市場調查報告書
商品編碼
1296977
全球反無人機市場Global Counter Drone Market |
無人機的有效負載能力從幾克到幾千克不等。 近年來,小型無人機執行各種任務的情況有所增加。 無人機對社會、公共安全和個人隱私也構成越來越大的威脅。 無人機的用途不斷擴大,從武器運輸機到間諜設備,使攻擊者能夠在不傷害軍隊的情況下到達任何地方的任何目標。 為了減輕和消除無人機的影響,我們必須開發和部署反無人機技術來檢測、阻止和摧毀傳入的無人機威脅。
無人機系統在飛行中探測和/或攔截的設備稱為反無人機(Counter-UAS)或C-UAS,也稱為反無人機(anti-drone)技術。 隨著無人機使用的增加,對抗防禦無人機系統(UAS)的技術也在不斷發展。 由於人們擔心無人機在軍事和民用領域所構成的威脅,反無人機技術正在不斷發展。
根據反無人機系統市場分析,反無人機對策有兩類:無人機檢測和無人機緩解或攔截。 雷達、射頻傳感器和 PTZ 攝像機都是用於發現無人機的方法。 如果無人機飛入保護區周界內,無人機探測器就會檢測到它。 無人機緩解或攔截通過物理或技術方式阻止無人機飛行。 無人機緩解技術的例子包括安全無人機、欺騙器、網絡和無人機干擾器。
不斷增加的國防預算和隨之而來的軍事採購的增加預計將成為影響反無人機系統市場增長的主要因素之一。 有人指出,隨著大多數經濟體大力投資攻擊無人機,反無人機系統已成為同等重要的軍事裝備,不僅可以提高武裝部隊的生存能力,還可以提高人員的生存能力。
雷達和射頻檢測是無人機檢測最常用的技術。 雷達和射頻檢測可用於改善各種情況下的空域安全,包括城市地區和嘈雜的地點。 通過結合使用射頻和雷達,可以構建多層系統,為用戶提供更好的覆蓋範圍和保護。
反無人機技術已用於各種軍事和商業應用。 C-UAS系統被美軍用來保護外國基地。 同樣流行的是使用便攜式和移動系統來保護地面部隊和車隊。 反無人機技術已經在私營部門以各種形式得到應用。 在美國,機場、體育場館、監獄、企業以及超級碗等重大活動都部署了反無人機系統進行空域保護。
在美國,信號干擾器等反無人機對策的部署僅限於美國國防部、國土安全部和司法部等聯邦機構。 美國允許使用射頻和雷達等無人機探測措施。 允許無人機檢測,使其成為更加現實和實用的安全解決方案。 在美國,無人機檢測已經在多種情況下使用,以提高空域安全並減少無人機危險。
印度國防研究與發展組織(DRDO)創建的反無人機系統位於紅堡地區附近,用於應對迫在眉睫的安全威脅和無人機/風箏。 該系統的開發是為了應對來自機載平台和不明飛行物的威脅。 據 DRDO 官員稱,該技術能夠定位 4 公裡範圍內任何尺寸的無人機並使其喪失能力。 該技術還促進了技術國產化,並通過本地採購促進增長。
據 DRDO 官員稱,這些反無人機系統使用各種傳感器來定位、識別和跟蹤空中的無人機。 通過與相關係統共享這些數據,可以採取對策,例如阻止無人機執行其計劃的行動(軟殺傷)或摧毀它(硬殺傷)。 雷達用於無人機檢測過程。本報告審視了全球反無人機市場,並總結了技術趨勢、市場趨勢和預測、區域和國家趨勢以及市場機會。
The payload capabilities of drones, which range from a few grams to several kilos, are extremely diverse. The usage of small drones for a variety of tasks has increased during the past few years. Drones are becoming a greater threat to society, public safety, and individual privacy at the same time. Drones offer an ever-expanding spectrum of applications, from weapon carriers to spying instruments, and they allow an attacker to reach any target in any location without harming troops. To lessen and eliminate the impact of drones, counter-drone technology for detection, deterrence, and destruction of incoming drone threats must be developed and deployed.
Devices that detect and/or intercept unmanned aircraft systems while they are in flight are referred to as counter-UAS or C-UAS, also known as counter-drone (anti-drone) technology. Technology for countering defense unmanned aerial systems (UAS) is constantly evolving as drone use increases. C-UAS technology has advanced due to worries about the threat that drones pose in both military and civilian contexts.
As per counter-drone systems market analysis, there are 2 types of anti-UAS measures, i.e. drone detection, and drone mitigation or interception. Radar, RF sensors, and PTZ cameras are among the drone-detecting methods used to find them. If a drone flies inside the perimeter of a protected area, drone detection will pick it up. Drone mitigation or interception works by physically or technologically impeding drone flight. Examples of drone mitigation technology include security drones, spoofers, nets, and drone jammers.
The growing defense budget and the consequent increase in military procurement are expected to be one of the main factors which are poised to affect the market growth for counter-drone systems. It is noted that most economies have invested heavily in attack drones which makes counter-drone systems an equally important military equipment that improves the survivability of personnel as well as armed forces.
Radar and RF detection are the most often used technologies for drone detection. In a range of circumstances, including urban and noisy locations, radar and RF detection can be utilized to enhance airspace security. A multi-layered system that offers users improved coverage and protection can be created using RF and radar in conjunction.
Counter-drone technology is already in use in a variety of military and commercial applications. C-UAS systems are used by the US military for base protection in other countries. The use of portable and mobile systems to protect ground units and convoys is also gaining popularity. Counter-drone technology is already in use in civilian settings in a variety of ways. Airports, stadiums, jails, enterprises, and large events such as the Super Bowl have all deployed C-UAS for airspace protection in the United States.
The deployment of drone countermeasures such as signal jammers is restricted in the United States to federal agencies such as the US Department of Defense, Department of Homeland Security, and Department of Justice. In the United States, drone detection countermeasures such as RF and radar are authorized. Because drone detection is allowed, it is a more viable and practical security solution. Drone detection is already being used in several contexts in the United States to improve airspace security and reduce drone hazards.
A counter-drone system created by the Indian Defence Research and Development Organization (DRDO) has been installed close to the Red Fort area to deal with any impending security threats or drones/kites. This system was developed to counter threats from aerial platforms and unidentified aerial vehicles. The technology can locate and deactivate drones of any size within a 4 km range, according to DRDO officials. The technology is also poised to promote the agenda for indigenous development of technologies thus boosting the growth associated with local sourcing.
These anti-drone systems, according to DRDO officials, use a variety of sensors to locate, identify, and track airborne drones. They can share the data with related systems to make countermeasures possible, preventing them from carrying out the planned action (soft killing), and/or destroying them (hard kill). Radars are employed in the drone detection process.