual programming, Grasshopper
series	ACADIA
type	Normal Paper
email
last changed	2022/06/07 07:54

_id	cdrf2023_526
id	cdrf2023_526
authors	Eric Peterson, Bhavleen Kaur
year	2023
title	Printing Compound-Curved Sandwich Structures with Robotic Multi-Bias Additive Manufacturing
doi	https://doi.org/https://doi.org/10.1007/978-981-99-8405-3_44
source	Proceedings of the 2023 DigitalFUTURES The 5st International Conference on Computational Design and Robotic Fabrication (CDRF 2023)
summary	A research team at Florida International University Robotics and Digital Fabrication Lab has developed a novel method for 3d-printing curved open grid core sandwich structures using a thermoplastic extruder mounted on a robotic arm. This print-on-print additive manufacturing (AM) method relies on the 3d modeling software Rhinoceros and its parametric software plugin Grasshopper with Kuka-Parametric Robotic Control (Kuka-PRC) to convert NURBS surfaces into multi-bias additive manufacturing (MBAM) toolpaths. While several high-profile projects including the University of Stuttgart ICD/ITKE Research Pavilions 2014–15 and 2016–17, ETH-Digital Building Technologies project Levis Ergon Chair 2018, and 3D printed chair using Robotic Hybrid Manufacturing at Institute of Advanced Architecture of Catalonia (IAAC) 2019, have previously demonstrated the feasibility of 3d printing with either MBAM or sandwich structures, this method for printing Compound-Curved Sandwich Structures with Robotic MBAM combines these methods offering the possibility to significantly reduce the weight of spanning or cantilevered surfaces by incorporating the structural logic of open grid-core sandwiches with MBAM toolpath printing. Often built with fiber reinforced plastics (FRP), sandwich structures are a common solution for thin wall construction of compound curved surfaces that require a high strength-to-weight ratio with applications including aerospace, wind energy, marine, automotive, transportation infrastructure, architecture, furniture, and sports equipment manufacturing. Typical practices for producing sandwich structures are labor intensive, involving a multi-stage process including (1) the design and fabrication of a mould, (2) the application of a surface substrate such as FRP, (3) the manual application of a light-weight grid-core material, and (4) application of a second surface substrate to complete the sandwich. There are several shortcomings to this moulded manufacturing method that affect both the formal outcome and the manufacturing process: moulds are often costly and labor intensive to build, formal geometric freedom is limited by the minimum draft angles required for successful removal from the mould, and customization and refinement of product lines can be limited by the need for moulds. While the most common material for this construction method is FRP, our proof-of-concept experiments relied on low-cost thermoplastic using a specially configured pellet extruder. While the method proved feasible for small representative examples there remain significant challenges to the successful deployment of this manufacturing method at larger scales that can only be addressed with additional research. The digital workflow includes the following steps: (1) Create a 3D digital model of the base surface in Rhino, (2) Generate toolpaths for laminar printing in Grasshopper by converting surfaces into lists of oriented points, (3) Generate the structural grid-core using the same process, (4) Orient the robot to align in the direction of the substructure geometric planes, (5) Print the grid core using MBAM toolpaths, (6) Repeat step 1 and 2 for printing the outer surface with appropriate adjustments to the extruder orientation. During the design and printing process, we encountered several challenges including selecting geometry suitable for testing, extruder orientation, calibration of the hot end and extrusion/movement speeds, and deviation between the computer model and the physical object on the build platen. Physical models varied from their digital counterparts by several millimeters due to material deformation in the extrusion and cooling process. Real-time deviation verification studies will likely improve the workflow in future studies.
series	cdrf
email
last changed	2024/05/29 14:04

_id	acadia14_647
id	acadia14_647
authors	Khorasgani, Mehrnoush Latifi; Prohasky, Daniel; Burry, Jane; Akbarzadeh, Akbar; Khorasgani, Nicholas Willaims
year	2014
title	ROBOTHERMODON: An Artificial Sun Study Lab with a Robot Arm and Advanced Model Platform -A Thermal Heliodon(STEVE: Solar Thermal EValuation Experiment)
doi	https://doi.org/10.52842/conf.acadia.2014.647
source	ACADIA 14: Design Agency [Proceedings of the 34th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 9781926724478]Los Angeles 23-25 October, 2014), pp. 647-654
summary	This research focuses on the design of a Robotic solar analysis platform for critical studies which explore dynamic solar light and heat phenomena within the laboratory. This robotic platform gives designers the opportunity to receive rapid feedback from physical models in real-time.
keywords	Heliodon; Robothermodon; virtual sun path;Model Platform ;Works in Progres
series	ACADIA
type	Normal Paper
email
last changed	2022/06/07 07:52

_id	ecaade2014_015
id	ecaade2014_015
authors	Odysseas Kontovourkis and George Tryfonos
year	2014
title	Physical input-driven offline robotic simulation through a feedback loop process
doi	https://doi.org/10.52842/conf.ecaade.2014.1.411
source	Thompson, Emine Mine (ed.), Fusion - Proceedings of the 32nd eCAADe Conference - Volume 1, Department of Architecture and Built Environment, Faculty of Engineering and Environment, Newcastle upon Tyne, England, UK, 10-12 September 2014, pp. 411-421
summary	This ongoing research describes a feedback loop procedure where physical inputs are used as the medium for offline robotic simulation. The purpose is to investigate the ability of industrial robots that are currently used in manufacturing processes to work in a flexible and productive manner whilst providing a continuous feedback loop between physical inputs and fabrication artifacts. In order to achieve this, a methodology is developed that involves the use of data acquisition devices to enable the transference of information from the physical to the digital environment and then to use this data as real-time parameters to control the robot's behaviour during fabrication. The aim is to achieve active involvement of robots in the manufacturing process to address complex construction issues and to ensure accuracy, a reduction in manufacturing defects and flexibility in the materials used. This investigation is accompanied by relevant experiments to exemplify the potential of control mechanisms to be used in prototyping case studies.
wos	WOS:000361384700041
keywords	Physical input; robotic simulation; feedback loop; manufacturing process; material control
series	eCAADe
email
last changed	2022/06/07 08:00

_id	ecaade2022_431
id	ecaade2022_431
authors	Sieder-Semlitsch, Jakob and Nicholas, Paul
year	2022
title	Self-Serveying Multi-Robot System for Remote Deposition Modelling
doi	https://doi.org/10.52842/conf.ecaade.2022.1.233
source	Pak, B, Wurzer, G and Stouffs, R (eds.), Co-creating the Future: Inclusion in and through Design - Proceedings of the 40th Conference on Education and Research in Computer Aided Architectural Design in Europe (eCAADe 2022) - Volume 1, Ghent, 13-16 September 2022, pp. 233–240
summary	The need for increased automation of the AEC sector has been extensively documented within the architectural discipline over recent years. Far beyond economic perspectives, current advances in technology offer an increased and more direct implementation of sustainable materials. Within this research, the potential for the re-use of material with low embodied energy within automated construction will be examined. Herefore, Remote Material Deposition (RDM, firstly described in Dörfler et al., 2014) is utilized as main fabrication method, deploying varying compositions of local building debris, lime mortar, and sand, via a throwing arm. This research explores a method of continuous verification of material deployment and removal of material oversaturation to guarantee accuracy. Herefore, all instances of the robot ecology are in direct communication with one another and the user for verification, adaptation, and information. The proposed framework is examined through experimentation by designing, building, and implementing an inter-communicative network of bespoke semi-autonomous robots with all proposed parts of the system.
keywords	Construction Automation, Material Reuse, Onsite Construction, Self Verifying System, Robot Ecology, Additive Manufacturing
series	eCAADe
email
last changed	2024/04/22 07:10

_id	acadia14_555
id	acadia14_555
authors	Vomhof, Max; Vasey, Lauren, Brauer, Stefan; Eggenschwiler, Kurt; Strauss, Jurgen; Gramazio, Fabio; Kohler, Matthias
year	2014
title	Robotic Fabrication of Acoustic Brick Walls
doi	https://doi.org/10.52842/conf.acadia.2014.555
source	ACADIA 14: Design Agency [Proceedings of the 34th Annual Conference of the Association for Computer Aided Design in Architecture (ACADIA) ISBN 9781926724478]Los Angeles 23-25 October, 2014), pp. 555-564
summary	This collaborative research project demonstrates the viability of using robotic fabrication and industrial polymer technologies in the fabrication of highly versatile and individually designed acoustically performative walls. Driven by the formal parameters which significantly impact the acoustics of a space through diffusion, in particular differentiated and aperiodic surface depth, a customizable system and fabrication process was developed in which an injection moulded element and a secondary insert are placed uniquely by robot and then joined through a process of ultra-sonic welding.
keywords	Robotics, Digital Fabrication, Parametric Modelling, Acoustics, Collaborative Research Model, Ultra-Sonic Welding
series	ACADIA
type	Normal Paper
email
last changed	2022/06/07 07:58

_id	ecaade2014_224
id	ecaade2014_224
authors	Mohammad Rahmani Asl, Michael Bergin, Adam Menter and Wei Yan
year	2014
title	BIM-based Parametric Building Energy Performance Multi-Objective Optimization
doi	https://doi.org/10.52842/conf.ecaade.2014.2.455
source	Thompson, Emine Mine (ed.), Fusion - Proceedings of the 32nd eCAADe Conference - Volume 2, Department of Architecture and Built Environment, Faculty of Engineering and Environment, Newcastle upon Tyne, England, UK, 10-12 September 2014, pp. 455-464
summary	Building energy performance assessments are complex multi-criteria problems. Appropriate tools that can help designers explore design alternatives and assess the energy performance for choosing the most appropriate alternative are in high demand. In this paper, we present a newly developed integrated parametric Building Information Modeling (BIM)-based system to interact with cloud-based whole building energy performance simulation and daylighting tools to optimize building energy performance using a Multi-Objective Optimization (MOO) algorithm. This system enables designers to explore design alternatives using a visual programming interface, while assessing the energy performance of the design models to search for the most appropriate design. A case study of minimizing the energy use while maximizing the appropriate daylighting level of a residential building is provided to showcase the utility of the system and its workflow.
wos	WOS:000361385100048
keywords	Building energy performance analysis; building information model (bim); parametric modelling; parametric energy simulation; multi-objective optimization
series	eCAADe
email
last changed	2022/06/07 07:58

_id	ascaad2022_099
id	ascaad2022_099
authors	Sencan, Inanc
year	2022
title	Progeny: A Grasshopper Plug-in that Augments Cellular Automata Algorithms for 3D Form Explorations
source	Hybrid Spaces of the Metaverse - Architecture in the Age of the Metaverse: Opportunities and Potentials [10th ASCAAD Conference Proceedings] Debbieh (Lebanon) [Virtual Conference] 12-13 October 2022, pp. 377-391
summary	Cellular automata (CA) is a well-known computation method introduced by John von Neumann and Stanislaw Ulam in the 1940s. Since then, it has been studied in various fields such as computer science, biology, physics, chemistry, and art. The Classic CA algorithm is a calculation of a grid of cells' binary states based on neighboring cells and a set of rules. With the variation of these parameters, the CA algorithm has evolved into alternative versions such as 3D CA, Multiple neighborhood CA, Multiple rules CA, and Stochastic CA (Url-1). As a rule-based generative algorithm, CA has been used as a bottom-up design approach in the architectural design process in the search for form (Frazer,1995; Dinçer et al., 2014), in simulating the displacement of individuals in space, and in revealing complex relations at the urban scale (Güzelci, 2013). There are implementations of CA tools in 3D design software for designers as additional scripts or plug-ins. However, these often have limited ability to create customized CA algorithms by the designer. This study aims to create a customizable framework for 3D CA algorithms to be used in 3D form explorations by designers. Grasshopper3D, which is a visual scripting environment in Rhinoceros 3D, is used to implement the framework. The main difference between this work and the current Grasshopper3D plug-ins for CA simulation is the customizability and the real-time control of the framework. The parameters that allow the CA algorithm to be customized are; the initial state of the 3D grid, neighborhood conditions, cell states and rules. CA algorithms are created for each customizable parameter using the framework. Those algorithms are evaluated based on the ability to generate form. A voxel-based approach is used to generate geometry from the points created by the 3D cellular automata. In future, forms generated using this framework can be used as a form generating tool for digital environments.
series	ASCAAD
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last changed	2024/02/16 13:38

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