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id cf2017_321
authors Rossini, Francesco Livio; Novembri, Gabriele; Fioravanti, Antonio
year 2017
title AS&BIM – A Unified Model of Agent Swarm and BIM to Manage the Complexity of the Building Process
source Gülen Çagdas, Mine Özkar, Leman F. Gül and Ethem Gürer (Eds.) Future Trajectories of Computation in Design [17th International Conference, CAAD Futures 2017, Proceedings / ISBN 978-975-561-482-3] Istanbul, Turkey, July 12-14, 2017, pp. 321-332.
summary Analyzing the success rate of the building process, it emerges that it is an industrial sector that lacks efficiency. Nevertheless, during decades the trend was to compare and bring into contact manufacturing management procedures vis-?-vis the building industry. But, whilst a manufacturing product is essentially a standard object produced in a controlled environment, a building is a prototype in itself. To bridge this gap research on Artificial Intelligence was conducted, so as to move from the traditional trial-and-error process to the simulation approach, defining in a virtual environment results of design and management choices before the real application, thus mitigating risks. To attain these results, a prototype was developed based on the Hybrid Actor Agent approach. The Agents, governed by their rules, behaviors and goals, define actions while Actors manage communication among them. The Network intertwined among these Agent/Actor systems is capable of stratifying knowledge based on the success rate of the choices made. The result of these concurrent computations is an optimized building process flow-chart
keywords Artificial Intelligence, Project Management, Building Information Modeling
series CAAD Futures
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100%; open Ballard, G., Zabelle, T. (1992) Find in CUMINCAD Lean Design: Process, Tools and Techniques, white paper #10 of the Lean Construction Institute , Koskela, L.: Application of the new production philosophy to construction. Stanford University

100%; open Boussabaine, A. H. (1996) Find in CUMINCAD The use of artificial neural networks in construction management: a review , Constr. Manage. Econ. 14 (5), 427–436

100%; open Brooks, R., A. (1986) Find in CUMINCAD A robust layered control system for a mobile robot , IEEE Journal of Robotics and Automation, 2,(1), 14–23

100%; open Freuder, E.C., Mackworth A., K. (2008) Find in CUMINCAD Constraint Satisfaction: an emerging paradigm , Handbook of constraint programming, Chapter 2, Rossi, F., Van Beek, P., Walsh, T., eds., Elsevier

100%; open Harris, R. B., Ioannou, P. G. (1998) Find in CUMINCAD Scheduling projects with repeating activities , Journal of construction engineering and management, 124 (4), 268-278

100%; open hena S.-M., Griffis, F.H., Chen, PH., Chang, L.M. (2013) Find in CUMINCAD A framework for an automated and integrated project scheduling and management system , Automation Construction, 35, 89-110

100%; open Hewitt, C., Bishop, P., Steiger, R. (1973) Find in CUMINCAD A Universal Modular Actor Formalism for Artificial Intelligence , Proceeding of the 3rd International Joint Conference Artificial Intelligence IJCAI, Stanford University, CA

100%; open Kanapeckiene, L., Kaklauskas, A., Zavadskas, E. K., Seniut, M. (2010) Find in CUMINCAD Integrated knowledge management model and system for construction projects , Engineering application of Artificial Intelligence, 23 (7), 1200-1215

100%; open Mirahadi, F., Zayed, T. (2016) Find in CUMINCAD Simulation-based construction productivity forecast using NeuralNetwork-Driven Fuzzy Reasoning , Automation Construction 65, 102-115

100%; open Mirahadi, F., Zayed, T. (2016) Find in CUMINCAD Simulation-based construction productivity forecast using NeuralNetwork-Driven Fuzzy Reasoning , Automation Construction, 65, 102-115

100%; open Modi, P. J., Shen, W.-M., Tambe, M., & Yokoo, M. (2003) Find in CUMINCAD An asynchronous complete method for distributed constraint optimization , proceedings of the 2nd AAMAS, Autonomous Agents and Multi-Agents Systems, 161–168

100%; open Prieto, A., Prieto, B., Martinez Ortigosa, E., Ros, E., Pelayo, F., Ortega, J., Rojas, I. (2016) Find in CUMINCAD Neural networks: an overview of early research, current frameworks and new challenges , Neurocomputing, 214, 242-268

100%; open Sycara, K., P. (1990) Find in CUMINCAD Persuasive argumentation in negotiation , Theory and Decision, 28(3), 203-242

100%; open Taillandier, F., Taillandier, P., Tepeli, E., Breyse, D., Mehdizadeh, R., Khartabil, F. (2015) Find in CUMINCAD A multi-agent model to manage risks in construction project (SMACC) , Automation Construction, 58, 1-18

100%; open Taurianen, M., K., Puttonen, J.A., Saari, A., J. (2015) Find in CUMINCAD The assessment of constructability: BIM cases , Journal of Information Technology Construction, 20, 51-67

100%; open van der Hoek, W., Wooldridge, M. (2008) Find in CUMINCAD Multi-Agent Systems , F. van Harmelen, V. Lifschitz, and B. Porter, editors, Handbook of Knowledge Representation, Elsevier, 887928

100%; open Wooldridge, M. (2008) Find in CUMINCAD An introduction to Multi-Agent systems , John Wiley & Sons

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