市場調查報告書
商品編碼
1296989
士兵系統:全球市場Global Soldier Systems Market |
所有軍隊和國家都希望在戰爭和戰鬥中減少傷亡。 其中一些項目在原型階段之前就被取消了,但大多數項目仍在進行中,並在各個國家投入運行。 所有這些武器和系統都屬於士兵系統類別。
Ratnik在俄語中意為“戰士”,是一種未來步兵作戰系統,旨在提高俄羅斯武裝部隊作戰人員的連通性和戰鬥力。 配備現代化的危險品頭盔、特殊眼監視器、熱夜視單筒望遠鏡、閃光燈、通信系統、特殊耳機等。 它由10個子系統和59個單獨部件組成,截至2016年10月已投入戰鬥。 Ratnik系統於2013年底進行了最終驗收測試,所有Ratnik設備均於2014年接受了俄羅斯武裝部隊的測試,包括槍械、防護服、光通信和導航設備、醫療和電力系統以及膝蓋和肘部等製服墊。 ,已批准使用。美國陸軍購買傳感器作為部隊現代化努力的一部分,目的是讓他們看起來比對手更遠、更頑強。 從不同地點快速集結高殺傷力、低流量的作戰部隊,或作為聯合部隊的一部分,對縱深目標和大規模敵軍進行有針對性的遠程火力。我們還計劃 為了與盟軍可靠地互動和共享數據,他們必須免受敵對網絡和電子威脅。
現代士兵系統注重通過提高節奏、殺傷力、生存能力、可持續性和作戰協調來提高軍事效率。 該解決方案是漸進式的,適應現有的設備和條令。 一套全面的大容量子系統(包括語音和數據無線電、指揮和控制軟件、電光等)和麵向士兵的架構(頭部、軀幹、武器塊)提高了士兵的效率和人體工程學。 另一方面,集成度的提高減少了重量、電纜和設備的數量。 擴展視野戰術面罩不僅提供眼睛保護,還可以徒手顯示信息。
如果您希望您的士兵執行現代任務,您需要為他們提供成功所需的技術優勢。 個人網絡、傳感器、C4 通信和系統管理功能都需要集成,以可靠且易於使用的方式連接所有系統。 士兵系統必須允許模塊化,以便輕鬆集成不同的子系統、多任務特定配置以及易磨損負載的分配。 先進的電纜和復合材料部件有助於減輕重量。 緊湊的連接器和內置天線節省了空間。 它提供了您所需的機動靈活性,幫助您應對現代戰場的風險。 這些是推動市場增長的一些關鍵市場趨勢。
為了在復雜的未來作戰環境中最大限度地提高任務成功率和作戰能力,所有參與者必須在一個有凝聚力的網絡中共同努力。 作為網絡士兵一部分的自主系統提供關鍵的偵察數據以及後勤支持和直接武器使用。 每個士兵、車輛、傳感器和武器站都是連接的實時數據網絡的一部分,該網絡收集和傳輸相關數據。 這些市場趨勢預計將影響市場增長。
國防支出的增加推動了新的採購工作以及利用更新的技術和功能更新現有平台。 國防支出的增加推動了新飛機和雷達系統的採購。 歐洲和亞太地區的地緣政治局勢也推動了採購。 這些地區自主和無人平台的激增預計將成為飛機發動機市場的主要驅動力之一。
市場預測包括全面的市場分析和市場規模。 市場分析包括按地區劃分的市場規模、市場驅動因素、限制因素和機會。 區域分析還包括按國家/地區劃分的市場規模。
萊茵金屬宣布其為德國陸軍(聯邦國防軍)生產的戰術頭盔已成功完成正式資格測試和質量檢查。 這代表著在為德國士兵交付和部署新型作戰頭盔方面向前邁出了重要一步。 進一步部署到德國武裝部隊的首批 3 套戰鬥頭盔的測試最近已完成。 德國國防部 (MoD) 已訂購戰鬥頭盔,為德國聯邦國防軍裝備,應對歐洲不斷變化的安全形勢。
英國工程公司 Blue Bear Systems Research 宣布了 HESS(超級啟用士兵系統)概念。 該系統為士兵提供可穿戴技術,基於Blue Bear的SmartConnect開放架構。 士兵身上的傳感器現在可以通過 SmartConnect 設備連接到更廣泛的網絡,反之亦然。 這種方法優化了操作員的傳感器、決策器和效應器鏈,從而能夠以“機器速度”做出決策。
Any army or country would prefer going to war or fighting battles with fewer casualties or loss of human life now some of these programs have been canceled before the project could progress beyond prototype stages but the majority of them are still going on and are currently run by various nations now a future soldier may be a human or a robot depending on what we choose and future soldier program simply aims to equip their infantry with state-of-the-art and futuristic weapons and support systems. All these weapons and systems fall under the category of soldier systems.
The Ratnik, which translates to "fighter" in Russian, is a future infantry combat system meant to improve the connectedness and combat effectiveness of combat personnel in the Russian Armed Forces. Modernized body armor helmets with a specific eye monitor thermal night vision monocular flashlight communication systems and special headphones are among the enhancements. It consists of ten subsystems and 59 distinct pieces, and it has already seen combat use as of October 2016. The Ratnik system underwent final acceptance tests in late 2013, and all Ratnik equipment, including firearms, body armor, optic communication and navigation devices, medical and power supply systems, and uniform items like knee and elbow pads, were tested and accepted into service in Russian Armed Forces in 2014.
The US army intends to buy sensors as part of its troop modernization effort to see more, further, and more persistently than our adversaries. Rapidly assemble very lethal, low-signature fighting units from disparate places. As part of the Joint Force, deliver targeted, longer-range fires to deep targets and mass enemy forces. To reliably interact and share data with coalition partners, you must be secure from hostile cyber and electronic threats.
Modern soldier systems are focused on increasing military effectiveness through improvements in tempo, lethality, survivability, sustainability, and operation coordination. The solution is incremental and adaptive to existing equipment and doctrine. A comprehensive set of high-capability subsystems, including voice and data radios, command and control software, and electro-optics. Soldier-oriented architecture (head, body, weapon block) increases soldier efficiency and integrates ergonomics. Improved integration to save weight, cable count, and equipment. The Augmented Vision Tactical Mask provides eye protection as well as a free-hand information display.
Equipping soldiers for modern tasks entails providing them with the technological edge they need to succeed. Personal networks, sensors, C4 communications, and the ability to administer the systems must all be integrated and connect all of the systems in a dependable and user-friendly manner. Soldier systems must allow for modularity for easy integration of different subsystems, multiple mission-specific configurations, and load balancing for easier wear. Advanced cables and composite components help to reduce weight. Compact connectors and inbuilt antennae save space. Provide the necessary mobility flexibility and assist in surviving the risks of modern battle space. These are some of the major market trends that are driving the growth of the market.
To achieve mission success and maximize fighting capability in complex future operating settings, all entities must cooperate in a cohesive network. Autonomous Systems, which are part of the networked soldier, provide critical reconnaissance data as well as logistical support and direct weapon use. Each soldier, vehicle, sensor, and weapon station is part of a linked, real-time data network that collects and transmits relevant data. These market trends will be influencing the growth of the market.
Increasing defense spending will drive new procurement activities and upgrades to existing platforms with newer technologies and capabilities. The increase in defense spending will encourage the procurement of new aircraft and radar systems. Procurement will also be driven by prevailing geo-political conditions in Europe and the Asia Pacific. The proliferation of autonomous and unmanned platforms in these regions will be one of the key drivers of the aircraft engine market.
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.
Rheinmetall has stated that formal qualification tests and quality inspections of tactical headgear being produced for the German Armed Forces have been completed successfully (Bundeswehr). This signifies a significant step forward in the delivery and deployment of the new combat helmets for the German soldiers. Recent tests for the first three sets of combat helmets from further deployments to the German military have been completed. As the security situation in Europe altered, the German Ministry of Defence (MoD) ordered combat helmets to equip the Bundeswehr.
Blue Bear Systems Research, a UK engineering company, has announced the launching of its Hyper Enabled Soldier System (HESS) concept. This system will provide warfighters with wearable technology and is based on Blue Bear's SmartConnect open architecture, which serves as a soldier hub for all elements as well as an individual interface enabler combined with edge processing. A soldier's on-body sensors are made available to the wider network via a SmartConnect device, and vice versa. This approach is meant to optimize an operator's sensor, decider, and effector chain whilst allowing decisions to be made at 'machine speed'.