Jun 2023. (This video includes animated sequences that are not necessarily representative of actual military hardware, technologies or capabilities.) Synopsis Every day, Allied citizens are protected from airborne threats by an integrated network of sensors, missile defence systems and fighter jets. Collectively, they’re known as the NATO Integrated Air and Missile Defence System (IAMD). But how does this system work?
Threats from the air are first detected by an array of sensors deployed by Allies. Based on land, at sea, in the air and even in space, these are capable of detecting aircraft or missile launches minutes after they occur. They feed the data to NATO command posts, such as the Combined Air Operations Centres (CAOCs) in Uedem, Germany and Torrejon, Spain. Commanders can then determine the best way to deal with the threat.
The task might fall to long-range, high-altitude missile defence systems like the US Terminal High Altitude Area Defense (THAAD), or the short-to-medium range French Sol-Air Moyenne Portée/Terrestre (SAMP/T). NATO can also use missile defence warships or fighter jets to deal with the threat.
In recent years, the Alliance has had to contend with new threats such as unmanned vehicles and hypersonic missiles. NATO is hard at work on tactics and technology to counter these problems.
In September 2023, SIPRI published a report that analyses the critical interplay between space systems, military operations and the potential for nuclear escalation. The report explores the multiple civilian and military uses of space systems, including missions related to nuclear deterrence.
The findings of the report lay the groundwork for a deeper analysis of potential escalation pathways and the formulation of risk-reduction measures for policymakers.
Read the report here: https://www.sipri.org/publications/20...
The United States Air Force has successfully tested its first prototype hypersonic missile, the AGM-183A Air-launched Rapid Response Weapon, or ARRW.
"By Brett Tingleyn published December 13, 2022
The exact speed of the AGM-183A isn't known, although some have alleged it might reach Mach 20.
Mit einem im rheinland-pfälzischen Ramstein stationierten Weltraumkommando für Europa und Afrika rüstet sich das US-Militär für Konflikte im All. Steven Basham, stellvertretender Befehlshaber United States European Command, spricht bei der Zeremonie zur Aktivierung des Kommandos der US Space Forces für Europa und Afrika auf der US-Airbase Ramstein. (Foto: dpa)
Lesen Sie in diesem Artikel:
Was das Kommando leisten soll
Warum die US-Streitkräfte sich auf Konflikte im All vorbereiten
Wer damit droht, US-Satelliten als legitime Angriffsziele anzusehen
Artikel ist nur für Abonnenten verfügbar