Jiménez Pérez, Víctor Javier (Date of defense: 2016-10-20)
Increasing processors' clock frequency has traditionally been one of the largest drivers of performance improvements for computing systems. In the first half of the 2000s, however, it became clear that ...
Jalle Ibarra, Javier (Date of defense: 2016-07-18)
Critical Real-Time Embedded Systems (CRTES) follow a verification and validation process on the timing and functional correctness. This process includes the timing analysis that provides Worst-Case ...
Milutinovic, Suzana (Date of defense: 2019-12-18)
Over the last years, we are witnessing the steady and rapid growth of Critica! Real-Time Embedded Systems (CRTES) industries, such as automotive and aerospace. Many of the increasingly-complex CRTES' ...
Benedicte Illescas, Pedro (Date of defense: 2022-04-07)
Future Critical Real-Time Embedded Systems (CRTES), like those is planes, cars or trains, require more and more guaranteed performance in order to satisfy the increasing performance demands of advanced ...
Fernández Díaz, Gabriel Alejandro (Date of defense: 2018-11-15)
Artificial system interaction with the real environment is in general based on the deployment of properly coordinated sensors and actuators, establishing between them a “dynamic control-loop”. The time ...
Agirre Troncoso, Irune (Date of defense: 2018-07-02)
An increasing variety of emerging systems relentlessly replaces or augments the functionality of mechanical subsystems with embedded electronics. For quantity, complexity, and use, the safety of such ...
Cardona Nadal, Jordi (Date of defense: 2023-04-03)
(English) In the last decade performance needs in Critical Real-Time Embedded Systems (CRTES) domains like automotive, avionics, railway or space have been steadily on the rise due to the unprecedented ...