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Session Title
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าผ
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าฎ@ึ
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TECHNOLOGY@
TRANSFER
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1
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7.3
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User Needs &
Experiences
|
Building Energy
Simulation Software:An End Userfs@Viewpoint
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Australia
|
S.Logan
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Lincolne Scott
Australia Pty Ltd
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2
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7.3
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User Needs &
Experiences
|
Joining Forces in
Building Energy Simulation
|
Netherlands
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J.Hensen@J.Clarke@
J.Hand@P.Strachan
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Eindhoven
University of Technology
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3
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3.3
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User Needs &
Experiences
|
HOTCALC
Microcomputer Software for Analysis ofCommercial Water Heating Systems
Peformance
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USA
|
K.Johnson@
A.Shedd@
D.Abrams
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Eledtric Power
Research Institute
|
4
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7.3
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Education
|
The Use of
Hypercard as a Medium for Transferring@Information to Design Professionals
|
Australia
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H.Bennetts@S.Coldicutt
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Dep.of
Architecture The University of Adelaide
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5
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8.1
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Education
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How to Train Users
of Simulation Based Thermal@Performance Analysis Tools
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UK
|
J.Hand
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ESRU, Energy
Systems Division,Faculty of Engineering,University od Strathclyde
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6
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8.1
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Education
|
An Integration
System for Architectural Education:The CALIN Project
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France
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L.Adolphe
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Ecole desMines de
PARIS,Centre D'Energetique, University of Colorado at Boulder, Colleege
of Engineering
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7
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7.3
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User Interfaces-1
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Intelligent CAD as
an Interface to Thermal Simulation@Programs
|
Australia
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R.Drogemuller@H.Suehrcke
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Dep.of Civil &
Systems Engineering Jaes Cook Univ. of
North Queensland
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8
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7.3
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User Interfaces-1
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Putting
Interactive CAD Systems in Perspective
|
Australia
|
P.Taplin
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Dep.of
Architecture,University of Adelaide
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9
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8.6
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User Interfaces-1
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Energy and Comfort
Optimisation for the Home@Builder
|
Australia
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S.Moller@K.Guthrie
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Gas and Fuel
Corporation
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10
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1.5
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User Interfaces-2
|
Improvements to
User-friendliness of a Computational@Fluid Dynamics(CFD)Code for Simulation of
Air@Movement in
Buildings
|
Hong Kong
|
J.Lam@R.Yuen@T.Lau
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Building Energy
Conservation Unit Dep. of Building and Construction City Polytechnic of
Hong Kong
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11
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7.1
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User Interfaces-2
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CLIM 2000:Modular
Software for Energy Simulation@In Buildings
|
France
|
D.Bonneau@F.Rongere@
D.Covalet@B.Gautier
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EDF - Direction
des Etudes et Recherches - Centre des Renardieres Service Applications
de I'Electricite et Environment Department Applications De I'Electricite
dans les Batiments
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12
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7.1
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User Interfaces-2
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Implementation of
Simulation Based Design Tools in@Practice
|
UK
|
J.Clarke@D.Mac Randal
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Energy Simulation
Research Unit University of Strathclyde
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13
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1.2
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Case Studies
|
The Application of
RADIANCE to Daylighting@Simulation
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New Zealand
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K.Frost@M.Donn@R.Amor
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School of
Architecture, Victoria University of Wellington
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14
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7.2
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Case Studies
|
Multiple Model
Software for Airflow and Thermal@Building SimulationDA Case Study Under
Tropical@Humid Climate in
Reunion Island
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France
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H.Boyer@J.Brau@J.Gatina
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Laboratoire de
Genie Industriel, Universite de la Reunion - Faculte des Sciences
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15
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1.1
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Case Studies
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Building
Simulation in Practice:The Portugese@Experience
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Portugal
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H.Gonclaves
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National Institute
of Engineering and Industrial Technology,Renewable Energies
Dep.(INETI-DER)
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APPLICATIONS
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16
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3.6
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Building
Simulation
in Practice
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Computer
Simulation of Energy Performance of@Commercial
Buildings in Hong Kong
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Hong Kong
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J.Lam@S.Hui
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Building Energy
Conservation Unit Dep. of Building and Construction City Polytechnic of
Hong Kong
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17
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1.1
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Building
Simulation
in Practice
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Evaluation of
Thermal Performance of Low-Cost@Tropical Housing
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UK
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P.Jones@D.Alexander@
A,Rahman
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Welsh School of
Architecture,University of Wales ,College of Cardiff
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18
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8.4
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Building
Simulation
in Practice
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Commercial
Building Performance Evaluation System
|
USA
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D.Frey@P.Jacobs@K.Johnson
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Architectural
Energy Corporation
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19
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7.2
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Multi-DisciplineC
Integrated Tools
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Multi-Disciplinary
Views to an Integrated Simulation@Environment
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New Zealand
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R.Amor@M.Dom@
N.IsaacsJ.Hosking
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Computer Science
Department,University of Auckland
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20
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7.2
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Multi-DisciplineC
Integrated Tools
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An Integrated
Simulation Network
|
Netherlands
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G.Augenbroe@P.Bijvoet@
L.Nederlof@
W.Rombouts@P.de Vries
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Delft University
of Technology Faculty of Civil Engineering
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21
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7.2
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Multi-DisciplineC
Integrated Tools
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An Integrated
Design and Appraisal System
|
Australia
|
N.D'Cruz@M.Vuong
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Curtin University
of Technology
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22
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8.6
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Building Desin
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Design and
Evaluation in the Early Phases of the Design@Process:Some Problems and a Solution@
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Netherlands
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K.Veldhuisen@E.Hacfoort
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Design Methods
Group Faculty of Architecture, Building and Planning Eindhoven
University of Technology
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23
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8.6
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Building Desin
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Simulation-Based
Performance Evaluation as a Design@Decision Support Strategy:Experiences with
thehIntelligent Workplaceh
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USA
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A.Mahdavi@V.Harkopf@
V.Loftness@K.Lam
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Center for
Building Performance and Diagnostics,dep.of Architecture, Carnegie
Mellon University
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24
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8.6
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Building Desin
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Dynamic Simulation
Software as a Graphic Tool for@Energy Efficient Building Design
|
USA
|
L.Degelman@T.Huang
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Dep. of
Architecture Texas A&M Univ.
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25
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8.6
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Building Desin
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Design Data
Acquisition For Building Simulation
|
Australia
|
J.Palmer@
M.Webster-Mannison
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Australian
Geological Survey Organisation and Australian Construction Services
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26
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7.1
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Simplified Models
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STEPHANIE:A
Simplified Approach to Energy Analysis@In Buildings
|
Germany
|
J.Dionisio
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ZGDV-Zentrum fur
Graphische Datenverarbeitung Computer Graphics Centre
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27
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3.6
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Simplified Models
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The Impact of
Variations in Building Parameters and Operating Conditions on Commercial
Building Energy@Use and Load
Shapes
|
USA
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Y.Huang@
J.Hanford@M.Piraino
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Lawrence Berkeley
Laboratory
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28
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3.1
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Simplified Models
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Development of a
Simple Model to Relate Heating and@Cooling Energy to Building Envelope
Thermal@Characteristics
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Canada
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D.Sander@S.Comick@
G.Newsham@D.Crawley
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National Research
Council Canada
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29
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8.2
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PolicyCStandardsC
Regulations
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Tales of the
Unexpected:The Use of Building@Performance Modelling for Regulatory
Activity@in Australia
|
Australia
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A.Pears
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Sustainable
Solution Pty Ltd
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30
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3.6
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PolicyCStandardsC
Regulations
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Development of a
Commercial Sector Load@Aggregation and
DSM Impact Assessment Methology
|
USA
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C.Hepting@N.Weaver@G.Jung
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ERG International,
Inc.
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31
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8.2
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PolicyCStandardsC
Regulations
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Health and Safety
Code Compliance Checking@Using an Integrated Hypertext and
Knowledge-Based Expert System
|
Canada
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K.Gowri@P.Fazio@D.Seth
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SIRICON Inc,
Centre for Building Studies
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METHODS &
COMPUTER IMPLEMENTATION
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@
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@
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@
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@
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32
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3.4
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Mathematical@
Methods
|
Applying
Simulation of Optimal Systems in@Building Energy
Management
|
Finland
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T.Aho@M.Xu@J.Hyvarinen
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VTT,Technical
Research Centre of Finland Laboratory of Heating and Ventilation
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33
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7.1
|
Mathematical@
Methods
|
On the Efficiency
of Partitioning in Object –Based@Simulation
|
France
|
J-M.Nataf@R.Ebert
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GISE(Group
Informatique et Systemes Energetiques)-ENPC(Ecole Nationale des Ponts et
Chaussees), La Courtine Cedex
|
34
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7.1
|
Mathematical@
Methods
|
A Modular Approach
for Developing a Modelling@Environment of Thermal Systems:The SYMBOL@Project
|
France
|
G.Lefebvre@
R.Ebert@B.Flament
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GISE(Group
Informatique et Systemes Energetiques)-ENPC(Ecole Nationale des Ponts et
Chaussees), La Courtine Cedex
|
35
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7.2
|
Simulation
Environments
|
The Concept of
Intelligent Simulation@Environment
|
France
|
R.Pelletret@S.Soubra@
W.Keilholz@Z.Belghali
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Centre
Scientifique et Technique de Batiment Service Informatique et Batiment
|
36
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7.1
|
Simulation
Environments
|
Recent
Improvements in SPARK:Strong@Component
DecompositionCMultivalued
Objects,And Graphical Interface
|
USA
|
W.Buhl@A.Erdem@
F.Winkelmann@E.Sowell
|
Simulation
Research Group Lawrence Berkeley Laboratory University of California
|
37
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7.1
|
Simulation
Environments
|
ALLAN.SIMULATION:
A General Software Tool for Nodel Descripton and Simulation
|
France
|
A.Jeandel@F.Favret@
L.Lapenu@E.Lariviere
|
Research and
Development Division
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38
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7.1
|
Object-Orientated
Environments
|
IDA Modeller : A
Man-Model Interface for Building Simulation
|
Sweden
|
P.Sahlin
|
Dept.of Building
Services Engineering Royal Institute of Technology
|
39
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7.1
|
Object-Orientated
Environments
|
The Energy Kernel
System:Form and Content
|
UK
|
J.Clarke@D.Mac Randal
|
Energy Simulation
Research Unit University of Strathclyde
|
40
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7.1
|
Object-Orientated
Environments
|
Application of the
Object Oriented Programming Paradigm to Building Plant System Modelling
|
UK
|
D.Tang@J.Clarke
|
Dep. Of Civil
Engineering Surveying & Building Dundee Institute of Technology
|
|
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VALIDAT10N
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@
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@
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@
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@
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41
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8.6
|
General Validation
|
Can Architectural
Design Learn from Software@EngineeringH
|
Australia
|
T.Pollard@J.Plume
|
Dep.of Computing
University of Western Sydney
|
42
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7.4
|
General Validation
|
Empirical Who1e
Model Validation Case Study:the@PASSYS Reference Wall
|
Denmark
|
S.Jensen
|
Thermal Insulation
Laboratory Technical University of Denmark
|
43
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7.4
|
General Validation
|
Procedures for
Scaling and Replication by Simulation
|
UK
|
P.Strachan
|
Energy Simulation
Research Unit, Dep.of Mechanical Engineering, University of Strathclyde
|
44
|
7.4
|
Validation
Case
Studies
|
Themal Design
Tools in Australia:A Comparative@Study of TEMPERCCHEETAHCARCHIPAK and@QUICK
|
Australia
|
Q.Ahmad@S.Szokolay
|
Dep.of
Architecture, The University of Queensland
|
45
|
7.4
|
Validation
Case
Studies
|
Modelling and
Simulation of the Thermal Behaviour of@A Dwelling under ALLAN
|
France
|
K.Boulkroune@Y.Candau@
G.Piar@A.Jeandel
|
Laboratoire
D'Energetique et de Thermique Industrielle de I'Est Francilien - LETIEF
|
46
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7.4
|
Validation
Case
Studies
|
Simulation Study
of Coupled Energy Saving Systems@Included in Real Site Building
|
France
|
A.Trombe@L.Sems@
A.Mavroulakis
|
LABORATOIRE de
THERMIQUE des MATERIAUX et des BATIMENTS
INSA- GENIE CIVIL COMPLEXE SCIENTIFIQUE de RANGUEIL
|
|
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FUNDAMENTALS
|
@
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@
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@
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@
|
47
|
1.1
|
Heat and Mass
Transfer-1
|
A Solar Wall
Simulation Module
|
Denmark
|
K.Wittchen
K.Wittchen
|
Danish Building
Research Institute
|
48
|
2.5
|
Heat and Mass
Transfer-1
|
Improved
Fluorescent Lighting Models for Building@Energy Programs
|
USA
|
E.Sowell@K.Johnson
|
Dept.of Computer
Science, California State Univ. Fullerton
|
49
|
2.1
|
Heat and Mass
Transfer-1
|
Approaches and
Constraints in the Simulation of Solar@Systems
|
UK
|
J.Hand@E.Aasem@P.Strachan
|
ESRU, Energy
Systems Division,Faculty of Engineering,University od Strathclyde
|
50
|
1.1
|
Heat and Mass
Transfer-2
|
Computer
Simulation of Multiroom Temperature and@Humidity Variation Under Variable
Infiltration@Conditions
|
Japan
|
T.Tsuchiya@K.Sakano
|
Dep.of
Atchitecture,Faculty of Engineering, Toyo Univ.
|
51
|
3.4
|
Heat and Mass
Transfer-2
|
Dynamic Simulation
of Combination of Evaporative@Cooling with Cooled Ceiling Systems for
Office Room@Cooling
|
Netherlands
|
J.Niu@J.van der Kooi
|
Laboratory for
Refrigeration and Indoor Climate Technology Delft University of
Technology
|
52
|
1.1
|
Heat and Mass
Transfer-2
|
The Determination
of Vapour and Liquid Transport@Coefficients as Input to Combined Heat and
Mass@Transfer Models
|
UK
|
G.Galbraith@R.McLean
|
Dep.of Building,
The Glasgow Caledonian University
|
53
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6.3
|
Controls and
Equipment
|
The Use of
Simulation Data to Design Rule-Based@Controllers for HVAC Systems
|
UK
|
A.Dexter@M.Hawkins
|
Dep.of Engineering
Science,University of Oxford
|
54
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3.3
|
Controls and
Equipment
|
A Plant Component
Taxonomy for ESP-r Simulation@Environment
|
Hong Kong
|
T.Chow
|
Division of
Technology, City Polytechnic of Hong Kong
|
55
|
6.3
|
Controls and
Equipment
t
|
Stochastic
Modelling and Genetic Algorithm-Based@Optimal Control of Air Conditioning
Systems
|
Hong Kong
|
H.Lam
|
Dep.of Mechanical
Engineering,University of Hong Kong
|
56
|
1.4
|
Air Flow
Modelling-1
|
The Theory of
Plumes Adapted to Model Air@Movement in
Naturally Ventilated Buildings
|
Australia
|
P.Cooper
|
Dep.of Mechanical
Engineering,University of Wollongong
|
57
|
1.5
|
Air Flow
Modelling-1
|
Multi-Grid
Prediction of Conjugated Heat Transfer and@Air Flow in Buildings
|
Australia
|
Y.Li@S.Holmberg@L.Fuchs
|
CSIRO,Division of
Building, Construction and Engineering
|
58
|
1.5
|
Air Flow
Modelling-1
|
Thermal and CFD
Modelling vs Wind Tunnel in@Natural
Ventilation Studies
|
UK
|
S.Stankovic@A.Setrakian
|
J Roger Preston
& Partners
|
59
|
7.1
|
Air F1ow
Modelling-2
|
Modelling Air
Flows and Buildings with NMF and@IDA
|
Sweden
|
A.Bring@P.Sahlin
|
Dep.of Building
Services Engineering, Royal Institute of Technology
|
60
|
1.4
|
Air F1ow
Modelling-2
|
Application of the
SPARK Environment to 3D Air@Flow Problems
|
France
|
J-M.Nataf E.Wurtz
|
GISE(Group
Informatique et Systemes Energetiques)-ENPC(Ecole Nationale des Ponts et
Chaussees), La Courtine Cedex
|
61
|
1.4
|
Air F1ow
Modelling-2
|
Air and Heat Flow
Through Large Vertical Openings
|
Netherlands
|
J.Hensen@J.van der Maas@A.Roos
|
Eindhoven
University of Technology
|
62
|
8.3
|
Weather
|
Letfs Talk About
the Weather
|
Australia
|
M.Mason@T.Kingston
|
Building Services
Group of ACADS Ltd.
|
63
|
8.3
|
Weather
|
The Creation of
Weather Data Files to Fulfil the@Simulation Needs of New Zealand
|
New Zealand
|
M.Donn@R.Amor
|
School of
Architecture, Victoria University of Wellington
|
64
|
8.3
|
Weather
|
Compilation of
Monthly World Weather Data and@Transformation
into Hourly Basis for the Calculation@of Air
Conditioning Load at an Arbitrary Location in@the World
|
Japan
|
H.Akasaka@Y.Arai@
S.Kuroki@S.Ohara
|
Dep.of
Ardhitecture, Kagosima Univ.
|
65
|
1.2
|
Lighting
|
Simulating the
Daylight Performance of Fenestration@Systems and Spaces of Arbitrary
Complexity:The IDC@Method
|
USA
|
K.Papamichael@L.Beltran
|
Building Techology
Program Energy and Environment Division Lawrence Berkeley Laboratory
University of California
|
66
|
8.6
|
Lighting
|
LightCADTM and LightPADTM -Two New Programs for@Improving the
Design and Application of Lighting in@Buildings
|
USA
|
K.Johnson@G.Hart@J.Weidt
|
Electric Power
Research Institute
|
67
|
1.2
|
Lighting
|
Modelling the
Sky-A Standard Digital Form
|
Australia
|
N,.Ruck@G.Roy@G.Reid
|
Dep.of
Architecture,University of New South Wales
|
|
|
Structures and
Construction
|
Representing
Robots in Building Construction@Simulation
|
USA
|
R.Stouffs@S.Lee@
R/Krishnamurti@I.Oppenheim
|
Dep.of
Architecture ,Carnegie Mellon Univ.
|
68
|
8.7
|
Structures and
Construction
|
Thermal Loads-A
Structurel Engineers Perspective
|
Australia
|
M.Hirst
|
Dep.of Civil
Engineering,University of Adelaide
|
69
|
8.7
|
Fire
|
LISA:A Systemic
Model for the Evaluation of Life@Safety in Building Fires
|
UK
|
J.Hinks
|
Dep.of Surveying,
University of Salford
|
70
|
5.3
|
Fire
|
Recent Progress in
Fire Simulations using NMF and@Automatic Translation to IDA
|
Norway
|
K.Kolsaker
|
The Norwegian
Institute og Technology Institute of Heating and Ventilation
|