Conferences Links
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- Introduction
- Author Kit
- Submissions
- CFP
- Welcome
- Why MIC-Telecom 2025?
- Dates

Welcome to MIC-Telecom 2025 |
Welcome to the
4th Mosharaka International Conference on Telecommunication Systems and Networks (MIC-Telecom 2025). This event is intended to represent a major forum for researchers, professionals and students from all over the world to meet in hybrid mode (remotely or onsite) in in the beautiful and culturally rich city of Irbid in Jordan to present their latest research results and to exchange new ideas and practical experiences.
ScopeMIC-Telecom 2025 main scope includes, but is not limited to the following areas: Communication Network Theory; Communication System Theory; Electromagnetics, Microwaves, Antennas and Propagation; Spread Spectrum Communications; Information Theory and Coding; Optical Communication Systems and Networks; Wireless Communication Systems and Networks; Communication Circuits and Sub-Systems; Consumer Communications and Electronics; Communications Software and Services; Satellite Communication Systems; Vehicular Communication Systems; Communication System Security and Privacy; Underwater Communication Systems; Signal Processing for Communications; Simulation of Communication Systems; UAV Communication Systems; Quantum Communication Systems; MIC-Telecom 2025 is planned to feature special sessions, keynote talks and tutorial sessions by leading experts, paper presentations, poster shows, demo shows, discussion panels, as well as other interesting technical activities.
JordanComing to Jordan represents a unique opportunity to witness the embrace of history and future. As small in area as it is, Jordan has a rich history spanning thousands of years, a history that a tourist can only admire. Places like Petra and the Dead Sea are only examples of the many one-of-a-kind places to visit in Jordan. On top of all that, Jordan, as a peaceful country in a turbulent area, enjoys extreme levels of safety and security. Jordanian people are internationally known for generosity, hospitality and cultural awareness and tolerance. |
MIC-Telecom 2025 Tracks |
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Why Take Part in MIC-Telecom 2025? |
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Enjoy attending MIC-Telecom 2025 at Seven Days Hotel, in Irbid, Jordan. |
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Enjoy moderate registration fees. Based on the user contribution index (UCI), proportionate registration discounts apply. |
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Have the possiblity to extend and publish your conference papers with some of the top journal publishers. |
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Only full paper submissions are allowed at all our conferences. No summary or abstract submissions are allowed. Conference topic coverage includes the most current and exciting fields of knowledge and research. |
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Papers can be accepted to our conferences only after rigorous peer reviewing. |
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Our outstanding reviewing process is facilitated by careful selection of technical program committee members from among the best international experts. Each submitted paper is subject to no less than three peer reviews before it can be considered for acceptance. |
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Published papers of MIC-Telecom 2025 are indexed by Google Scholar. More indexing is on the way. |
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At each congress, and based on paper review scores, the paper with the highest scores receives the Best Paper Award. This is an award to which only presented papers are eligible. The best paper award is usually delivered to the presenter of the winning paper at the main conference dinner. |
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MIC-Telecom 2025 Dates |
MIC-Telecom 2025 Days |
Friday - Sunday: 15-17 August 2025 (Hybrid Mode) |
Full Paper Submission Deadline |
Saturday, 7 June 2025 |
Author Notifications |
Saturday, 21 June 2025 |
Final Paper Submissions Deadline |
Tuesday, 1 July 2025 |
Registration Deadline |
Tuesday, 1 July 2025 |
Registration Cancellation Deadline |
Monday, 7 July 2025 |
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MIC-Telecom 2025 Author Kit |
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MIC-Telecom 2025 Submissions |
NetTheo Communication Network Theory
| CommTheo Communication System Theory
| Electromagnetics Electromagnetics, Microwaves, Antennas and Propagation
| SpreadSpectrum Spread Spectrum Communications
| InfoTheo Information Theory and Coding
| Optical Optical Communication Systems and Networks
| Wireless Wireless Communication Systems and Networks
| SubSystems Communication Circuits and Sub-Systems
| Consumer Consumer Communications and Electronics
| Software Communications Software and Services
| Satellite Satellite Communication Systems
| Vehicular Vehicular Communication Systems
| Security Communication System Security and Privacy
| Underwater Underwater Communication Systems
| SigPro Signal Processing for Communications
| Simulation Simulation of Communication Systems
| UAV UAV Communication Systems
| QuantComm Quantum Communication Systems
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MIC-Telecom 2025
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Are you preparing a paper to submit to MIC-Telecom 2025?
If so, please help the organizing committee make good predictions about the potential size of MIC-Telecom 2025 participation. To do so, please indicate your plan to submit a contribution by clicking here. This does not imply any commitment on your side. Kindly note that clicking the above link does not involve submission of any contribution. |
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MIC-Telecom 2025 Call for Papers |
WelcomeWelcome to the 4th Mosharaka International Conference on Telecommunication Systems and Networks (MIC-Telecom 2025). This event is intended to represent a major forum for professors, students, and professionals from all over the world to meet in the beautiful and culturally rich city of Irbid in the period 15-17 August 2025 (Hybrid Mode) to present their latest research results, and to exchange new ideas and practical experiences in the most up-to-date areas of this exciting field.
Coming to Jordan represents a unique opportunity to witness the embrace of history and future. As small in area as it is, Jordan has a rich history spanning thousands of years, a history that a tourist can only admire. Places like Petra and the Dead Sea are only examples of the many one-of-a-kind places to visit in Jordan. On top of all that, Jordan, as a peaceful country in a turbulent area, enjoys extreme levels of safety and security. Jordanian people are internationally known for generosity, hospitality and cultural awareness and tolerance. Technical Sponsorship
SubmissionsThe types of articles that will be considered for publication include case studies, reviews, as well as theoretical and empirical research. Only papers with top technical quality will be accepted; a fact that is assured by a world-class technical program committee (TPC) and a thorough and rigorous peer review process. All submitted manuscripts are peer reviewed, and acceptance/rejection decisions are based mainly on the importance, originality, clarity, and contribution of the submission to knowledge in the scope of MIC-Telecom 2025.
Accepted Papers
Accepted papers must be presented at the conference to be included in the official proceedings and in the online paper database. Unpresented papers lose status of belonging to the conference in any way, and cannot be considered for any possible post-conference collaboration with any other party.
Registration Fees
Regular Registration (up to two papers) |
€400 |
Regular Registration (over two papers) |
€100/Paper |
Student Registration (up to two papers) |
€200 |
Student Registration (over two papers) |
€50/Paper |
Non-author Registration |
€100 |
All Registrations After Registration Deadline |
Add 25% |
Above amounts are clean payments. All money transfer fees and commissions are to be paid by registrants.
Registration fees are per person. Reigstrants are welcome to all conference sessions, and they receive the following:
- conference kits,
- pass for conference dinner.
In all paper registrations, the discount percentage of registering author applies. |
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Dates
Submission Deadline |
7 June 2025 |
Author Notifications |
21 June 2025 |
Final Papers |
1 July 2025 |
Topics
- Access Network Design
- Communication Networks Planning
- Computer Networks
- Energy-Aware Networking
- Graph and Network Visualization
- Information Theoretic Network Analysis
- Internetworking
- Network Architectures and Models
- Network Coding
- Network Computing
- Network Configuration Management
- Network Information Theory
- Network Optimization and Tuning
- Network Protocols and Standards
- Network Switching and Routing
- Network Traffic Modeling
- Probabilistic Network Modeling
- Self-Organizing and Re-Configurable Networks
- Sustainable Networking
- Communication Channels
- Adaptive Modulation Techniques
- Bandwidth Efficient Modulation
- Digital Modulation Techniques
- Power Efficient Modulation
- Signal Demodulation and Decoding
- Channel Capacity Studies
- Channel Characterization and Modeling
- Channel Equalization
- Channel Estimation
- Joint Source-Channel Coding
- Coding Theory
- Information Theory
- Multicarrier Communication Systems
- Multiple Access Techniques
- Multiuser Detection
- MIMO Wireless Communications
- Massive MIMO Systems
- Communication Resource Allocation
- Synchronous Communications
- Electromagnetic Theory
- Wave Propagation
- Waveguides and Waveguiding
- Dielectric Waveguides
- Applied Electromagnetics
- Radio Wave Propagation
- mmWave and THz Design
- Integral Equations in Electromagnetics
- Magnetic Properties of Materials
- Electromagnetic Fields and Forces
- Magnetic Induction and Permeability
- Magnetization
- Demagnetizing Fields
- Maxwell’s Equations
- Electromagnetics Computations
- Finite Element Analysis
- Finite Difference Time Domain Methods
- Differential Equations in Electromagnetics
- Finite Element Modeling
- Method of Moments
- Transmission Line Modeling
- Fast and Efficient Computational Methods in Electromagnetics
- Optimization Techniques in Computational Electromagnetics
- Modeling of Complex Media
- Electromagnetics Simulation Tools
- Genetic Algorithms in Computational Electromagnetics
- Multi-Objective Optimization in Computational Electromagnetics
- Evolutionary Programming in Computational Electromagnetics
- Particle Swarm Optimization in Computational Electromagnetics
- Electromagnetic Compatibility
- Electromagnetic Compatibility Standards and Regulations
- Electromagnetic Compatibility Measurements
- Electromagnetic Compatibility Legal Issues
- Man-Made Noise Effects in Electromagnetic Compatibility
- Interference Effects in Electromagnetic Compatibility
- Shielding, Gasketing and Filtering
- Low Frequency Electromagnetic Compatibility
- Electromagnetic Compatibility Planning and Testing
- Wireless Coexistence
- Smart Grid Electromagnetic Compatibility
- Power Electronics Electromagnetic Compatibility
- Electromagnetic Compatibility in Unmanned Aircraft Systems
- Electromagnetic Compatibility in Aeronautics and Space Systems
- Antennas
- Smart Antennas
- Microwave Electronics
- Microwave Engineering
- Microwave Switches
- Transmission Lines
- Distributed Parameter Networks
- Heterojunction Bipolar Transistors
- Microwave Measurements
- Radar Antenna Systems
- Passive Microwave Components and Circuits
- Active Microwave Components and Circuits
- Radio Channel Sounding
- Microstrip Resonators
- Microstrip Antennas
- Periodic Structures
- Ferrite and SAW Components
- Superconducting Components and Technology
- Microwave-Optical Design
- Optical Fibers
- High Power Electromagnetics
- UWB Antennas and Arrays
- Optical Spread Spectrum Systems
- Spread Spectrum for Fading Channels
- Spread Spectrum Communications
- Hybrid Spread Spectrum Systems
- Code Division Multiple Access Systems
- Multiuser Information Theory
- Direct Sequence Spread Spectrum
- Frequency Hopping Spread Spectrum
- Multicarrier Spread Spectrum
- Detection of Spread-Spectrum Signals
- Spreading Code Sequences
- Coded Spread Spectrum
- Acquisition of Spreading Sequences
- Spreading Code Synchronization
- Multiuser Detection of Spread Spectrum Signals
- Error Control Coding
- Space-Time Coding
- Channel Coding
- Block Coding
- Convolutional Coding
- Source Coding
- Joint Source-Channel Coding
- Low Density Parity Check Coding
- Information Theory and Coding
- Reed-Solomon Codes
- Viterbi Decoding Algorithm
- Codecs and Compression Systems
- Channel Capacity Studies
- Mean Ergodic Theorems
- Cryptography and Data Security
- Game Theory
- Network Coding
- Distributed Source Coding
- Signal Encryption and Decryption
- All-Optical Communication Networks
- Optical Fiber Communication Systems
- Optical Modulation Techniques
- Passive Optical Networks
- Free-Space Optical Communications
- Radio over Fiber Systems
- In-Building Optical Networks
- Wavelength Division Multiple Access
- Optical Network Architectures and Services
- Optical Transport Networks
- Optical Switching and Interconnection
- Optical Network Applications and Services
- High-Speed Transmission System Experiments
- Design and Fabrication of Optical Fibers
- Optical Propagation Effects
- Dispersion Effects in Optical Fibers
- Optical Network Virtualization and Programmability
- Optical Network Performance Modeling
- Optical Networks Standardization and Economic Comparisons
- Optical Networks with Heterogeneous/Mixed Traffic
- Optical Network Planning and Design
- Optical Network Control and Management
- Optical Network Security
- Optical Network Testbeds and Demonstrations
- Hybrid Fiber Wireless Networks
- Elastic Optical Networks
- Cross-Layer Design of Optical Networks
- Energy Efficient Optical Networks
- Visible Light Communications
- Optical Fibers
- Wireless Ad hoc Networks
- Mobile IP
- Wireless Communication Networks
- Wireless Communication Systems
- Wireless Access Techniques
- 3G Systems and Beyond
- Adaptive Modulation Techniques
- MIMO Wireless Communications
- Spread Spectrum for Fading Channels
- Personal Area Networks
- Ultra-Wideband Communications
- Mobility Modeling and Management
- Wireless Sensor Networks
- Wireless LANs and PANs
- Wireless Mesh Networks
- Cellular Communication Networks
- Vehicular Communication Networks
- Next Generation Wireless Networks
- Software-Defined Radio
- Interference Modeling and Mitigation
- Cognitive Radio Systems
- Localization Techniques
- Broadband Access Technologies
- Physical Layer Design
- Advanced Relay Architectures
- Wireless and Mobile Network Security
- Physical Layer Related Network Issues
- 5G/B4G Cellular Networks
- Emerging Wireless and Mobile Applications
- Energy Harvesting in Heterogeneous Networks
- Femtocell and Picocell Networks
- Orthogonal Frequency Division Multiplexing
- Machine-to-Machine Communications
- Device-to-Device Communications
- Heterogeneous and Small-Cell Networks
- Reconfigurable Wireless Networks
- Opportunistic Wireless Networks
- Green Wireless Networks
- Social Wireless Networks
- Radio Frequency Identification (RFID)
- Analog Communication Circuits
- Radio Frequency Subsystems
- Circuit Noise Analysis
- Integrated Circuits
- Computer-Aided Circuit Design
- Phase Lock Loops and Frequency Synthesizers
- Nonlinear Communication Circuits
- Digital Television Systems
- High Definition TV Systems
- Electronic Circuit Design
- Application-Specific Integrated Circuits
- Low-Power Wireless Communications
- Switched Capacitor Filters
- Device and Circuit Testing
- Optoelectronic Circuits
- FPGA Design and Implementation
- Low-Noise Devices and Techniques
- Network-on-Chip
- UWB Circuits
- Power Amplifiers for Audio Applications
- Radio Frequency Identification (RFID)
- Remote Sensing
- Home Networking
- Robotic Systems
- Nano Electronics
- Home Entertainment
- Electronic Game Systems
- Handheld and Wearable Computing
- Digital Television Systems
- 3D Video Systems
- Internet Appliances
- High Definition TV Systems
- Audio-Visual Systems
- Driver Assistance Systems
- End-to-end QoS Provision
- Performance Evaluation of Multimedia Services
- Software as a Service
- Mobile Applications and Application Stores
- Social Networking and Communication Services
- Mobile Services and Service Platforms
- Service Integration and Internetworking
- Service Delivery Platforms
- Middleware Support for Mobile Computing
- Next Generation Communication Services
- Service Oriented Computing
- Home Network Services
- Vehicular Communications Software
- Peer-to-Peer Technologies for Communication Services
- Communication Channels
- Error Control Coding
- Wave Propagation
- Communications Software
- Earth-Space Communications
- Channel Coding
- Block Coding
- Galaxy-Scale Satellite Communications
- Source Coding
- Low Density Parity Check Coding
- Synchronous Communications
- Communication Networks
- Time Division Multiple Access Systems
- Code Division Multiple Access Systems
- Differentially Coherent Detection
- Satellite Antennas
- Demand Assignment Multiple Access
- IP over Satellite
- Software-Defined Satellite Networks
- Ultra-high Density Satellite Networks
- Satellite Access Networks
- Network Flow Virtualization for Satellite Networks
- 5G-Satellite Integration
- QoS and Radio Resource Management
- Security for Satellite Networks
- Hybrid Satellite/Terrestrial Networks
- Transport Protocol Performance over Satellite
- Satellite Communications for UAVs
- High Throughput Satellites
- Antenna Technologies for Vehicular Networks
- Communication Architectures for Vehicular Applications
- Data Dissemination in Vehicular Networks
- Future Vehicular Communications
- Propagation Models for Vehicular Networks
- QoS Management for Vehicular Networks
- Quality of Service in Vehicular Networks
- Security and Privacy in Vehicular Networks
- Vehicular Ad Hoc Networks
- Vehicular Communication Networks
- Vehicular Communications (V2V, V2X) Based on 5G
- Vehicular Communications Platforms and Testbeds
- Vehicular Communications Software
- Vehicular Network Protocols
- Vehicular Sensor Networks
- Vehicular Telematics
- Vehicular Traffic Coordination
- Vehicular Video-on-Demand
- 5G&Beyond Physical Layer Security
- Body Area Network Security
- Cross-Layer Network Security
- FSO Security and Privacy
- Multimedia Network Protection, Privacy, and Security
- Network Security and Privacy
- Optical Network Security
- Physical Layer Security
- Security and Privacy in IoT
- Security and Privacy in Sensor Networks
- Security and Privacy in Vehicular Networks
- Security for Satellite Networks
- Security in Powerline Communications
- Security of Peer-to-Peer and Overlay Networks
- Security of Personal Communication Systems
- Security, Privacy and Trust in 6G
- Signal Processing for Communication Security
- Wireless and Mobile Network Security
- Resource Allocation in Underwater Communications
- Simulation of Underwater Communications
- Underwater Acoustic Communications
- Underwater Channel Models
- Underwater Communication Networks
- Underwater Communication Standards
- Underwater Optical Wireless Communications
- Underwater Sensor Network Deployment
- Underwater Sensor Networks
- Underwater Channel Estimation
- Channel Estimation
- MIMO Wireless Communications
- Multicarrier Communication Systems
- Multimedia Signal Processing
- Spread Spectrum Communications
- Software-Defined Radio
- Code Division Multiple Access Systems
- Cognitive Radio Systems
- Adaptive Antennas and Beamforming
- Synchronization and Timing Recovery
- Algorithms and Applications on FPGAs
- Signal Processing for Green Communications
- Smart Grid Signal Processing
- Compressive Sensing
- Signal Processing for Sensor Networks
- Signal Processing for Optical Communications
- Statistical Signal Processing
- Signal Processing Techniques in 5G Communications
- Interference Cancellation Techniques
- Channel Equalization
- Signal Demodulation and Decoding
- Signal Processing for the Internet of Things
- Signal Processing for Communication Security
- Signal Processing for Nano Communications
- Signal Processing for mmWave and THz Communications
- VLSI Circuits and Systems for Communications
- ASIC Circuits and Systems for Communications
- FPGA Circuits and Systems for Communications
- Signal Processing for Power Line Communications
- Cognitive Communications Network Simulation
- Communication System Simulation
- Comparison of Network Simulators
- Electromagnetics Simulation Tools
- Digital Circuit Simulation
- Large-Scale Network Simulation
- Network Modeling and Simulation
- Network Simulators
- Simulation of Photonic Devices
- Wireless Network Simulation
- Wireless Sensor Network Simulators
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