Muhannad Kamil

Account's

Department

Personal Info

Academic Rank: Lecturer
Language(s): Arabic and English
Place of work: Information Technology Department – College of Computer Science and Information Technology – University of Kerbala.
Contact info:
Address: Iraq, Kerbala – Almudhafeen- (600).

Education

• B.Sc. In Electrical Engineering – (-2005), University of Technology, Department of Electronic & Communication Engineering.
• M.Sc. In Electrical Engineering – (-2014), University of Technology Malaysia , Department of Telecommunication Engineering
• PhD in Telecommunications Engineering: Antenna Design, Electromagnetic Band Gap (EBG) and Control radiation pattern for microstrip antenna – (-2019), University of Technology Malaysia

Position(s) Held

  • Team Leader in Network of Electrical high voltage (11 KV to 0.4 KV ) (AL-Bilal Group Company).
  • RF Optimization and Planning Engineer (ASIACELL Telecommunication.); new sites, LACs, frequency and capacity planning, site survey, final site selection and Technical site survey reporting. Network parameters check and Drive Test (DT), KPI analysis (HSR, CSSR, CDR, paging, LU and utilization ..etc).
  •  Project Manager 2G-GSM Operator (Ericsson Project).
  • Director of Electronic computer center in Kerbala Univercity.
  •  Lecturer in university Teknikal Malaysia (UTeM).
  •  Lecturer in Information Technology Department – College of Computer Science and Information Technology – University of Kerbala

Courses Taught

• G S M communication
• Analog and Digital Communication
• Wireless Communication Systems
• Optical Communications
• Communication & Computer Networks
• Satellite Communication
• Radar & Communication Based System
• Sonar & Acoustic Engineering
• Advanced Digital Communication
• Electronic cct.
• Advanced Microprocessor System.
• Power Electrical
• Advanced Digital Signal Processing
• Internet application
• Antenna Design

Research Interests

Telecommunications Engineering, Electromagnetic Band Gap (EBG) and Control radiation pattern for microstrip antenna.

1- Radiation control of microstrip patch antenna by using electromagnetic band gap International Journal of Electronics and Communications (AEÜ) – 2019 ISI/Scopus(Q2) 2.85
2- Controlling the Radiation Pattern of Patch Antenna Using Switchable EBG TELKOMNIKA(Telecommunication, Computing, Electronics and Control) -2018 Scopus (Q2) 0.28
3- Mushroom-Like EBG to Improve Patch Antenna Performance for C-Band Satellite ApplicationInternational Journal of Electrical and Computer Engineering (IJECE) – 2018 Scopus (Q2) 0.37
4- Radiation pattern control of microstrip antenna in elevation and azimuth planes using EBG and pin diode International Journal of Electrical and Computer Engineering (IJECE) – 2018 Scopus (Q2) 0.37
5- Novel design of triple-band EBG TELKOMNIKA (Telecommunication, Computing, Electronics and Control)-2019 Scopus (Q2) 0.28
6- Review of Radiation Pattern Control Characteristics for The Microstrip Antenna Based On Electromagnetic Band Gap (EBG) Journal of Telecommunication, Electronic and Computer Engineering (JTEC) – 2018 Scopus (Q4) 0.14
7- Improvement of Microstrip Antenna Performance on Thick and High Permittivity Substrate with Electromagnetic Band Gap Journal of Adv Research in Dynamical & Control Systems (JARDCS) – 2018 Scopus (Q4) 0.11
8- Side lobe reduction in array antenna by using novel design of EBG International Journal of Electrical and Computer Engineering (IJECE) – 2020 Scopus (Q2) 0.37
9-Enhanced performance of compact 2× 2 antenna array with electromagnetic band‐gap Microwave and Optical Technology Letters 2019 ISI/Scopus (Q2) 0.98
10- Achieving Fixed Frequency Beam Scanning With a Microstrip Leaky-Wave Antenna Using Double-Gap Capacitor Technique IEEE Antennas and Wireless Propagation Letters – 2019 ISI/Scopus
(Q1) 3.51
11- Control Radiation Pattern for Half Width Microstrip Leaky Wave Antenna by using PIN Diodes International Journal of Electrical and Computer Engineering (IJECE) – 2018 Scopus (Q2) 0.37
12- Design for radiation broadside direction using half-width microstrip leaky-wave antenna array International Journal of Electronics and Communications (AEÜ) – 2019 ISI/Scopus
(Q2) 2.85
13- Electronically controlled radiation pattern leaky wave antenna array for (C band) application TELKOMNIKA(Telecommunication, Computing, Electronics and Control) – 2019 Scopus (Q2) 0.28
14- Enhancement Bandwidth of Half Width-Microstrip Leaky Wave Antenna Using Circular Slots Progress In Electromagnetics Research (PIERS) – 2019 Scopus (Q4) 0.59
15- Enhancement of boresight radiation for leaky wave antenna array TELKOMNIKA(Telecommunication, Computing, Electronics and Control) – 2019 Scopus (Q2) 0.28
16- Novel and active technique for controlling the radiation pattern of the
half-width microstrip leaky wave antenna array International Journal of Electronics and Communications (AEÜ) – 2019 ISI/Scopus
(Q2) 2.85
17- Novel Design and Implementation of MIMO Antenna for LTE Application Journal of Telecommunication, Electronic and Computer Engineering (JTEC) – 2018 Scopus (Q4) 0.14
18- Novel Design of Triple Band Controls the Radiation Pattern for Half Width–Microstrip Leaky Wave Antenna Journal of Adv Research in Dynamical & Control Systems (JARDCS) – 2018 Scopus (Q4) 0.11
19- The Fundamental of Leaky Wave Antenna Journal of Telecommunication, Electronic and Computer Engineering (JTEC) – 2018 Scopus (Q4) 0.14
20- A survey of mmWave user association mechanisms and spectrum sharing approaches: an overview, open issues and challenges, future research trends Wireless Networks – 2019 ISI/Scopus
(Q2) 2.405
21- Hybrid multi-independent mmWave MNOs assessment utilising spectrum sharing paradigm for 5G networks TELKOMNIKA(Telecommunication, Computing, Electronics and Control) – 2019 Scopus (Q2) 0.28
22- Independence and Fairness Analysis of 5G mmWave Operators Utilizing Spectrum Sharing Approach Mobile Information Systems – 2019 ISI/Scopus (Q2) 1.635
23- Joint QoE-based user association and efficient cell carrier distribution for enabling fully hybrid spectrum sharing approach in 5G mmWave cellular networks Wireless Networks – 2019 ISI/Scopus (Q2) 2.405
24- Energy-efficient user association mechanism enabling fully hybrid spectrum sharing among multiple 5G cellular operators.
TELKOMNIKA(Telecommunication, Computing, Electronics and Control) – 2019 Scopus (Q2) 0.28
25- Modeling and simulation of electrolyte pH change in conventional ISFET using commercial Silvaco TCAD 2nd International Conference on Sustainable Engineering Techniques (ICSET 2019). IOP Publishing doi:10.1088/1757899X/518/4/042020 ISI/Scopus Proceeding
26- Performance analysis of high-k materials as stern layer in ion-sensitive field effect transistor using commercial TCAD
TELKOMNIKA(Telecommunication, Computing, Electronics and Control) – 2019 Scopus (Q2) 0.28
27- Impact of Gouy-Chapman-Stern model on conventional ISFET sensitivity and stability
TELKOMNIKA(Telecommunication, Computing, Electronics and Control) – 2019 Scopus (Q2) 0.28
28- Direct Line Routing Protocol to Reduce Delay for Chain Based Technique in Wireless Sensor Network Karbala International Journal of Modern Science- 2020 Scopus (Q2) 0.33
29- A compact UWB FSS single layer with stopband properties for shielding applications Przeglad Elektrotechniczny (Poland )- 2020
Scopus (Q3) 0.21

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