BrainMap

Mrs. Dahlia Al- Janabi

Dr. Eng.

Asistent Universitar, Researcher - UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Researcher | Teaching staff | Scientific reviewer

Computer Engineer (B.Sc. in Computer Communications Engineering). Sotware Engineer (M.Sc. in software engineering), and a Systems Engineer (PhD in systems Engineering. I have worked with many programming languages starting form basic, pascal, C++, C#, VBasic, Java.

Expertise & keywords

Object Enhanced Time Petri Nets Call name:
2017 - 2055

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA ()

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA ()

Project website: https://github.com/dahliajanabi/OETPN_OERTPN_Framework

Abstract:

Many software applications in the domains of reactive systems, cyber-physical systems, internet of things etc. need models that are capable to describe complex structure,

concurrent behaviors including reaction to internal and external events, or distributed processing concerning task migration and cooperation. The newly proposed models called Object Enhanced

Time Petri Nets (OETPNs) extend the classical Petri nets with tokens representing objects that implement data and tasks. Any task can be modeled by an OETPN, so in their turn some tokens

can be OETPNs too. This leads to construction of OETPNs that include and move other OETPNs, all of them being capable to intercommunicate. They can take (receive) information from or

send information to their environment. Allowing the distributed implementation, OETPN models can implement the information transfer and the task migration. The conceived models can

describe the object dynamical creation and destruction. Some transition guards and mappings are used to control the flow of the executions, to assess the model states and to implement the

information transformation. All the OETPN places have assigned types that allow the setting of passive or active objects. An algorithm to execute the OETPN models is provided with some

examples of application for concurrent distributed developments.

Quantum Petri Nets Call name:
2021 - 2055

Role in this project: Key expert

Coordinating institution: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA

Project partners: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA ()

Affiliation: UNIVERSITATEA TEHNICA DIN CLUJ - NAPOCA ()

Project website: https://github.com/dahliajanabi/QPN

Abstract:

The development of quantum software applications requires models capable to describe quantum features (superpoosition, entanglement, reversibility etc.) as well as the software algorithm requirements. The newly proposed Quantum Petri Nets

(QPNs) have the structure of the classical Petri Nets (PNs), but their tokens represent superposed quantum states fulfilling the Hilbert space features. Instead of the integer numerical values

of the PN marking, QPNs use quantum marking describing an extreme huge space. New conditions for the transition enabling and new mappings for the transition executions are conceived. A

PN based language is used for the structure analysis. Replacing the classical tokens with the probability distribution of the quantum vectors, the QPN simulation is possible as well as

the construction of a reachability graph.

FILE DESCRIPTION	DOCUMENT
List of research grants as project coordinator or partner team leader
Significant R&D projects for enterprises, as project manager
R&D activities in enterprises
Peer-review activity for international programs/projects