This paper analyses the experimental results from recent monostatic and bistatic radar measurements of multiple birds as well as a quadcopter micro-drone. The radar system deployed for these measurements was the UCL developed NetRAD system. The aim of this work is to evaluate the key differences observed by a radar system between different birds and a micro-drone. Measurements are presented from simultaneous monostatic co/cross polarized data as well as co-polar bistatic data. The results obtained show comparable signature within the time domain and a marked difference in the Doppler domain, from the various birds in comparison to the micro-drone. The wing beat properties of the birds are shown for some cases which is a stark contrast to th...
This paper presents an approach for detection and tracking a micro-UAV using the multistatic radar N...
This paper presents an approach for detection and tracking a micro-UAV using the multistatic radar N...
The radar micro-Doppler signature of a target depends on its micro-motion, i.e., the motion of parts...
This paper analyses the experimental results from recent monostatic and bistatic radar measurements ...
This article presents the results of a series of measurements of multistatic radar signatures of sma...
This article presents the results of a series of measurements of multistatic radar signatures of sma...
The authors acknowledge the funding received from the Science and Technology Facilities Council whic...
This chapter reviews the similarities and differences between micro Unmanned Aerial Vehicles (UAVs),...
This paper illustrates the results of a series of measurements of multistatic radar signatures of sm...
Abstract This article presents the results of a series of measurements of multistatic radar signatur...
The use of drones for recreational, commercial and military purposes has seen a rapid increase in re...
This paper presents an approach for detection and tracking a micro-UAV using the multistatic radar N...
The exponential growth of copter drone usage and the threats posed by drone users, such as unauthori...
This thesis covers research in the field of non-cooperative target recognition given the limitations...
The purpose of this paper is to present an experimental trial carried out at the Defence Academy of ...
This paper presents an approach for detection and tracking a micro-UAV using the multistatic radar N...
This paper presents an approach for detection and tracking a micro-UAV using the multistatic radar N...
The radar micro-Doppler signature of a target depends on its micro-motion, i.e., the motion of parts...
This paper analyses the experimental results from recent monostatic and bistatic radar measurements ...
This article presents the results of a series of measurements of multistatic radar signatures of sma...
This article presents the results of a series of measurements of multistatic radar signatures of sma...
The authors acknowledge the funding received from the Science and Technology Facilities Council whic...
This chapter reviews the similarities and differences between micro Unmanned Aerial Vehicles (UAVs),...
This paper illustrates the results of a series of measurements of multistatic radar signatures of sm...
Abstract This article presents the results of a series of measurements of multistatic radar signatur...
The use of drones for recreational, commercial and military purposes has seen a rapid increase in re...
This paper presents an approach for detection and tracking a micro-UAV using the multistatic radar N...
The exponential growth of copter drone usage and the threats posed by drone users, such as unauthori...
This thesis covers research in the field of non-cooperative target recognition given the limitations...
The purpose of this paper is to present an experimental trial carried out at the Defence Academy of ...
This paper presents an approach for detection and tracking a micro-UAV using the multistatic radar N...
This paper presents an approach for detection and tracking a micro-UAV using the multistatic radar N...
The radar micro-Doppler signature of a target depends on its micro-motion, i.e., the motion of parts...