How can AI, AR, and computer vision contribute to intelligent, automated health monitoring of constructed facilities?
Po-Han Chen
More Info- artificial intelligence (AI)53
- computer vision19
- augmented reality (AR)9
- mixed reality (MR)3
- building information modeling (BIM)7
- virtual reality (VR)8
- health monitoring of structures8
- construction management7
- construction automation7
- bridges8
- lifecycle performance optimization9
- construction engineering8
- building envelope performance8
- infrastructure resilience6
- sustainable development41
- urban infrastructure20
-
Amin Hammad
building information modeling (BIM), construction automation, health monitoring of structures
-
Mazdak Nik-Bakht
construction management, building information modeling (BIM), decision making
-
Osama Moselhi
urban infrastructure, construction engineering, construction management
-
Jong Won Ma
construction engineering, construction management, construction automation
-
Yunping Liang
sustainable infrastructure, infrastructure resilience, construction engineering
-
Rebecca Dziedzic
urban infrastructure, infrastructure resilience, lifecycle asset management
-
Ahmed Soliman
sustainable development, durability of concrete, materials science
-
Shahin Karimidorabati
construction automation, workflow-based processes, process mining
-
Charalambos (Charis) Poullis
computer vision, computer graphics, deep learning
-
Michelle Nokken
durability of concrete, urban infrastructure, design for sustainability
-
Marco Luna Barahona
virtual reality (VR), responsive environments, digital media
-
Fuzhan Nasiri
urban infrastructure, infrastructure resilience, energy modeling and optimization
-
Mohamed Ouf
green buildings, occupant behavior, energy modeling and optimization
-
Ufuk Batmaz
human-computer interaction (HCI), virtual reality (VR), augmented reality (AR)
-
Ashutosh Bagchi
structural engineering, earthquake engineering, smart structures
-
Arash Mohammadi
signal processing, information systems security, cyberphysical systems
-
Nizar Bouguila
computer vision, data analytics, machine learning
-
Mahdi S. Hosseini
deep learning, computer vision, computational pathology
-
Martin Danyluk
urban infrastructure, cities, urban logistics
-
Sang Hyeok Han
modular construction, heavy equipment motion planning, ergonomics
-
François Tardy
energy poverty, energy efficiency, low energy buildings
-
Tien D. Bui
computer vision, biometrology, artificial intelligence (AI)
-
Ali Ayub
interactive machine learning, continual learning, human-computer interaction (HCI)
-
Ching Yee Suen
pattern recognition, handwriting, design of type fonts
-
Elizabeth (Liz) Miller
documentary making, video advocacy, social justice
-
Jassim Hassan
structural engineering, buildings, bridges
-
Yang Wang
computer vision, machine learning, deep learning
-
Yiming Xiao
bioimaging, biomedical engineering, image processing
-
Hua Ge
building envelope performance, energy efficiency, design for sustainability
-
Krzysztof Skonieczny
planetary rovers, robotics, vehicle-terrain interactions
-
Tiberiu Popa
computer graphics, computational geometry, 3D data acquisition technologies
-
Donny Seto
urban planning, climate change, sustainable development
-
Miao Song
cinema, interactive projection mapping, China studies
-
Yong Zeng
design process, creativity, design engineering
-
Pierre Gauthier
urban morphology, urban planning, urban/rural studies
-
Bruno Lee
buildings, energy efficiency, energy modeling and optimization
-
Mohammed Zaheeruddin
HVAC systems, control systems, energy modeling and optimization
-
Hassan Rivaz
bioimaging, ultrasound elastography, image processing