Unmanned Aerial Systems (UAS) have grown in popularity in both military and civilian sectors. However, its abuse for hostile actions, illegal surveillance, and even transportation of illegal goods poses a serious danger to security systems around globe. Beckon-Based Counter-UAS Scorpion is a novel mechanism which is modeled after predatory and defensive strategies of scorpions, is being presented in this research. System ensures strong airborne security in restricted airspaces by detecting, neutralizing, and countering unlawful Unmanned Aerial Systems using a Beckon mechanism. Methodology comprises of a scorpion-tail-like mechanism which works on a gesture-based system for accurate targeting, incorporating a low-powered directional jammer to disrupt communication links between drone and its operator to ensure minimal interference and provide security. Experimental results demonstrate that Beckon-Based Counter-UAS Scorpion system can detect and disrupt Unmanned Aerial Systems within a 1000-m radius in a various environmental circumstance. High scalability for both military and civilian applications was demonstrated by prototype, which had an 87% success rate in controlled tests. Outcomes also affirm effectiveness of this strategy in protecting airspace against threat proposed by Unmanned Aerial Systems. This Beckon-Based Counter-UAS Scorpion system has potential to revolutionize aerial defense approach and offer a reliable answer to contemporary security issues due to its versatility, scalability, and affordability.

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Beckon-Based Counter-UAS Scorpion in Defense

  • G. Prutha,
  • Y. Sai Vivek,
  • S. Aishwarya,
  • Pooja H. Patel

摘要

Unmanned Aerial Systems (UAS) have grown in popularity in both military and civilian sectors. However, its abuse for hostile actions, illegal surveillance, and even transportation of illegal goods poses a serious danger to security systems around globe. Beckon-Based Counter-UAS Scorpion is a novel mechanism which is modeled after predatory and defensive strategies of scorpions, is being presented in this research. System ensures strong airborne security in restricted airspaces by detecting, neutralizing, and countering unlawful Unmanned Aerial Systems using a Beckon mechanism. Methodology comprises of a scorpion-tail-like mechanism which works on a gesture-based system for accurate targeting, incorporating a low-powered directional jammer to disrupt communication links between drone and its operator to ensure minimal interference and provide security. Experimental results demonstrate that Beckon-Based Counter-UAS Scorpion system can detect and disrupt Unmanned Aerial Systems within a 1000-m radius in a various environmental circumstance. High scalability for both military and civilian applications was demonstrated by prototype, which had an 87% success rate in controlled tests. Outcomes also affirm effectiveness of this strategy in protecting airspace against threat proposed by Unmanned Aerial Systems. This Beckon-Based Counter-UAS Scorpion system has potential to revolutionize aerial defense approach and offer a reliable answer to contemporary security issues due to its versatility, scalability, and affordability.