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An electronic countermeasure known as radar jamming or deception deliberately puts out radio frequency signals to disrupt the operation of radar by flooding the receiver with noise or misleading information.
Jamming is the term for ideas that flood the radar with signals, making it impossible to interpret the display. Deception, on the other hand, is the term for ideas that produce signals that are contradictory or confused, however it is also usual to refer to all such ideas as jamming.
Mechanical and electrical radar jamming fall into two broad categories. Mechanical jamming involves reflecting hostile radio frequencies in a variety of ways to give the radar operator erroneous or misleading target signals.
Electronic jamming works by sending additional radio signals in the direction of hostile receivers, making it challenging to identify actual target signals or exploit them.
Both anti-jamming and radar jamming are competing methods. A new radar application will eventually result in a new jamming technology, and a new interference will inevitably result in a new set of radar anti-jamming techniques. The development of radar jamming and anti-jamming technology is the result of this cycle.
The radar receiver is given particular attention in the study. Investigations on the impacts of anti-jamming circuits resulted in the adoption of design principles that significantly reduced the general susceptibility of equipment; specifics of these principles are provided.
The purposes of the internal processing mechanism of radar vary widely depending on the various systems. The study focuses on the theory and experimentation of phased array radar systems as well as the analysis and simulation of various anti-jamming techniques.
The Global Anti-Jamming Resistance radar market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
The first locally created anti-jam data processing solution for the UAE has been released by the EDGE business SIGN4L and is dubbed GPS-Protect.
In order to protect mission-critical systems that depend on accurate position, navigation, and timing information from GPS, the system offers high tolerance to jamming.
With the latest cutting-edge technology, GPS-Protect uses a variety of mitigation techniques and specialised digital signal processing algorithms to keep systems that depend on satellite navigation running even when jammers are active.
The analogue signal processing module is divided into functional modules of small analogue receiver processing function, signal processing, intermediate code can be embedded to compare the anti-jamming, integration, and controversy.
The interference signal generating module primarily produces all types of jamming signal simulation modules and is responsible for all types of interference signals that may be mixed with the complex electromagnetic environment signals, such as the receiver input signal.
