The random use of jammers will have an impact on ongoing military missions

When GPS jammers interfere with military operations, as technology advances, there seems to be endless threats, and the game is always day and night. The development of drones, often referred to as “drones”, has increased the complexity of multi-field military operations on an increasingly complex and unpredictable battlefield. The latest report from Syria shows that these have been incorporated into the evolving field of combat. One of the simplest threats to drones is to prevent or encrypt the reception of signals from GPS satellites. This “GPS interference” will have a serious operational impact on military missions and may become more and more common. According to an NBC article, the Russians used GPS to interfere with small US military reconnaissance aircraft.

For those familiar with these processes, this attack is not surprising, and the team hopes to combine tools with interruption capabilities. Using a multi-domain modeling system allows operators to prepare for analysis of GPS reception in the operating area and determine whether this interferes with GPS signal reception on the aircraft. This STK scene shows the GPS satellites connected to the aircraft and the surrounding radio interference from the gps jammer on the ground. The representation is the carrier-to-noise ratio between the GPS satellite and the aircraft.

The System Tool Kit (STK) contains a short guide showing how to determine whether a small portable GPS jammer will interfere with your task. It is also possible to determine how the spectral filter or phase-controlled adaptive zeroing can counteract this situation, or to design the new system as another phenomenon to obtain positioning, such as positioning. B. Sky Navigation working in this rejected environment. Solving these new problems of modern warfare is crucial to national security. Proven and practice-oriented business models and simulations provide incredible value and power to those who help maintain national security.