International audienceA System-On-Chip design and synchronization details of a navigation receiver are presented. The architecture of the GNSS receiver is easily modifiable and offers the capability of accurate time management, thanks to the use of a co-design approach. The purpose of such a platform is to allow real time validation of research algorithms. A secondary application is education, as this platform can be used to study signal demodulation and navigation. The receiver is fully functional, but further developments are still undergoing. Results demonstrate accuracy, flexibility and ease of use of the system
Global Navigation Satellite Systems (GNSS) is thepositioning technology of choice outdoors but it ha...
Monitoring pilot's mental states is a relevant approach to mitigate human error and enhance human ma...
Global Navigation Satellite Systems’ (GNSS) carrier phase observations are fundamental in the provis...
A System-On-Chip design and synchronization details of a navigation receiver are presented. The arch...
Multi-core, and Time and Space Partitionnong sys- tems are two emerging paradigms for architecting a...
International audienceThe attitude control of a satellite equipped with a six-Control Moment Gyro (C...
Cooperative communication is an attractive solution to combat fading in wireless communication syste...
Global Navigation Satellite Systems (GNSS) is the technology of choice for outdoor positioning purpo...
International audienceThe formal veri cation has become a recommended practice in safety-critical so...
Recent technological progress has allowed the development of low-cost and highly portable brain sens...
Global Navigation Satellite Systems (GNSS) are the main source of position, navigation, and timing ...
International audienceThere is a growing momentum to design online tools to measure mental workload ...
The development of embedded systems according to Model-Driven Development relies on two complementar...
This contribution analyzes the fundamental performance limits of traditional two-step Global Navigat...
The main objective of Global Navigation Satellite Systems (GNSS) is to precisely locate a receiver b...
Global Navigation Satellite Systems (GNSS) is thepositioning technology of choice outdoors but it ha...
Monitoring pilot's mental states is a relevant approach to mitigate human error and enhance human ma...
Global Navigation Satellite Systems’ (GNSS) carrier phase observations are fundamental in the provis...
A System-On-Chip design and synchronization details of a navigation receiver are presented. The arch...
Multi-core, and Time and Space Partitionnong sys- tems are two emerging paradigms for architecting a...
International audienceThe attitude control of a satellite equipped with a six-Control Moment Gyro (C...
Cooperative communication is an attractive solution to combat fading in wireless communication syste...
Global Navigation Satellite Systems (GNSS) is the technology of choice for outdoor positioning purpo...
International audienceThe formal veri cation has become a recommended practice in safety-critical so...
Recent technological progress has allowed the development of low-cost and highly portable brain sens...
Global Navigation Satellite Systems (GNSS) are the main source of position, navigation, and timing ...
International audienceThere is a growing momentum to design online tools to measure mental workload ...
The development of embedded systems according to Model-Driven Development relies on two complementar...
This contribution analyzes the fundamental performance limits of traditional two-step Global Navigat...
The main objective of Global Navigation Satellite Systems (GNSS) is to precisely locate a receiver b...
Global Navigation Satellite Systems (GNSS) is thepositioning technology of choice outdoors but it ha...
Monitoring pilot's mental states is a relevant approach to mitigate human error and enhance human ma...
Global Navigation Satellite Systems’ (GNSS) carrier phase observations are fundamental in the provis...