| Authors |
Co-authors |
Country |
Title |
No |
Session |
| Skibniewski,
Miroslaw |
|
USA |
*New
directions and developments in robotics and site automation in the
U.S.A. |
K1 |
|
Keynote1 |
| Hasegawa,
Yukio |
|
Japan |
*A
new wave of construction automation and robotics in Japan |
K2 |
|
Keynote2 |
| Balaguer,
Carlos |
|
Spain |
*Open
issues and future possibilities in the EU construction automation |
K3 |
|
Keynote3 |
| Adeli,
Hojjat |
|
USA |
*Emerging
information and computing technologies for construction automation |
K4 |
IT |
Keynote4_MD3 |
| Wing,
Robert |
|
UK |
*Factory
housing - making the connections |
K5 |
Automation |
Keynote5_MB3 |
| Liao,
Ching-Lung |
|
Taiwan |
*How
to Establish Environment in Construction-An Illustration of TaiwanHigh
Speed Rail Project |
K6 |
|
Keynote6 |
| Ing,
Nita |
|
Taiwan |
*Opportunities
and challenges in the implementation of Taiwan high speed rail project:
a private sector perspective |
K7 |
|
Keynote7 |
|
Abraham,
Dulcy M.
|
Myung-Jin
Chae
|
USA
|
Utilizing neural networks for condition assessment
of sanitary sewer infrastructure |
2
|
Automation
|
TA3
|
| Arad,
Susana |
Victor
Arad, Dana Cosma |
Romania |
The
systemic analysis of the instability phenomenon of the mining constructions
in the coal mining exploitation Jiu Valley-Romania |
3 |
Automation |
TA3 |
| Belohoubek,
Pavel |
Zdenek
Kolibal |
Czech
Republic |
Expert
system for special construction robots development |
5 |
Automation |
TA1 |
| Bock,
Thomas |
Jens
Herbst |
Germany |
Planning
aids for enhancing the implementation of a mobile robot on the construction
site |
6 |
Automation |
TB2 |
| Budny,
Eugeniusz |
Witold
Gutkowski |
Poland |
A
hydraulic open loop system for controlled excavation along prescribed
path |
7 |
Automation |
TB1 |
| Caballero,
Amaury A. |
Jose
D. Mitrani |
USA |
Fuzzy
logic methodology for the comparison of construction firms |
8 |
IT |
TE2 |
| Chen,
Hong Long |
Wei-Tong
Chen |
USA |
An
interactive cost-schedule/payment-schedule integration model for cash
flow forecasting and controlling |
10 |
IT |
TD1 |
| Chen,
I-Ming |
Hsi-shang
Li, F. M. J. Nickols, Xinggang Yan |
Singapore |
Underwater
deployment robots - from amoebot to roboglider |
11 |
Automation |
WA1 |
| Cotsaftis,
Michel |
Erno
Keskinen, Sirpa Launis, Yrjo Raunisto |
Finland |
Feasibility
analysis of double-hit hammering for pile foundations |
12 |
Automation |
WA1 |
| Doloi,
Hemanta Kumar |
Ali
Jaafari |
Australia |
Application
of simulation tool for strategic decision evaluation in life cycle
project management |
13 |
IT |
TD3 |
| Fujita,
Koichi |
|
Japan |
A
Remote Control System in the Pneumatic Caisson Method |
14 |
Automation |
WA1 |
| Furusaka,
Shuzo |
Tomoyuki
Taira, Masayuki Matsumoto |
Japan |
Case
study on a building construction project carried out using a "cooperative
ventures" approach |
15 |
IT |
TE2 |
| Furuya,
Noriyuki |
Takashi
Shiokawa, Koji Hamada, Kohei Kurita, Isamu Kunimoto, Hiroshi Miyakawa |
Japan |
Present
circumstances of an automated construction system for high-rise reinforced
concrete buildings |
16 |
Automation |
WB1 |
| Gokhale,
Sanjiv |
Makarand
Hastak, Rong-Yau Hwang |
USA |
Automated
assessment technologies for renewal of underground pipeline infrastructure |
17 |
Automation |
TA3 |
| Haas,
Carl T. |
Christine
Alemany, HyoungKwan Kim |
USA |
Study
of foreman-level task automation in the US construction industry |
18 |
Automation |
MB3 |
| Hammad,
Mamoon M. |
Sabah
T. Alkass |
Canada |
Web-based
construction project document information center to support performance
impact analyses |
19 |
IT |
WE1 |
| Harun,
Zakaria |
Hamzah
Abdul Rahman |
Malaysia |
Cost
analysis and formulation of cost models for two-storey buildings construction
in Malaysia |
20 |
Automation |
WB1 |
| Ho,
Shih-Ping |
Liang
Y. Liu |
USA |
Valuation
and strategies for investment on automation and robotics |
21 |
Automation |
TA2 |
| Hudgins,
Scott |
King-Le
Chang |
USA |
Information
technology in the construction industry: managing projects in the
age of the internet |
23 |
IT |
WE1 |
| Ibrahim,
Fuziah |
|
Malaysia |
Man
and the work environment |
24 |
Automation |
TA2 |
| Jaselskis,
Edward J. |
Tarek
El-Misalami |
USA |
Radio
frequency identification application for constructors |
26 |
Automation |
TA1 |
| Kaneta,
Takashi |
Toshimasa
Okuma, Kenji Kimoto, Ichiro Nakaoka, Shuzo Furusaka, Jea Sauk Lee |
Japan |
Accountability
of Japanese construction industry |
27 |
Automation |
MB3 |
| Kano,
Naruo |
|
Japan |
Computer-aided
planning in construction evaluations of alternatives in construction
planning |
28 |
IT |
MD4 |
| Keskinen,
Erno |
Mika
Iltanen, Teemu Salonen, Sirpa Launis, Michel Cotsaftis, Jorma Pispala |
Finland |
Man-in-the-loop
training simulator for hydraulic elevating platforms |
29 |
Automation |
WB2 |
| Kim,
Hyoungkwan |
Carl
T. Haas, Alan F. Rauch, Craig Browne |
USA |
Innovative
testing system of construction aggregate using laser profiling |
30 |
Automation |
MA3 |
| Kim,
Sung-Keun |
Kyo-Jin
Koo, Jeffrey S. Russell |
USA |
Agent-Based
Approach for Intelligent Automated Landfill Operation System |
31 |
Automation |
MB3 |
| Kiwamu,
Nisita |
Motoaki
Itou, Satoshi Miyaki |
Japan |
Development
& application of column-field-welding robot |
32 |
Automation |
TB1 |
| Feldmann,
Klaus |
Markus
Koch |
Germany |
Chances,
obstacles and a possible trend of automation in construction from
the point of view of the German construction industry |
33 |
Automation |
WB1 |
| Feldmann,
Klaus |
Markus
Koch |
Germany |
Development
of an open and modular control system for autonomous mobile building
robots with flexible manipulators |
34 |
Automation |
TB1 |
| Kog,
Yue Choong |
|
Singapore |
IT
system for electronic building plan checking |
35 |
IT |
WC1 |
| Leiringer,
Roine |
|
Sweden |
Integrating
the efforts of off-site production with on-site construction |
37 |
IT |
TD1 |
| Liang,
Lou Y. |
Russell
G. Thompson, David M. Young |
Australia |
Automated
design of wastewater collection systems using genetic algorithms |
38 |
IT |
WC1 |
| Chao,
Li-Chung |
Min
Liu |
Singapore |
Fuzzy
neural network model for mark-up estimation |
39 |
IT |
TE1 |
| Malaguti,
Fiorenzo |
|
Italy |
Force
sensor for construction machines by they hydraulic driving cylinders |
40 |
Automation |
TB1 |
| Maruyama,
Yoshio |
Junichi
Yagi, Hiroo Takada, Kinya Tamaki |
Japan |
Development
of virtual and real-field construction management system for innovative,
intelligent field factory-development of virtual construction field- |
41 |
IT |
TD1 |
| Mitrovic,
Ratko |
|
Yugoslavia |
Influence
Flexibility Technologies Construction on Process Indutrialization
and Robotics in Construction |
42 |
Automation |
TA2 |
| Moselhi,
Osama |
Mohamed
Marzouk |
Canada |
Automated
system for cost estimating of earthmoving operations |
43 |
IT |
WC2 |
| Shehab-Eldeen,
Tariq |
Osama
Moselhi |
Canada |
A
database for selection of rehabilitation techniques of sewer pipes |
44 |
IT |
WD1 |
| Muro,
Tatsuro |
Dang
Thai Tran |
Japan |
Automatic
control system of the degree of compaction of a high lifted decomposed
granite soil for a vertically vibrating and jumping tracked vehicle |
45 |
Automation |
TB1 |
| Naji,
Khalid |
|
Qatar |
Simulating
equipment-based construction operations using virtual environments |
46 |
IT |
WD2 |
| Nakajima,
Masao |
|
Japan |
Generation
and optimization method for the assembly order of members in wood
structure |
47 |
Automation |
WB1 |
| Navon,
Ronie |
Aviad
Shapira |
Israel |
Automated
rebar constructibility problems diagnosis: a concept-proving prototype |
48 |
IT |
TD1 |
| Nishimura,
Jun |
Takahiro
Azuchi, Humio Aita, Hideo Kobayashi, Hajime Nomura |
Japan |
Navi-system:
automated survey system for marking work in construction site |
49 |
Automation |
TA1 |
| O'Connor,
James |
Shane
P. Hadeed, Kristen E. Braden, Mandar Deogaonkar |
USA |
Benchmarking
the U.S. Industry's Use of Automation and Integration Technologies
on Projects |
50 |
Automation |
MB4 |
| Nguyen,
Tang-Hung |
Amr
A. Oloufa, Masaaki Ikeda |
USA |
A
topology deduction system for the design and construction of buildings |
51 |
Automation |
WB1 |
| Park,
Ji Sang |
Teresa
M. Adams, Pisun Sirisuksakulchai |
USA |
Enterprise
Modeling of A/E/C firm |
53 |
IT |
TE3 |
| Peyret,
Francois |
|
FRANCE |
The
achievements of the "computer integrated road construction"
project |
55 |
Automation |
TA1 |
| Poppy,
Wolfgang |
Erik
Unger |
Germany |
Canopen
for mobile construction machines - an open communication network for
control and automation |
57 |
Automation |
TB2 |
| Dindorf,
Ryszard |
|
Poland |
Position
modelling of planar two¡Vlink manipulator with electrohydraulic control
system |
58 |
Automation |
TB1 |
| Knutson,
Kraig |
Cliff
Schexnayder, Javier Fente |
USA |
Formulation
of a £]eta probability distribution function for construction process
control |
59 |
IT |
TD2 |
| Sooraksa,
Pitikhate |
Kangwan
Saensawasd, Sorapon Bunjongsena Na Ayuttaya |
Thailand |
Integration
of rule based and sensor based control for a six-legged insect-like
robot |
60 |
Automation |
TB3 |
| Sooraksa,
Pitikhate |
|
Thailand |
Phonon
mechanisms: a know - why for vibration in flexible-link robot arms |
61 |
Automation |
TB2 |
| Sooraksa,
Pitikhate |
U.
Sritheerawirojana |
Thailand |
A
bicycle robot: part 1 modeling and control |
62 |
Automation |
TB1 |
| Sooraksa,
Pitikhate |
T.
Uthairat, S. Kaopratum, U. Sritheerawirojana, V. Monyakul |
Thailand |
A
bicycle robot: part 2 system implementation |
63 |
Automation |
TB2 |
| Takada,
Hiroo |
|
Japan |
Study
on assembly methods for large-scale structure using an innovative
and intelligent field factory |
64 |
Automation |
WB1 |
| Taylor,
Mark |
S.
C. Wamuziri, I. G. N. Smith |
UK |
Analysis
of risk in construction automation investment |
65 |
Automation |
MB4 |
| Ting,
Seng Kiong |
H.
F. Jin |
Singapore |
Prefabrication
in the Singapore construction industry |
66 |
Automation |
WB2 |
| Ting,
Seng Kiong |
F.
Wang |
Singapore |
Alternate
strategies in the use of information technology in the construction
industry of different countries |
67 |
IT |
MD3 |
| Tokdemir,
Onur B. |
Cemal
Ayvalik, Jamshid Mohammadi |
USA |
Prediction
of highway bridge performance by artificial neural networks and genetic
algorithms |
68 |
IT |
WD1 |
| Tran,
Thai Dang |
Tatsuro
Muro |
Japan |
Automatic
control system of the eccentricity of gravity for optimum turning
performance of a tracked vehicle on soft terrain |
69 |
Automation |
TA2 |
| Trueman,
Eric |
|
Australia |
Factors
influencing the production of high quality aggregates for the civil
construction industry and the essential need for crusher automation |
70 |
Automation |
MA3 |
| Tsai,
Tsung-Chieh |
Shuzo
Furusaka, Takashi Kaneta |
Japan |
Evaluating
project risks of project delivery systems in construction projects |
71 |
Hazard |
MC3 |
| Sivakumar,
PL. |
Koshy
Varghese, N. Ramesh Babu |
India |
Path
planning of cooperative construction manipulators using genetic algorithms |
72 |
Automation |
TA3 |
| Wanous,
Mohammed |
A.
H. Boussabaine, J. Lewis |
UK |
A
neural networks decision-support system for bidding in construction |
73 |
IT |
TE1 |
| Gregory,
Rita A. |
Terrance
Ward |
USA |
Work
force characteristics in a robot driven construction industry |
74 |
Automation |
MB4 |
| Wiriyathornphan,
Somchai. |
Sooraksa,
Pitikhate |
Thailand |
Vibration
suppression of a two-link flexible manipulator |
75 |
Automation |
TB2 |
| Gyawali,
Tek Raj |
Kazuie
Yamada, Matabee K. Maeda |
Japan |
High
productivity continuous concrete mixing system |
76 |
Automation |
MA3 |
| Yeo,
Song-Huat |
I-Ming
Chen, R S Senanayake, Peng Sin Wong |
Singapore |
Design
And development of a planar inchworm robot |
77 |
Automation |
TB2 |
| Diez,
Ramiro |
M.
Abderrahim, V. M. Padron, L. Celorrio, J. M. Pastor, C. Balaguer |
Spain |
Autmod3:
an automatic 3D modularization system |
78 |
IT |
WC1 |
| Cheok,
Geraldine S. |
William
C. Stone, Robert R. Lipman, Christopher Witzgall, Javier Bernal |
USA |
Field
demonstration of laser scanning for excavation measurement |
79 |
IT |
TD1 |
| Bock,
Thomas |
Serguei
Voltchkov |
Germany |
Methodological
analysis of automation and robotization for the process of placing
and consolidation of a concrete mixture |
80 |
Automation |
MA3 |
| Bock,
Thomas |
Serguei
Voltchkov |
Germany |
Automated
control systems for on-site concrete distribution by robotic manipulators |
81 |
Automation |
TA1 |
| Wako,
Kazuo |
Takehiko
Iizuka |
Japan |
Environmental
care execution operation of GRB System |
82 |
Automation |
MB4 |
| R.Jardim-Goncalves |
R.
Tavares, A. Grilo, A. Steigor-Garcao |
Portugal |
A
framework for integration of supply chain management applications
based on the IAI/IFC model |
83 |
IT |
TD3 |
| Baba,
Misao |
Mitsuo
Takeda, Takashi Nogiwa |
Japan |
Development
of auto-conveying system for dam concrete |
84 |
Automation |
MA3 |
| Miyakawa,
Hiroshi |
Jyunichi
Ochiai, Katsuyuki Oohata, Takashi Shiokawa |
Japan |
Application
of automated building construction system for high-rise office building |
85 |
Automation |
WB2 |
| Wu,
Huapeng |
Heikki
Handroos, Juha Kilkki |
Finland |
On
the design of a large scale redundant parallel manipulator |
86 |
Automation |
TB3 |
| Reusch,
Dirk |
|
Germany |
Automatic
controlled vibratory pile driving with shock-stress limitation |
88 |
Automation |
WA1 |
| Dunston,
Phillip S. |
Mark
Billinghurst, Yihong Luo, Ben Hampson |
USA |
Virtual
visualization for the machanical trade |
89 |
IT |
WD2 |
| Stewart,
Rodney |
Sherif
Mohamed |
Australia |
Selecting
technology projects based on an information economics approach: a
step towards integrating innovation into business strategy |
90 |
Automation |
TA2 |
| LaBelle,
Diana |
John
Bares, Illah Nourbakhsh |
USA |
Material
Classification By Drilling |
91 |
Automation |
TA3 |
| Chao,Chian-Hsueng
|
Ahmad
Hadavi, Raymond J.Krizek |
USA |
Toward
a supply chain collaboration in the e-business era for the construction
industry |
93 |
IT |
WE1 |
| Chao,Chian-Hsueng
|
Ahmad
Hadavi,Raymond J. Krizek, Wei Lo |
USA |
Construction
Industry Business Processes Modeled with Object-Oriented Approach |
94 |
IT |
WC2 |
| Weng,
Ray |
Luh-Maan
Chang, Larry Chen |
USA |
Xml
application in aec industry |
95 |
IT |
TD3 |
| Shami,
Manar |
Hazem
Elzarka |
USA |
An
internet-based communication model for A/E/C industry |
96 |
IT |
WE1 |
| Ho,
Shih-Ping |
Liang
Y. Liu |
USA |
Web-based
virtual reality facility representation and simulation in construction
preplanning |
97 |
IT |
WE1 |
| Kim,
Young-Suk |
Se-Wook
Oh, Jung-Ryul Kim, Beak-Joon Sung |
Korea |
The
Development of an Automated Cost Estimating System Using 3D CAD and
Relational Database |
99 |
IT |
TE2 |
| Chileshe,
Nicholas |
Henry
Nyongesa, Paul Watson |
UK |
Intelligent
Infrastructure Health Monitoring Based On Fuzzy Analysis |
100 |
IT |
WD1 |
| Nagano,
Yoshiyuki |
Toru
Kurenuma, Hideto Ishibashi, Akira Hashimoto |
Japan |
Development
of automatic loading system for crushed stone industry |
101 |
Automation |
TA2 |
| Uwland,
Jan J. |
Rob
Suers, Peer Goudswaard |
The
Netherlands |
Integration
of measurement systems by using GPS |
102 |
Automation |
MB3 |
| Chen,
Po-Han |
Luh-Maan
Chang |
USA |
Application
of neuro-fuzzy thresholding to bridge painting defects recognition |
103 |
IT |
WD1 |
| Bock,
Thomas |
Jens
Herbst, Carlos Balaguer, Mohamed Abderrahim |
Germany |
Design
of a Gripping System for the automated assembly of large building
modules |
104 |
Automation |
WA2 |
| Bock,
Thomas |
Frank
O. Prochiner |
Germany |
Home
24 - 24 hours to build a house |
105 |
Automation |
MB4 |
| Furlani,
Karen M. |
Lawrence
E. Pfeffer |
USA |
Automated
tracking of structural steel members at the construction site |
107 |
IT |
WE1 |
| Latimer
IV, DeWitt T. |
Ogbemi
Hammond, Richard Hallon, Christian T Stidsen, Sze-Lok Lam |
USA |
Automatic
Detection of Significant Variation from Designed Intent Utilizing
Survey Data. CIAMS: Construction information and Management System |
108 |
IT |
TE3 |
| Ikeda,
Hiroyasu |
Noboru
Sugimoto, Tsuyoshi Saito, Masanori Onishi |
Japan |
Safety
control mechanism for construction working robots in collaboration
with human workers |
110 |
Automation |
MB4 |
| Nigbor,
Robert |
Outhay
Viengkhou |
USA |
OASIS:
a real-time structural monitoring system |
111 |
IT |
WD1 |
| Chen,
Po-Han |
Yuh-Chin
Chang, Luh-Maan Chang |
USA |
Steel
bridge rust identification using multi-resolution pattern classification |
112 |
Automation |
MA4 |
| Aracil,
Rafael |
Miguel
Almonacid, Roque J. Saltaren, Jose Ma Sabater, Jose Ma Azorin |
Spain |
Kinematic
control for navigation of mobile parallel robots applied to large
structures |
113 |
Automation |
TB3 |
| Balasubramaniam,
S. |
C.
Kalairaja, S. Karthikeyan, N.Venkateswaran |
India |
Genetic
solution of building design |
114 |
IT |
WC1 |
| Santos,M.
|
Q.
P. Ha , D. C. Rye, H. F. Durrant-Whyte |
Australia |
Global
control for robotic excavation using fuzzy logic and statecharts |
115 |
Automation |
TB3 |
| Nitta,
Yasushi |
Hiroshi
Hirashita, Masataka Ebara, Taira Emoto |
Japan |
Study
on the overall system architecture of construction equipment support
information system |
116 |
IT |
TE3 |
| Yamazaki,
Fumio |
Yoshihisa
Shimizu |
Japan |
*Super
dense real-time monitoring of earthquakes for a city gas network in
Japan |
117 |
Hazard |
TC1 |
| Che
Wan Putra, Che Wan Fadhil |
Mustafa
Alshawi |
Malaysia |
Integrating
design and construction: a new approach |
118 |
IT |
MD3 |
| Pires,
J. Norberto |
|
Portugal |
Using
actual industrial robot manipulators with construction tasks |
120 |
Automation |
TB3 |
| Eguchi,
Tadaomi |
Tatsuro
Muro |
Japan |
A
control system of the tire inflation pressure for running of a wheel
system vehicle on soft terrain |
121 |
Automation |
TB3 |
| Murray,
Norman |
Terrence
Fernando, Ghassan Aouad |
UK |
A
virtual environment for building construction |
122 |
IT |
WD2 |
| Pace,
Conrad J. |
Derek
W. Seward |
UK |
An
approach to safety for a robotic excavator |
123 |
Automation |
TA2 |
| Seward,
Derek W. |
Khaled
Zied, John Rhiel, Anthony Dolman |
UK |
The
development of a robotic system for tool deployment in hazardous environments |
124 |
Hazard |
MC4 |
| Seward,
Derek W. |
Stephen
Quayle, Norman Mure, Jason Scott |
UK |
On
site pile instrumentation and its integration into the management
process |
125 |
Automation |
WA1 |
| Tseng,
Kevin Kuang-Hui |
Ping
Lu |
Singapore |
Construction
of Three-Dimensional Models for Structural Objects from Tomographic
Images |
126 |
IT |
TD2 |
| Hossain,
K. M. Anwar |
|
Papua
New Guinea |
Application
of expert system for bridge management in Papua New Guinea |
127 |
Automation |
MA4 |
| Kim,
Sung-Il |
Young-Nam
Lee, In-Sup Kim, Won-Pyo Lee |
Korea |
Automation
of bridge construction by precast span method in korea high speed
railway project |
128 |
High-speed
rail |
ME4 |
| Wong,
Conrad |
Heng
Li |
Hong
Kong |
*VHBuild:
Transferring Project Management into Knowledge Management |
129 |
IT |
MD4 |
| Chen,
Chien-Chou |
Hui-Hsiung
Chuang, Ming-Chia Ko, Tung-Hung Tsai |
Taiwan |
The
systematic construction method of Kao Ping His cable-stayed bridge |
131 |
Automation |
MA4 |
| Chen,
Relon J. T. |
Tzu-Wei
Wang, Kuan-Yung Chang, Sy Chang |
Taiwan |
Taiwan
trackwork development - nonballast track system |
132 |
High-speed
rail |
ME3 |
| Chen,
Tsung-Hsien |
Ban-Jwu
Shih |
Taiwan |
The
technological innovations of the disaster command center based on
the experience of the Ji-Ji earthquake |
133 |
Hazard |
MC3 |
| Chang,
Shu-Chuan |
Yi-Chih
Chen, Kuan-Yung Chang, Walter Chen |
Taiwan |
Worker
hazard management of building demotition |
134 |
Hazard |
TC2 |
| Cheng,
Min-Yuan |
Amos
Chien-Ho Ko, C. H. Chang |
Taiwan |
Computer-aided
decision support system for safety monitoring of geotechnical construction |
136 |
IT |
WC2 |
| Cheng,
Tao-ming |
Shien-Tang
Wu, Yi-Wei Tseng |
Taiwan |
Construction
operation simulation tool - cost |
137 |
Hazard |
WD2 |
| Yu,
Wen-der |
Shih-Chung
Huang, Shih-Hsin Zeng |
Taiwan |
The
application of geographical information system on disaster management
and mitigation |
138 |
Hazard |
MC3 |
| Cheng,
Yi-Meng |
Tsung-Min
Cheng, Cho-fu Wu, Shih-shiuh Wang |
Taiwan |
Facility
risk management of common conduits |
139 |
Hazard |
MC3 |
| Chiang,
Yao-Chung |
Kuo-Hsiung
Cheng, Sy Chang |
Taiwan |
Global
non-ballasted rail fastener development base on Taiwan experience |
140 |
High-speed
rail |
ME3 |
| Chiu,
Mao-Lin |
|
Taiwan |
A
virtual reality environment for construction simulation |
141 |
IT |
WD2 |
| Chiu,
Sou-Laung |
Wen-Bin
Kang, Pi-Chu Chiu, Jerry Chou |
Taiwan |
Insights
of FPLM for long-viaduct construction in Taiwan high-speed railway
project: overcoming the interfaces |
142 |
High-speed
rail |
ME4 |
| Dzeng,
Ren-Jye |
Hsin-Yun
Lee |
Taiwan |
Automated
schedule advisory system |
145 |
IT |
MD4 |
| Feng,
Chung-Wei |
Shien-Tang
Wu |
Taiwan |
Using
genetic algorithms to optimize the dispatching schedule of RMC cars |
147 |
Automation |
WA2 |
| Guo,
Sy-Jye |
Chun-Ta
Wu |
Taiwan |
A
decision support system for space conflict resolution in building
construction |
148 |
Automation |
WA2 |
| Hsieh,
Chiwan |
Tsung-Shen
Liao, Tom Iseley, Hiromasa Shima, Ming-Wen Hsieh |
Taiwan |
Optical
technology for pipeline condition assessment |
151 |
Automation |
TA3 |
| Tsung-Heng
Liu |
Shang-Hsien
Hsieh, Yie-Ting Chen, Choung-Houng Wu |
Taiwan |
PIAS
: A citis-based information sharing system |
152 |
IT |
TD3 |
| Huang,
Rong-Yau |
Kuo-Shun
Sun, Jeam-Jei Chen |
Taiwan |
Construction
planning for gang formwork reuse using simulation |
154 |
IT |
WD2 |
| Huang,
Shih-Chung |
Tsung-Min
Cheng, Shih-Hsin Zeng |
Taiwan |
Monitoring
and supporting system for hazard mitigation |
155 |
Hazard |
MC4 |
| Hung,
Shih-Lin |
C.
C. Jan |
Taiwan |
Augmented
integrated fuzzy neural network learning model in structural engineering |
156 |
IT |
TE1 |
| Chen,
Chung-Wei |
Hong-Ruey
Hwang, Walter Chen, Kuan-Yung Chang |
Taiwan |
Emergency
roadworks and suggestions to improve the occupational safety after
the Ji-Ji earthquake |
158 |
Hazard |
TC2 |
| Jeng,
Chyuan-Hwan |
S.
H. Ju, Y. L. Mo, I. K. Fang |
Taiwan |
Scaffolding
system for construction of elevated water towers |
159 |
Automation |
WB2 |
| Cheng,
Min-Yuan |
Amos
Chien-Ho Ko |
Taiwan |
Computer-aided
decision support system for disaster prevention of hillside residents |
161 |
Hazard |
TC1 |
| Kuo,
Chin-Chih |
Ren-Jye
Dzeng |
Taiwan |
Optimum
construction resource in space, time and cost |
162 |
IT |
TD1 |
| Lai,
Wen-chi |
Yen-Chiu
Liu, Ming-Lang Huang, Ching-Weei Lin, Chjeng-Lun Shieh |
Taiwan |
The
Characteristics of Surface Ruptures and Landslides in the Chi-Chi
Earthquake of September 21th, 1999 |
164 |
Hazard |
TC2 |
| Lan,
Ju-Hung |
Mao-Lin
Chiu, Chien-Hung Wei |
Taiwan |
The
searching mechanism of artificial neural networks in case-based building
design |
165 |
IT |
WC1 |
| Lee,
Ivor Jean-Shiann |
Nie-Jia
Yau, Aviad Shapira |
Taiwan |
An
integrated system for automatic bridge planning |
167 |
IT |
TE3 |
| Fang,
Shoei-Lian |
Thay-Ming
Lee, Pin-Song Lin |
Taiwan |
Automatic
management of the widening project of the Chungshan freeway |
168 |
Automation |
MA4 |
| Li,
Yeou-Fong |
Shang-Hsien
Hsieh, Chi-Chang Chan |
Taiwan |
A
planning multi-level bridge management system for taiwan |
169 |
Automation |
MA4 |
| Liang,
Yueh |
Fu-Yih
Shih, Chih-Hsiung Wu |
Taiwan |
A
management information system for the supervision of highway construction
projects |
170 |
IT |
WC2 |
| Liang,
Yueh |
Tsai-chu
Wang |
Taiwan |
Integrated
information systems for highway management |
171 |
IT |
TE3 |
| Liao,
Tsung-Shen |
Chih-Ming
Huang |
Taiwan |
Electronization
of government procurement system - tendering via internet |
172 |
IT |
TD2 |
| Lin,
Cheng-Ping |
|
Taiwan |
Observation
and assessment of failure reasons of earthquake damage to buildings |
173 |
Hazard |
TC2 |
| Lin,
Cheng-Ping |
|
Taiwan |
A
total solution for disaster prevention in the internet age |
174 |
Hazard |
TC1 |
| Lin,
Kuo-Liang |
Kuei-Yen
Chen |
Taiwan |
A
computerized substructure construction planning approach |
176 |
IT |
MD4 |
| Lin,
Lee-Kuo |
|
Taiwan |
The
research of automatic concrete placing |
177 |
Automation |
MA3 |
| Lin,
Lee-kuo |
Chen-You
Jian, Jinn-Ting Huang |
Taiwan |
Automatic
hazard inspection management system of RC building |
178 |
Hazard |
MC4 |
| Lin,
Meei-Ling |
Yen-Hsu
Lu |
Taiwan |
Construction
of GIS and database for debris flow potential study of Chen-You-Lan
river watershed |
179 |
Hazard |
TC2 |
| May,
Ming-Der |
|
Taiwan |
Applying
genetic algorithm on selecting emergent medical station before disasters |
180 |
Hazard |
MC4 |
| Pan,
Nai-Hsin |
Wen-Zon
Chang |
Taiwan |
A
study of GIS based decision support system on prioritizing yearly
planning of drainage engineering in taichung county |
181 |
IT |
TD2 |
| Peng,
J. L. |
I.
M. Shih |
Taiwan |
Safety
performance of one-layer shoring systems used in construction |
182 |
Hazard |
MC3 |
| Sheu,
Lih-Ren |
Ban-Jwu
Shih, and Chuan-Wei Wu |
Taiwan |
The
search and rescue operation in collapsed buildings caused by earthquakes
- a case study |
183 |
Hazard |
TC1 |
| Shiau,
Yan-Chyuan |
Kun-Chung
Wu |
Taiwan |
The
application of computer in construction contract management automation |
184 |
IT |
TD2 |
| Shih,
Ban-jwu |
|
Taiwan |
The
disaster mitigation and management strategy for bridges |
185 |
Hazard |
MC3 |
| Shih,
Naai-Jung |
|
Taiwan |
An
application of virtual reality formats in managing visual information
of earthquake damaged sites |
186 |
Hazard |
MC4 |
| Shing,
Chi-Lyang |
Yu-Min
You |
Taiwan |
Evaluating
high-speed rail system in BOT scheme by economic status in Taiwan
ROC |
187 |
High-speed
rail |
ME4 |
| Shou,
Keh-Jian |
Chia-Tsung
Wu |
Taiwan |
Application
of image analysis on tunnelling in gravel formations |
188 |
IT |
MD4 |
| Su,
Chin-En |
Ban-Jwu
Shih, Kai-Wen Luo |
Taiwan |
Study
of emergency communication system |
189 |
Hazard |
MC4 |
| Tsai,
Jiin-Song |
Lee-Der
Jou, Fu-Chen Liu |
Taiwan |
Demolition
of abandoned basement in congested urban area |
190 |
Hazard |
TC2 |
| Li,
Sherman |
Ho-Hsiung
Yang, Hsueh-Wen Chiang, Hui-Ping Tserng |
Taiwan |
Establishment
of network infrastructure for public construction purchase electronization
in taiwan |
191 |
IT |
WE1 |
| Wang,
I-Te |
Sung-Mau
Lin , Jing-Wen Chen |
Taiwan |
3D-optical
deformation measurement and its automation application in tunneling |
192 |
IT |
MD4 |
| Wang,
Lung-Chuang |
|
Taiwan |
Study
on urban rail rapid transit accidents prevention and hazards identification |
194 |
Hazard |
TC1 |
| Wang,
Ming-Teh |
Chen-Kang
Su |
Taiwan |
Performance
evaluation of automation development of construction sector in Taiwan |
195 |
Automation |
WA2 |
| Fan,
Su-Ling |
M.T.
Wang |
Taiwan |
Object-oriented
construction scheduling |
196 |
IT |
TD3 |
| Li,
Ming-Cong |
,
Yu-Ting Lai, Shu-Pin Chang, Yu-Lin Huang, Wei-Chih Wang |
Taiwan |
Simulation
of structural steel erection operations - a case study |
197 |
IT |
MD3 |
| Liau,
Tzong-Shiun |
Wei-Chih Wang |
Taiwan |
Representations
of building design process with iterations |
198 |
IT |
WC2 |
| Lai,
Yu-Ting |
Wei-Chih
Wang |
Taiwan |
Automatic
representation of construction interfaces |
199 |
Automation |
MB4 |
| Wen,
Kuo-Chung |
Tsung-Hsing
Huang |
Taiwan |
A
study of 3D spatial model of urban mixed-use visual simulation in
Taipei city |
200 |
IT |
WD2 |
| Wen,
Kuo-Chung |
|
Taiwan |
A
study of automatic layout design by genetic algorithm approach |
201 |
IT |
TE2 |
| Wen,
Kuo-Chung |
Hsiung-Leng
Chen |
Taiwan |
A
study of computer aided layout design in Taipei primary school by
hierarchical artificial neural network approach |
202 |
IT |
TE1 |
| Wu,
Chi-Hsing |
Jiung-Yuan
Wang |
Taiwan |
The
behavior of ultrasonic waves propagating in concrete using the ultrasonic-pulse
methods to measure the depths of cracks in concrete |
204 |
Automation |
MA3 |
| Yang,
Ping-Tsang |
Shu-Ling
Lu |
Taiwan |
The
study of using self-learning neural network in automatic construction
site facility layout |
206 |
IT |
TE2 |
| Yang,
Ping-Tsang |
Shu-Ling
Lu |
Taiwan |
The
automatic layout model in the sequencing of construction activities
of multi-objective diaphragm wall unit by using self-learning neural
network |
207 |
IT |
TE1 |
| Yeh,
Chunshing |
|
Taiwan |
Fire
prevention strategy for buildings in construction |
208 |
Hazard |
TC1 |
| Yu,
Wen-der |
Miroslaw
J. Skibniewski |
Taiwan |
Continuous
constructability knowledge acquisition with fuzzy knowledge-based
failure mode and effects analysis |
209 |
IT |
TE2 |
| Huang,
Chun-Hsiung |
Lee-Kuo
Lin |
Taiwan |
The
study of safety survey expert system for reinforced concrete structure |
210 |
IT |
WD1 |
| Wang,
Wei-Chih |
Ya-Ling
Chiu |
Taiwan |
Logic-based
approach for evaluating change impacts |
212 |
Automation |
TA1 |
| Hsieh,
Ting-ya |
Aviad
Shapira, Ming-chang Wu |
Taiwan |
Applying
radio direction finding system for improvement of horizontal directional
drilling method |
213 |
Automation |
TA3 |
| Liao,
Kwo-Jen |
|
Taiwan |
The
integrated construction management information system application
for construction supervision projects |
215 |
IT |
MD3 |
| Kuo,
Cheng-Dao |
Wen-Chia
Wu, Jiunn-Jyi Chen, Cheng-Yu Chang |
Taiwan |
Automatic
supervision and management of construction schedule for BOT project |
216 |
High-speed
rail |
ME4 |
| Hsu,
Chun Sheng |
Roger
L. Sun, Konrad S. T. Tzeng |
Taiwan |
Development
of computerized maintenance management system for rail transportation
system |
217 |
High-speed
rail |
ME3 |
| Lin,
Pao H. |
H.
Ping Tserng |
Taiwan |
XML/EDI
construction project controlling system based on risk mitigation approach |
222 |
IT |
TD2 |
| Wei,
Yen |
Jenn-Chuan
Chern |
Taiwan |
The
promotion and development of construction automation technology in
Taiwan |
223 |
Automation |
WA2 |
| Liao,
Ching-Lung |
Jenn-Chuan
Chern |
Taiwan |
Automatic
construction site management with aerial and close range photogrammetry |
224 |
High-speed
rail |
ME4 |
| Wei,
Zhang |
Der-Cherng
Tang, Richard N. Hwang, I-Chou Hu, Fuh Gwo Wang |
Taiwan |
Application
of integrated programme/resource management systems for major construction
projects |
225 |
High-speed
rail |
ME3 |
| Wang,
Gwan-Shyong |
Jenn-Chuan
Chern |
Taiwan |
Information
system for the safety of construction of rapid transit systems |
226 |
High-speed
rail |
ME3 |
| Chang,
P.Y. |
C.J.Chang,
MartinW.Pei |
Taiwan |
GPS
Application on Huge Construction Project- A Feasibility Investigation
for Taipei MRT long-term network |
227 |
High-speed
rail |
ME3 |
| Wu,
Tao-Sheng |
Ming-Teh
Wang |
Taiwan |
A
bidding model combined game theory and ai paradigms |
228 |
IT |
TE1 |
| Yang,
Chung-Ham |
Yen-Hui
Hsu, Chia-Li Lin |
Taiwan |
Site
engineer digital assistant-----the integration of information technology
in order to assist site engineers in processing information at all
times and places |
229 |
IT |
TD3 |
