Moris Behnam, Professor

Moris Behnam is a professor in computer science with focus on Cyber Physical Systems. He has awarded a B.Eng., and M.Sc. in Computer and Control Engineering at the University of Technology, Iraq, and also MS.c., Licentiate, and PhD in Computer Science and Engineering at MDH, Sweden, in 1995, 1998, 2005, 2008 and 2010 respectively.

Moris has been a visiting researcher at Wayne State University, USA in 2009 and he  has been a Postdoctoral Researcher at University of Porto in 2011. His research interests include real-time scheduling,  multicore/multiprocessor systems, distributed embedded real-time sysems, industrial cloud computing,  internet of things and smart automation.

PhD students supervised as main supervisor:

Enxhi Ferko
Shamoona Imtiaz
Václav Struhár

PhD students supervised as assistant supervisor:

Jakob Danielsson
Matthias Becker (former)
Meng Liu (former)
Mohammad Ashjaei (former)
Nandinbaatar Tsog (former)
Nima Khalilzad (former)
Rafia Inam (former)
Sara Afshar (former)

MSc theses supervised (or examined):
Thesis TitleStatus
EXPLORING ISOLATION OF HARDWARE RESOURCES USING HYPERVISORS available
Admission control in a heterogeneous software defined network in progress
Investigate and Evaluate the Functionalities of FloodLight and POX SDN Controllers in progress
Investigate the Challenges of real-time heterogeneous networks in progress
Automated orchestra for industrial automation finished
Battery Sensory Data Compression for Narrow Bandwidth IoT Protocols: An Investigation finished
Communication mechanisms among instances of a many-core real-time system finished
Comparative evaluation of virtualisation technologies in cloud finished
COMPARISON OF BUDGET BORROWING AND BUDGET ADAPTATION IN HIERARCHICAL SCHEDULING FRAMEWORK finished
Data Distribution Service for Industrial Automation finished
DESIGN AND PROTOTYPIC IMPLEMENTATION OF A RELIABLE AND SECURE BUS SYSTEM IN AN INDUSTRIAL CONTEXT finished
Dynamic Load Generator: Synthesising dynamic hardware load characteristics finished
Enabling Data Sharing with DDS On Real-time Constrained Industrial Robots finished
Evaluating the functionality of an Industrial Internet of Things system in the Fog finished
Evaluation of a Hypervisor Performance in a Distributed Embedded System finished
Evaluation of OKL4 finished
Evaluation of prerequisites for an IPv4 to IPv6 transition finished
Extending FTT-SE Protocol for Multi-Master/Multi-Slave Networks finished
Hierarchical Scheduling and Feedback Control finished
IMPLEMENTATION AND TUNING OF A WATER CLEANING PROCESS IN A COMPUTER BASED CONTROL SYSTEM ACCORDING TO GIVEN DESIGN RULES finished
Implementation of the Virtual Clustered-based Multiprocessor Scheduling in the Linux Kernel finished
Improving a Hardware-based Real-time Kernel finished
Industrial control systems on multicore finished
Investigating cache behaviour of feature detection algorithms finished
On Hierarchical Scheduling in VxWorks finished
RealTime Control in Industrial IoT finished
Resource based analysis of Ethernet communication between software partitions finished
Resource Virtualization for Real-time Industrial Clouds finished
SysMon – A framework for monitoring and measuring real-time properties finished
Valgrind for OSE finished
Implementing resource sharing under virtual cluster-based multiprocessor scheduling on-hold
Mode Management in Automotive Embedded Systems on-hold