Accelerating interactions in project design through extreme collaboration and commitment management - A case study
Keywords: model, systems, energy, quality, performance, system, simulation, design, space, collaboration, combustion, display, industry, wood, efficiency, delivery, time, work, jet, project, computer, construction, control, cycle, scheduling, computers, designs, process, extreme, missions, teams, projects, team, internal, graphic, house, Last, High, structural, Interactive, engines, conceptual, propulsion, shared, planner, NASA, AEC, Co-located, Cross-functional, Multi-disciplinary
Abstract
Extreme Collaboration (XC) is a methodology originally pioneered by the NASA Jet Propulsion Laboratory to accelerate the conceptual design of space missions from months to a few days. XC has been adapted for application to AEC projects showing its potential for reducing cycle time and improving quality in construction projects. XC teams are cross-functional, co-located groups enabled with high performance computer modeling and simulation tools, large and interactive graphic displays, shared models and special organization, culture and training to support the design process. This paper reports on the experimentation by the authors to accelerate the design process of a multidisciplinary team that is expected to simultaneously optimize the architecture, structural design, energy efficiency and cost of wood houses. The authors adapted the XC concepts to the context of the project team and combined them with Phase Scheduling, which manages the commitments of the design team members. This paper describes the adapted methodology and the preliminary evaluation by the project team. The team, 20 designers from 5 disciplines, evaluated different aspects of the methodology, including speed, quality, effectiveness, team work, modeling support, and planning reliability. The results are promising and have encouraged the authors to continue using the adapted methodology in future projects.
Más información
Título de la Revista: | 1604-2004: SUPERNOVAE AS COSMOLOGICAL LIGHTHOUSES |
Editorial: | ASTRONOMICAL SOC PACIFIC |
Fecha de publicación: | 2009 |
Página de inicio: | 477 |
Página final: | 488 |
URL: | http://www.scopus.com/inward/record.url?eid=2-s2.0-84856662890&partnerID=q2rCbXpz |