市場調查報告書
商品編碼
1296972
無人水上·水中船舶的全球市場Global Unmanned Surface and Underwater Vessels Market |
由於對減少服役船舶現代化時間和成本的需求不斷增長,全球無人水面和水下船舶市場正在增長。本報告提供全球無人水上·水中船舶市場的相關調查,提供市場分析,市場預測,市場趨勢等全面性資訊。
十年無人水上·水中船舶市場分析詳細概述了無人水上·水中船舶市場的增長、不斷變化的市場動態、技術採用以及本章介紹的整體市場吸引力。
該部分涵蓋了預計影響該市場的 10 項主要技術以及這些技術可能對整個市場產生的影響。
該市場的10年無人水上·水中船舶市場預測詳細介紹了上述細分市場。
該部分涵蓋地區性無人水上·水中船舶市場趨勢、驅動因素、制約因素和挑戰,以及政治、經濟、社會和技術方面。該部分還詳細介紹了各地區的市場預測和情景分析。區域分析的後半部分包括主要參與者的概況、供應商格局和企業基準。由於正常情況估算的目前市場規模。
本章討論了該市場的主要防禦計劃,還涵蓋了該市場的最新消息和專利申請。本章還涵蓋了國家層面的十年市場預測和情景分析。
機會矩陣幫助讀者瞭解該市場中的高機會細分市場。
我們的專家對這個市場的分析意見
關於Aviation and Defense Market Reports
Unmanned surface vehicles (USVs), which are unmanned marine vehicles that maintain continuous, considerable contact with the surface but are not manned, have attracted less attention and investment than unmanned vehicles that operate in the air, on the ground, or beneath the sea. However, autonomous surface vehicles have become increasingly crucial for military operations in recent years. Military authorities are taking seriously the development of unmanned surface vessels for missions such as worldwide cargo delivery, troop and support staff movement, anti-submarine warfare, maritime surveillance, and even offensive operations against enemy ships. While USVs have the potential to transform the navy, fleet structures will evolve rather than be replaced. Rather than fantasizing about a hypothetical new fleet organization, plans need to be put in place to accommodate USVs into the current one. Small remote-controlled USVs are already in service as auxiliary vessels for littoral combat ships, performing reconnaissance, countermine, and anti-submarine, and electronic warfare operations.
Most research into unmanned underwater vehicles has gone unnoticed by the general public and has received little attention in recent years, but this has always been the case with undersea warfare, unlike the huge shiny fighter jets or tough-looking tanks. Submarines have traditionally been far more covert, owing to their location underwater throughout the world's oceans. Almost every country's submarine service frequently conducts the most top-secret operations, gathering intelligence, deploying Special Forces, and occasionally breaching another country's borders. The majority of UUVs are used for intelligence gathering. They, like UAVs, are relatively cheap, can be readily deployed by ships and even other submarines, and can be operated in huge numbers, allowing the forces to collect substantially more intelligence while greatly minimizing the cost of operating and possibly losing one.
The U.S. Navy has identified two acquisition projects for future procurement: Large Unmanned Surface Vehicles (LUSVs) and Medium Unmanned Surface Vehicles (MUSVs) (MUSVs). MUSVs would range in length from 45 to 190 feet and would be tasked with intelligence, surveillance, and reconnaissance payloads, as well as electronic warfare tasks. LUSVs would be 200 to 300 feet long and would be more offensive in nature, equipped with anti-ship and land-attack missiles. Both programs are crew-optional, letting a small crew remain on board for missions that require more hands-on monitoring.
Arktur, a futuristic submarine concept, and Surrogat-V, Russia's massive unmanned underwater vehicle, were unveiled at Arms Expo 2022. Although details on Arktur are scarce, a bulletin issued before the model appears to indicate that it is primarily intended to be a ballistic missile submarine, or SSBN, enhanced for Arctic operations. The model depicts a smoothed-out hull form with a safety sail position. The (UUV) has a very low profile.
Modularity and flexibility are promoted to reduce the time and expense of modernizing in-service ships while also adapting to future uncertainty. Navies see modular systems as a way to deliver capability, which is fueling demand for modular UUVs intended for several missions. As a result, companies are constructing their UUVs in a modular framework, allowing new technologies to be implemented fast without requiring costly adjustments to the host platform. These are some of the key market trends driving the growth of the market.
Microprocessors act as unmanned vehicle control centers, offering a platform for control and communications software that interfaces with collision avoidance sensors, high-definition cameras, and other sensors. The increasing volume of data collected by autonomous vehicles will necessitate more advanced data processing.
When UUVs are employed in a crowded marine traffic zone, anti-collision technologies ensure safer navigation and improve autonomous navigation in restricted regions. On UUVs, several sensors such as vision sensors, sonar, inertial sensors, DVLs, and pressure sensors are utilized to avoid obstacles and navigate safely.
To successfully evaluate incoming sensor data and draw meaningful conclusions, unmanned vehicle solutions must employ cutting-edge data analytics technologies. Through machine learning approaches, AI enables 'continuous learning' for unmanned vehicles, enabling complicated skills such as autonomous navigation.
Increasing defense spending will encourage the procurement of new UUV platforms, technologies, and capabilities. The increase in defense spending will encourage research and development in enabling technologies such as 3D printing and AI. Procurement will also be driven by prevailing geo-political conditions in Europe and the Asia Pacific.
The market forecast includes a comprehensive market analysis and market size. The market analysis includes regional market size, drivers, restraints, and opportunities. The regional analysis also includes country-wise market size.
Metron Inc. announced a $7.8 million contract from the Office of Naval Research for "advanced algorithm development for autonomous marine systems," which would provide better data autonomy capabilities throughout U.S. Navy uncrewed undersea vehicles (UUVs). Metro will offer work relating to "mission and path planning, object identification, tracking and data fusion, autonomous behaviors, and Unmanned Underwater Vehicle (UUV) simulation" under the contract.