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市場調査レポート
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1438199
無人水中ロボット市場の2030年までの予測: タイプ別、用途別、地域別の世界分析Unmanned Underwater Robot Market Forecasts to 2030 - Global Analysis By Type (Remotely Operated Vehicles, Autonomous Underwater Vehicles and Other Types), Application and by Geography |
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無人水中ロボット市場の2030年までの予測: タイプ別、用途別、地域別の世界分析 |
出版日: 2024年02月02日
発行: Stratistics Market Research Consulting
ページ情報: 英文 200+ Pages
納期: 2~3営業日
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Stratistics MRCによると、世界の無人水中ロボット市場は2023年に23億6,210万米ドルを占め、2030年には76億5,933万米ドルに達すると予測され、予測期間中のCAGRは18.3%で成長する見込みです。
海洋探査・調査の分野では、自律型水中ロボット(AUV)や水中ドローンとも呼ばれる無人水中ロボットが最先端技術の代表です。これらの先進的な装置は、人間の直接的な監視なしに深海で自律的かつ正確に機能するように作られています。さらに、洗練されたセンサー、カメラ、ソナーシステムを装備した無人水中ロボットは、水中マッピング、海洋学、環境モニタリング、水中考古学など、多くの用途で欠かせない存在となっています。
国際ロボット学会(IAR)によると、無人水中ロボット技術の進歩は海洋探査の分野に大きく貢献しており、研究者は困難な水中環境で正確なデータを収集し、広範な調査を行うことができます。
経済的で効果的なソリューションへの要求
無人水中ロボット市場の成長を後押ししている主な要因の1つは、水中探査・調査において効果的で手頃な価格のソリューションに対するニーズが高まっていることです。環境モニタリング、オフショア・エネルギー、海洋科学などの産業が業務の合理化方法を模索する中で、これらのロボットの自律性が有利であることが証明されています。さらに、無人水中ロボットは、水中調査、データ収集、メンテナンス業務など、さまざまな用途で人間の代わりにコスト効率の高い作業を行うことができます。過酷な海洋環境でも機能します。
高価格
無人水中ロボットの潜在的なユーザーが直面する大きな障害の1つは、その取得と配備に関わる高額な初期費用です。高い初期費用は、信頼性の高い水中システムを構築するために必要な複雑な技術、高度なセンサー、材料の結果です。さらに、中小企業や学術機関、予算に制約のある産業にとっては、これが障壁となり、普及を妨げる可能性があります。
水中資源調査の拡大
水中資源の探査機会の拡大は、無人水中ロボット市場にチャンスをもたらします。世界中で天然ガス・石油・鉱物の需要が増加する中、これらのロボットは水中環境での調査・検査・抽出を経済的かつ成功裏に行う上で非常に役立ちます。さらに、人間のダイバーには困難なレベルまで降下できるため、資源が豊富な新規地域の調査にも最適です。
世界の規制の不在
無人水中ロボットは、まだ包括的な国際規制基準の対象になっていないため、普及の妨げになる可能性があります。国や地域によって法律が異なるため、データの共有、安全基準や倫理基準の遵守の維持、相互運用の実現が困難になる可能性があります。しかし、世界中で協調的かつ倫理的な無人水中ロボットの利用を促進するためには、統一された法律や政策を作ることが必要です。
無人水中ロボット市場はCOVID-19パンデミックの影響を受けています。当初はサプライチェーン、製造、物流の混乱により一時的な後退があったもの、パンデミックは多くの産業でこうした自律型システムの利用を加速させました。パンデミックは、特に防衛、オフショア・エネルギー、環境モニタリングといった分野での遠隔・自律技術の必要性を浮き彫りにしました。さらに、メンテナンス、データ収集、検査などの業務で自律型ソリューションの必要性が高まっていることから、無人水中ロボット市場は技術革新と投資が急増しています。
予測期間中、遠隔操作車両(ROV)分野が最大になる見込み
遠隔操作車両(ROV)分野が最大の市場シェアを占めると予測されます。ロボット式オフショア石油・ガス、科学調査、海洋インフラ検査は、ROVを多用する産業のほんの一部に過ぎないです。ROVは正確な操作能力を持ち、制御船やプラットフォームにつながれた状態でリアルタイムに制御できるため、人間の介入が必要な作業には欠かせないです。さらに、複雑な作業や綿密な監視が不可欠な分野での人気は、その適応性と様々な深度での作業能力によるものです。
予測期間中にCAGRが最も高くなると予想されるのは防衛・セキュリティ分野
CAGRが最も高いセグメントは防衛・安全保障です。高度な無人システム、特に遠隔操作ビークル(ROV)や自律型水中ビークル(AUV)に対するニーズは、海洋安全保障、海上防衛、水中資産の保全が世界規模で重視されるようになったために高まっています。さらに、これらの技術は水中監視、機雷対策、偵察などの用途に不可欠であり、業界の力強い拡大を後押ししています。
アジア太平洋地域が最大の市場シェアを占めると予測されています。中国、日本、韓国のようなアジア太平洋諸国は、無人水中システムの使用増加とともに、近年水中技術で著しい進歩を示しています。強力な海洋プレゼンス、防衛・安全保障支出の増加、海洋探査や環境モニタリングへの関心の高まりは、すべてアジア太平洋地域に利益をもたらしています。さらに、水中ロボットの普及を牽引しているのは、海軍と海洋研究のイニシアチブを拡大している中国と、技術革新で知られる日本です。
同市場では、欧州のCAGRが最も高いと予測されています。海洋技術や海洋研究に多額の投資を行っている欧州諸国には、ドイツ、ノルウェー、英国などがあります。同地域がオフショア産業、環境保護、海洋探査に力を入れていることもあり、水中ロボットの採用が拡大しています。さらに、欧州は、海洋安全保障の向上と水中技術の継続的な進歩に専念しているため、長期的な成長に向けて有利な立場にあります。
According to Stratistics MRC, the Global Unmanned Underwater Robot Market is accounted for $2362.10 million in 2023 and is expected to reach $7659.33 million by 2030 growing at a CAGR of 18.3% during the forecast period. In the field of marine exploration and research, unmanned underwater robots, also referred to as autonomous underwater vehicles (AUVs) or underwater drones, represent state-of-the-art technology. These advanced devices are made to function autonomously and precisely in the ocean's depths without direct human supervision. Additionally, unmanned underwater robots, outfitted with sophisticated sensors, cameras, and sonar systems, are indispensable in a multitude of applications, such as underwater mapping, oceanography, environmental monitoring, and underwater archaeology.
According to the International Association of Robotics (IAR), the advancements in unmanned underwater robot technology have significantly contributed to the field of marine exploration, enabling researchers to gather precise data and conduct extensive studies in challenging underwater environments.
Requirement for economical and effective solutions
One of the main factors propelling the growth of the unmanned underwater robot market is the increasing need for effective and affordable solutions in underwater exploration and research. The autonomous nature of these robots proves advantageous as industries like environmental monitoring, offshore energy, and marine science look for ways to streamline operations. Moreover, unmanned underwater robots are a cost-effective substitute for humans in a variety of applications, such as underwater surveys, data collection, and maintenance duties. They can function in harsh marine environments.
High starting prices
One major obstacle facing potential users of unmanned underwater robots is the high upfront costs involved in their acquisition and deployment. High initial costs are a result of the complex technology, sophisticated sensors, and materials needed to build dependable underwater systems. Furthermore, this could prevent wider adoption by acting as a barrier for smaller businesses, academic institutions, or budget-constrained industries.
Extension of submerged resource investigation
The growing opportunities in the exploration of underwater resources present opportunities for the unmanned underwater robot market. With the increasing demand for natural gas, oil, and minerals around the world, these robots can be extremely helpful in carrying out economical and successful surveys, inspections, and extractions in underwater environments. Additionally, their capacity to descend to levels that pose a challenge to human divers makes them perfect for investigating novel regions abundant in resources.
Absence of global regulations
Unmanned underwater robots are not yet subject to comprehensive international regulatory standards, which could hinder their widespread adoption. Different laws in different nations and areas can make it difficult to share data, maintain compliance with safety and ethical standards, and enable interoperability. However, creating uniform laws and policies is necessary to promote the coordinated and ethical use of unmanned underwater robots throughout the world.
The unmanned underwater robot market has been impacted by the COVID-19 pandemic. Although there were brief setbacks at first due to supply chain, manufacturing, and logistics disruptions, the pandemic has sped up the use of these autonomous systems across a number of industries. The pandemic has highlighted the need for remote and autonomous technologies, particularly in sectors like defense, offshore energy, and environmental monitoring. Moreover, the market for unmanned underwater robots has seen a surge in innovation and investment due to the growing need for autonomous solutions for jobs like maintenance, data collection, and inspections.
The Remotely Operated Vehicles (ROVs) segment is expected to be the largest during the forecast period
It is projected that the remotely operated vehicles, or ROVs, segment will command the largest market share. Robotic off-shore oil and gas, scientific research, and marine infrastructure inspection are just a few of the industries that make extensive use of ROVs. ROVs are indispensable for tasks requiring human intervention because of their precise manipulation capabilities and real-time control when tethered to a control ship or platform. Additionally, their popularity in sectors where complex operations and close supervision are essential is a result of their adaptability and capacity to work at various depths.
The Defense and Security segment is expected to have the highest CAGR during the forecast period
The segment with the highest CAGR is defense and security. The need for sophisticated unmanned systems, especially remotely operated vehicles (ROVs) and autonomous underwater vehicles (AUVs), has increased due to a greater emphasis on maritime security, naval defense, and the preservation of underwater assets on a worldwide scale. Furthermore, these technologies are essential to applications like underwater surveillance, mine countermeasures, and reconnaissance, which fuels the industry's strong expansion.
It is projected that the Asia-Pacific region will command the largest market share. Asia-Pacific nations like China, Japan, and South Korea have shown significant progress in underwater technology in recent years, along with an increasing use of unmanned underwater systems. Strong maritime presence, growing defense and security spending, as well as growing interest in offshore exploration and environmental monitoring, all benefit the Asia-Pacific region. Moreover, driving the adoption of underwater robotics is China, with its growing navy and marine research initiatives, and Japan, known for its technological innovation.
In the market, Europe is projected to have the highest CAGR. European nations that have made significant investments in marine technology and research include Germany, Norway, and the United Kingdom. Underwater robotics adoption is growing in part because of the region's strong emphasis on offshore industries, environmental conservation, and marine exploration. Furthermore, Europe is well-positioned for long-term growth due to its dedication to improving maritime security and continuous advancements in underwater technology.
Key players in the market
Some of the key players in Unmanned Underwater Robot market include Bluefin Robotics, Kongsberg Maritime, SeaHorizon Solutions Group, Atlas Elektronik, Hydroid (Huntington Ingalls Industries), L3 OceanServer, SAAB Group, Teledyne Marine, Boston Engineering and Forum Energy Technologies.
In December 2023, Babcock International and Atlas Elektronik UK (AEUK) have signed a charter to foster a deeper and more collaborative relationship. The agreement sets out the principles for collaborative exploration on services and solutions for customers, utilising systems integration, maintenance and in-service support expertise from Babcock and AEUK's experience in product and software design, installation and in-service support and training.
In September 2023, Saab and Babcock International Group (Babcock) signed a strategic cooperation agreement at DSEI. The purpose of the Agreement is seeking to enable the delivery of enhanced capabilities to customers by leveraging the companies' collective unique strengths through offering a broader range of products, services and integrated solutions. Under the Agreement, the companies will explore the development of the design of a new advanced corvette of around 100 metres.
In March 2023, Kongsberg Maritime (KM) and Samsung Heavy Industries Co. (SHI) signed a Joint Development Project Agreement (JDA), an agreement that serves as the basis to develop a design for next-generation autonomous 174K LNG Carrier, leveraging autonomous, remote and low emission technology. In the partnership, SHI will be system integrator with overall design responsibility, while KM will be responsible for the integrated solution designs and have the role as a strategic partner.