% This file was created with JabRef 2.3.1. % Encoding: UTF8 @INPROCEEDINGS{Brunner2005, author = {Klaus A. Brunner and Ardeshir Mahdavi}, title = {A software architecture for self-updating life-cycle building models}, pages = {423--432}, crossref = {Martens2005} } @INPROCEEDINGS{Brunner2005a, author = {Klaus A. Brunner and Ardeshir Mahdavi}, title = {The software design of a dynamic building model service}, pages = {567--574}, crossref = {Scherer2005} } @INPROCEEDINGS{Suter2005, author = {Georg Suter and Klaus Brunner and Ardeshir Mahdavi}, title = {Spatial reasoning for building model reconstruction based on sensed object location information}, pages = {403--412}, crossref = {Martens2005} } @INPROCEEDINGS{Brunner2002, author = {Klaus A. Brunner}, title = {What's emergent in emergent computing?}, booktitle = {Cybernetics and Systems 2002: Proceedings of the 16\textsuperscript{th} European Meeting on Cybernetics and Systems Research}, year = {2002}, editor = {Robert Trappl}, volume = {1}, pages = {189--192}, isbn = {3-85206-160-1} } @PHDTHESIS{Brunner2007, author = {Klaus A. Brunner}, title = {The Design of a Building Model Service}, school = {Vienna University of Technology}, year = {2007}, address = {Vienna, Austria}, abstract = {Existing software architectures for building information model (BIM) servers are focused on supporting the design and construction phases of the building lifecycle. The subject of this dissertation is the design of a building model server to support the operations phase of a building. The prototypical application is simulation-based control, which requires a fine-grained and up-to-date model. The model is therefore connected to sensors and actuators to keep itself updated and to provide an application interface to building systems. A wide range of data sources and endpoints must be supportable, and high rates of incoming data must be handled while ensuring low-latency access to model data. Emphasis must be placed on performance, scalability, and modifiability. The building object model is implemented in a versioned main memory database with persistent backing storage. The database ensures serializable transactions with high concurrency using a variant of multi-version transaction ordering with transaction priorities. Full support for happened-before and known-before ordering of data is provided by allowing retroactive insertion. The distribution design acknowledges two classes of client application behaviours: interactive and batch. Interactive clients can access the model as agents within the building model service for transparent low-latency access; batch applications can be distributed for load distribution. Communication with the building systems is performed through a message-queue infrastructure. A flexible processing pipeline served by thread pools is used to process incoming messages. For internal communications, the model service provides simple generalised message queuing. A facility for runtime-pluggable code is provided to increase modifiability and availability.}, url = {http://www.ub.tuwien.ac.at/diss/AC05034244.pdf}, } @MASTERSTHESIS{Brunner2002a, author = {Klaus A. Brunner}, title = {Emergent Computing: Eine kritische Bestandsaufnahme}, school = {Universität Wien und Technische Universität Wien}, year = {2002} } @INCOLLECTION{Brunner2003, author = {Klaus A. Brunner and Bert Klauninger}, title = {An Integrative Image of Causality and Emergence}, booktitle = {Causality, Emergence, Self-Organisation}, publisher = {NIA-Priroda}, year = {2003}, editor = {Vladimir Arshinov and Christian Fuchs}, pages = {23--35}, address = {Moscow}, isbn = {5-9562-0006-5}, } @INPROCEEDINGS{Brunner2006, author = {Klaus A. Brunner and Ardeshir Mahdavi}, title = {Software design for building model servers: concurrency aspects}, booktitle = {ECPPM 2006 -- eWork and eBusiness in Architecture, Engineering and Construction: Proceedings of the European Conference on Product and Process Modelling}, year = {2006}, editor = {M. Martinez and R. Scherer}, pages = {159--164}, publisher = {Taylor \& Francis}, } @INCOLLECTION{Icoglu2004, author = {Oguz Icoglu and Klaus A. Brunner and Ardeshir Mahdavi and Georg Suter}, title = {A Distributed Location Sensing Platform for Dynamic Building Models}, booktitle = {Ambient Intelligence: Proceedings of the Second European Symposium}, publisher = {Springer-Verlag}, year = {2004}, number = {3295}, series = {Lecture Notes in Computer Science}, pages = {124--135}, doi = {10.1007/b102265}, isbn = {3-540-23721-6}, location = {Berlin, Heidelberg} } @INPROCEEDINGS{MahdaviSpasojevic2005, author = {Ardeshir Mahdavi and Bojana Spasojevi\'{c} and Klaus A. Brunner}, title = {Elements of a simulation-assisted daylight-responsive illumination systems control in buildings}, booktitle = {Building Simulation 2005: Proceedings of the Ninth IBPSA Conference}, year = {2005}, editor = {I. Beausoleil-Morrison and M. Bernier}, volume = {1}, pages = {693--699}, } @ARTICLE{Suter2007, author = {Georg Suter and Klaus Brunner and Ardeshir Mahdavi}, title = {Building model reconstruction based on sensed object location information}, journal = {Automation in Construction}, year = {2007}, volume = {16}, pages = {2--12}, number = {1}, doi = {10.1016/j.autcon.2005.10.011}, } @BOOK{Martens2005, title = {Computer Aided Architectural Design Futures 2005 : Proceedings of the 11th International CAAD Futures Conference, Vienna, Austria}, publisher = {Springer}, year = {2005}, editor = {Bob Martens and André Brown}, address = {Dordrecht}, isbn = {1-4020-3460-1} } @PROCEEDINGS{Scherer2005, title = {Proceedings of the 22nd CIB W78 Conference on Information Technology in Construction}, year = {2005}, editor = {Raimar J. Scherer and Peter Katranuschkov and Sven-Eric Schapke}, address = {Dresden}, isbn = {3-86005-478-3} }