USA GHOST WAVE RADAR TECHNOLOGIES ANTI STEALTH ANTI JAMMING HIDDEN INVISIBLE ENCODED SIGNALS TX

Описание: USA ghost wave radars system
GhostWave Inc., based in Hilliard, Ohio, is a company specializing in advanced radar systems, including anti-stealth and low-probability-of-intercept technologies. Their key innovation is the use of pseudo-random radio frequency (RF) noise to create radar signals that appear as background noise, making them stealthy and resistant to jamming or interference. This technology has applications in both defense and commercial sectors.

GhostWave has developed systems for detecting and avoiding threats like low-altitude drones and ballistic missiles without revealing their radar's location. Their solutions also include radar systems for unmanned aerial vehicles (UAVs) and automotive applications, addressing challenges like interference in congested environments. The company collaborates with institutions like The Ohio State University and has received funding for projects through initiatives such as the Ohio Federal Research Network (OFRN).

For further information, you can visit their official website at GhostWave Inc..
GhostWave refers to both a radar technology and the company behind it.

GhostWave as a Company:

GhostWave Inc., located in Hilliard, Ohio, is an innovative firm that designs advanced radar systems for applications in defense, automotive, and UAVs. Established in 2016, the company leverages patented pseudo-random RF noise technology to create stealthy and interference-resistant radar systems.

GhostWave Technology:

The company develops radars that use random RF noise waveforms. These systems are designed to appear as ambient noise, making them stealthy and difficult to detect or jam. The technology has been applied in anti-stealth detection, collision avoidance, and monitoring drones or other low-altitude threats.

For more information, check out GhostWave's website.

GhostWave, based in Hilliard, Ohio, specializes in innovative radar systems utilizing patented pseudorandom noise technology to achieve low probability of detection (LPD) and low probability of interference (LPI). Their systems are particularly valuable in environments where stealth, resistance to jamming, and minimizing interference are critical, such as for unmanned aerial systems (UAS), automotive safety, and defense applications.

Key Technical Parameters:
Signal Generation: GhostWave uses pseudorandom noise to transmit signals that appear indistinguishable from background noise. This design ensures that the radar remains undetectable while still providing reliable performance.

Anti-Jamming: The radars utilize wideband signals, making them resilient to interference and jamming from conventional systems.

Detection Capabilities: They offer features like long-range detection, object velocity measurement, and close-range imaging, suitable for high-traffic environments and low-visibility conditions.

Applications:

Automotive: Preventing radar interference in adaptive cruise control systems to improve safety.

Defense: Detecting low-altitude UAV threats and other stealth applications.

Commercial UAVs: Enhancing collision avoidance through optical-radar sensor fusion.




GhostWave collaborates with organizations like the Department of Defense and the Ohio Federal Research Network (OFRN) to develop advanced systems for aerospace and perimeter security. Their work has included innovations for prison security and drone detection

GhostWave radars use pseudorandom noise signals across wideband radio frequencies rather than fixed frequency bands like traditional radars. This technology allows the radar to function effectively while being stealthy and resilient to jamming and interference.

Frequency and Undetectability

Pseudorandom Noise Signals: The radar transmits millions of unique, randomized signals that blend into the background RF noise. Only the radar receiver, which is synchronized to the transmitted signal, can decode the returns. This ensures:

Low Probability of Detection (LPD): To external systems, the radar signal appears as environmental noise and is extremely difficult to isolate.

Wideband Characteristics: Operates across a spectrum of frequencies to prevent predictability and interference with other systems.



Anti-Jamming and Interference Avoidance
Randomized Waveforms: GhostWave's use of pseudo-random signals avoids interference with fixed-frequency systems or other GhostWave radars. Conventional jamming techniques, which target specific frequencies, are ineffective against this technology.


Correlation-Based Signal Processing: The radar receiver correlates the incoming signal with its own transmitted pseudorandom sequence. This technique ensures that only intended signals are processed, filtering out noise, jamming, or false signals.

Wideband Resilience: The broad frequency range makes it resistant to targeted electronic warfare attacks, such as narrowband jamming or signal spoofing.



GhostWave’s technology is particularly effective i