The RGPO Detection Block is an essential component of a radar system designed to detect and handle range deception data.
The following block diagram describes the RGPO Detection Block. This block includes several subfunctions, each serving a specific purpose in the processing of incoming radar reflections to identify and manage potential range-deceived targets.
Description: The Automatic Threshold subfunction is an integral part of the RGPO Detection Block. Its primary purpose is to establish a suitable detection threshold for incoming radar reflections, ensuring that targets with high Radar Cross-Section (RCS) are not missed.
Function: During the first iteration, this subfunction identifies the maximum value within the radar data. Based on this maximum value, it calculates a threshold that is ten times this maximum. The high threshold setting accounts for the expectation that range deception often results in the introduction of targets with significantly elevated RCS values.
Use: The threshold calculated by this subfunction is applied to incoming radar reflections, allowing the system to classify potential targets based on their intensity compared to the established threshold.
Description: The Associate Radar Reflections into Objects subfunction is responsible for creating coherent objects from radar reflections. It is designed to group reflections originating from a single target based on specific characteristics such as distance and angle.
Function: This subfunction performs reflection association by analysing the spatial and temporal characteristics of radar reflections. When it detects reflections originating from the same target, it groups them into a coherent object. This process allows for more effective tracking and analysis of individual targets.
Use: The objects created by this subfunction serve as a foundation for the tracking and monitoring of targets, enhancing the radar system's ability to distinguish individual targets within the radar data.
Description: The Store Information for the First Three Rotations subfunction maintains and records target information over three consecutive rotations of radar data. It is a critical component for detecting range deception and tracking real targets.
Function: This subfunction records target information from the real target during the first rotation, followed by target information from two additional rotations. The latter two rotations contain data from range-deceived targets, with their distances intentionally shifted or altered.
Use: The stored information is crucial for detecting range deception, as differences between the real target and range-deceived targets can be identified and analysed, serving as a basis for potential deception detection.
Description: The Detect If Deception Is Active subfunction is designed to identify active range deception attempts. It relies on a comparison of the gradients between target information from the first and second rotations, as well as the second and third rotations.
Function: This subfunction calculates the gradients in distance, velocity, and angle information between the consecutive rotations. It then compares these gradients to expected values based on the real target's characteristics. If the calculated gradients fall outside the expected range, it indicates that active deception may be occurring.
Use: The primary use of this subfunction is to identify potential range deception attempts, allowing the system to take appropriate countermeasures and maintain the integrity of target tracking.
Description: The Estimate and Track the Real Position subfunction focuses on estimating and continuously tracking the real position of a target. This is critical when range deception is suspected, and accurate target tracking is essential.
Function: Leveraging the gradients, distance, velocity, and angle information, this subfunction calculates the position update for the real target, distinct from the range-deceived targets. By continuously estimating and tracking the real target's position, the radar system can maintain a reliable assessment of the true threat.
Use: The real position estimation enables the system to differentiate between real targets and range-deceived targets, ensuring that the system's response and tracking remain effective and accurate even in the presence of deception attempts.
The RGPO (Range Deception Data Processing) Detection Block is a sophisticated and crucial component of a radar system, designed to handle and mitigate the challenges posed by range deception in radar data. It incorporates a series of well-defined subfunctions, each with a specific role and function in the overall process.
In summary, the RGPO Detection Block serves as the front line of defence against potential range-deception threats and ensures that genuine targets are accurately tracked and monitored.
Here's an in-depth overview of its significance:
In conclusion, the RGPO Detection Block is a fundamental asset in the arsenal of radar systems, especially in scenarios where range deception poses a substantial threat. By implementing this block and its associated subfunctions, the radar system can efficiently process radar data, differentiate between real and deceptive targets, and maintain accurate and reliable tracking of genuine threats. This capability is essential for enhancing the overall security and functionality of radar systems in a wide range of applications, including defence and surveillance.
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