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Scholars have called for better understanding of the generative process, a process underlying the creation of urban form that often has positive qualities such as coherence, human scale, flexibility, and adaptability. The generative process is incremental and continually refined, producing urban settlements that respond to feedback. Redefining the pattern language

Scholars have called for better understanding of the generative process, a process underlying the creation of urban form that often has positive qualities such as coherence, human scale, flexibility, and adaptability. The generative process is incremental and continually refined, producing urban settlements that respond to feedback. Redefining the pattern language as a system of knowledge generation, and a method to acquire essential information and re-create historical contexts, this dissertation aims to provide a comprehensive understanding of the generative process and the corresponding urban codes of traditional cities. The dissertation consists of three complete yet interconnecting articles. The first article examines the structural components of the generative process— place-based norms and urban codes—and their roles in generative development. Two traditions of urbanism with distinctive and coherent forms and different levels of imposed regulations were investigated: medieval European and Arabic-Islamic. The study finds that place-based norms are the core of any generative process. Whenever written codes do not control urban space, these norms emerge to operationalize the building process. The second article investigates the generative process through the operationality of patterns, properties, and a sequence in the creation of the traditional form of the town of Hoian, Vietnam. The recurrence of each property and the pattern of its repetition in urban elements are investigated to assess the impact of generative forces on the urban form of Hoian. Fifteen of Alexander’s properties and ten of Lynch’s qualities were also combined into a set of twenty properties of urban elements. Finally, the third article observes and then explores the unfolding of the generative process using the virtual online platform OpenSim, thereby verifying the operationality of the generative process revealed in the previous two articles. The paper substantiates the proposition that the generative system includes patterns and urban properties that can serve as rules for directing urban growth. These rules build diverse and unified urban settlements.
ContributorsNguyen, Ngoc Hong, Ph.D (Author) / Talen, Emily (Thesis advisor) / Huang, Liling (Committee member) / Pijawka, David (Committee member) / Arizona State University (Publisher)
Created2015
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Description
Interior design continues to re-define itself as a discipline that presents designers with new problems that require innovative solutions. This is particularly true in the case in office design. The transformation of the office environment from the standard bullpen configuration to today's dynamic, flexible, and open floor plans has required

Interior design continues to re-define itself as a discipline that presents designers with new problems that require innovative solutions. This is particularly true in the case in office design. The transformation of the office environment from the standard bullpen configuration to today's dynamic, flexible, and open floor plans has required new design methodologies that incorporate tools and technologies that are readily available to interior designers. Today, increased use of teams in the workplace challenges interior designers to create environments that accommodate both group and individual tasks (Brill, Weidermann & BOSTI associates, 2001). Collaboration has received considerable attention as organizations focus on productivity and reducing costs to compete in a global economy (Hassanain, 2006). Designers and architects should learn to create environments that respond to dynamic, moveable, and flexible work methods. This web-based research study explores the use of pattern language as a new tool for designing collaborative work environments. In 1977, Christopher Alexander and his associates developed `Pattern language' (Alexander, Ishikawa & Silverstein, 1977) as a design formulation methodology. It consists of a series of interrelated physical elements combined to create a framework for design solutions. This pattern language tool for collaborative work environments was created based on research by Lori Anthony (2001). This study further builds upon current trends and research in collaborative work environments. The researcher conducted a pilot test by sending the web-based tool and an online questionnaire to all graduate students and faculty members in the fields of interior design and healthcare and healing environment (HHE). After testing its validity in The Design School at Arizona State University, the same tool and questionnaire was sent to the employees of one of the leading architecture and interior design firms in Phoenix, AZ. The results showed that among those design professionals surveyed, the majority believe pattern language could be a valuable design tool. The insights obtained from this study will provide designers, architects, and facility managers with a new design tool to aid in creating effective collaborative spaces in a work environment.
ContributorsSangoi, Deepika (Author) / Bender, Diane (Thesis advisor) / Brandt, Beverly (Committee member) / Heywood, William (Committee member) / Arizona State University (Publisher)
Created2011