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市場調查報告書

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1622802

2024 年至 2031 年按類型、有效載荷類型、技術、幾何形狀、應用和地區劃分的自主水下航行器市場

Autonomous Underwater Vehicle Market By Type, By Payload Type, By Technology, By Shape, By Applications, And Region for 2024-2031

出版日期: 2024年09月09日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

2024 年至 2031 年自主水下航行器市場評估

對能源資源的不斷增長的需求正在加劇海上勘探和生產活動，增加了對自主水下航行器檢查和維護水下基礎設施的需求。自主水下機器人越來越多地部署用於水下檢查、管道勘測和搜救行動等任務，推動市場需求在2023 年達到9.9489 億美元，預計到2031 年將增加444 億美元。估值達到8458萬美元。

除此之外，感測器、電池和導航系統的整合正在增強AUV 的功能，使其在各種應用中更加可靠和高效，從而推動該細分市場從2024 年到2025 年的複合年增長率達到20.71%。

自主水下航行器市場定義/概述

自主水下機器人（AUV）是一種無人駕駛、自行推進的水下機器人，無需人工幹預即可獨立運作。它配備有感測器、攝影機和其他設備，用於收集數據並在水下執行任務。

AUV在各行業有廣泛的應用。在能源領域，它們用於檢查海上石油和天然氣平台、管道和海底電纜。在科學領域，AUV 用於海洋調查、研究海洋生態系統和收集氣候變遷資料。在軍事和國防領域，AUV 用於監視、掃雷和水下偵察。此外，AUV 在搜救、水下考古和水產養殖等領域也具有商業用途。

隨著技術不斷進步以及各行各業的需求不斷增加，AUV 的未來前景光明。改進的電池技術將使 AUV 能夠運行更長時間並執行更複雜的任務。人工智慧和機器學習的融合將增強 AUV 的能力，使其能夠自主決策並適應環境的變化。此外，群體技術的發展將使多台 AUV 能夠有效協作，從而擴大潛在的應用範圍。

海上探勘和生產的普及是否會推動市場擴張？

對能源資源的需求不斷增加，促使海上勘探和生產活動增加，從而增加了對 AUV 檢查和維護水下基礎設施的需求。隨著能源產業的擴張，對 AUV 的需求也預計將成長。

AUV 是海洋學研究的重要工具，可幫助科學家研究海洋生態系統、氣候變遷和水下現象。隨著科學研究和探索的不斷推進，預計預測期內對 AUV 的需求將會增加。

AUV 是海洋學研究的重要工具，使科學家能夠研究海洋生態系統、氣候變遷和水下現象。隨著科學研究和探索的不斷推進，對 AUV 的需求預計會增加。

專業 AUV 模型的高成本如何阻礙市場擴張？

AUV 的購買和營運成本很高，尤其是具有先進功能的專業型號。這種高成本限制了小型組織和個人的存取。降低AUV成本對於擴大其市場滲透率至關重要。

在海洋環境中操作 AUV 須遵守各種法規和許可。這些監管要求增加了複雜性，並可能增加部署 AUV 所需的時間和成本。簡化監管流程和製定明確的指導方針有助於推動 AUV 市場的成長。

AUV 面臨其他水下技術的競爭，例如遙控潛水器 (ROV) 和水下無人機。根據具體應用，這些技術可能有不同的優點和缺點。為了保持競爭力，AUV 製造商必須不斷創新並使其產品與眾不同。

The rising demand for energy resources has led to increased offshore exploration and production activities is driving the need for autonomous underwater vehicles to inspect and maintain underwater infrastructure. Autonomous underwater vehicles are increasingly being deployed for tasks such as underwater inspections, pipeline surveys, and search and rescue operations, driving market demand surpassing USD 994.89 Million valued in 2023 to reach a valuation of aroundUSD 4484.58 Million by 2031.

In addition to this, the integration of sensors, batteries, and navigation systems have enhanced the capabilities of AUVs, making them more reliable and efficient for various applications, enabling the niche market grow at aCAGR of 20.71% from 2024 to 2031.

Autonomous Underwater Vehicle Market: Definition/ Overview

Autonomous Underwater Vehicles (AUVs) are unmanned, self-propelled underwater robots that can operate independently without human intervention. They are equipped with sensors, cameras, and other instruments to collect data and perform tasks underwater.

AUVs have a wide range of applications across various industries. In the energy sector, they are used for inspecting offshore oil and gas platforms, pipelines, and underwater cables. In the scientific community, AUVs are employed for oceanographic research, studying marine ecosystems, and collecting data on climate change. The military and defense sectors utilize AUVs for surveillance, mine countermeasures, and underwater reconnaissance. Additionally, AUVs have commercial applications in fields such as search and rescue, underwater archaeology, and aquaculture.

The future of AUVs is promising, with ongoing advancements in technology and increasing demand across various industries. As battery technology improves, AUVs will have longer operating times, enabling them to undertake more complex missions. The integration of artificial intelligence and machine learning will enhance their capabilities, allowing them to make autonomous decisions and adapt to changing environments. Furthermore, the development of swarm technologies will enable multiple AUVs to collaborate effectively, expanding their potential applications.

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How the Increasing Prevalence of Offshore Exploration and Production Propelling the Market Expansion?

The rising demand for energy resources has led to increased offshore exploration and production activities, driving the need for AUVs to inspect and maintain underwater infrastructure. As the energy sector expands, the demand for AUVs is expected to grow.

AUVs are essential tools for oceanographic research, enabling scientists to study marine ecosystems, climate change, and underwater phenomena. As scientific research and exploration continue to advance, the demand for AUVs is expected to increase during the forecast period.

How the High Cost of Specialized AUVs Models Hindering the Market Expansion?

AUVs are expensive to purchase and operate, particularly for specialized models with advanced capabilities. This high cost limiting their accessibility to smaller organizations or individuals. Reducing the cost of AUVs is essential for expanding their market penetration.

The operation of AUVs in maritime environments is subject to various regulations and permits. These regulatory requirements can add complexity and increase the time and cost associated with deploying AUVs. Streamlining regulatory processes and establishing clear guidelines can help facilitate the growth of the AUV market.

AUVs faces competition from other underwater technologies, such as remotely operated vehicles (ROVs) and underwater drones. These technologies may offer different advantages or disadvantages, depending on the specific application. To maintain a competitive edge, AUV manufacturers must continuously innovate and differentiate their products.

Category-Wise Acumens

What are the Features Bolstering the Demand of Large AUVs Segment?

The large AUVs segment represented the most significant market share in the AUVs market due to their extensive capabilities and applications. These vehicles are equipped with advanced sensors and long-range capabilities, making them ideal for deep-sea exploration, military surveillance, and underwater research. Their ability to operate autonomously for extended periods allows for the collection of critical data in remote and challenging environments.

Industries such as oil and gas, defense, and oceanographic research rely heavily on large AUVs for tasks like seabed mapping, pipeline inspection, and underwater asset monitoring. Their larger payload capacity and endurance compared to smaller AUVs make them indispensable for these demanding missions. As a result, they are the preferred choice for operations requiring robust and comprehensive underwater solutions.

The increasing demand for deep-sea exploration and growing investment in maritime defense have further boosted the market share of large AUV segment. Technological advancements in battery life, sensors, and navigation systems have enhanced their efficiency and range, ensuring their continued dominance in the AUV market.

How will the Demand for Military & Defense Segment Impacts the Market Growth?

The military & defense segment is anticipated to hold a major share in the AUVs market due to the increasing demand for advanced underwater surveillance and reconnaissance capabilities. AUVs are highly effective in military operations, such as mine countermeasures, anti-submarine warfare, and intelligence gathering, making them essential tools for modern naval forces. Their ability to operate autonomously in deep and hazardous environments enhances their value in national security missions.

The modern AUVs are equipped with sonar and imaging systems that can detect underwater mines, submarines, and other threats in real-time, providing military forces with valuable tactical information. The ability to operate silently and remain undetected also gives AUVs a significant strategic advantage in covert operations.

In addition to this, governments around the world are increasingly investing in the development and acquisition of AUVs to enhance their naval capabilities. These vehicles provide cost-effective and efficient solutions for various underwater operations, reducing the need for manned missions in potentially dangerous areas. This trend has solidified the dominance of the military and defense segment in the global AUV market.

Country/Region-wise Acumens

How the Growing Demand from the End-Use Sectors Drives the Market in North America?

North America is projected to lead the overall Autonomous Underwater Vehicle Market during the forecast period, driven by the growing demand from the end-use sectors such as defense and oil & gas industries. The United States has invested heavily in AUV technology for naval defense applications, such as underwater surveillance, mine detection, and submarine tracking. With advanced research. development facilities and a focus on strengthening maritime security, the region has maintained a leadership position in the adoption and innovation of AUVs.

The North American oil and gas sector extensively utilizes AUVs for subsea exploration and pipeline inspections in deep-water environments. The ability of AUVs to operate in extreme conditions and conduct surveys without human intervention has made them an invaluable tool for offshore operations. The growing demand for efficient underwater mapping and data collection in areas such as the Gulf of Mexico has further fueled market growth in the region.

Moreover, the developed technological ecosystem of North America including collaborations between government agencies, research institutions, and private companies, supports continuous innovation in AUV technology. Companies in the region benefit from government funding and partnerships that drive advancements in sensor technology, autonomy, and battery life, making North America a hub for cutting-edge AUV solutions. This sustained investment and development ensure the dominance of the region in the global AUV market.

How the Increasing Investments in Maritime Security Supports the Market Growth in Asia-Pacific?

The Asia-Pacific region is experiencing rapid growth in the global autonomous underwater vehicle (AUV) market, driven by increasing investments in maritime security, underwater research, and energy exploration.

In the energy sector, the growing offshore oil and gas industry of Asia-Pacific region is contributing to the rising demand for AUVs. With extensive exploration activities in regions like the South China Sea, companies are increasingly using AUVs for subsea surveys, pipeline inspections, and environmental monitoring. The ability of AUVs to operate in deep-water environments, where human intervention is limited, has made them essential tools for improving the efficiency and safety of offshore operations.

Furthermore, governments in the Asia-Pacific are actively promoting technological innovation and collaborating with academic institutions and private enterprises to develop advanced AUV systems. This support, combined with a growing focus on environmental monitoring and underwater research, is driving the adoption of AUVs for marine biology, oceanography, and resource exploration. As a result, the Asia-Pacific region is expected to continue its rapid growth trajectory in the global AUV market.

Competitive Landscape

The Autonomous Underwater Vehicle Market is a dynamic and competitive landscape, with a mix of established players and emerging challengers vying for market share. These players are actively working to strengthen their presence by implementing strategic plans such as collaborations, mergers, acquisitions, and political support. The organizations are dedicated to continuously improving their product line to meet the needs of a wide range of customers in different regions.

Some of the key players operating in the Autonomous Underwater Vehicle Market include:

Boeing Company, L3Harris Technologies, Inc., ECA Group, Hydroid Inc., Ocean Alpha, Sea Robotics Corporation, Ocean Aero, Inc., Canadian Underwater Robotics Corporation, iRobot Corporation, ALLCAPS.

Latest Developments

In March 2024, Metron Inc. has announced a partnership with Cellula Robotics Inc., to develop autonomous underwater vehicle capabilities for advanced operations in dynamic environments.

In July 2023, an AUV designed to detect mines, Neerakshi, was introduced by India. It is a partnership between AEPL, an MSME company, and Kolkata-based warship manufacturer Garden Reach Shipbuilders and Engineers (GRSE) Limited.

1 INTRODUCTION OF GLOBAL AUTONOMOUS UNDERWATER VEHICLE MARKET

1.1 Overview of the Market
1.2 Scope of Report
1.3 Assumptions

2 EXECUTIVE SUMMARY

3 RESEARCH METHODOLOGY OF VERIFIED MARKET RESEARCH

3.1 Data Mining
3.2 Validation
3.3 Primary Interviews
3.4 List of Data Sources

4 GLOBAL AUTONOMOUS UNDERWATER VEHICLE MARKET OUTLOOK

4.1 Overview
4.2 Market Dynamics
- 4.2.1 Drivers
- 4.2.2 Restraints
- 4.2.3 Opportunities
4.3 Porters Five Force Model
4.4 Value Chain Analysis

5 GLOBAL AUTONOMOUS UNDERWATER VEHICLE MARKET, BY TYPE

5.1 Overview
5.2 Shallow AUVs
5.3 Medium AUVs
5.4 Large AUVs

6 GLOBAL AUTONOMOUS UNDERWATER VEHICLE MARKET, BY PAYLOAD TYPE

6.1 Overview
6.2 Cameras
6.3 Sensors
6.4 Synthetic Aperture Sonar
6.5 Echo Sounders
6.6 Acoustic Doppler Current Profilers
6.7 Others

7 GLOBAL AUTONOMOUS UNDERWATER VEHICLE MARKET, BY TECHNOLOGY

7.1 Overview
7.2 Collision Avoidance
7.3 Communication
7.4 Navigation
7.5 Propulsion
7.6 Imaging
7.7 Others

8 GLOBAL AUTONOMOUS UNDERWATER VEHICLE MARKET, BY SHAPE

8.1 Overview
8.2 Torpedo
8.3 Laminar Flow Body
8.4 Streamlined Rectangular Style
8.5 Multi-hull Vehicle

9 GLOBAL AUTONOMOUS UNDERWATER VEHICLE MARKET, BY APPLICATION

9.1 Overview
9.2 Environment Protection Monitoring
9.3 Oceanography
9.4 Archaeology & Exploration
9.5 Search & Salvage Operation
9.6 Military & Defense
9.7 Oil & Gas
9.8 Others

10 GLOBAL AUTONOMOUS UNDERWATER VEHICLE MARKET, BY GEOGRAPHY

10.1 Overview
10.2 North America
- 10.2.1 U.S.
- 10.2.2 Canada
- 10.2.3 Mexico
10.3 Europe
- 10.3.1 Germany
- 10.3.2 U.K.
- 10.3.3 France
- 10.3.4 Rest of Europe
10.4 Asia Pacific
- 10.4.1 China
- 10.4.2 Japan
- 10.4.3 India
- 10.4.4 Rest of Asia Pacific
10.5 Rest of the World
- 10.5.1 Latin America
- 10.5.2 Middle East & Africa

11 GLOBAL AUTONOMOUS UNDERWATER VEHICLE MARKET COMPETITIVE LANDSCAPE

11.1 Overview
11.2 Company Market Ranking
11.3 Key Development Strategies

12 COMPANY PROFILES

12.1 Boeing Company
- 12.1.1 Overview
- 12.1.2 Financial Performance
- 12.1.3 Product Outlook
- 12.1.4 Key Developments
12.2 L3Harris Technologies, Inc.
- 12.2.1 Overview
- 12.2.2 Financial Performance
- 12.2.3 Product Outlook
- 12.2.4 Key Developments
12.3 ECA Group
- 12.3.1 Overview
- 12.3.2 Financial Performance
- 12.3.3 Product Outlook
- 12.3.4 Key Developments
12.4 Hydroid Inc.
- 12.4.1 Overview
- 12.4.2 Financial Performance
- 12.4.3 Product Outlook
- 12.4.4 Key Developments
12.5 Ocean Alpha
- 12.5.1 Overview
- 12.5.2 Financial Performance
- 12.5.3 Product Outlook
- 12.5.4 Key Developments
12.6 Sea Robotics Corporation
- 12.6.1 Overview
- 12.6.2 Financial Performance
- 12.6.3 Product Outlook
- 12.6.4 Key Developments
12.7 Canadian Underwater Robotics Corporation
- 12.7.1 Overview
- 12.7.2 Financial Performance
- 12.7.3 Product Outlook
- 12.7.4 Key Developments
12.8 iRobot Corporation
- 12.8.1 Overview
- 12.8.2 Financial Performance
- 12.8.3 Product Outlook
- 12.8.4 Key Developments
12.9 ALLCAPS
- 12.9.1 Overview
- 12.9.2 Financial Performance
- 12.9.3 Product Outlook
- 12.9.4 Key Developments
12.10 Ocean Aero, Inc.
- 12.10.1 Overview
- 12.10.2 Financial Performance
- 12.10.3 Product Outlook
- 12.10.4 Key Developments