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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Hits 1 to 20 of 559

_id acadia05_000
id acadia05_000
authors Ataman, Osman (Ed.)
year 2005
title Smart Architecture: Integration of Digital and Building Technologies
source Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8, ISavannah (Georgia) 13-16 October 2005, 259 p.
doi https://doi.org/10.52842/conf.acadia.2005
summary Recent developments in digital technologies and smart materials have created new opportunities and are suggesting significant changes in the way we design and build architecture. Traditionally, however, there has always been a gap between the new technologies and their applications into other areas. Even though, most technological innovations hold the promise to transform the building industry and the architecture within, and although, there have been some limited attempts in this area recently; to date architecture has failed to utilize the vast amount of accumulated technological knowledge and innovations to significantly transform the industry. Consequently, the applications of new technologies to architecture remain remote and inadequate. Although, there have been some adaptations in this area recently, the improvements in architecture reflect only incremental progress, not the significant discoveries needed to transform the industry.
series ACADIA
email
more http://www.acadia.org
last changed 2022/06/07 07:49

_id ijac20053202
id ijac20053202
authors Ataman, Osman
year 2005
title Integrating Digital and Building Technologies: Towards a New Architectural Composite
source International Journal of Architectural Computing vol. 3 - no. 2, 181-190
summary This paper presents an ongoing research project about the development of the materials and fabrication techniques for a fundamentally new class of architectural composite. This type of composite, which is a representative example of an even broader class of smart architectural material, has the potential to change the design and function of an architectural structure or living environment. As of today, this kind of composite does not exist. Once completed, this will be the first technology on its own. We believe this study will lay the fundamental groundwork for a new paradigm in surface engineering that may be of considerable significance in architecture, building and construction industry, and materials science.
series journal
more http://www.multi-science.co.uk/ijac.htm
last changed 2007/03/04 07:08

_id acadia05_104
id acadia05_104
authors Anders, Peter and Lonsing, Werner
year 2005
title AmbiViewer: A Tool for Creating Architectural Mixed Reality
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 104-113
doi https://doi.org/10.52842/conf.acadia.2005.104
summary This paper presents a new mixed reality system for architecture, AmbiViewer. The system employs digital video, onboard modeler and global positioning to merge physical and simulated entities on the screen. The system can be used to model projects on-site, and in view of the project environs. The paper also discusses the use of AmbiViewer in creating cybrids, compositions of virtual and material reality. The paper concludes with a description of a small project undertaken with AmbiViewer and its implications for cybrid architecture.
series ACADIA
email
last changed 2022/06/07 07:54

_id acadia05_012
id acadia05_012
authors Anshuman, Sachin
year 2005
title Responsiveness and Social Expression; Seeking Human Embodiment in Intelligent Façades
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 12-23
doi https://doi.org/10.52842/conf.acadia.2005.012
summary This paper is based on a comparative analysis of some twenty-six intelligent building facades and sixteen large media-facades from a socio-psychological perspective. It is not difficult to observe how deployment of computational technologies have engendered new possibilities for architectural production to which surface-centeredness lies at that heart of spatial production during design, fabrication and envelope automation processes. While surfaces play a critical role in contemporary social production (information display, communication and interaction), it is important to understand how the relationships between augmented building surfaces and its subjects unfold. We target double-skin automated facades as a distinct field within building-services and automation industry, and discuss how the developments within this area are over-occupied with seamless climate control and energy efficiency themes, resulting into socially inert mechanical membranes. Our thesis is that at the core of the development of automated façade lies the industrial automation attitude that renders the eventual product socially less engaging and machinic. We illustrate examples of interactive media-façades to demonstrate how architects and interaction designers have used similar technology to turn building surfaces into socially engaging architectural elements. We seek opportunities to extend performative aspects of otherwise function driven double-skin façades for public expression, informal social engagement and context embodiment. Towards the end of the paper, we propose a conceptual model as a possible method to address the emergent issues. Through this paper we intend to bring forth emergent concerns to designing building membrane where technology and performance are addressed through a broader cultural position, establishing a continual dialogue between the surface, function and its larger human context.
series ACADIA
email
last changed 2022/06/07 07:54

_id sigradi2005_190
id sigradi2005_190
authors Ataman, Osman
year 2005
title The digital architecture of tomorrow
source SIGraDi 2005 - [Proceedings of the 9th Iberoamerican Congress of Digital Graphics] Lima - Peru 21-24 november 2005, vol. 1, pp. 190-193
summary This paper presents an ongoing research project about the development of the materials and fabrication techniques for a fundamentally new class of architectural composite. This type of composite, which is a representative example of an even broader class of smart architectural material, has the potential to change the design and function of an architectural structure or living environment. As of today, this kind of composite does not exist. Once completed, this will be the first technology on its own. We believe this study will lay the fundamental groundwork for a new paradigm in surface engineering that may be of considerable significance in architecture, building and construction industry, and materials science.
series SIGRADI
last changed 2016/03/10 09:47

_id acadia05_226
id acadia05_226
authors Biloria, N., Oosterhuis, K. and Aalbers, C.
year 2005
title Design Informatics
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 226-235
doi https://doi.org/10.52842/conf.acadia.2005.226
summary The research paper exemplifies a novel information integrated design technique developed at ONL (Oosterhuis and Lenard), Netherlands, specifically appropriated for envisaging complex geometric forms. The ‘informed design technique’, apart from being highly instrumental in conceptualizing and generating the geometric component constituting architectural form in a parametric manner, is also efficiently utilized for precise computer aided manufacturing and construction of the speculated form. Geometric complexities inherent in contemporary architectural constructs and the time spent in appropriation of such topologies, fueled the ‘informed design’ approach, which caters to issues of timely construction, precision oriented design and production (visual and material) and parametric modeling attuned to budgetary fluctuations. This design-research approach has been tested and deployed by ONL, for conceiving ‘the Acoustic Barrier’ project, Utrecht Leidsche Rijn in the Netherlands and is treated as a generic case for exemplifying the ‘informed design’ technique in this research paper. The design methodology encourages visualizing architectural substantiations from a systems perspective and envisages upon a rule based adaptive systems approach involving extrapolation of contextual dynamics/ground data in terms of logical ‘rules’. These rules/conditionalities form the basis for spawning parametric logistics to be mapped upon geometric counterparts exemplifying the conception. The simulated parametric relations bind dimensional aspects (length, width, height etc.) of the geometric construct in a relational manner, eventually culminating in a 3D spatial envelope. This evolved envelope is subsequently intersected with a ‘parametric spatio-constructive grid’, creating specific intersecting points between the two. The hence extorted ‘point cloud’ configuration serves as a generic information field concerning highly specific coordinates, parameters and values for each individual point/constructive node it embodies. The relations between these points are directly linked with precise displacements of structural profiles and related scaling factors of cladding materials. Parallel to this object oriented modeling approach, a detailed database (soft/information component) is also maintained to administer the relations between the obtained points. To be able to derive constructible structural and cladding components from the point cloud configuration customized Scripts (combination of Lisp and Max scripts) process the point cloud database. The programmed script-routines, iteratively run calculations to generate steel-wireframes, steel lattice-structure and cladding panels along with their dimensions and execution drawing data. Optimization-routines are also programmed to make rectifications and small adjustments in the calculated data. This precise information is further communicated with CNC milling machines to manifest complex sectional profiles formulating the construct hence enabling timely and effective construction of the conceptualized form.
series ACADIA
email
last changed 2022/06/07 07:54

_id acadia05_058
id acadia05_058
authors Daveiga, José and Ferreira, Paulo
year 2005
title Smart and Nano Materials in Architecture
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 58-67
doi https://doi.org/10.52842/conf.acadia.2005.058
summary We describe and analyze the fields of Smart and Nano Materials and their potential impact on architectural design and building fabrication. Distinguishing Smart and Nano materials, Smart Materials perform both sensing and actuating operations, whereas many Nano materials are capable of self-assembly. In general, Smart and Nano materials can perform like living systems, simulating human skin, the body’s muscles, a leaf’s chlorophyll and self-regeneration. Recognizing that the traditional partition between Materials Science and Architecture is obsolete, our intent is to show how these two fields are intrinsically connected, while growing evermore symbiotic as we progress into the futureKeeping the designer in mind, our paper begins with the question: “What Nano and Smart materials can be used in future architectural designs?” Outlining what such materials might mean for architectural fabrication and design, we claim that Smart and Nano Materials can imitate living organisms. Effective implementation of these materials will therefore allow designed spaces to operate as active organs within a larger dynamic organism, synthesizing both expressive intent and pragmatic considerations. This paper is a collaboration between an architect and a materials scientist on the future of materials and their influence in architecture. By giving examples of work already underway we intend to illustrate and suggest directions ranging from the functional to the expressive, from tectonics to morphology. We conclude with a reflection on the importance of future research between our two areas of knowledge.
series ACADIA
email
last changed 2022/06/07 07:55

_id acadia05_184
id acadia05_184
authors Fineout, Matthew G.
year 2005
title The Tower of Babel: Bridging Diverse Languages with Information Technologies
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 184-191
doi https://doi.org/10.52842/conf.acadia.2005.184
summary New digital tools or information technologies are providing the means for architects to realize unprecedented architectural creations. Unfortunately, the promise these technologies hold is far from their potential expression in the built physical environment. A contributing cause to this disjunctive state is the multiplicity of languages and knowledge sets employed by the various team members or actors engaged in a building project. From the cost models of the owners to the shop drawings of the fabricators, each actor views the project in terms specific to their individual discipline. In order to successfully engage the building process, these new technologies must account for this condition and develop means in which to span across traditional boundaries. This paper will examine the disjointed and fractured nature of the building project and identify opportunities for the deployment of information technologies to bridge boundaries, ultimately providing for and delivering architectural projects of unparalleled precedence. Specific aspects inherent to these technologies will be examined to understand where their application may benefit the building process. The key attributes this paper will focus on include: visualization tools, centralized database, cross discipline platform tools and novel forms of information representation. A case study of an architectural project will serve as the means in which to study the successful implementation of these attributes and their resulting impact on the design process and building project. This study will demonstrate how information technologies can be implemented within the multifaceted framework of conventional building projects to yield a project of unprecedented form.
series ACADIA
email
last changed 2022/06/07 07:50

_id acadia05_078
id acadia05_078
authors Fox, Michael and Hu, Catherine
year 2005
title Starting From The Micro: A Pedagogical Approach to Designing Interactive Architecture
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 78-93
doi https://doi.org/10.52842/conf.acadia.2005.078
summary The paper outlines a pedagogical approach whereby a number of technology-intensive skills can be quickly learned to a level of useful practicality through a series of discrete, yet cumulative explorations with the design goal of creating intelligently responsive architectural systems. The culmination of such explorations in creating full-scale interactive architectural environments leads to a relatively unexplored area of negotiation whereby individual systems must necessarily manage environmental input to mediate a behavioural output. The emerging area of interactive architecture serves as a practical means for inventing entirely new ways of developing spaces, and the designing and building environments that address dynamic, flexible and constantly changing needs. Interactive architecture is defined here as spaces and objects that can physically re-configure themselves to meet changing needs. The central issues explored are human and environmental interaction and behaviours, embedded computational infrastructures, kinetic and mechanical systems and physical control mechanisms. Being both multidisciplinary and technology-intensive in nature, architects need to be equipped with at least a base foundational knowledge in a number of domains in order to be able to develop the skills necessary to explore, conceive, and design such systems. The teaching methods were carried out with a group of undergraduate design students who had no previous experience in mechanical engineering, electronics, programming, or kinetic design with the goal of creating a responsive kinetic system that can demonstrate physical interactive behaviours on an applicable architectural scale. We found the approach to be extremely successful in terms of psychologically demystifying unfamiliar and often daunting technologies, while simultaneously clarifying the larger architectural implications of the novel systems that had been created. The authors summarize the processes and tools that architects and designers can utilize in creating and demonstrating of such systems and the implications of adopting a more active role in directing the development of this new area of design.
series ACADIA
email
last changed 2022/06/07 07:50

_id acadia05_048
id acadia05_048
authors Katodrytis, George
year 2005
title Poiesis and Autopoiesis in Architecture
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 48-57
doi https://doi.org/10.52842/conf.acadia.2005.048
summary The use of digital technology in architecture has proven to be more assertive than originally thought: it has reconditioned the nature of the design process, and established new processes and techniques of fabrication. Recent applications in digital technology show inquisitiveness in the contentious subject Genetic Algorithms. This new architectural process is characterized by two main shifts: from poiesis (or poetry) to autopoiesis, and from authenticity to mimesis. Since evolutionary simulations give rise to new forms rather than design them, architects should now be both artists and operators of both Inventive and Systematic design. Inventive design: The digital media should bring about poiesis (poetry). Digital spaces reveal and visualize the unconscious desires of urban spaces, bringing forth new dreamscapes, mysterious and surreal. This implies a Freudian spatial unconscious, which can be subjected to analysis and interpretation. The tools of digital dreaming, meanwhile, have opened a window to the ‘urban unconscious’. Systematic Design: Digital media should bring about an autopoiesis. This approach calls into question traditional methods of architectural design that replace the hierarchical processes of production known as “cause and effect,” and propose a design process where the architect becomes a constructor of formal systems. Will the evolutionary simulation replace design? Is metric space dead? The new algorithmic evolutionary conditions give architecture an autopoiesis, similar to biological dynamics. Paradoxically, the new emerging process is more insightful. The emphasis of the exploration is on morphological complexity. Architecture, through “machine” fabrication, may become more responsive, rigorous and poetic.
series ACADIA
email
last changed 2022/06/07 07:52

_id acadia05_024
id acadia05_024
authors Mathew, Anijo
year 2005
title Smart Homes for the Rural Population: New Challenges and Opportunities
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 24-35
doi https://doi.org/10.52842/conf.acadia.2005.024
summary “Smart” Homes (domestic environments in which we are surrounded by interconnected technologies that are more or less responsive to our presence and actions) seem increasingly plausible with the emergence of powerful mobile computing devices and real time context aware computing (Edwards and Grinter, 2001). Research at premier technology universities have given birth to home “labs” that experiment with sensors, cameras and monitors to study physical, behavioral and social consequences of such technologies on occupants of such homes. One of the most important problems that “smart” homes will eventually help to address is that of spiraling costs of healthcare. Using ubiquitous technologies to motivate healthy decisions can help prevent the onset of myriad medical problems (Intille, 2004). Moving the focus of attention from the health centers and hospitals to the working home through such technology interventions would eventually lead to decreased financial pressure on the traditional healthcare system. This paper examines the challenges and opportunities in the design of “smart” technologies for preventive healthcare in rural homes. It summarizes findings from current ethnographic and demographic studies; and examines other contemporary research in the field of ubiquitous computing and “smart” homes. With the help of these studies, the paper lists different technical, social and functional challenges that we as designers may have to consider before designing “smart” homes for rural populations.
series ACADIA
email
last changed 2022/06/07 07:58

_id acadia07_158
id acadia07_158
authors Oatman, Devin; Senagala, Mahesh
year 2007
title Am I? Architecture of Ambient Intelligence
source Expanding Bodies: Art • Cities• Environment [Proceedings of the 27th Annual Conference of the Association for Computer Aided Design in Architecture / ISBN 978-0-9780978-6-8] Halifax (Nova Scotia) 1-7 October 2007, 158-163
doi https://doi.org/10.52842/conf.acadia.2007.158
summary In its purest state, Ambient Intelligence is smart computing whose presence is not apparent to the human senses except in response and actions. The original intentions and origins of Ambient Intelligence began with the need for more efficient and unobtrusive management of our everyday activities. Synonymous with ubiquitous computing, Ambient Intelligence, or AmI, consists of: UbiComp: the integration of microchips and computers into everyday objects; UbiComm: the ability of these objects to communicate with each other and the user; and Intelligent User Interface which allows inhabitants of the environment to interact with the system with human gestures (Riva 2005). Put together, these components are basically personifi ed computers. The key factor in Ambient Intelligent communities is that the microscopic computers are aware of their surroundings and their purpose just as human beings are. With the ability to self-program and react to new software, they eliminate the need for humans to program them, decreasing maintenance and programming time. These concepts and technologies raise important questions. What happens when the system disappears? Are we ready as a society to see a certain degree of power taken away from us by anticipatory computers? This short paper will provide an overview of AmI and why it is important for architects to embrace, explore, and engage this emerging technology.
series ACADIA
email
last changed 2022/06/07 08:00

_id acadia05_036
id acadia05_036
authors Senagala, Mahesh
year 2005
title Building is a Network for Living in: Toward New Architectures
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 36-47
doi https://doi.org/10.52842/conf.acadia.2005.036
summary Our societies today are beginning to think, communicate, interact and live differently as everything in the human world is beginning to be networked wirelessly at the speed of light with everything else in the world (including architecture). This article looks at the big picture and outlines a series of recent developments in digital technologies that would enable architecture to become sensate, supple and globally networked at the speed of light. New thinking, new commerce, new polity, and new architectures are emerging out of the apparently disparate yet closely related design and technological inventions. We are on the verge of moving from the outmoded notions of space and time to the post-spatial notion of sensate and supple space-time.
series ACADIA
email
last changed 2022/06/07 07:56

_id acadia05_068
id acadia05_068
authors Silver, Michael
year 2005
title Discrete Space: Automason Ver. 1.0
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 68-77
doi https://doi.org/10.52842/conf.acadia.2005.068
summary This paper will demonstrate the power of digital technology by encouraging architects to become more involved in the creation of small scale, ad-hoc and task specific software tools. Rather than appropriating code originally designed to solve the visualization problems faced in other fields, designers should instead develop their own programming culture. Through the acquisition of new skills and better collaborative exchanges architects can advance the unpredictable desires of the poetic imagination while addressing the practical challenges faced by craftsmen, engineers and project managers.
series ACADIA
email
last changed 2022/06/07 07:56

_id acadia05_200
id acadia05_200
authors Tsou, J.-Y., Chan Yi Lee, Mak Kwok Pui, Ru Xu Du, Liang Jian, Yeung Kim
year 2005
title Applying Scientific Simulation to Integrate Thermoelectric Conductor Module into Architectural Design – Smart Wall for Thermal Comfort
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 200-210
doi https://doi.org/10.52842/conf.acadia.2005.200
summary This paper presents the innovative architectural design concept, which is to integrate the new material and technology into the building design to achieve the thermal comfort and at the same time reduce the energy consumption of the building by making use of the renewable energy, including solar and wind energy. The system is developed based on the idea of regional thermal comfort in building. The advantage of the system is the environmental friendly approach, costless operation, reliability, flexibility, scalability and adaptability for the integration to the building design. With the design concept, we tried to do two application designs in two virtual sites. One is a badminton court for the 2008 Beijing Olympic Games and the other is a cooling pond in a shopping mall. We will introduce how computational simulation can contribute to the prediction of the performance of the design. We will also discuss how the computation simulation can help in the design optimization process. Through the development of the new design integration of the material to the building, we would like to feedback to the material industry to encourage further collaboration and development in the material enhancement, so that both industries and the society can benefit from the advancement.
series ACADIA
email
last changed 2022/06/07 07:57

_id acadia05_246
id acadia05_246
authors Wierzbicki-Neagu, Madalina
year 2005
title Unfolding Architecture – Study, Development and Application of New Kinetic Structure Topologies
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 246-253
doi https://doi.org/10.52842/conf.acadia.2005.246
summary Advances in design tools and material engineering open new possibilities for architectural structures that may respond better to the demands of the increasing density of development, better space management and lesser environmental impact. Folding structures that provide adjustable on demand configurations can be effectively conceptualized if appropriate interdisciplinary expertise is brought together. Kinematic chain geometries borrowed from traditional mechanics can be developed into a variety of topologies suitable for architectural structures. Rectilinear deformable grids can provide the functionality of expanding and collapsing as well as the ability to be infinitely arrayed. Converging grids allow for circular arrays and fan like folding. The challenge is to translate a two-dimensional chain concept into a three-dimensional array of interleaved frames that form a stable structure and can bear the necessary loads. In order to complement the folding structure with the corresponding foldable shell, the algebra of rigid folds can be adapted to develop viable geometrical concepts. The demands of the design process needed to develop kinetic structures will expand the traditional architectural workflow to include parametric modeling tools that are common in mechanical engineering. Folding architectural structures require, besides traditional architectural layout development, parametric assembly capabilities and motion analysis typical for mechanical design. Potential application development, marketing, building code changes and effective multidisciplinary collaboration must take place for kinetic structures to enter the architectural mainstream.
series ACADIA
email
last changed 2022/06/07 07:57

_id acadia05_170
id acadia05_170
authors Barker, Daniel and Dong, Andy
year 2005
title A Representation Language for a Prototype CAD Tool for Intelligent Rooms
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 170-183
doi https://doi.org/10.52842/conf.acadia.2005.170
summary Intelligent rooms are a type of intelligent environment which enhance ordinary activities within the confines of a room by responding to human interaction using pervasive and ubiquitous computing. In the design of intelligent rooms, the specification of how the intelligent room enacts intelligent behavior through computational means is as integral as the geometric description. The self-aware and context-aware capabilities of intelligent rooms extend the requirements for computer-aided design tools beyond 3D modeling of objects. This article presents a Hardware as Agents Description Language for Intelligent Rooms (HADLIR) to model hardware in an intelligent room as “hardware agents” having sensor and/or effector modalities with rules and goals. End-users describe intelligent room hardware as agents based on the HADLIR representation and write agent rules and goals in Jess for each hardware component. This HADLIR agent description and the requisite software sensors/effectors constitute “hardware agents” which are instantiated into a multi-agent society software environment. The society is then bridged to either a virtual environment to prototype the intelligent room or to microelectronic controllers to implement a physical intelligent room. The integration illustrates how the HADLIR representation assists in the design, simulation and implementation of an intelligent room and provides a foundation technology for CAD tools for the creation of intelligent rooms.
series ACADIA
email
last changed 2022/06/07 07:54

_id acadia05_236
id acadia05_236
authors Brandt, Jordan
year 2005
title Skin That Fits: Designing and constructing cladding systems with as-built structural data
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 236-245
doi https://doi.org/10.52842/conf.acadia.2005.236
summary An awkward interface exists between the structure and skin of complex architecture. The primary structure is typically allowed much higher tolerance ranges than that of the cladding industry, due primarily to the delicate nature of the building envelope which, above all, must prevent water penetration and meet the aesthetic requirements of the architect and client. As architecture has integrated advanced design and fabrication techniques to realize increasingly complex shapes, this problem has been aggravated because of the tangency requirements for high gloss curved finish surfaces and the larger variations found with rolled steel columns and undulating concrete forms. To date, most innovations in this area have been focused upon mechanical connections that can be adjusted and shimmed, thus requiring increased design engineering and on-site labor costs for effective implementation. It would be preferable to manufacture cladding components that are properly adjusted to the actual site conditions, negating the need to predict and accommodate potential dimensional variation with complex connections. The research provides a model for implementing long distance laser scanning technology to facilitate a real-time parametric BIM, herein called an Isomodel.
series ACADIA
email
last changed 2022/06/07 07:54

_id acadia05_156
id acadia05_156
authors Cabrinha, Mark
year 2005
title From Bézier to NURBS: Integrating Material and Digital Techniques through a Plywood Shell
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 156-169
doi https://doi.org/10.52842/conf.acadia.2005.156
summary The development of digital fabrication has reintroduced material processes with digital processes. There has been much discussion about the tool and the objects of the tool, but little discussion of the implication of the material process on the digital process. A brief historical review on the development of computer numerical control and the origins of the Bézier curve reveals an instrumental fact: computer numerical controlled tools necessitated advancements in computational surfaces which eventually led to NURBS (Non-Uniform Rational B-Splines) surfaces. In other words, the origins of NURBS surfaces resides in its relation to material processes, rather than many current approaches that develop free form surfaces and then force the tool onto the material without regard to the material properties. From this historical and mathematical review, this project develops toward more intelligent construction methods based on the integration of NURBS differential geometry paired with material qualities and processes. Specifically, a digital technique of developing conceptual NURBS geometry into piecewise surface patches are then flattened based on the material thickness and density. From these flattened patches, a material technique is developed to intelligently remove material to allow the rigid flat material to re-develop into physical surface patches. The goal of this research is to develop digital and material techniques toward intelligent construction based on the correspondence between digitally driven surface and digitally driven material processes. The application of this technique as a rational and flexible system is to support the dynamic response of form and material toward such performative aspects as structure, daylight, ventilation, and thermal properties.
series ACADIA
email
last changed 2022/06/07 07:54

_id acadia05_094
id acadia05_094
authors Clayton, Mark J.
year 2005
title How I Stopped Worrying and Learned to Love AutoCAD
source Smart Architecture: Integration of Digital and Building Technologies [Proceedings of the 2005 Annual Conference of the Association for Computer Aided Design In Architecture / ISBN 0-9772832-0-8] Savannah (Georgia) 13-16 October 2005, pp. 94-103
doi https://doi.org/10.52842/conf.acadia.2005.094
summary The history of computing is expressed through AutoCAD as an accretion of ideas and inventions, each of which was a breakthrough in its time. Learning to use AutoCAD, or any CAD system, is augmented by an understanding of the historical context of its development. In contrast to a “deconstructivist” criticism of AutoCAD that avoids all historical context, this paper discusses the user interface of AutoCAD placed in its historical context by combining facts of history with personal reminiscences. The paper answers mysteries about AutoCAD such as “Why a black screen?”, “Why LISP?”, “Why a command line?”, “Why layers, pens and line types?”, and “Why 2D?” An understanding of context and history is a starting point for understanding, mastering, and improving software.
series ACADIA
email
last changed 2022/06/07 07:56

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