Sistemas generativos de projeto : um estudo de campo em Monte Alegre do Sul / Generative design system : a field study in Monte Alegre do Sul

Gonçalves, Giovana de Godoi, 1981-

22 August 2008

Orientador: Maria Gabriela Caffarena Celani / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil, Arquitetura e Urbanismo / Made available in DSpace on 2018-08-11T22:00:44Z (GMT). No. of bitstreams: 1 Goncalves_GiovanadeGodoi_M.pdf: 38323426 bytes, checksum: adab0ffe54b87bae0f9096ca8453b387 (MD5) Previous issue date: 2008 / Resumo: Uma nova função atribuída atualmente aos arquitetos é a de desenvolver ferramentas de projeto, conhecidas como generative design systems, que têm em comum preocupações como produtividade e variedade, objetivando a inovação formal. Um dos paradigmas utilizados para a geração de formas é a gramática da forma, que se baseia na definição de um vocabulário de formas e de regras de combinações e operações entre elas. A gramática da forma pode ser utilizada tanto para a descrição de linguagens existentes como para a criação de novas composições. Este trabalho consiste em um estudo de caso, a partir de um corpus de análise, de aplicação da gramática da forma com essas duas finalidades. O corpus de análise é composto por fachadas de construções históricas do centro da cidade de Monte Alegre do Sul. A pequena cidade, fundada no final do século XIX, foi escolhida porque manteve suas características urbanísticas originais e seus edifícios sofreram pouquíssimas intervenções ao longo do século XX. A partir desse corpus foi criada uma gramática da forma que descreve as composições dessas fachadas. Espera-se que essa gramática possa servir de base para futuras reformas nos edifícios da cidade. / Abstract: A new role entrusted to architects today is to develop design tools, known as generative design systems, which have in common concerns such as productivity and variety, aiming at formal innovation. One of the paradigms used for the generation of forms is shape grammar, which is based on the definition of a vocabulary of forms and rules of combinations and operations between them. Shape grammar can be used both for the description of existing languages and for the creation of new compositions. In this case study, a grammar with these two purposes was developed, from a corpus of analysis. The corpus was composed of façades of historic buildings from Monte Alegre do Sul downtown. The small town, founded at the end of the nineteenth century, was chosen because it maintained its original characteristics and it buildings suffered very few interventions over the XXth century. The grammar developed describes the compositions of all the façades in the group. We expected that this grammar can be used as a guide for future renovations of other buildings in the town. / Mestrado / Arquitetura e Construção / Mestre em Engenharia Civil

Desenho arquitetônico

Fachadas

Rule based design

Generative systems

Shape grammar

white noise PANORAMA: Process-based Architectural Design

Mitsogianni, Vivian, Vivian.Mitsogianni@rmit.edu.au

January 2009

This PhD by project is an examination of process-based architectural design. It offers an examination of one approach to undertaking process-based experimentation in architecture - based on reflection of my own practice and body of work - through which I have been able to consider a complex array of questions and issues that are associated with working in this way. By

Architecture

Architectural Design

Architectural Process

Process-based Architectural Design

Ornament

Australian Architecture

Generative Design Process

Rule-based Design Process

Interoperability of Traffic Infrastructure Planning and Geospatial Information Systems

Nejatbakhsh Esfahani, Nazereh

01 October 2018

Building Information Modelling (BIM) as a Model-based design facilitates to investigate multiple solutions in the infrastructure planning process. The most important reason for implementing model-based design is to help designers and to increase communication between different design parties. It decentralizes and coordinates team collaboration and facilitates faster and lossless project data exchange and management across extended teams and external partners in project lifecycle. Infrastructure are fundamental facilities, services, and installations needed for the functioning of a community or society, such as transportation, roads, communication systems, water and power networks, as well as power plants. Geospatial Information Systems (GIS) as the digital representation of the world are systems for maintaining, managing, modelling, analyzing, and visualizing of the world data including infrastructure. High level infrastructure suits mostly facilitate to analyze the infrastructure design based on the international or user defined standards. Called regulation1-based design, this minimizes errors, reduces costly design conflicts, increases time savings and provides consistent project quality, yet mostly in standalone solutions. Tasks of infrastructure usually require both model based and regulation based design packages. Infrastructure tasks deal with cross-domain information. However, the corresponding data is split in several domain models. Besides infrastructure projects demand a lot of decision makings on governmental as well as on private level considering different data models. Therefore lossless flow of project data as well as documents like regulations across project team, stakeholders, governmental and private level is highly important. Yet infrastructure projects have largely been absent from product modelling discourses for a long time. Thus, as will be explained in chapter 2 interoperability is needed in infrastructure processes. Multimodel (MM) is one of the interoperability methods which enable heterogeneous data models from various domains get bundled together into a container keeping their original format. Existing interoperability methods including existing MM solutions can’t satisfactorily fulfill the typical demands of infrastructure information processes like dynamic data resources and a huge amount of inter model relations. Therefore chapter 3 concept of infrastructure information modelling investigates a method for loose and rule based coupling of exchangeable heterogeneous information spaces. This hypothesis is an extension for the existing MM to a rule-based Multimodel named extended Multimodel (eMM) with semantic rules – instead of static links. The semantic rules will be used to describe relations between data elements of various models dynamically in a link-database. Most of the confusion about geospatial data models arises from their diversity. In some of these data models spatial IDs are the basic identities of entities and in some other data models there are no IDs. That is why in the geospatial data, data structure is more important than data models. There are always spatial indexes that enable accessing to the geodata. The most important unification of data models involved in infrastructure projects is the spatiality. Explained in chapter 4 the method of infrastructure information modelling for interoperation in spatial domains generate interlinks through spatial identity of entities. Match finding through spatial links enables any kind of data models sharing spatial property get interlinked. Through such spatial links each entity receives the spatial information from other data models which is related to the target entity due to sharing equivalent spatial index. This information will be the virtual properties for the object. The thesis uses Nearest Neighborhood algorithm for spatial match finding and performs filtering and refining approaches. For the abstraction of the spatial matching results hierarchical filtering techniques are used for refining the virtual properties. These approaches focus on two main application areas which are product model and Level of Detail (LoD). For the eMM suggested in this thesis a rule based interoperability method between arbitrary data models of spatial domain has been developed. The implementation of this method enables transaction of data in spatial domains run loss less. The system architecture and the implementation which has been applied on the case study of this thesis namely infrastructure and geospatial data models are described in chapter 5. Achieving afore mentioned aims results in reducing the whole project lifecycle costs, increasing reliability of the comprehensive fundamental information, and consequently in independent, cost-effective, aesthetically pleasing, and environmentally sensitive infrastructure design.:ABSTRACT 4 KEYWORDS 7 TABLE OF CONTENT 8 LIST OF FIGURES 9 LIST OF TABLES 11 LIST OF ABBREVIATION 12 INTRODUCTION 13 1.1. A GENERAL VIEW 14 1.2. PROBLEM STATEMENT 15 1.3. OBJECTIVES 17 1.4. APPROACH 18 1.5. STRUCTURE OF THESIS 18 INTEROPERABILITY IN INFRASTRUCTURE ENGINEERING 20 2.1. STATE OF INTEROPERABILITY 21 2.1.1. Interoperability of GIS and BIM 23 2.1.2. Interoperability of GIS and Infrastructure 25 2.2. MAIN CHALLENGES AND RELATED WORK 27 2.3. INFRASTRUCTURE MODELING IN GEOSPATIAL CONTEXT 29 2.3.1. LamdXML: Infrastructure Data Standards 32 2.3.2. CityGML: Geospatial Data Standards 33 2.3.3. LandXML and CityGML 36 2.4. INTEROPERABILITY AND MULTIMODEL TECHNOLOGY 39 2.5. LIMITATIONS OF EXISTING APPROACHES 41 INFRASTRUCTURE INFORMATION MODELLING 44 3.1. MULTI MODEL FOR GEOSPATIAL AND INFRASTRUCTURE DATA MODELS 45 3.2. LINKING APPROACH, QUERYING AND FILTERING 48 3.2.1. Virtual Properties via Link Model 49 3.3. MULTI MODEL AS AN INTERDISCIPLINARY METHOD 52 3.4. USING LEVEL OF DETAIL (LOD) FOR FILTERING 53 SPATIAL MODELLING AND PROCESSING 58 4.1. SPATIAL IDENTIFIERS 59 4.1.1. Spatial Indexes 60 4.1.2. Tree-Based Spatial Indexes 61 4.2. NEAREST NEIGHBORHOOD AS A BASIC LINK METHOD 63 4.3. HIERARCHICAL FILTERING 70 4.4. OTHER FUNCTIONAL LINK METHODS 75 4.5. ADVANCES AND LIMITATIONS OF FUNCTIONAL LINK METHODS 76 IMPLEMENTATION OF THE PROPOSED IIM METHOD 77 5.1. IMPLEMENTATION 78 5.2. CASE STUDY 83 CONCLUSION 89 6.1. SUMMERY 90 6.2. DISCUSSION OF RESULTS 92 6.3. FUTURE WORK 93 BIBLIOGRAPHY 94 7.1. BOOKS AND PAPERS 95 7.2. WEBSITES 101

info:eu-repo/classification/ddc/690

ddc:690

OKSTRA

Building Information Modeling

Rule Based Design

De la conception prospective et innovante dans les organisations municipales québécoises : vers une régénération des routines en urbanisme ?

Lavoie, Nicolas

12 1900

Les transitions écologiques et numériques, ainsi que les préoccupations relatives aux inégalités sociales, signalent l’avènement de nouveaux défis complexes pour les villes contemporaines. Ces changements soulèvent la question de la capacité dynamique des urbanistes, plus précisément leur capacité à revoir leurs outils et leurs routines de planification dans les projets urbains afin d’explorer le potentiel des nouveaux paradigmes d’action collective et de favoriser des voies de transition innovantes pour les villes. Les entreprises européennes, en particulier dans le domaine des transports publics, ont relevé ce défi, avec des résultats convaincants, en développant des outils basés sur des théories de conception innovante. L’un de ces outils méthodologiques, le processus Définition-Connaissance-Concept-Proposition (DKCP), a été utilisé pour générer une nouvelle gamme d’options de planification dans trois recherches-interventions à Montréal, au Canada. La routine traditionnelle du planificateur se concentre généralement sur une seule activité du processus, la formulation de propositions (phase P), en adaptant légèrement les anciens projets au contexte et aux règles locales. Cependant, la routine des futurs urbanistes devrait inclure de nouvelles capacités de gestion des étapes en amont des projets sous la forme d’une succession de phases DKCP. La nécessité de relever les défis complexes de la ville du XXIe siècle ouvre la voie à une nouvelle identité professionnelle : celle de « l’urbaniste innovant ». / Ecological and digital transitions, along with concerns over social inequalities, signal the advent of complex new challenges for contemporary cities. These changes raise the issue of the dynamic capability of urban planners: more specifically, their ability to review their tools and planning routines in urban projects in order to explore the potential of new paradigms of collective action and foster innovative transition paths for cities. European companies, especially in public transportation, have responded to this challenge, with convincing results, by developing tools based on innovative design theories. One of these methodological tools, the Definition-Knowledge-Concept-Proposition (DKCP) process, was used to generate a new range of planning options for three urban districts in Montreal, Canada. The traditional planner’s routine generally focuses on a single activity in the process, the formulation of propositions (Phase P), by slightly adapting former projects to the local context and rules. However, the future urban planners’ routine should include new capabilities for managing upstream stages of projects in the form of a succession of DKCP phases. The need to tackle the complex challenges of the 21st century city opens the way to a new professional identity: the “innovative urban planner”.

Défis urbains futurs

Prospective stratégique

Routines professionnelles

Conception réglée

Conception innovante

Urban futures

Strategic foresight

Routines

Rule-based design

Innovative design