|
modular construction |
9 |
|
modular integrated construction |
9 |
|
prefabrication |
9 |
|
modular building |
8 |
|
literature review |
7 |
|
sustainability |
7 |
|
buildings |
6 |
|
high-rise building |
6 |
|
hong kong |
6 |
|
life cycle assessment |
6 |
|
carbon reduction |
5 |
|
construction |
5 |
|
durability |
5 |
|
precast concrete |
5 |
|
building |
4 |
|
carbon emission |
4 |
|
case study |
4 |
|
construction industry |
4 |
|
deep learning |
4 |
|
embodied carbon |
4 |
|
energy consumption |
4 |
|
energy modelling |
4 |
|
energy simulation |
4 |
|
high-rise office building |
4 |
|
high-rise residential building |
4 |
|
key performance indicator |
4 |
|
low carbon building |
4 |
|
occupant behaviour |
4 |
|
performance measurement |
4 |
|
robotics |
4 |
|
virtual reality (vr) |
4 |
|
analytical framework |
3 |
|
attitude and intention |
3 |
|
building energy |
3 |
|
building energy use |
3 |
|
building information modeling |
3 |
|
circular economy |
3 |
|
construction planning |
3 |
|
construction robotics |
3 |
|
corporate financial performance |
3 |
|
corporate social performance |
3 |
|
corporate social performance-corporate financial performance relationship |
3 |
|
corporate social responsibility |
3 |
|
critical review |
3 |
|
dialectical system |
3 |
|
energy efficiency |
3 |
|
fiber reinforced polymer (frp) |
3 |
|
frp-reinforced concrete |
3 |
|
high-rise modular building |
3 |
|
industry development |
3 |
|
knowledge |
3 |
|
lean construction |
3 |
|
life cycle carbon emission |
3 |
|
low energy building |
3 |
|
low-carbon building |
3 |
|
low-carbon concrete |
3 |
|
manufacturing |
3 |
|
module detection |
3 |
|
multicriteria decision-making |
3 |
|
office building |
3 |
|
offsite construction |
3 |
|
parametric study |
3 |
|
prefabricated modular construction |
3 |
|
production form |
3 |
|
productivity |
3 |
|
sensitivity analysis |
3 |
|
social network analysis |
3 |
|
stakeholder engagement |
3 |
|
structures & design design methods & aids mathematical modelling |
3 |
|
structures & design information technology project management |
3 |
|
supplementary cementitious materials (scm) |
3 |
|
sustainable building |
3 |
|
sustainable construction |
3 |
|
sustainable development (sd) |
3 |
|
system approach |
3 |
|
tower crane layout planning |
3 |
|
transfer learning |
3 |
|
ultra-lightweight concrete |
3 |
|
virtual prototyping |
3 |
|
virtual reality |
3 |
|
zero carbon building |
3 |
|
air conditioning |
2 |
|
architecture |
2 |
|
architecture, engineering and construction (aec) |
2 |
|
artificial intelligence |
2 |
|
assessment framework |
2 |
|
automated construction |
2 |
|
automated design |
2 |
|
beam-column joint |
2 |
|
benchmarking |
2 |
|
blockchain |
2 |
|
bottom-up modularisation |
2 |
|
building energy and carbon policy |
2 |
|
building energy performance |
2 |
|
building envelope |
2 |
|
building envelope design |
2 |
|
building information modelling |
2 |
|
building inspection |
2 |
|
building life cycle |
2 |
|
building project |
2 |
|
buildings, structures & design |
2 |
|
business model |
2 |
|
carbon emissions |
2 |
|
carbon policy |
2 |
|
classification |
2 |
|
communications & control systems infrastructure planning knowledge management |
2 |
|
conceptual framework |
2 |
|
construction automation and robotics |
2 |
|
construction crane |
2 |
|
construction management |
2 |
|
construction productivity |
2 |
|
construction robot |
2 |
|
construction technology |
2 |
|
construction waste |
2 |
|
contractors |
2 |
|
convolutional neural network |
2 |
|
cost performance |
2 |
|
covid-19 |
2 |
|
crane-lift planning |
2 |
|
crane-lift training |
2 |
|
data interoperability |
2 |
|
data sharing |
2 |
|
database |
2 |
|
decision-making |
2 |
|
dialectical system theory |
2 |
|
discrete diaphragm |
2 |
|
embodied carbon assessment |
2 |
|
embodied energy |
2 |
|
emergency response |
2 |
|
energy |
2 |
|
energy conservation |
2 |
|
energy measurement |
2 |
|
energy modeling |
2 |
|
energy performance gap |
2 |
|
energy policy |
2 |
|
energy saving |
2 |
|
energy saving measures |
2 |
|
energy use |
2 |
|
energy-saving measure |
2 |
|
environmental impact assessment |
2 |
|
exoskeletons |
2 |
|
federated learning |
2 |
|
formwork system |
2 |
|
future planning |
2 |
|
fuzzy dematel |
2 |
|
green building assessment |
2 |
|
healthcare facility |
2 |
|
heavy crane-lift path planning |
2 |
|
heavy lifting |
2 |
|
hierarchical framework |
2 |
|
high-density city |
2 |
|
high-rise |
2 |
|
high-rise buildings |
2 |
|
high-rise modular buildings |
2 |
|
horizontal connection |
2 |
|
hot-humid climate |
2 |
|
housing construction |
2 |
|
human-computer interaction |
2 |
|
human-in-the-loop simulation |
2 |
|
in-situ monitoring |
2 |
|
indicators |
2 |
|
industrial robots |
2 |
|
industry foundation classes |
2 |
|
influencing factors |
2 |
|
innovation |
2 |
|
innovative building technology |
2 |
|
inter-building effect |
2 |
|
lateral force resisting system |
2 |
|
least squares approximations |
2 |
|
life cycle energy |
2 |
|
lift planning and optimization |
2 |
|
lift planning tools |
2 |
|
low carbon building design |
2 |
|
low carbon concrete |
2 |
|
low-carbon concrete material |
2 |
|
low-carbon construction |
2 |
|
low-energy building |
2 |
|
modelling |
2 |
|
modular buildings |
2 |
|
modular construction (mc) |
2 |
|
modular integrated construction (mic) |
2 |
|
modularisation |
2 |
|
module installation |
2 |
|
multi-criteria decision analysis |
2 |
|
multi-criteria decision making |
2 |
|
multi-role collaboration |
2 |
|
multi-user system |
2 |
|
multiple influencing factors |
2 |
|
multiuser collaboration |
2 |
|
natural ventilation |
2 |
|
nonlinear dynamic analysis |
2 |
|
object detection |
2 |
|
occupant behavior |
2 |
|
off-site construction |
2 |
|
operational carbon |
2 |
|
operational energy |
2 |
|
optimization |
2 |
|
particle swarm optimization |
2 |
|
path simulation |
2 |
|
post occupancy evaluation |
2 |
|
prefabricated construction |
2 |
|
process recognition |
2 |
|
production |
2 |
|
project management |
2 |
|
public housing |
2 |
|
residential buildings |
2 |
|
scenario techniques |
2 |
|
simulated annealing |
2 |
|
simulation models |
2 |
|
smart construction |
2 |
|
socio-technical system |
2 |
|
socio-technical transition |
2 |
|
stakeholder |
2 |
|
stakeholder partnership |
2 |
|
steel modular construction |
2 |
|
steel-framed module |
2 |
|
stochastic petri nets |
2 |
|
structural analysis |
2 |
|
structural design |
2 |
|
structures & design |
2 |
|
supply chain |
2 |
|
sustainability assessment |
2 |
|
sustainable development goals |
2 |
|
sustainable infrastructure |
2 |
|
sustainable practice |
2 |
|
sustainable urban development |
2 |
|
system boundaries |
2 |
|
system boundary |
2 |
|
systematic review |
2 |
|
systems engineering |
2 |
|
task analysis |
2 |
|
technological innovation |
2 |
|
technology co-evolution |
2 |
|
technology forecasting |
2 |
|
technology interaction |
2 |
|
technology-organization-environment (toe) framework |
2 |
|
top-down modularisation |
2 |
|
total factor productivity |
2 |
|
tower crane layout planning (tclp) |
2 |
|
un sdg 11: sustainable cities and communities |
2 |
|
un sdg 9: industry, innovation and infrastructure |
2 |
|
uncertainty analysis |
2 |
|
utilisation |
2 |
|
vertical inter-module connection |
2 |
|
yolov5 |
2 |
|
zero carbon emission building |
2 |
|
zero energy building |
2 |
|
zero-carbon building |
2 |
|
zero-energy gap |
2 |
|
3d visualization |
1 |
|
active frontage |
1 |
|
air permeability |
1 |
|
air source heat pump |
1 |
|
air source heat pump (ashp) |
1 |
|
air-tightness |
1 |
|
analytic hierarchy process (ahp) |
1 |
|
analytical network process (anp) |
1 |
|
anp |
1 |
|
apartment building |
1 |
|
augmented reality |
1 |
|
automated guided vehicle |
1 |
|
automation modeling |
1 |
|
autonomous crane |
1 |
|
barriers |
1 |
|
basalt textile-reinforced concrete |
1 |
|
bathroom modules |
1 |
|
bayesian computation |
1 |
|
behavioral change |
1 |
|
bim |
1 |
|
bim modeling |
1 |
|
build method |
1 |
|
build system selection |
1 |
|
building energy performance gap |
1 |
|
building environmental assessment |
1 |
|
building façade |
1 |
|
building information modeling (bim) |
1 |
|
building material |
1 |
|
building regulation |
1 |
|
building regulations |
1 |
|
building sector |
1 |
|
building specifications |
1 |
|
building standard |
1 |
|
building type |
1 |
|
building waste recycling |
1 |
|
buildings, structures and design |
1 |
|
business models |
1 |
|
carbon textile reinforced mortar |
1 |
|
carbon textile-reinforced concrete |
1 |
|
causal loop diagrams |
1 |
|
challenge |
1 |
|
china |
1 |
|
chopped steel fibers |
1 |
|
cleaner production |
1 |
|
climate change |
1 |
|
cluster analysis |
1 |
|
collaborative design |
1 |
|
competitiveness |
1 |
|
compliance |
1 |
|
configuration |
1 |
|
conservation supply curve |
1 |
|
constraints to low-carbon building |
1 |
|
construction innovation |
1 |
|
construction methods |
1 |
|
construction productivity enhancement |
1 |
|
construction productivity measurement |
1 |
|
construction project |
1 |
|
construction project productivity |
1 |
|
corporate strategy |
1 |
|
cost barrier |
1 |
|
cost engineering |
1 |
|
cost-energy relationship |
1 |
|
criteria selection |
1 |
|
critical factors |
1 |
|
critical thinking |
1 |
|
culture |
1 |
|
data mining |
1 |
|
debonding failure |
1 |
|
decision criteria |
1 |
|
decision criteria weight |
1 |
|
decision making |
1 |
|
decision making criteria |
1 |
|
decision support matrix |
1 |
|
defect |
1 |
|
defects |
1 |
|
design and theory |
1 |
|
design guidance |
1 |
|
design method |
1 |
|
design strategies |
1 |
|
design with intent (dwl) |
1 |
|
design with intent method |
1 |
|
developing countries |
1 |
|
dialectic |
1 |
|
dialectical thinking |
1 |
|
drivers |
1 |
|
dwelling type |
1 |
|
dwellings |
1 |
|
earthquake resilience |
1 |
|
efficiency |
1 |
|
embodied carbon emission |
1 |
|
embodied carbon monitoring |
1 |
|
embodied energy and emission |
1 |
|
energy performance |
1 |
|
energy saving measure |
1 |
|
energy use behavior |
1 |
|
energy uselow-energy building |
1 |
|
entrepreneurship |
1 |
|
environmental building |
1 |
|
extended reality |
1 |
|
facilities |
1 |
|
façade selection |
1 |
|
feasibility |
1 |
|
feedback |
1 |
|
finite element analysis |
1 |
|
finite element model |
1 |
|
flexural behavior |
1 |
|
flexural behaviour |
1 |
|
fragmentation |
1 |
|
fuzzy decision-making |
1 |
|
fuzzy extensions |
1 |
|
fuzzy integral |
1 |
|
fuzzy promethee |
1 |
|
fuzzy set theory |
1 |
|
gbxml |
1 |
|
geographic information system (gis) |
1 |
|
geographical information system |
1 |
|
geometric modeling |
1 |
|
green building |
1 |
|
green buildings |
1 |
|
greenhouse gas emission (ghg) |
1 |
|
guangdong |
1 |
|
high-rise high-density city |
1 |
|
high-rise prefabricated building |
1 |
|
high-rise, high-density cities |
1 |
|
home design |
1 |
|
homes |
1 |
|
house building |
1 |
|
housebuilding |
1 |
|
housing |
1 |
|
human-robot collaboration |
1 |
|
human-robot interaction |
1 |
|
hybrid coupled wall |
1 |
|
import |
1 |
|
in-home display |
1 |
|
influencing factor |
1 |
|
influencing parameter |
1 |
|
information and communication technology |
1 |
|
information integrity |
1 |
|
information processing |
1 |
|
infrastructure procurement |
1 |
|
innovative business model |
1 |
|
intelligent computing |
1 |
|
intelligent decision support system |
1 |
|
interdependence |
1 |
|
interface |
1 |
|
interfacial bonding performance |
1 |
|
international law |
1 |
|
internet of things |
1 |
|
latin hypercube sampling |
1 |
|
lcb readiness |
1 |
|
lean supply |
1 |
|
learning |
1 |
|
learning process |
1 |
|
learning to innovate |
1 |
|
level of automation |
1 |
|
logistics planning |
1 |
|
low carbon |
1 |
|
low carbon building retrofit readiness |
1 |
|
low carbon housing |
1 |
|
low carbon retail buildings |
1 |
|
low carbon retrofit |
1 |
|
low energy |
1 |
|
low energy building design |
1 |
|
low or zero carbon building |
1 |
|
low-carbon building (lcb) |
1 |
|
low-carbon building measures |
1 |
|
maintenance |
1 |
|
maintenance costs |
1 |
|
management |
1 |
|
maritime law |
1 |
|
material consumption |
1 |
|
material efficiency |
1 |
|
model calibration |
1 |
|
modern methods of construction (mmc) |
1 |
|
modularization; mechanization |
1 |
|
module removal scenario |
1 |
|
module-to-module connection |
1 |
|
multi-cracking pattern |
1 |
|
multi-criteria decision-making |
1 |
|
multi-scale model |
1 |
|
multi-storey |
1 |
|
multi-storey building |
1 |
|
net-zero |
1 |
|
new-build dwellings |
1 |
|
new-build homes |
1 |
|
non-law students |
1 |
|
occupant engagement |
1 |
|
off-site production |
1 |
|
offsite |
1 |
|
offsite manufacturing |
1 |
|
offsite production |
1 |
|
option value |
1 |
|
organization |
1 |
|
outer annular stiffener |
1 |
|
part l1a |
1 |
|
particle swarm optimizer (pso) |
1 |
|
path planning |
1 |
|
pedagogic risk |
1 |
|
perceptions |
1 |
|
performance appraisal |
1 |
|
performance evaluation |
1 |
|
pestel analysis |
1 |
|
political economy |
1 |
|
political, economic, social, technological, environmental, legal (pestel) analysis |
1 |
|
pre-cast concrete cross-wall |
1 |
|
pre-occupancy evaluation |
1 |
|
precast concrete crosswall |
1 |
|
prefabricated high-rise building |
1 |
|
prestress |
1 |
|
prestress levels |
1 |
|
prevention strategy |
1 |
|
procedural modeling |
1 |
|
process |
1 |
|
productivity enhancement |
1 |
|
productivity evaluation |
1 |
|
productivity growth |
1 |
|
progressive collapse |
1 |
|
project based and problem based learning |
1 |
|
projects |
1 |
|
property development |
1 |
|
public policy |
1 |
|
public residential building |
1 |
|
public space |
1 |
|
quality |
1 |
|
regulation |
1 |
|
reinforced concrete frame structure |
1 |
|
reinforced concrete slab |
1 |
|
renewable technology |
1 |
|
replaceable steel coupling beam |
1 |
|
research-informed teaching |
1 |
|
research-teaching linkage |
1 |
|
research-teaching nexus |
1 |
|
residential building |
1 |
|
residential housing |
1 |
|
retrofit |
1 |
|
risk management |
1 |
|
risks |
1 |
|
scenario |
1 |
|
scenario analysis |
1 |
|
shear capacity formula |
1 |
|
shipping |
1 |
|
singapore |
1 |
|
skill formation |
1 |
|
skilled workers |
1 |
|
skills and knowledge |
1 |
|
skills formation |
1 |
|
smart technology |
1 |
|
social cohesion |
1 |
|
socio-technical |
1 |
|
soft systems methodology |
1 |
|
stakeholder collaboration |
1 |
|
stakeholders |
1 |
|
steel fibers |
1 |
|
steel fibres |
1 |
|
strategies to accelerate low-carbon building |
1 |
|
strategy |
1 |
|
structural equation modeling |
1 |
|
structures & design management project management |
1 |
|
student accommodation |
1 |
|
student learning |
1 |
|
support mechanisms |
1 |
|
sustainable home |
1 |
|
sustainable retail construction |
1 |
|
sustainable technologies |
1 |
|
sustainable technology selection |
1 |
|
system dynamics |
1 |
|
system thinking |
1 |
|
systemic framework |
1 |
|
systemic value |
1 |
|
systems approach |
1 |
|
systems framework |
1 |
|
taught-postgraduate |
1 |
|
teaching strategies |
1 |
|
technology selection |
1 |
|
textile layers |
1 |
|
theory of planned behavior |
1 |
|
tower crane |
1 |
|
two-mode social network analysis |
1 |
|
uk |
1 |
|
uk housing |
1 |
|
unequal-depth joint |
1 |
|
united kingdom |
1 |
|
united kingdom paper type research paper |
1 |
|
urban design |
1 |
|
urban regeneration |
1 |
|
value |
1 |
|
variable fuzzy promethee |
1 |
|
vehicle routing problem |
1 |
|
vocational education and training (vet) |
1 |
|
zero carbon |
1 |
|
zero carbon homes |
1 |
|
zero energy |
1 |
