Knitting Patterns: Managing Design Complexity with Computation

Abstract

Large software conglomerates like Trimble and Autodesk provide consumers with suites of software that perform many functions within the design and construction process. Communicating with software outside of the suite can be highly problematic as file types and communication protocols are proprietary and closed within that software family the antithesis of interoperability). This is in stark contrast with emerging trends in consumer computing, where we find a rich ecosystem of devices and services facilitating a period of intense innovation. This paper documents original research that aims to implement communication beyond specific software suites and test, to what extent, wider software ecosystems revolving around open standards might be implemented within the design and construction domain. Our first test case—an agentbased dynamic simulation combining natural and built environmental components—is deployed to explore the city as a multitude of interrelated natural and built patterns. We analyze the role this simulation might play in managing the complexities of rebuilding a sustainable urban environment after the devastating earthquake in Christchurch, New Zealand. The second test case deploys an iPad application to communicate with a BIM model exploring the development of a mobile application and methodology for openly communicating outside of the intended software family. Through these case studies we begin to identify ways to leverage emergent device and data ecosystems and representations for ‘knitting’ devices and services together in innovative ways to advance design and construction processes. KeywoRDS Architecture, BIM, Design, Digital, Ecology Knitting Patterns: Managing Design Complexity with Computation Dermott John James McMeel, University of Auckland, Auckland, New Zealand Robert Amor, University of Auckland, Auckland, New Zealand