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2024-11-22 - 04:03

Dates and Events:

OSADL Articles:

2024-10-02 12:00

Linux is now an RTOS!

PREEMPT_RT is mainline - What's next?


2023-11-12 12:00

Open Source License Obligations Checklists even better now

Import the checklists to other tools, create context diffs and merged lists


2023-03-01 12:00

Embedded Linux distributions

Results of the online "wish list"


2022-01-13 12:00

Phase #3 of OSADL project on OPC UA PubSub over TSN successfully completed

Another important milestone on the way to interoperable Open Source real-time Ethernet has been reached


2021-02-09 12:00

Open Source OPC UA PubSub over TSN project phase #3 launched

Letter of Intent with call for participation is now available



Real Time Linux Workshops

1999 - 2000 - 2001 - 2002 - 2003 - 2004 - 2005 - 2006 - 2007 - 2008 - 2009 - 2010 - 2011 - 2012 - 2013 - 2014 - 2015

15th Real Time Linux Workshop, October 28 to 31, 2013 at the Dipartimento Tecnologie Innovative, Scuola Universitaria Professionale della Svizzera Italiana in Lugano-Manno, Switzerland

Announcement - Call for participation (ASCII)Hotels - Directions - AgendaPaper Abstracts - Presentations - Registration - Abstract Submission - Sponsors - Gallery

Real-Time Data Processing for a Holographic Radar? System on GNU/Linux

Peter Wurmsdobler, Aveillant Ltd

Unlike the current generation of air traffic control radar that scan an area using the familiar antenna rotating around a fixed point with a narrow beam, Holographic Radar? continuously transmits pulses in all directions at once and captures the returns in an array of receivers, resulting in a significant amount of data. The combination of an FPGA PCIe adapter and an NVidia GPU in a high performance computer from SuperMicro running GNU/Linux made it technically possible and economically viable to continuously process the captured data in real-time and determine the dynamic characteristics of moving objects within a 3D field of view. The multi-threaded processing chain implemented in C++/Qt is partly run on the GPU and partly on the CPU; it consists of parallel FFTs, beam forming, filtering and classification algorithms that can discriminate wind turbines from aircraft. While wind turbines are suppressed, information about the genuine targets is supplied to air traffic control systems using the ASTERIX standard.