Sameh Shawky Ibrahim Hosny

I am a dedicated professional educator with extensive experience in academia, committed to engaging students and fostering an enriching learning environment. I excel in curriculum development, delivering compelling lectures, and guiding student research projects in advanced fields such as wireless communications, network optimization, and machine learning. With a strong focus on collaboration and adaptability, I consistently achieve educational goals and enhance student outcomes. Known for my effective communication, innovative teaching methods, and unwavering commitment to academic excellence, I strive to inspire and empower the next generation of scholars and industry leaders.

With over a decade of experience in academia and research, I have taught and mentored hundreds of undergraduate and graduate students in wireless communications, FPGA-based systems, and machine learning applications. I have developed comprehensive curricula that combine theoretical foundations with hands-on lab work, ensuring students gain both technical proficiency and problem-solving skills. My dedication to student success is reflected in my supervision of over 50 research projects, many of which have led to conference and journal publications.

My research focuses on wireless communication systems, AI-assisted network optimization, and FPGA-based implementations. I have contributed to more than 20 advanced research and industry projects, developing wireless transceivers, secure communication protocols, and real-time localization technologies. I have also explored machine learning applications in predictive resource allocation, signal classification, and intelligent caching, improving network efficiency and performance. My expertise in hardware acceleration has allowed me to implement AI-driven algorithms on FPGA platforms, optimizing real-time processing in embedded systems and telecommunications. I have over 15 years of experience in software development, specializing in application design, database management, and system optimization using Visual Basic .NET and SQL Servers. My expertise includes developing custom software solutions, automating processes, and optimizing data-driven applications for enhanced efficiency and performance. Additionally, I have a strong background in PCB design and circuit simulation, utilizing multiple platforms to develop and test high-performance electronic systems for wireless communications, embedded systems, and security applications. My ability to integrate hardware, software, and AI-driven techniques has resulted in practical, real-world engineering solutions in wireless communications, cybersecurity, and embedded systems. Committed to academic excellence and technological innovation, I continue to explore machine learning-driven optimizations, secure communication solutions, and next-generation wireless networks, bridging the gap between research and industry advancements.

• Machine Learning: Integrating advanced ML techniques to drive adaptive and intelligent network optimization.
• Wireless Communication: Enhancing the efficiency and reliability of wireless networks.
• Proactive Resource Allocation: Developing strategies to optimize network resources in dynamic environments.
• Content Distribution: Innovating methods for efficient data dissemination and caching.
• Network Virtualization: Exploring solutions for flexible and scalable network management.
• Theoretical Foundations: Applying information theory, game theory, and optimization theory to solve complex communication challenges.

• I have over a decade of teaching experience in electrical and computer engineering, delivering courses at both undergraduate and graduate levels across esteemed institutions. My teaching portfolio includes wireless communications, machine learning, and FPGA-based systems, where I have designed engaging curricula, interactive lab sessions, and hands-on projects to bridge theory with real-world applications. I have taught and mentored hundreds of students, supervised graduate and undergraduate research projects, and provided constructive feedback to enhance student learning outcomes. My commitment to innovative teaching methods and student-centered learning has contributed to improved academic performance, research output, and industry readiness among my students.
• I have over 15 years of experience in hardware implementation of communication system modules using FPGA, successfully leading and developing multiple research projects that bridge theoretical advancements with practical applications.
• I have contributed to multiple wireless communication research projects, focusing on wireless transceiver interfacing, telephony networks, and compliance with industry standards such as V.21, V.24, V.29, and T.4. My expertise includes FPGA-based system integration, working with vocoders, modems, ADC, DAC, UART, I2C, SPI, and PS2 interfaces to enhance communication system performance.4oParticipated in several research projects involving security systems (Data Encryption Systems, Fax Encryption Algorithms, Voice Encryption for VHF communication systems) with a successful implementation of useful corresponding hardware devices.
• I have over five years of experience in software development, specializing in Visual Basic .NET and SQL Servers, where I have successfully designed and implemented multiple applications for diverse engineering and research applications.
• I have over five years of experience in PCB design and circuit simulation, utilizing OrCAD and PSpice software to develop and analyze complex electronic circuits for various applications.

Spring 2025: Mathematical Modeling and Analysis, New Giza University

Spring 2025: Physics II, New Giza University

Spring 2025: Digital Systems Analysis, AASTMT

Spring 2025: Computer Architecture, AASTMT

Spring 2025: Data Analytics and Optimization, AASTMT

Fall 2023: Stochastic Processes and its Applications, Military Technical College
Fall 2021: Stochastic Processes and its Applications, Military Technical College
Fall 2021: Introduction to Information Theory, Military Technical College
Fall 2021: Advanced Statistics, AASTMT
Spring 2021: Operation Research, AASTMT
Fall 2020: Introduction to Information Theory, Military Technical College
Fall 2020: Introduction to Computer Architecture, AASTMT
Summer 2020: Advanced Statistics, AASTMT
Spring 2020: Advanced Statistics, AASTMT
Spring 2020: Principles of Digital Communications, British University in Egypt
Fall 2019: Principles of Computer Programming, Military Tech. Academy
Fall 2019: Operation Research, AASTMT
Fall 2019; Introduction to Mathematics, AASTMT
Spring 2019: Introduction to Game Theory, Nile University
Spring 2019: Introduction to Circuit Theory, Military Techn. Academy
Fall 2018: Fundamentals of Digital Communication, Nile University
Spring 2018: Introduction to Optimization Theory, Nile University
Fall 2017: Fundamentals of Digital Communication, Nile University
Spring 2017: Aeronautical Telecommunication, Military Technical College

• Application of machine learning in D2D caching systems.
• Content dissemination in VANETs.
• Design and implementation of a public safety system.
• Modeling a wireless communication system using GNURadio and USRP.
• Design and implementation of a smart city prototype.
• Design and implementation of LTE physical layer using VHDL.
• Car tracking system using FPGA.
• Image and data security using VB.Net.
• Traffic management system using FPGA.

• Recipient of the scholarship program from the Egyptian government, 2014
• Best Research Award, Technical Research Center, 2008
• Excellent with Honor Award, Military Technical College, 2001

• On the Performance of Mobility-Aware D2D Caching Networks, S. Hosny, A. Eryllimaz, A. Abouzeid, H. Elgamal, Submitted, IEEE Trans. on Networking
• Non-cooperative and Cooperative Caching Schemes for Vehicular Networks, Y. AlNagar, Ramy H. Gohary, S. Hosny, Amr A. El-Sherif, Submitted, IEEE Transactions on Wireless Communications
• Mobility-aware edge caching for minimizing latency in vehicular networks, Y. AlNagar, Ramy H. Gohary, S. Hosny, Amr A. El-Sherif, 2022, IEEE Open Journal of Vehicular Technology
• Joint Contents Valuations and Proactive Caching for Content Distribution Networks, Y. Ahmed, S. Hosny, J. Tadrous, M. Nafie, 2022, 2022 19th IEEE Consumer Communications and Networking Conference (CCNC2021)
• Comparative study of vehicular proactive caching between cellular and VLC networks, M. Gad, T. Ismail, B. Mokhtar, S. Hosny, 2020, Novel Intelligent and Leading Emerging Sciences Conference (NILES), Egypt
• Social-Aware Content Delivery in Low Latency D2D Caching Networks, B. Gabr, B. Soret, P. Popovski, S. Hosny, M. Nafie, 2019, 2019 IEEE Globecom Workshops (GC Wkshps), Waikoloa, HI, USA
• Enhanced Proactive Caching Through Content Recommendation, Y. Ahmed, S. Hosny, J. Tadrous, M. Nafei, M. Ibrahim, 2019, 53rd Asilomar Conference on Signals, Systems, and Computers, Pacific Grove, CA
• Hierarchical Proactive Caching for Vehicular Ad Hoc Networks, M. Gad, S. Hosny, B. Mokhtar, A. El-Sherif, 2019, 2019 Novel Intelligent and Leading Emerging Sciences Conference (NILES). Vol. 1. IEEE, Egypt
• Proactive caching for vehicular ad hoc networks using the city model, Y. AlNagar, S. Hosny, A. El-Sherif, 2019, 2019 IEEE Wireless Communications and Networking Conference Workshop (WCNCW)
• Towards mobility-aware proactive caching for vehicular ad hoc networks, Y. AlNagar, S. Hosny, A. El-Sherif, 2019, 2019 IEEE Wireless Communications and Networking Conference Workshop (WCNCW)
• Content Delivery in Mobility-Aware D2D Caching Networks, B. Gabr, S. Hosny, M. Nafie, 2018, IEEE Global Communications (Globecom) Workshops, Abu Dhabi, UAE
• Implementation for EEA3 algorithm Based on 3GPP Standard, M. Abdrabou, A. Princeand, S. Hosny, 2018, 2018 14th International Computer Engineering Conference (ICENCO)
• Mobility-aware centralized D2D caching networks, S. Hosny, A. Eryilmaz, A. A. Abouzeid, H. El Gamal, 2016, 54th IEEE Annual Allerton Conference on Communication, Control, and Computing, Monticello, IL
• Impact of User Mobility on D2D Caching Networks, S. Hosny, A. Eryilmaz, H. El Gamal, 2016, IEEE Global Communications Conference (GLOBECOM), Washington, DC
• Towards a marketplace for mobile content: Dynamic pricing and proactive caching, S. Hosny, F. Alotaibi, J. Tadrous, A. Erylimaz, H. Elgamal, 2015, arXiv preprint arXiv:1511.07573
• Towards a P2P Mobile Contents Trading, S. Hosny, F. Alotaibi, A. Erylimaz, H. Elgamal, 2015, 49th Asilomar Conference on Signals, Systems and Computers, Pacific Grove, CA
• Towards a mobile content marketplace, S. Hosny, F. Alotaibi, H. El Gamal, A. Eryilmaz, 2015, 16th IEEE Signal Processing Advances in Wireless Communications (SPAWC), Sweden
• A game theoretic approach to content trading in proactive wireless networks, F. Alotaibi, S. Hosny, H. El Gamal, A. Eryilmaz, 2015, IEEE International Symposium on Information Theory (ISIT), Hong Kong
• FPGA Implementation and Performance Evaluation of WCDMA System over AWGN Channel, S. Ibrahim, A. Mahran, A. El-Mahdy, 2009, 26th National Radio Science Conference, Egypt
• Performance Analysis of WCDMA system for LEO Satellite Channel, S. Hosny, A. El-Mahdy, A. Mahran, 2009, 13th International Conference on Aerospace Sciences and Aviation Technology (ASAT), Egypt

• RTOS Basics, Information Technology Industry Development Agency (ITIDA), Cairo, Cairo, Egypt, 2012
• DSP Fundamentals, Cairo University, Cairo, Cairo, Egypt, 2012
• Using Vector Network Analysers, Rohde and Schwarz, Munich, Bavaria, Germany, 2010
• Design Simulation using Matlab, Technical Research Center, Cairo, Cairo, Egypt, 2006
• PCB Circuit Design and Simulation, Technical Research Center, Cairo, Cairo, Egypt, 2005
• Mastering Visual Basic.Net, Information Technology Institute, Cairo, Cairo, Egypt, 2004
• VLSI Design Tools (Digital and Analog), Arab Academy for Science, Technology and Maritime Transport (AASTMT), Cairo, Cairo, Egypt, 2004
• FPGA Systems Design using VHDL, Arab Academy for Science, Technology and Maritime Transport (AASTMT), Cairo, Cairo, Egypt, 2003

Basic Knowledge: Matlab, VHDL, C++, VB.Net, LATEX
Computer Softwares: Microsoft Visaul Studio, Cadence Orcard and PSpice, FPGA Advantage (Mentor Graphics), Xilinx ISE, Altera Quartus, Xilinx Vivado, Autocad, Sketchup

Prof. Hesham ElGamal

Electrical and Computer Engineering, The University of Sydeny

Email: hesham.elgamal@sydney.edu.au

Phone: +1 (614) 292-4374

Prof. Atilla Eryilmaz

Electrical and Computer Engineering, The Ohio State University

Email: eryilmaz.2@osu.edu

Phone: +1 (614) 292-7464

Prof. Ghaith A. Hiary

Dept. of Mathematics, The Ohio State University

Email: hiary.1@osu.edu

Phone: +1 (614) 292-4013

Prof. Sameh Abdullah

CEMSE Division, King Abdullah University for Science and Technology (KAUST)

Email: sameh.abdulah@kaust.edu.sa

Phone: +966 (544) 701-335

Prof. John Tadrous

Electrical and Computer Engineering, Gonzaga University

Email: tadrous@gonzaga.edu

Phone: +1 (509) 313-5749

Prof. Ahmed Solyman

Electrical and Electronic Engineering, Glasgow Caledonian University

Email: ahmed.solyman@gcu.ac.uk

Phone: +44 (749) 247-4954

• Lecturer

• Research Scientist