The constant 0 (or !, nil ) has different roles in process algebra: on the one hand, it serves as the identity element of alternative composition, on the other hand, it stands for a blocked atomic action or for livelock. When extensions with timing are considered, these roles diverge. We argue that it is better to use two separate constants ¿0 and 0 for the different usages. With respect to the termination constant 1 (or ", skip), the situation is comparable: on the one hand, it serves as the identity element of sequential composition, on the other hand, it serves as the identity element of parallel composition, and stands for a skipped atomic action. We have separate constants ¿1 and 1 for the different usages
In ACP-style process algebra, the interpretation of a constant atomic action combines action executi...
AbstractIn ACP-style process algebra, the interpretation of a constant atomic action combines action...
The object 0 acts as a zero for both sum and multiplication in process algebra. The constant δ, repr...
The constant 0 (or !, nil ) has different roles in process algebra: on the one hand, it serves as th...
The constant 0 (or !, nil ) has different roles in process algebra: on the one hand, it serves as th...
The constant 0 (or !, nil ) has different roles in process algebra: on the one hand, it serves as th...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
AbstractThe constant 0 (or δ, nil) has different roles in process algebra: on the one hand, it serve...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
AbstractIn ACP-style process algebra, the interpretation of a constant atomic action combines action...
In ACP-style process algebra, the interpretation of a constant atomic action combines action executi...
In ACP-style process algebra, the interpretation of a constant atomic action combines action executi...
In ACP-style process algebra, the interpretation of a constant atomic action combines action executi...
AbstractIn ACP-style process algebra, the interpretation of a constant atomic action combines action...
The object 0 acts as a zero for both sum and multiplication in process algebra. The constant δ, repr...
The constant 0 (or !, nil ) has different roles in process algebra: on the one hand, it serves as th...
The constant 0 (or !, nil ) has different roles in process algebra: on the one hand, it serves as th...
The constant 0 (or !, nil ) has different roles in process algebra: on the one hand, it serves as th...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
AbstractThe constant 0 (or δ, nil) has different roles in process algebra: on the one hand, it serve...
The constant 0 (or d, nil) has different roles in process algebra: on the one hand, it serves as the...
AbstractIn ACP-style process algebra, the interpretation of a constant atomic action combines action...
In ACP-style process algebra, the interpretation of a constant atomic action combines action executi...
In ACP-style process algebra, the interpretation of a constant atomic action combines action executi...
In ACP-style process algebra, the interpretation of a constant atomic action combines action executi...
AbstractIn ACP-style process algebra, the interpretation of a constant atomic action combines action...
The object 0 acts as a zero for both sum and multiplication in process algebra. The constant δ, repr...