Add to ORKGThe growing use of wireless communication increases the need for devices to determine the location of the signal source. Affordable, accessible and universal devices can have a great role in addressing this aside precision tools. Combining popular off-the-shelf radio receivers with direction of arrival algorithms could provide a convenient tool. The setup is proven to give sufficient results for several location applications using HackRF radio and signal processing in software. The accuracy of the system can be improved by characterising the system for each use case. After the setup is completed, such system can still be convenient to use for non-technical end user
Direction Finding techniques are widely used across the fields of radar, telecommunications, geoloca...
A fully synchronized modular multichannel software-defined radio (SDR) testbed has been developed fo...
This article presents the design of a complete radio system receiver to detect, in real time, the di...
The work is devoted to research in Mobile Station (MS) positioning techniques having opportunity and...
SDR platform enables reconfigurable direction finding system A software-defined radio (SDR) transcei...
There are a lot of stand-alone and mobile platforms using transmitters today. Some want to be found ...
International audienceSeveral radio frequency direction finding algorithms exist for Internet of Thi...
This thesis addresses the problem of finding the directions of arrival (DOA) of direct-sequence spre...
Advancement in wireless technology and the oncoming of the Internet of Things (IoT) marked an incred...
This project is focused on implementing source location algorithms to find the direction of arrival ...
This work investigates the use of super-resolution algorithms for precision localisation and long-te...
This paper presents the performance analysis of the direction of arrival estimation algorithms such ...
Includes bibliographical references (leaves 130-131)Direction Finding (OF) is a process that involve...
Radio direction finder, which utilizes angle-of-arrival (AOA) estimation, is a function in a radio m...
With Space Division Multiple Access (SDMA) schemes employing digital signal processing algorithms in...
Direction Finding techniques are widely used across the fields of radar, telecommunications, geoloca...
A fully synchronized modular multichannel software-defined radio (SDR) testbed has been developed fo...
This article presents the design of a complete radio system receiver to detect, in real time, the di...
The work is devoted to research in Mobile Station (MS) positioning techniques having opportunity and...
SDR platform enables reconfigurable direction finding system A software-defined radio (SDR) transcei...
There are a lot of stand-alone and mobile platforms using transmitters today. Some want to be found ...
International audienceSeveral radio frequency direction finding algorithms exist for Internet of Thi...
This thesis addresses the problem of finding the directions of arrival (DOA) of direct-sequence spre...
Advancement in wireless technology and the oncoming of the Internet of Things (IoT) marked an incred...
This project is focused on implementing source location algorithms to find the direction of arrival ...
This work investigates the use of super-resolution algorithms for precision localisation and long-te...
This paper presents the performance analysis of the direction of arrival estimation algorithms such ...
Includes bibliographical references (leaves 130-131)Direction Finding (OF) is a process that involve...
Radio direction finder, which utilizes angle-of-arrival (AOA) estimation, is a function in a radio m...
With Space Division Multiple Access (SDMA) schemes employing digital signal processing algorithms in...
Direction Finding techniques are widely used across the fields of radar, telecommunications, geoloca...
A fully synchronized modular multichannel software-defined radio (SDR) testbed has been developed fo...
This article presents the design of a complete radio system receiver to detect, in real time, the di...