Global structural health monitoring market is projected to register a CAGR of 17.5% in the forecast period of 2023 to 2030. The new market report contains data for historic year 2021, the base year of calculation is 2022 and the forecast period is 2023 to 2030.
Market Segmentation:
Global Structural Health Monitoring Market, By Type (Hardware, Software, Services), Connectivity (Wired and Wireless), Installation Type (New installation and Retrofit), Method (Visual Inspection and Non-Destructive Evaluation), Application (Damage Detection, Crack Detection, Strain Monitoring, Wire Break Monitoring, Leakage Detection, Multimodal Sensing, Corrosion Detection, Hotspot Monitoring, Impact Monitoring, Deflection Monitoring), End User (Civil, Aerospace, Energy, Mining, Marine, Industrial, Offshore Platform, Defense, School, Public park and recreation, Automotive and Others), Country (U.S., Canada, Mexico, Germany, France, U.K., Italy, Russia, Spain, Netherlands, Switzerland, Norway, Poland, Sweden, Belgium, Turkey, Denmark, Finland, Rest of Europe, China, Japan, India, Australia, New Zealand, South Korea, Singapore, Malaysia, Thailand, Indonesia, Philippines, Vietnam, Taiwan, Rest of Asia-Pacific, South Africa, Saudi Arabia, Bahrain, UAE, Kuwait, Oman, Qatar, Egypt, Israel, Rest of Middle East and Africa, Brazil, Argentina, and the Rest of South America) Industry Trends and Forecast to 2030.
Some of the major factors contributing to the growth of the global structural health monitoring market are:
Rise in the technological advancement.
Increase in the improved safety, and maintainability of critical structures
Market Players
Some of the major players operating in the global structural health monitoring market are:
Acellent Technologies Inc.
Campbell Scientific, Inc.
COWI A/S
Digitex
Digitexx Data Systems, Inc.
FEAC Engineering
First Sensor AG
GEOKON
Geomotion Singapore
GeoSIG Ltd
HBK
James Fischer and Sons plc
Kinemetrics
NATIONAL INSTRUMENTS CORP.
Nova Ventures
OSMOS Group SA
Sisgeo S.r.l.
SIXENSE Systems
SODIS Lab
STRUCTURAL MONITORING STSTEMS PLC.
Xylem Inc.
TABLE OF CONTENTS
1 INTRODUCTION 92
- 1.1 OBJECTIVES OF THE STUDY 92
- 1.2 MARKET DEFINITION 92
- 1.3 OVERVIEW OF THE GLOBAL STRUCTURAL HEALTH MONITORING MARKET 92
- 1.4 CURRENCY AND PRICING 94
- 1.5 LIMITATIONS 94
- 1.6 MARKETS COVERED 95
2 MARKET SEGMENTATION 99
- 2.1 MARKETS COVERED 99
- 2.2 GEOGRAPHICAL SCOPE 100
- 2.3 YEARS CONSIDERED FOR THE STUDY 101
- 2.4 DBMR TRIPOD DATA VALIDATION MODEL 102
- 2.5 PRIMARY INTERVIEWS WITH KEY OPINION LEADERS 105
- 2.6 DBMR MARKET POSITION GRID 106
- 2.7 VENDOR SHARE ANALYSIS 108
- 2.8 MULTIVARIATE MODELING 109
- 2.9 TYPE TIMELINE CURVE 109
- 2.10 MARKET APPLICATION COVERAGE GRID 110
- 2.11 SECONDARY SOURCES 111
- 2.12 ASSUMPTIONS 111
3 EXECUTIVE SUMMARY 112
4 PREMIUM INSIGHTS 114
- 4.1 POTER'S FIVE FORCES 117
- 4.2 GLOBAL STRUCTURAL HEALTH MONITORING MARKET, REGULATIONS 118
- 4.3 TECHNOLOGICAL TRENDS 120
- 4.4 PATENT ANALYSIS 122
- 4.5 GLOBAL STRUCTURAL HEALTH MONITORING MARKET, VALUE CHAIN ANALYSIS 125
- 4.6 CASE STUDIES 128
5 MARKET OVERVIEW 129
- 5.1 DRIVERS 131
- 5.1.1 GROWING INFRASTRUCTURAL DEVELOPMENT ACROSS THE GLOBE 131
- 5.1.2 INCREASING AUTOMATION, AND STANDARDIZATION IN THE MAINTENANCE & REPAIR OF CIVIL INFRASTRUCTURE 132
- 5.1.3 GROWING ADVANCEMENT IN SENSOR TECHNOLOGIES 133
- 5.1.4 IMPROVED SAFETY, AND MAINTAINABILITY OF CRITICAL STRUCTURES 133
- 5.2 RESTRAINTS 134
- 5.2.1 HIGH INSTALLATION AND MONITORING COSTS 134
- 5.2.2 INACCURATE RESULTS DUE TO CALIBRATION ERRORS 135
- 5.2.3 FLUCTUATING PRICES OF RAW MATERIALS 135
- 5.3 OPPORTUNITIES 136
- 5.3.1 INTEGRATION OF TECHNOLOGICALLY ADVANCED SOLUTIONS FOR STRUCTURAL HEALTH MONITORING 136
- 5.3.2 GROWTH IN INVESTMENTS IN INFRASTRUCTURE AND ADVANCES IN WIRELESS SENSOR NETWORKS 136
- 5.3.3 INCREASE IN VARIOUS STRATEGIC DECISIONS, SUCH AS PARTNERSHIP AND ACQUISITION 137
- 5.4 CHALLENGES 138
- 5.4.1 REQUIREMENT OF SKILLED OPERATORS FOR INSTALLATION AND CALIBRATION OF STRUCTURAL HEALTH MONITORING INSTRUMENTS 138
- 5.4.2 LACK OF STANDARDIZATION IN MANAGING LARGE VOLUMES OF DATA 138
- 5.4.3 TECHNICAL CHALLENGES AND OPERATIONAL FACTORS 138
6 GLOBAL STRUCTURAL HEALTH MONITORING MARKET, BY TYPE 140
- 6.1 OVERVIEW 141
- 6.2 HARDWARE 144
- 6.2.1 SENSORS 145
- 6.2.1.1 ACCELEROMETERS 146
- 6.2.1.2 ULTRASONIC SENSORS 146
- 6.2.1.3 TEMPERATURE SENSORS 146
- 6.2.1.4 STRAIN GAUGES 146
- 6.2.1.5 CORROSION SENSORS 146
- 6.2.1.6 DISPLACEMENT SENSOR 146
- 6.2.1.7 INCLINOMETERS AND TILT METERS 146
- 6.2.1.8 SEISMOMETERS 146
- 6.2.1.9 OTHERS 146
- 6.2.2 DATA ACQUISITION UNITS 147
- 6.2.3 AMPLIFIERS 147
- 6.2.4 CAMERA 147
- 6.2.5 OTHERS 147
- 6.3 SOFTWARE 147
- 6.4 SERVICES 148
- 6.4.1 INSTALLATION 149
- 6.4.1.1 PRE INSTALLATION 149
- 6.4.1.2 POST INSTALLATION 149
- 6.4.2 DESIGNING AND CONSULTING 149
- 6.4.3 MAINTENANCE 149
7 GLOBAL STRUCTURAL HEALTH MONITORING MARKET, BY CONNECTIVITY 150
- 7.1 OVERVIEW 151
- 7.2 WIRED 154
- 7.3 WIRELESS 155
8 GLOBAL STRUCTURAL HEALTH MONITORING MARKET, BY INSTALLATION TYPE 156
- 8.1 OVERVIEW 157
- 8.2 NEW INSTALLATION 160
- 8.3 RETROFIT 161
9 GLOBAL STRUCTURAL HEALTH MONITORING MARKET, BY METHOD 162
- 1.1. OVERVIEW 163
- 9.1 VISUAL INSPECTION 166
- 9.1.1 DATA-BASED TECHNIQUES 166
- 9.1.2 MODEL BASED TECHNIQUES 166
- 9.2 NON-DESTRUCTIVE EVALUATION (NDE) 167
10 GLOBAL STRUCTURAL HEALTH MONITORING MARKET, BY APPLICATION 168
- 10.1 OVERVIEW 169
- 10.2 DAMAGE DETECTION 172
- 10.3 CRACK DETECTION 172
- 10.4 STRAIN MONITORING 173
- 10.5 WIRE BREAK MONITORING 174
- 10.5.1 IN POST TENSION CONCRETE STRUCTURE 175
- 10.5.2 SUSPENSION AND CABLE STAY BRIDGES 175
- 10.6 LEAKAGE DETECTION 175
- 10.7 MULTIMODAL SENSING 176
- 10.8 CORROSION MONITORING 177
- 10.9 HOTSPOT MONITORING 178
- 10.10 IMPACT MONITORING 179
- 10.11 DEFLECTION MONITORING 179
11 GLOBAL STRUCTURAL HEALTH MONITORING MARKET, BY END USER 181
- 11.1 OVERVIEW 182
- 11.2 CIVIL 185
- 11.2.1 BUILDING 186
- 11.2.1.1 DAMAGE DETECTION 187
- 11.2.1.2 CRACK DETECTION 187
- 11.2.1.3 STRAIN MONITORING 187
- 11.2.1.4 WIRE BREAK MONITORING 187
- 11.2.1.5 LEAKAGE DETECTION 187
- 11.2.1.6 MULTIMODAL SENSING 187
- 11.2.1.7 CORROSION MONITORING 187
- 11.2.1.8 HOTSPOT MONITORING 187
- 11.2.1.9 IMPACT MONITORING 187
- 11.2.1.10 DEFLECTION MONITORING 188
- 11.2.2 BRIDGES 188
- 11.2.2.1 DAMAGE DETECTION 188
- 11.2.2.2 CRACK DETECTION 188
- 11.2.2.3 STRAIN MONITORING 189
- 11.2.2.4 WIRE BREAK MONITORING 189
- 11.2.2.5 LEAKAGE DETECTION 189
- 11.2.2.6 MULTIMODAL SENSING 189
- 11.2.2.7 CORROSION MONITORING 189
- 11.2.2.8 HOTSPOT MONITORING 189
- 11.2.2.9 IMPACT MONITORING 189
- 11.2.2.10 DEFLECTION MONITORING 189
- 11.2.3 TUNNELS 190
- 11.2.3.1 DAMAGE DETECTION 190
- 11.2.3.2 CRACK DETECTION 190
- 11.2.3.3 STRAIN MONITORING 190
- 11.2.3.4 HOTSPOT MONITORING 190
- 11.2.3.5 LEAKAGE DETECTION 191
- 11.2.3.6 WIRE BREAK MONITORING 191
- 11.2.3.7 CORROSION MONITORING 191
- 11.2.3.8 MULTIMODAL SENSING 191
- 11.2.3.9 IMPACT MONITORING 191
- 11.2.3.10 DEFLECTION MONITORING 191
- 11.2.4 DAMS 192
- 11.2.4.1 DAMAGE DETECTION 192
- 11.2.4.2 CRACK DETECTION 192
- 11.2.4.3 STRAIN MONITORING 192
- 11.2.4.4 IMPACT MONITORING 193
- 11.2.4.5 LEAKAGE DETECTION 193
- 11.2.4.6 MULTIMODAL SENSING 193
- 11.2.4.7 CORROSION MONITORING 193
- 11.2.4.8 HOTSPOT MONITORING 193
- 11.2.4.9 IMPACT MONITORING 193
- 11.2.4.10 DEFLECTION MONITORING 193
- 11.2.5 ROADS 194
- 11.2.5.1 DAMAGE DETECTION 194
- 11.2.5.2 CRACK DETECTION 194
- 11.2.5.3 STRAIN MONITORING 194
- 11.2.5.4 IMPACT MONITORING 194
- 11.2.5.5 HOTSPOT MONITORING 195
- 11.2.5.6 LEAKAGE DETECTION 195
- 11.2.5.7 MULTIMODAL SENSING 195
- 11.2.5.8 DEFLECTION MONITORING 195
- 11.2.5.9 WIRE BREAK MONITORING 195
- 11.2.5.10 CORROSION MONITORING 195
- 11.2.6 STADIUM 196
- 11.2.6.1 DAMAGE DETECTION 196
- 11.2.6.2 CRACK DETECTION 196
- 11.2.6.3 STRAIN MONITORING 196
- 11.2.6.4 CORROSION MONITORING 197
- 11.2.6.5 LEAKAGE DETECTION 197
- 11.2.6.6 WIRE BREAK MONITORING 197
- 11.2.6.7 MULTIMODAL SENSING 197
- 11.2.6.8 HOTSPOT MONITORING 197
- 11.2.6.9 IMPACT MONITORING 197
- 11.2.6.10 DEFLECTION MONITORING 197
- 11.2.7 OTHERS 197
- 11.3 AEROSPACE 198
- 11.3.1 DAMAGE DETECTION 199
- 11.3.2 IMPACT MONITORING 199
- 11.3.3 CORROSION MONITORING 199
- 11.3.4 CRACK DETECTION 199
- 11.3.5 STRAIN MONITORING 199
- 11.3.6 WIRE BREAK MONITORING 200
- 11.3.7 LEAKAGE DETECTION 200
- 11.3.8 MULTIMODAL SENSING 200
- 11.3.9 HOTSPOT MONITORING 200
- 11.3.10 DEFLECTION MONITORING 200
- 11.4 ENERGY 200
- 11.4.1 DAMAGE DETECTION 201
- 11.4.2 IMPACT MONITORING 201
- 11.4.3 CORROSION MONITORING 202
- 11.4.4 CRACK DETECTION 202
- 11.4.5 STRAIN MONITORING 202
- 11.4.6 WIRE BREAK MONITORING 202
- 11.4.7 LEAKAGE DETECTION 202
- 11.4.8 MULTIMODAL SENSING 202
- 11.4.9 HOTSPOT MONITORING 202
- 11.4.10 DEFLECTION MONITORING 203
- 11.4.10.1 WIND TURBINE 203
- 11.4.10.1.1 DAMAGE DETECTION 204
- 11.4.10.1.2 CRACK DETECTION 204
- 11.4.10.1.3 STRAIN MONITORING 204
- 11.4.10.1.4 WIRE BREAK MONITORING 204
- 11.4.10.1.5 CORROSION MONITORING 204
- 11.4.10.1.6 MULTIMODAL SENSING 204
- 11.4.10.1.7 LEAKAGE DETECTION 204
- 11.4.10.1.8 HOTSPOT MONITORING 204
- 11.4.10.1.9 IMPACT MONITORING 204
- 11.4.10.1.10 DEFLECTION MONITORING 205
- 11.4.10.2 OTHERS 205
- 11.5 MINING 205
- 11.5.1 LEAKAGE DETECTION 206
- 11.5.2 DAMAGE DETECTION 206
- 11.5.3 CRACK DETECTION 206
- 11.5.4 WIRE BREAK MONITORING 206
- 11.5.5 IMPACT MONITORING 207
- 11.5.6 CORROSION MONITORING 207
- 11.5.7 STRAIN MONITORING 207
- 11.5.8 MULTIMODAL SENSING 207
- 11.5.9 HOTSPOT MONITORING 207
- 11.5.10 DEFLECTION MONITORING 207
- 11.6 MARINE 208
- 11.6.1 DAMAGE DETECTION 209
- 11.6.2 CRACK DETECTION 209
- 11.6.3 LEAKAGE DETECTION 209
- 11.6.4 STRAIN MONITORING 209
- 11.6.5 CORROSION MONITORING 209
- 11.6.6 IMPACT MONITORING 210
- 11.6.7 HOTSPOT MONITORING 210
- 11.6.8 MULTIMODAL SENSING 210
- 11.6.9 DEFLECTION MONITORING 210
- 11.6.10 WIRE BREAK MONITORING 210
- 11.7 INDUSTRIAL 211
- 11.7.1 DAMAGE DETECTION 212
- 11.7.2 CRACK DETECTION 212
- 11.7.3 STRAIN MONITORING 212
- 11.7.4 CORROSION MONITORING 212
- 11.7.5 LEAKAGE DETECTION 213
- 11.7.6 WIRE BREAK MONITORING 213
- 11.7.7 MULTIMODAL SENSING 213
- 11.7.8 HOTSPOT MONITORING 213
- 11.7.9 IMPACT MONITORING 213
- 11.7.10 DEFLECTION MONITORING 213
- 11.8 OFFSHORE PLATFORM 214
- 11.8.1 CORROSION MONITORING 215
- 11.8.2 LEAKAGE DETECTION 215
- 11.8.3 DAMAGE DETECTION 215
- 11.8.4 CRACK DETECTION 215
- 11.8.5 STRAIN MONITORING 215
- 11.8.6 WIRE BREAK MONITORING 216
- 11.8.7 LEAKAGE DETECTION 216
- 11.8.8 MULTIMODAL SENSING 216
- 11.8.9 HOTSPOT MONITORING 216
- 11.8.10 DEFLECTION MONITORING 216
- 11.9 DEFENSE 217
- 11.9.1 DAMAGE DETECTION 218
- 11.9.2 CORROSION MONITORING 218
- 11.9.3 CRACK DETECTION 218
- 11.9.4 STRAIN MONITORING 218
- 11.9.5 WIRE BREAK MONITORING 219
- 11.9.6 IMPACT MONITORING 219