Yahya Al-Moliki | Visible Light Communications | Best Researcher Award

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Dr. Yahya Al-Moliki: Visible Light Communications

šŸŒ Dr. Yahya Al-Moliki, born in 1983, a distinguished Yemeni scholar and educator, holds a Ph.D. in Electrical Engineering (Communications) from King Saud University (2019). With a rich teaching history, he serves as an Adjunct Professor at King Saud University, contributing to courses in Engineering Electromagnetics and Electric Circuits. His impactful research spans the realms of Visible Light Communications, Physical-Layer Security, and the Internet of Things. A versatile expert, Dr. Al-Moliki combines academic prowess with industrial experience as an Electronics Engineer at Saba TV Channel. Recognized for his scholarly contributions, he has secured prestigious grants and scholarships, fostering innovation in telecommunications. šŸ“š

šŸŽ“ Qualifications:

Ph.D. in Electrical Engineering, Communications (CGPA 4.79/5), King Saud University, April 2019. Master of Engineering, Communications with distinction (CGPA 3.71/4), University of Malaya, July 2012. Bachelor of Electrical Engineering, Communications & Electronics (Equivalent to 85.39%), Sana’a University, June 2007.

šŸ“š Teaching Experience & Work History:

Current: Adjunct Professor at King Saud University-Muzahimiyah campus, teaching various courses including Electric Circuit I and II, Engineering Electromagnetics, and more. Past roles include Researcher, Assistant Lecturer, and Assistant Lecturer at King Saud University and Taiz University, Yemen, where he taught a range of courses in electrical engineering.

šŸ› ļø Industrial Experience:

Electronics Engineer at Saba TV Channel, where he operated electronic equipment and worked on LAN Networks Engineering.

šŸŽ“ Projects and Grants:

Co-Investigator on projects like “Improving electromagnetic energy harvesting efficiency by using metamaterials/graphene structures.”

šŸ’” Electronic Design Expertise:

Proficient in Digital to Analog & Analog to Digital Converters. Experienced in designing electronic alarm circuits.

šŸ‘Øā€šŸ« Graduate Advising:

Guided MSc. Thesis on Secret OFDM key generation protocol for indoor VLC networks.

šŸ‘Øā€šŸŽ“ Undergraduate Advising:

Supervised graduation projects like “Chaotic Physical-Layer Encryption for Optical OFDM-Based VLC systems.”

šŸ† Scholarships and Rewards:

Received a grant of USD 9000 as a scientific publication reward from the College of Engineering Research Center at King Saud University. Secured scholarships for Ph.D. and Master’s degrees in Saudi Arabia and Malaysia, respectively.

šŸ”¬ Current Research Interest:

Internet of Things (IoT), Visible Light Communications (VLC), Physical-Layer Security (PLS), Encryption, Spatial Modulation, Optical Orthogonal Frequency Division Multiplexing (OOFDM), Machine Learning for Wireless Communications.

Professional Profiles:

The impact of her research is evident in citation metrics and indices from Google Scholar:

  • Cited by: All ā€“ 158.
  • Citations ā€“ 102.
  • h-index ā€“ 7.
  • Documents ā€“ 18.

A prolific researcher making meaningful contributions to the academic world!

Research Focus:

šŸ”’ Dr. Yahya Al-Moliki is a pioneering researcher in the field of Visible Light Communications (VLC), specializing in Physical-Layer Security. With a notable publication record, he has contributed significantly to the development of encryption protocols for OFDM-based VLC systems, defending against known/chosen plaintext attacks. His work encompasses robust key generation, hyperchaotic baseband frequency hopping, and lightweight channel-independent encryption methods. Driven by a passion for securing VLC networks, his research emphasizes the importance of confidentiality and availability. His innovative contributions extend to the application of chaos-based encryption and the performance evaluation of key generation in VLC networks. šŸŒšŸ”šŸ“Š

Publications Top Note:

 

 

Nanophotonics & Nanoelectronics

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Introduction of Nanophotonics & Nanoelectronics

Nanophotonics and nanoelectronics research are at the forefront of cutting-edge technology, exploring the fascinating world of materials and devices at the nanoscale. These fields harness the unique properties of nanomaterials to create ultra-compact and high-performance photonic and electronic components, promising breakthroughs in information processing, communication, and sensing.

Plasmonics for Data Transmission šŸŒ:

Investigate how plasmonic nanomaterials enable faster data transmission in optical communication systems, revolutionizing internet speeds and connectivity.

Quantum Dot Displays šŸ–„ļø:

Explore the development of quantum dot-based displays for vibrant, energy-efficient, and high-resolution screens in electronics, including TVs and smartphones.

Nano-Scale Sensors šŸ“”:

Delve into the creation of nanosensors that can detect and monitor environmental factors, enabling real-time data collection for various applications, from healthcare to environmental monitoring.

2D Materials for Electronics āš”:

Investigate the use of two-dimensional materials like graphene and transition metal dichalcogenides (TMDs) to create ultra-thin, flexible, and high-performance electronic components.

Photonic Integrated Circuits šŸŒˆ:

Explore the design and fabrication of photonic integrated circuits that can process and transmit data using light, promising advancements in computing and telecommunications.