Hydrographic Survey Equipment Market size is expected to reach US$ 4.86 Bn. by 2029, growing at a CAGR of 5.6% during the forecast period. The report includes an analysis of the impact of COVID-19 lockdown on the revenue of market leaders, followers, and disruptors. Since the lockdown was implemented differently in various regions and countries; the impact of the same is also seen differently by regions and segments. The report has covered the current short-term and long-term impact on the market, and it would help the decision-makers to prepare the outline and strategies for companies by region.To know about the Research Methodology :- Request Free Sample Report
Definition of Hydrographic Survey Equipment:
Hydrographic survey is a process used to measure and describe the physical features of the earth’s surface, such as oceans, lakes, and rivers. The equipment used in such surveys is known as hydrographic equipment. Global Hydrographic Survey Equipment Market Dynamics: Increasing demand from the offshore oil & gas industries is driving the growth of the Hydrographic Survey Equipment market during the forecast period. The development of offshore marine infrastructure fields such as bridges, effluent disposal systems, and ports for various industries and coastal thermal power plants are driving the market growth. Advanced techniques, modularization, and standardization in the construction, defense sectors, aerospace, and offshore oil and gas exploration are preferred choices for engineers. These techniques will lead to complete work on time and cost-effectiveness is the key factor that drives the growth of the global hydrographic survey equipment market growth. However, the cost associated with carrying the hydrographic surveys and the time taken to conduct hydrographic can act as the main restraint on the growth of the hydrographic equipment market.Segment Analysis of the Hydrographic Survey Equipment Market:
The global hydrographic survey equipment market is segmented into the application as charting application, seabed feature mapping, offshore oil & gas survey, hydrographic survey, pipeline route survey, port & harbor management, and dredge operations. Among all segments, the pipeline route survey segment is expected to be the highest during the forecast period, thanks to its increasing demand from oil & gas, telecommunication, and energy & power industries. Hydrographic survey exactly observes the topography of seafloor and identifies attaching zones and optimum routes. In terms of end-user, the Global Hydrographic Survey Equipment Market is segmented into Commercial, Research, and Defense.Regional Insights of the Hydrographic Survey Equipment Market:
On the basis of region, Global Hydrographic Survey Equipment Market divided into five regions such as Asia Pacific, North America, Europe, Latin America, and Middle East Africa. Among all the regions, Asia Pacific had the largest market share in 2022 and is projected to lead the market during the forecast period, by reason of growth in the maritime trade in developing economies such as India and other Asian countries. The rise in exploration and production, port & harbor management, along the development of offshore wind energy parks in the region is fuelling the growth of the hydrographic survey equipment market in the Asia Pacific. The objective of the report is to present a comprehensive analysis of the Global Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with the dedicated study of key players that includes market leaders, followers, and new entrants by region. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding Global Hydrographic Survey Equipment Market dynamics, structure by analyzing the market segments and project the Global Market size. Clear representation of competitive analysis of key players by Global Hydrographic Survey Equipment Type, price, financial position, product portfolio, growth strategies, and regional presence in the Global Hydrographic Survey Equipment Market make the report investor’s guide.Hydrographic Survey Equipment Market, Key Highlights:
Global Market analysis and forecast, in terms of value. Comprehensive study and analysis of market drivers, restraints and opportunities influencing the growth of the Global Market Global Market segmentation on the basis of type, source, end-user, and region (country-wise) has been provided. Global Market strategic analysis with respect to individual growth trends, future prospects along with the contribution of various sub-market stakeholders have been considered under the scope of study. Global Market analysis and forecast for five major regions namely North America, Europe, Asia Pacific, the Middle East & Africa (MEA) and Latin America along with country-wise segmentation. Profiles of key industry players, their strategic perspective, market positioning and analysis of core competencies are further profiled. Competitive developments, investments, strategic expansion and competitive landscape of the key players operating in the Global Market are also profiled.Hydrographic Equipment Market Report Scope: Inquire before buying
Global Market Report Coverage Details Base Year: 2022 Forecast Period: 2023-2029 Historical Data: 2018 to 2022 Market Size in 2022: US $ 3.32 Bn. Forecast Period 2023 to 2029 CAGR: 5.6% Market Size in 2029: US $ 4.86 Bn. Segments Covered: by Type Sensing Systems Positioning Systems Water level league Software Unmanned Vehicles ADCP by Depth Shallow Water Deep Water by Platform Surface Vehicles UUVs & USVs Aircraft by Application Charting Application Offshore Oil & Gas Survey Port & Harbor Management Cable/Pipeline Route Survey Hydrographic/Bathymetric Survey by End User Commercial Research Defense Hydrographic Survey Equipment Market, by Region
Asia Pacific (China, South Korea, Japan, India, Australia, Indonesia, Malaysia, Vietnam, Taiwan, Bangladesh, Pakistan and Rest of APAC) Europe (UK, France, Germany, Italy, Spain, Sweden, Austria and Rest of Europe) North America (United States, Canada and Mexico) Middle East and Africa (South Africa, GCC, Egypt, Nigeria and Rest of ME&A) South America (Brazil, Argentina Rest of South America)Hydrographic Survey Equipment Market Key Players:
1. Kongsberg Maritime (Norway) 2. Teledyne Technologies (US) 3. INNOMAR Technologie GmbH (Germany), 4. Edgetech (US) 5. Sonardyne International (UK) 6. IXblue SaS (France) 7. SyQwest Inc. (UK) 8. Atlas Electronics 9. Teledyne Marine 10. Fugro 12. Raytheon Company 13. Thales 14. Teledyne Reson A/S 15. Atlas Elektronik Gmbh 16. Ohmex 17. Seafloor Systems 18. IIC Technologies 19. Teledyne Odom Hydrographic 20. Lic Technology, 21. Teledyne Odom Hydrographic Frequently Asked Questions: 1. Which region has the largest share in Global Hydrographic Survey Equipment Market? Ans: Asia Pacific region holds the highest share in 2022. 2. What is the growth rate of Global Hydrographic Survey Equipment Market? Ans: The Global Market is growing at a CAGR of 5.6% during forecasting period 2023-2029. 3. What is scope of the Global Hydrographic Survey Equipment market report? Ans: Global Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period. 4. Who are the key players in Global Hydrographic Survey Equipment market? Ans: The important key players in the Global Market are – Kongsberg Maritime (Norway), Teledyne Technologies (US), INNOMAR Technologie GmbH (Germany),, Edgetech (US), Sonardyne International (UK), IXblue SaS (France), SyQwest Inc. (UK), Atlas Electronics, Teledyne Marine, Fugro, Raytheon Company, Thales, Teledyne Reson A/S, Atlas Elektronik Gmbh, Ohmex, Seafloor Systems, IIC Technologies, Teledyne Odom Hydrographic, Lic Technology,, and Teledyne Odom Hydrographic 5. What is the study period of this market? Ans: The Global Market is studied from 2022 to 2029.
1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary : Global Hydrographic Survey Equipment Size, by Market Value (US$ Bn) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7.Industry Trends in Global Hydrographic Survey Equipment Market 4.8. Patent Registration 5. Supply Side and Demand Side Indicators 6. Global Hydrographic Survey Equipment Analysis and Forecast 6.1. Global Hydrographic Survey Equipment Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Hydrographic Survey Equipment Analysis and Forecast, by Type 7.1. Introduction and Definition 7.2. Key Findings 7.3. Global Hydrographic Survey Equipment Value Share Analysis, by Type 7.4. Global Hydrographic Survey Equipment Size (US$ Bn) Forecast, by Type 7.5. Global Hydrographic Survey Equipment Analysis, by Type 7.6. Global Hydrographic Survey Equipment Attractiveness Analysis, by Type 8. Global Hydrographic Survey Equipment Analysis and Forecast, By Depth 8.1. Introduction and Definition 8.2. Key Findings 8.3. Global Hydrographic Survey Equipment Value Share Analysis, By Depth 8.4. Global Hydrographic Survey Equipment Size (US$ Bn) Forecast, By Depth 8.5. Global Hydrographic Survey Equipment Analysis, By Depth 8.6. Global Hydrographic Survey Equipment Attractiveness Analysis, By Depth 9. Global Hydrographic Survey Equipment Analysis and Forecast, By Platform 9.1. Introduction and Definition 9.2. Key Findings 9.3. Global Hydrographic Survey Equipment Value Share Analysis, By Platform 9.4. Global Hydrographic Survey Equipment Size (US$ Bn) Forecast, By Platform 9.5. Global Hydrographic Survey Equipment Analysis, By Platform 9.6. Global Hydrographic Survey Equipment Attractiveness Analysis, By Platform 10. Global Hydrographic Survey Equipment Analysis and Forecast, by Application 10.1. Introduction and Definition 10.2. Key Findings 10.3. Global Hydrographic Survey Equipment Value Share Analysis, by Application 10.4. Global Hydrographic Survey Equipment Size (US$ Bn) Forecast, by Application 10.5. Global Hydrographic Survey Equipment Analysis, by Application 10.6. Global Hydrographic Survey Equipment Attractiveness Analysis, by Application 11. Global Hydrographic Survey Equipment Analysis and Forecast, by End User 11.1. Introduction and Definition 11.2. Key Findings 11.3. Global Hydrographic Survey Equipment Value Share Analysis, by End User 11.4. Global Hydrographic Survey Equipment Size (US$ Bn) Forecast, by End User 11.5. Global Hydrographic Survey Equipment Analysis, by End User 11.6. Global Hydrographic Survey Equipment Attractiveness Analysis, by End User 12. Global Hydrographic Survey Equipment Analysis, by Region 12.1. Global Hydrographic Survey Equipment Value Share Analysis, by Region 12.2. Global Hydrographic Survey Equipment Size (US$ Bn) Forecast, by Region 12.3. Global Hydrographic Survey Equipment Attractiveness Analysis, by Region 13. North America Hydrographic Survey Equipment Analysis 13.1. Key Findings 13.2. North America Hydrographic Survey Equipment Overview 13.3. North America Hydrographic Survey Equipment Value Share Analysis, by Type 13.4. North America Hydrographic Survey Equipment Forecast, by Type 13.4.1. Sensing Systems 13.4.2. Positioning Systems 13.4.3. Water level league 13.4.4. Software 13.4.5. Unmanned Vehicles 13.4.6. ADCP 13.5. North America Hydrographic Survey Equipment Value Share Analysis, By Depth 13.6. North America Hydrographic Survey Equipment Forecast, By Depth 13.6.1. Shallow Water 13.6.2. Deep Water 13.7. North America Hydrographic Survey Equipment Value Share Analysis, By Platform 13.8. North America Hydrographic Survey Equipment Forecast, By Platform 13.8.1. Surface Vehicles 13.8.2. UUVs & USVs 13.8.3. Aircraft 13.9. North America Hydrographic Survey Equipment Value Share Analysis, by Application 13.10. North America Hydrographic Survey Equipment Forecast, by Application 13.10.1. Charting Application 13.10.2. Offshore Oil & Gas Survey 13.10.3. Port & Harbor Management 13.10.4. Cable/Pipeline Route Survey 13.10.5. Hydrographic/Bathymetric Survey 13.11. North America Hydrographic Survey Equipment Value Share Analysis, by End User 13.12. North America Hydrographic Survey Equipment Forecast, by End User 13.12.1. Commercial 13.12.2. Research 13.12.3. Defense 13.13. North America Hydrographic Survey Equipment Value Share Analysis, by Country 13.14. North America Hydrographic Survey Equipment Forecast, by Country 13.14.1. U.S. 13.14.2. Canada 13.15. North America Hydrographic Survey Equipment Analysis, by Country 13.16. U.S. Hydrographic Survey Equipment Forecast, by Type 13.16.1. Sensing Systems 13.16.2. Positioning Systems 13.16.3. Water level league 13.16.4. Software 13.16.5. Unmanned Vehicles 13.16.6. ADCP 13.17. U.S. Hydrographic Survey Equipment Forecast, By Depth 13.17.1. Shallow Water 13.17.2. Deep Water 13.18. U.S. Hydrographic Survey Equipment Forecast, By Platform 13.18.1. Surface Vehicles 13.18.2. UUVs & USVs 13.18.3. Aircraft 13.19. U.S. Hydrographic Survey Equipment Forecast, by Application 13.19.1. Charting Application 13.19.2. Offshore Oil & Gas Survey 13.19.3. Port & Harbor Management 13.19.4. Cable/Pipeline Route Survey 13.19.5. Hydrographic/Bathymetric Survey 13.20. U.S. Hydrographic Survey Equipment Forecast, by End User 13.20.1. Commercial 13.20.2. Research 13.20.3. Defense 13.21. Canada Hydrographic Survey Equipment Forecast, by Type 13.21.1. Sensing Systems 13.21.2. Positioning Systems 13.21.3. Water level league 13.21.4. Software 13.21.5. Unmanned Vehicles 13.21.6. ADCP 13.22. Canada Hydrographic Survey Equipment Forecast, By Depth 13.22.1.1. Shallow Water 13.22.1.2. Deep Water 13.23. Canada Hydrographic Survey Equipment Forecast, By Platform 13.23.1. Surface Vehicles 13.23.2. UUVs & USVs 13.23.3. Aircraft 13.24. Canada Hydrographic Survey Equipment Forecast, by Application 13.24.1. Charting Application 13.24.2. Offshore Oil & Gas Survey 13.24.3. Port & Harbor Management 13.24.4. Cable/Pipeline Route Survey 13.24.5. Hydrographic/Bathymetric Survey 13.25. Canada Hydrographic Survey Equipment Forecast, by End User 13.25.1. Commercial 13.25.2. Research 13.25.3. Defense 13.26. North America Hydrographic Survey Equipment Attractiveness Analysis 13.26.1. By Type 13.26.2. By Depth 13.26.3. By Platform 13.26.4. By Application 13.26.5. By End User 13.27. PEST Analysis 14. Europe Hydrographic Survey Equipment Analysis 14.1. Key Findings 14.2. Europe Hydrographic Survey Equipment Overview 14.3. Europe Hydrographic Survey Equipment Value Share Analysis, by Type 14.4. Europe Hydrographic Survey Equipment Forecast, by Type 14.4.1. Sensing Systems 14.4.2. Positioning Systems 14.4.3. Water level league 14.4.4. Software 14.4.5. Unmanned Vehicles 14.4.6. ADCP 14.5. Europe Hydrographic Survey Equipment Value Share Analysis, By Depth 14.6. Europe Hydrographic Survey Equipment Forecast, By Depth 14.6.1.1. Shallow Water 14.6.1.2. Deep Water 14.7. Europe Hydrographic Survey Equipment Value Share Analysis, By Platform 14.8. Europe Hydrographic Survey Equipment Forecast, By Platform 14.8.1. Surface Vehicles 14.8.2. UUVs & USVs 14.8.3. Aircraft 14.9. Europe Hydrographic Survey Equipment Value Share Analysis, by Application 14.10. Europe Hydrographic Survey Equipment Forecast, by Application 14.10.1. Charting Application 14.10.2. Offshore Oil & Gas Survey 14.10.3. Port & Harbor Management 14.10.4. Cable/Pipeline Route Survey 14.10.5. Hydrographic/Bathymetric Survey 14.11. Europe Hydrographic Survey Equipment Value Share Analysis, by End User 14.12. Europe Hydrographic Survey Equipment Forecast, by End User 14.12.1. Commercial 14.12.2. Research 14.12.3. Defense 14.13. Europe Hydrographic Survey Equipment Value Share Analysis, by Country 14.14. Europe Hydrographic Survey Equipment Forecast, by Country 14.14.1. Germany 14.14.2. U.K. 14.14.3. France 14.14.4. Italy 14.14.5. Spain 14.14.6. Rest of Europe 14.15. Europe Hydrographic Survey Equipment Analysis, by Country 14.16. Germany Hydrographic Survey Equipment Forecast, by Type 14.16.1. Sensing Systems 14.16.2. Positioning Systems 14.16.3. Water level league 14.16.4. Software 14.16.5. Unmanned Vehicles 14.16.6. ADCP 14.17. Germany Hydrographic Survey Equipment Forecast, By Depth 14.17.1.1. Shallow Water 14.17.1.2. Deep Water 14.18. Germany Hydrographic Survey Equipment Forecast, By Platform 14.18.1. Surface Vehicles 14.18.2. UUVs & USVs 14.18.3. Aircraft 14.19. Germany Hydrographic Survey Equipment Forecast, by Application 14.19.1. Charting Application 14.19.2. Offshore Oil & Gas Survey 14.19.3. Port & Harbor Management 14.19.4. Cable/Pipeline Route Survey 14.19.5. Hydrographic/Bathymetric Survey 14.20. Germany Hydrographic Survey Equipment Forecast, by End User 14.20.1. Commercial 14.20.2. Research 14.20.3. Defense 14.21. U.K. Hydrographic Survey Equipment Forecast, by Type 14.21.1. Sensing Systems 14.21.2. Positioning Systems 14.21.3. Water level league 14.21.4. Software 14.21.5. Unmanned Vehicles 14.21.6. ADCP 14.22. U.K. Hydrographic Survey Equipment Forecast, By Depth 14.22.1.1. Shallow Water 14.22.1.2. Deep Water 14.23. U.K. Hydrographic Survey Equipment Forecast, By Platform 14.23.1. Surface Vehicles 14.23.2. UUVs & USVs 14.23.3. Aircraft 14.24. U.K. Hydrographic Survey Equipment Forecast, by Application 14.24.1. Charting Application 14.24.2. Offshore Oil & Gas Survey 14.24.3. Port & Harbor Management 14.24.4. Cable/Pipeline Route Survey 14.24.5. Hydrographic/Bathymetric Survey 14.25. U.K. Hydrographic Survey Equipment Forecast, by End User 14.25.1. Commercial 14.25.2. Research 14.25.3. Defense 14.26. France Hydrographic Survey Equipment Forecast, by Type 14.26.1. Sensing Systems 14.26.2. Positioning Systems 14.26.3. Water level league 14.26.4. Software 14.26.5. Unmanned Vehicles 14.26.6. ADCP 14.27. France Hydrographic Survey Equipment Forecast, By Depth 14.27.1.1. Shallow Water 14.27.1.2. Deep Water 14.28. France Hydrographic Survey Equipment Forecast, By Platform 14.28.1. Surface Vehicles 14.28.2. UUVs & USVs 14.28.3. Aircraft 14.29. France Hydrographic Survey Equipment Forecast, by Application 14.29.1. Charting Application 14.29.2. Offshore Oil & Gas Survey 14.29.3. Port & Harbor Management 14.29.4. Cable/Pipeline Route Survey 14.29.5. Hydrographic/Bathymetric Survey 14.30. France Hydrographic Survey Equipment Forecast, by End User 14.30.1. Commercial 14.30.2. Research 14.30.3. Defense 14.31. Italy Hydrographic Survey Equipment Forecast, by Type 14.31.1. Sensing Systems 14.31.2. Positioning Systems 14.31.3. Water level league 14.31.4. Software 14.31.5. Unmanned Vehicles 14.31.6. ADCP 14.32. Italy Hydrographic Survey Equipment Forecast, By Depth 14.32.1.1. Shallow Water 14.32.1.2. Deep Water 14.33. Italy Hydrographic Survey Equipment Forecast, By Platform 14.33.1. Surface Vehicles 14.33.2. UUVs & USVs 14.33.3. Aircraft 14.34. Italy Hydrographic Survey Equipment Forecast, by Application 14.34.1. Charting Application 14.34.2. Offshore Oil & Gas Survey 14.34.3. Port & Harbor Management 14.34.4. Cable/Pipeline Route Survey 14.34.5. Hydrographic/Bathymetric Survey 14.35. Italy Hydrographic Survey Equipment Forecast, by End User 14.35.1. Commercial 14.35.2. Research 14.35.3. Defense 14.36. Spain Hydrographic Survey Equipment Forecast, by Type 14.36.1. Sensing Systems 14.36.2. Positioning Systems 14.36.3. Water level league 14.36.4. Software 14.36.5. Unmanned Vehicles 14.36.6. ADCP 14.37. Spain Hydrographic Survey Equipment Forecast, By Depth 14.37.1.1. Shallow Water 14.37.1.2. Deep Water 14.38. Spain Hydrographic Survey Equipment Forecast, By Platform 14.38.1. Surface Vehicles 14.38.2. UUVs & USVs 14.38.3. Aircraft 14.39. Spain Hydrographic Survey Equipment Forecast, by Application 14.39.1. Charting Application 14.39.2. Offshore Oil & Gas Survey 14.39.3. Port & Harbor Management 14.39.4. Cable/Pipeline Route Survey 14.39.5. Hydrographic/Bathymetric Survey 14.40. Spain Hydrographic Survey Equipment Forecast, by End User 14.40.1. Commercial 14.40.2. Research 14.40.3. Defense 14.41. Rest of Europe Hydrographic Survey Equipment Forecast, by Type 14.41.1. Sensing Systems 14.41.2. Positioning Systems 14.41.3. Water level league 14.41.4. Software 14.41.5. Unmanned Vehicles 14.41.6. ADCP 14.42. Rest of Europe Hydrographic Survey Equipment Forecast, By Depth 14.42.1.1. Shallow Water 14.42.1.2. Deep Water 14.43. Rest of Europe Hydrographic Survey Equipment Forecast, By Platform 14.43.1. Surface Vehicles 14.43.2. UUVs & USVs 14.43.3. Aircraft 14.44. Rest Of Europe Hydrographic Survey Equipment Forecast, by Application 14.44.1. Charting Application 14.44.2. Offshore Oil & Gas Survey 14.44.3. Port & Harbor Management 14.44.4. Cable/Pipeline Route Survey 14.44.5. Hydrographic/Bathymetric Survey 14.45. Rest Of Europe Hydrographic Survey Equipment Forecast, by End User 14.45.1. Commercial 14.45.2. Research 14.45.3. Defense 14.46. Europe Hydrographic Survey Equipment Attractiveness Analysis 14.46.1. By Type 14.46.2. By Depth 14.46.3. By Platform 14.46.4. By Application 14.46.5. By End User 14.47. PEST Analysis 15. Asia Pacific Hydrographic Survey Equipment Analysis 15.1. Key Findings 15.2. Asia Pacific Hydrographic Survey Equipment Overview 15.3. Asia Pacific Hydrographic Survey Equipment Value Share Analysis, by Type 15.4. Asia Pacific Hydrographic Survey Equipment Forecast, by Type 15.4.1. Sensing Systems 15.4.2. Positioning Systems 15.4.3. Water level league 15.4.4. Software 15.4.5. Unmanned Vehicles 15.4.6. ADCP 15.5. Asia Pacific Hydrographic Survey Equipment Value Share Analysis, By Depth 15.6. Asia Pacific Hydrographic Survey Equipment Forecast, By Depth 15.6.1.1. Shallow Water 15.6.1.2. Deep Water 15.7. Asia Pacific Hydrographic Survey Equipment Value Share Analysis, By Platform 15.8. Asia Pacific Hydrographic Survey Equipment Forecast, By Platform 15.8.1. Surface Vehicles 15.8.2. UUVs & USVs 15.8.3. Aircraft 15.9. Asia Pacific Hydrographic Survey Equipment Value Share Analysis, by Application 15.10. Asia Pacific Hydrographic Survey Equipment Forecast, by Application 15.10.1. Charting Application 15.10.2. Offshore Oil & Gas Survey 15.10.3. Port & Harbor Management 15.10.4. Cable/Pipeline Route Survey 15.10.5. Hydrographic/Bathymetric Survey 15.11. Asia Pacific Hydrographic Survey Equipment Value Share Analysis, by End User 15.12. Asia Pacific Hydrographic Survey Equipment Forecast, by End User 15.12.1. Commercial 15.12.2. Research 15.12.3. Defense 15.13. Asia Pacific Hydrographic Survey Equipment Value Share Analysis, by Country 15.14. Asia Pacific Hydrographic Survey Equipment Forecast, by Country 15.14.1. China 15.14.2. India 15.14.3. Japan 15.14.4. ASEAN 15.14.5. Rest of Asia Pacific 15.15. Asia Pacific Hydrographic Survey Equipment Analysis, by Country 15.16. China Hydrographic Survey Equipment Forecast, by Type 15.16.1. Sensing Systems 15.16.2. Positioning Systems 15.16.3. Water level league 15.16.4. Software 15.16.5. Unmanned Vehicles 15.16.6. ADCP 15.17. China Hydrographic Survey Equipment Forecast, By Depth 15.17.1.1. Shallow Water 15.17.1.2. Deep Water 15.18. China Hydrographic Survey Equipment Forecast, By Platform 15.18.1. Surface Vehicles 15.18.2. UUVs & USVs 15.18.3. Aircraft 15.19. China Hydrographic Survey Equipment Forecast, by Application 15.19.1. Charting Application 15.19.2. Offshore Oil & Gas Survey 15.19.3. Port & Harbor Management 15.19.4. Cable/Pipeline Route Survey 15.19.5. Hydrographic/Bathymetric Survey 15.20. China Hydrographic Survey Equipment Forecast, by End User 15.20.1. Commercial 15.20.2. Research 15.20.3. Defense 15.21. India Hydrographic Survey Equipment Forecast, by Type 15.21.1. Sensing Systems 15.21.2. Positioning Systems 15.21.3. Water level league 15.21.4. Software 15.21.5. Unmanned Vehicles 15.21.6. ADCP 15.22. India Hydrographic Survey Equipment Forecast, By Depth 15.22.1.1. Shallow Water 15.22.1.2. Deep Water 15.23. India Hydrographic Survey Equipment Forecast, By Platform 15.23.1. Surface Vehicles 15.23.2. UUVs & USVs 15.23.3. Aircraft 15.24. India Hydrographic Survey Equipment Forecast, by Application 15.24.1. Charting Application 15.24.2. Offshore Oil & Gas Survey 15.24.3. Port & Harbor Management 15.24.4. Cable/Pipeline Route Survey 15.24.5. Hydrographic/Bathymetric Survey 15.25. India Hydrographic Survey Equipment Forecast, by End User 15.25.1. Commercial 15.25.2. Research 15.25.3. Defense 15.26. Japan Hydrographic Survey Equipment Forecast, by Type 15.26.1. Sensing Systems 15.26.2. Positioning Systems 15.26.3. Water level league 15.26.4. Software 15.26.5. Unmanned Vehicles 15.26.6. ADCP 15.27. Japan Hydrographic Survey Equipment Forecast, By Depth 15.27.1.1. Shallow Water 15.27.1.2. Deep Water 15.28. Japan Hydrographic Survey Equipment Forecast, By Platform 15.28.1. Surface Vehicles 15.28.2. UUVs & USVs 15.28.3. Aircraft 15.29. Japan Hydrographic Survey Equipment Forecast, by Application 15.29.1. Charting Application 15.29.2. Offshore Oil & Gas Survey 15.29.3. Port & Harbor Management 15.29.4. Cable/Pipeline Route Survey 15.29.5. Hydrographic/Bathymetric Survey 15.30. Japan Hydrographic Survey Equipment Forecast, by End User 15.30.1. Commercial 15.30.2. Research 15.30.3. Defense 15.31. ASEAN Hydrographic Survey Equipment Forecast, by Type 15.31.1. Sensing Systems 15.31.2. Positioning Systems 15.31.3. Water level league 15.31.4. Software 15.31.5. Unmanned Vehicles 15.31.6. ADCP 15.32. ASEAN Hydrographic Survey Equipment Forecast, By Depth 15.32.1.1. Shallow Water 15.32.1.2. Deep Water 15.33. ASEAN Hydrographic Survey Equipment Forecast, By Platform 15.33.1. Surface Vehicles 15.33.2. UUVs & USVs 15.33.3. Aircraft 15.34. ASEAN Hydrographic Survey Equipment Forecast, by Application 15.34.1. Charting Application 15.34.2. Offshore Oil & Gas Survey 15.34.3. Port & Harbor Management 15.34.4. Cable/Pipeline Route Survey 15.34.5. Hydrographic/Bathymetric Survey 15.35. ASEAN Hydrographic Survey Equipment Forecast, by End User 15.35.1. Commercial 15.35.2. Research 15.35.3. Defense 15.36. Rest of Asia Pacific Hydrographic Survey Equipment Forecast, by Type 15.36.1. Sensing Systems 15.36.2. Positioning Systems 15.36.3. Water level league 15.36.4. Software 15.36.5. Unmanned Vehicles 15.36.6. ADCP 15.37. Rest of Asia Pacific Hydrographic Survey Equipment Forecast, By Depth 15.37.1.1. Shallow Water 15.37.1.2. Deep Water 15.38. Rest of Asia Pacific Hydrographic Survey Equipment Forecast, By Platform 15.38.1. Surface Vehicles 15.38.2. UUVs & USVs 15.38.3. Aircraft 15.39. Rest of Asia Pacific Hydrographic Survey Equipment Forecast, by Application 15.39.1. Charting Application 15.39.2. Offshore Oil & Gas Survey 15.39.3. Port & Harbor Management 15.39.4. Cable/Pipeline Route Survey 15.39.5. Hydrographic/Bathymetric Survey 15.40. Rest of Asia Pacific Hydrographic Survey Equipment Forecast, by End User 15.40.1. Commercial 15.40.2. Research 15.40.3. Defense 15.41. Asia Pacific Hydrographic Survey Equipment Attractiveness Analysis 15.41.1. By Type 15.41.2. By Depth 15.41.3. By Platform 15.41.4. By Application 15.41.5. By End User 15.42. PEST Analysis 16. Middle East & Africa Hydrographic Survey Equipment Analysis 16.1. Key Findings 16.2. Middle East & Africa Hydrographic Survey Equipment Overview 16.3. Middle East & Africa Hydrographic Survey Equipment Value Share Analysis, by Type 16.4. Middle East & Africa Hydrographic Survey Equipment Forecast, by Type 16.4.1. Sensing Systems 16.4.2. Positioning Systems 16.4.3. Water level league 16.4.4. Software 16.4.5. Unmanned Vehicles 16.4.6. ADCP 16.5. Middle East & Africa Hydrographic Survey Equipment Value Share Analysis, By Depth 16.6. Middle East & Africa Hydrographic Survey Equipment Forecast, By Depth 16.6.1.1. Shallow Water 16.6.1.2. Deep Water 16.7. Middle East & Africa Hydrographic Survey Equipment Value Share Analysis, By Platform 16.8. Middle East & Africa Hydrographic Survey Equipment Forecast, By Platform 16.8.1. Surface Vehicles 16.8.2. UUVs & USVs 16.8.3. Aircraft 16.9. Middle East & Africa Hydrographic Survey Equipment Value Share Analysis, by Application 16.10. Middle East & Africa Hydrographic Survey Equipment Forecast, by Application 16.10.1. Charting Application 16.10.2. Offshore Oil & Gas Survey 16.10.3. Port & Harbor Management 16.10.4. Cable/Pipeline Route Survey 16.10.5. Hydrographic/Bathymetric Survey 16.11. Middle East & Africa Hydrographic Survey Equipment Value Share Analysis, by End User 16.12. Middle East & Africa Hydrographic Survey Equipment Forecast, by End User 16.12.1. Commercial 16.12.2. Research 16.12.3. Defense 16.13. Middle East & Africa Hydrographic Survey Equipment Value Share Analysis, by Country 16.14. Middle East & Africa Hydrographic Survey Equipment Forecast, by Country 16.14.1. GCC 16.14.2. South Africa 16.14.3. Rest of Middle East & Africa 16.15. Middle East & Africa Hydrographic Survey Equipment Analysis, by Country 16.16. GCC Hydrographic Survey Equipment Forecast, by Type 16.16.1. Sensing Systems 16.16.2. Positioning Systems 16.16.3. Water level league 16.16.4. Software 16.16.5. Unmanned Vehicles 16.16.6. ADCP 16.17. GCC Hydrographic Survey Equipment Forecast, By Depth 16.17.1.1. Shallow Water 16.17.1.2. Deep Water 16.18. GCC Hydrographic Survey Equipment Forecast, By Platform 16.18.1. Surface Vehicles 16.18.2. UUVs & USVs 16.18.3. Aircraft 16.19. GCC Hydrographic Survey Equipment Forecast, by Application 16.19.1. Charting Application 16.19.2. Offshore Oil & Gas Survey 16.19.3. Port & Harbor Management 16.19.4. Cable/Pipeline Route Survey 16.19.5. Hydrographic/Bathymetric Survey 16.20. GCC Hydrographic Survey Equipment Forecast, by End User 16.20.1. Commercial 16.20.2. Research 16.20.3. Defense 16.21. South Africa Hydrographic Survey Equipment Forecast, by Type 16.21.1. Sensing Systems 16.21.2. Positioning Systems 16.21.3. Water level league 16.21.4. Software 16.21.5. Unmanned Vehicles 16.21.6. ADCP 16.22. South Africa Hydrographic Survey Equipment Forecast, By Depth 16.22.1.1. Shallow Water 16.22.1.2. Deep Water 16.23. South Africa Hydrographic Survey Equipment Forecast, By Platform 16.23.1. Surface Vehicles 16.23.2. UUVs & USVs 16.23.3. Aircraft 16.24. South Africa Hydrographic Survey Equipment Forecast, by Application 16.24.1. Charting Application 16.24.2. Offshore Oil & Gas Survey 16.24.3. Port & Harbor Management 16.24.4. Cable/Pipeline Route Survey 16.24.5. Hydrographic/Bathymetric Survey 16.25. South Africa Hydrographic Survey Equipment Forecast, by End User 16.25.1. Commercial 16.25.2. Research 16.25.3. Defense 16.26. Rest of Middle East & Africa Hydrographic Survey Equipment Forecast, by Type 16.26.1. Sensing Systems 16.26.2. Positioning Systems 16.26.3. Water level league 16.26.4. Software 16.26.5. Unmanned Vehicles 16.26.6. ADCP 16.27. Rest of Middle East & Africa Hydrographic Survey Equipment Forecast, By Depth 16.27.1.1. Shallow Water 16.27.1.2. Deep Water 16.28. Rest of Middle East & Africa Hydrographic Survey Equipment Forecast, By Platform 16.28.1. Surface Vehicles 16.28.2. UUVs & USVs 16.28.3. Aircraft 16.29. Rest of Middle East & Africa Hydrographic Survey Equipment Forecast, by Application 16.29.1. Charting Application 16.29.2. Offshore Oil & Gas Survey 16.29.3. Port & Harbor Management 16.29.4. Cable/Pipeline Route Survey 16.29.5. Hydrographic/Bathymetric Survey 16.30. Rest of Middle East & Africa Hydrographic Survey Equipment Forecast, by End User 16.30.1. Commercial 16.30.2. Research 16.30.3. Defense 16.31. Middle East & Africa Hydrographic Survey Equipment Attractiveness Analysis 16.31.1. By Type 16.31.2. By Depth 16.31.3. By Platform 16.31.4. By Application 16.31.5. By End User 16.32. PEST Analysis 17. South America Hydrographic Survey Equipment Analysis 17.1. Key Findings 17.2. South America Hydrographic Survey Equipment Overview 17.3. South America Hydrographic Survey Equipment Value Share Analysis, by Type 17.4. South America Hydrographic Survey Equipment Forecast, by Type 17.4.1. Sensing Systems 17.4.2. Positioning Systems 17.4.3. Water level league 17.4.4. Software 17.4.5. Unmanned Vehicles 17.4.6. ADCP 17.5. South America Hydrographic Survey Equipment Value Share Analysis, By Depth 17.6. South America Hydrographic Survey Equipment Forecast, By Depth 17.6.1.1. Shallow Water 17.6.1.2. Deep Water 17.7. South America Hydrographic Survey Equipment Value Share Analysis, By Platform 17.8. South America Hydrographic Survey Equipment Forecast, By Platform 17.8.1. Surface Vehicles 17.8.2. UUVs & USVs 17.8.3. Aircraft 17.9. South America Hydrographic Survey Equipment Value Share Analysis, by Application 17.10. South America Hydrographic Survey Equipment Forecast, by Application 17.10.1. Charting Application 17.10.2. Offshore Oil & Gas Survey 17.10.3. Port & Harbor Management 17.10.4. Cable/Pipeline Route Survey 17.10.5. Hydrographic/Bathymetric Survey 17.11. South America Hydrographic Survey Equipment Value Share Analysis, by End User 17.12. South America Hydrographic Survey Equipment Forecast, by End User 17.12.1.1. Commercial 17.12.1.2. Research 17.12.1.3. Defense 17.13. South America Hydrographic Survey Equipment Value Share Analysis, by Country 17.14. South America Hydrographic Survey Equipment Forecast, by Country 17.14.1. Brazil 17.14.2. Mexico 17.14.3. Rest of South America 17.15. South America Hydrographic Survey Equipment Analysis, by Country 17.16. Brazil Hydrographic Survey Equipment Forecast, by Type 17.16.1. Sensing Systems 17.16.2. Positioning Systems 17.16.3. Water level league 17.16.4. Software 17.16.5. Unmanned Vehicles 17.16.6. ADCP 17.17. Brazil Hydrographic Survey Equipment Forecast, By Depth 17.17.1.1. Shallow Water 17.17.1.2. Deep Water 17.18. Brazil Hydrographic Survey Equipment Forecast, By Platform 17.18.1.1. Surface Vehicles 17.18.1.2. UUVs & USVs 17.18.1.3. Aircraft 17.19. Brazil Hydrographic Survey Equipment Forecast, by Application 17.19.1. Charting Application 17.19.2. Offshore Oil & Gas Survey 17.19.3. Port & Harbor Management 17.19.4. Cable/Pipeline Route Survey 17.19.5. Hydrographic/Bathymetric Survey 17.20. Brazil Hydrographic Survey Equipment Forecast, by End User 17.20.1. Commercial 17.20.2. Research 17.20.3. Defense 17.21. Mexico Hydrographic Survey Equipment Forecast, by Type 17.21.1. Sensing Systems 17.21.2. Positioning Systems 17.21.3. Water level league 17.21.4. Software 17.21.5. Unmanned Vehicles 17.21.6. ADCP 17.22. Mexico Hydrographic Survey Equipment Forecast, By Depth 17.22.1.1. Shallow Water 17.22.1.2. Deep Water 17.23. Mexico Hydrographic Survey Equipment Forecast, By Platform 17.23.1. Surface Vehicles 17.23.2. UUVs & USVs 17.23.3. Aircraft 17.24. Mexico Hydrographic Survey Equipment Forecast, by Application 17.24.1. Charting Application 17.24.2. Offshore Oil & Gas Survey 17.24.3. Port & Harbor Management 17.24.4. Cable/Pipeline Route Survey 17.24.5. Hydrographic/Bathymetric Survey 17.25. Mexico Hydrographic Survey Equipment Forecast, by End User 17.25.1. Commercial 17.25.2. Research 17.25.3. Defense 17.26. Rest of South America Hydrographic Survey Equipment Forecast, by Type 17.26.1. Sensing Systems 17.26.2. Positioning Systems 17.26.3. Water level league 17.26.4. Software 17.26.5. Unmanned Vehicles 17.26.6. ADCP 17.27. Rest of South America Hydrographic Survey Equipment Forecast, By Depth 17.27.1.1. Shallow Water 17.27.1.2. Deep Water 17.28. Rest of South America Hydrographic Survey Equipment Forecast, By Platform 17.28.1. Surface Vehicles 17.28.2. UUVs & USVs 17.28.3. Aircraft 17.29. Rest of South America Hydrographic Survey Equipment Forecast, by Application 17.29.1. Charting Application 17.29.2. Offshore Oil & Gas Survey 17.29.3. Port & Harbor Management 17.29.4. Cable/Pipeline Route Survey 17.29.5. Hydrographic/Bathymetric Survey 17.30. Rest of South America Hydrographic Survey Equipment Forecast, by End User 17.30.1. Commercial 17.30.2. Research 17.30.3. Defense 17.31. South America Hydrographic Survey Equipment Attractiveness Analysis 17.31.1. By Type 17.31.2. By Depth 17.31.3. By Platform 17.31.4. By Application 17.31.5. By End User 17.32. PEST Analysis 18. Company Profiles 18.1. Market Share Analysis, by Company 18.2. Competition Matrix 18.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 18.2.2. New Product Launches and Product Enhancements 18.2.3. Market Consolidation 18.2.3.1. M&A by Regions, Investment and Applications 18.2.3.2. M&A Key Players, Forward Integration and Backward Integration 18.3. Company Profiles: Key Players 18.3.1. Kongsberg Maritime (Norway) 18.3.1.1. Company Overview 18.3.1.2. Financial Overview 18.3.1.3. Product Portfolio 18.3.1.4. Business Strategy 18.3.1.5. Recent Developments 18.3.1.6. Company Footprint 18.3.2. Teledyne Technologies (US) 18.3.3. INNOMAR Technologie GmbH (Germany), 18.3.4. Edgetech (US) 18.3.5. Sonardyne International (UK) 18.3.6. IXblue SaS (France) 18.3.7. SyQwest Inc. (UK) 18.3.8. Atlas Electronics 18.3.9. Teledyne Marine 18.3.10. Fugro 18.3.11. Raytheon Company 18.3.12. Thales 18.3.13. Teledyne Reson A/S 18.3.14. Atlas Elektronik Gmbh 18.3.15. Ohmex 18.3.16. Seafloor Systems 18.3.17. IIC Technologies 18.3.18. Teledyne Odom Hydrographic 18.3.19. Lic Technology, 18.3.20. Teledyne Odom Hydrographic 19. Primary Key Insights