@inproceedings{MNP05,
title = { Real Time Temporal Logic: Past, Present, Future },
author = {Maler, Oded and Nickovic, Dejan and Pnueli, Amir},
year = {2005},
booktitle = {FORMATS 2005},
pages = {2-16},
publisher = {Springer},
series = {LNCS},
volume = {3829},
team = {TEMPO},
}
Home > Verimag > Publications
bibtex
Browsing
News
New publications
- Some Recent Publications
- Karine Altisen, Alain Cournier, Geoffrey Defalque, Stéphane Devismes: Self-stabilizing Synchronous Unison in Directed Networks
- Marius Bozga, Radu Iosif, Joseph Sifakis: Verification of component-based systems with recursive architectures
- Marius Bozga, Lucas Bueri, Radu Iosif: On an Invariance Problem for Parameterized Concurrent Systems
- Karine Altisen, Stéphane Devismes, Anaïs Durand, Colette Johnen, Franck Petit: Self-stabilizing Systems in Spite of High Dynamics
Jobs and internships
- Jobs and internships
- [Master] Implementation of critical applications on multi-core: execution mode analysis to reduce interferences
- PERSYVAL Master 2 Scholarships
- Measures against speculative attacks in a certified optimizing compiler
- Security counter-measures in a certified optimizing compiler
- Verified hash tables and hash-consing
- [master/PhD] Formally verified optimizations for safety-critical embedded code
- [master/PhD] Static analysis of “pseudo-LRU” caches
- [Master] Analyzing fault parameters triggering timing anomalies
- [Master] Certification of Distributed Self-Stabilizing Algorithms Using Coq
- [Master] Design and Evaluation of Strategies for Automated Proofs using Reasoning Modulo Equivalence
- [Master] Exploration by model-checking of timing anomaly cancellation in a processor
- [Master] Implementing the Silence to Reduce Energy Consumption in Wireless Sensor Networks
- [Master] Simulation of Distributed Algorithms
- [Master] Sûreté des essaims de robots mobiles
- [Master]Leakage in presence of an active and adaptive adversary
- [PhD] Logical Foundations of Self-Adapting Distributed Systems
- [PostDoc] Implementation of critical applications on multi-core: execution mode analysis to reduce interferences