AbstractA testing scenario in the sense of De Nicola and Hennessy is developed to measure the worst-case efficiency of asynchronous systems. The resulting testing-preorder is characterized with a variant of refusal traces and shown to satisfy some properties that make it attractive as a faster-than relation. Finally, one implementation of a bounded buffer is shown to be strictly faster than two others – in contrast to a result obtained with a different approach by Arun-Kumar and Hennessy
This paper introduces a novel (bi)simulation-based faster-than preorder which relates asynchronous p...
AbstractWe study trace and may-testing equivalences in the asynchronous versions of CCS and π-calcul...
The thesis elaborates a so-called queued testing framework for input/output transition systems (IOTS...
AbstractA testing scenario in the sense of De Nicola and Hennessy is developed to measure the worst-...
AbstractBased on Process Algebra for Faster Asynchronous Systems (PAFAS), a testing-based faster-tha...
Based on Process Algebra for Faster Asynchronous Systems (PAFAS), a testing-based faster-than relati...
A testing scenario in the sense of De Nicola and Hennessy is developed to measure the worst-case eff...
AbstractA testing-based faster-than relation has previously been developed that compares the worst-c...
Based on PAFAS (Process Algebra for Faster Asynchronous Systems), a testing-based faster-than relati...
A timed CCS-like process algebra PAFAS and a testing scenario are developed for evaluating the tempo...
AbstractThis paper introduces a novel (bi)simulation-based faster-than preorder which relates asynch...
A timed process algebra is developed for evaluating the temporal worst-case efficiency of asynchrono...
Abstract. A testing-based faster-than relation has previously been de-veloped that compares the wors...
Journal ArticleAsynchronous/Self-timed circuits are beginning to attract renewed attention as promis...
It is shown that the behavior of Petri nets with exponentially distributed firing times can be repre...
This paper introduces a novel (bi)simulation-based faster-than preorder which relates asynchronous p...
AbstractWe study trace and may-testing equivalences in the asynchronous versions of CCS and π-calcul...
The thesis elaborates a so-called queued testing framework for input/output transition systems (IOTS...
AbstractA testing scenario in the sense of De Nicola and Hennessy is developed to measure the worst-...
AbstractBased on Process Algebra for Faster Asynchronous Systems (PAFAS), a testing-based faster-tha...
Based on Process Algebra for Faster Asynchronous Systems (PAFAS), a testing-based faster-than relati...
A testing scenario in the sense of De Nicola and Hennessy is developed to measure the worst-case eff...
AbstractA testing-based faster-than relation has previously been developed that compares the worst-c...
Based on PAFAS (Process Algebra for Faster Asynchronous Systems), a testing-based faster-than relati...
A timed CCS-like process algebra PAFAS and a testing scenario are developed for evaluating the tempo...
AbstractThis paper introduces a novel (bi)simulation-based faster-than preorder which relates asynch...
A timed process algebra is developed for evaluating the temporal worst-case efficiency of asynchrono...
Abstract. A testing-based faster-than relation has previously been de-veloped that compares the wors...
Journal ArticleAsynchronous/Self-timed circuits are beginning to attract renewed attention as promis...
It is shown that the behavior of Petri nets with exponentially distributed firing times can be repre...
This paper introduces a novel (bi)simulation-based faster-than preorder which relates asynchronous p...
AbstractWe study trace and may-testing equivalences in the asynchronous versions of CCS and π-calcul...
The thesis elaborates a so-called queued testing framework for input/output transition systems (IOTS...