about
Managing the health effects of temperature in response to climate change: challenges aheadProjecting future heat-related mortality under climate change scenarios: a systematic reviewConjunctive and compromised data fusion schemes for identification of multiple notches in an aluminium plate using Lamb wave signals.Constraints and barriers to public health adaptation to climate change: a review of the literature.The impact of heatwaves on mortality in Australia: a multicity study.Effects of extreme temperatures on years of life lost for cardiovascular deaths: a time series study in Brisbane, Australia.The impact of temperature variability on years of life lost.Assessment of climate change impact on residential building heating and cooling energy requirement in AustraliaThe impact of temperature on years of life lost in Brisbane, AustraliaConstructing weather data for building simulation considering urban heat islandAn assessment of climate change effects on atmospheric corrosion rates of steel structuresExtreme wind gust hazard in Australia and its sensitivity to climate changeInfluence of global warming on durability of corroding RC structures: A probabilistic approachMulti-criteria heatwave vulnerability assessment of residential wall systemsA reliability assessment of railway track buckling during an extreme heatwaveClimate change adaptation for corrosion control of concrete infrastructureImpact of climate change on corrosion and damage to concrete infrastructure in AustraliaSelection of climatic variables and time scales for future weather preparation in building heating and cooling energy predictionsVulnerability of timber in ground contact to fungal decay under climate changeClimate change adaptation pathways for Australian residential buildingsClimate change impact and risks of concrete infrastructure deteriorationGlobal warming and its implication to emission reduction strategies for residential buildingsOn Selection of Data Fusion Schemes for Structural Damage EvaluationA method to identify strategies for the improvement of human safety behavior by considering safety climate and personal experienceIdentifying bridge structural condition development trends via categorical inspection condition rating with case studiesA hierarchical data fusion scheme for identifying multi-damage in composite structures with a built-in sensor networkAn approach to modelling concrete bridge condition deterioration using a statistical causal relationship based on inspection dataAbuilt-inactive sensor network for health monitoring of composite structuresHierarchical development of training database for artificial neural network-based damage identificationMultilevel Decision Fusion in a Distributed Active Sensor Network for Structural Damage DetectionSimulations of microwave propagation in delaminated unidirectional glass–epoxy laminateElectro-mechanical dynamic analysis of the piezoelectric stackModelling mechanical properties of core–shell rubber-modified epoxies
P50
Q28709211-97479036-1851-4C70-9E8E-20497C851F72Q28732697-5B034CF9-3645-4146-87B2-A60D0719995BQ33704707-2C696668-86E9-4401-B730-C255D9244687Q33794641-82176ED2-2578-467B-938F-BCA7134B8C41Q37598039-9FF757CC-CF57-4544-9AD4-FD854F881E8DQ40063766-F584796A-9FD1-42CC-92E7-8E6B4C29ABCFQ46937641-D7BE5A5D-CA3B-4B36-9BEC-588E3D7B206DQ56935961-930E7C24-EA8B-4523-93BD-2CFB2BCCDF9BQ57157679-EDE27EAF-F3B3-4960-ADC5-71FFEDE7C328Q58396619-168A3D63-A0BB-4938-BE90-A60D49B53B87Q58396623-A4B8D305-3378-4FF9-BD6A-9DA6A4BA1E20Q58396631-6B76A85E-378C-43DA-998E-CE8E1A2D954BQ58396639-0D8CDD0A-B251-4C97-A777-FCA5E7CC312EQ58396645-FA1CFE4B-B000-4552-BE86-3158967B3F1AQ58396652-3E255B6A-A83F-44C5-A27D-844ED6B5A390Q58396656-90034FE1-B31D-4718-96C6-AC7E83A615EAQ58396658-BFBD3AD4-6F40-4647-A638-901C3B4BF160Q58396665-BE6330B2-BBAE-42A3-88DB-C952951AE6B4Q58396669-FD079086-5C6A-4AC0-B9B8-5200D5F23DB4Q58396672-54CD4B13-283C-4C43-96F5-4227963BCC22Q58396677-A294A410-2577-4246-9E94-58AB31252C3CQ58396680-40E58D6E-A801-4955-A4DD-E4B5A89C949DQ58396688-F6279E10-255D-42E3-928D-4C407B55058CQ58396692-8D13C2A8-453E-4C63-96A5-72D4B913C967Q58396696-F0B6D02F-23D1-4CD9-83D9-E332B0E39211Q58396699-4876A2DB-BB6B-4921-9E44-7778B9D23EA3Q58396704-207FCE23-DF63-4044-B866-68709FECBB1BQ58396708-069074FE-DEFD-4C7A-AB31-0D3B5406A093Q58396712-B1EA112D-3F83-40FC-B6BC-A596E5FA9671Q58396716-07B0F156-6542-4309-B517-D5CAF8883AD2Q58396720-3BF29D78-19C7-4A23-A85A-2C283FBFC7BEQ58396724-71C935D9-C0DC-4630-9C88-09462F40BF73Q58396729-59123C51-BD8F-4B4C-9843-CFF05DD03B9B
P50
description
researcher
@en
հետազոտող
@hy
name
Xiaoming Wang
@ast
Xiaoming Wang
@en
Xiaoming Wang
@es
Xiaoming Wang
@nl
Xiaoming Wang
@sl
type
label
Xiaoming Wang
@ast
Xiaoming Wang
@en
Xiaoming Wang
@es
Xiaoming Wang
@nl
Xiaoming Wang
@sl
prefLabel
Xiaoming Wang
@ast
Xiaoming Wang
@en
Xiaoming Wang
@es
Xiaoming Wang
@nl
Xiaoming Wang
@sl
P1053
A-3804-2008
P106
P1153
53265072100
P31
P3829
P496
0000-0002-1088-8862