Tag: Miteshbhai Solanki

Doctorate Miteshbhai Solanki: Assistant Professor at Marwadi University, Rajkot India

Dr. Mitesh S. Solanki is an Assistant Professor in the Department of Information and Communication Technology at Marwadi University, Rajkot, Gujarat. He holds a Ph.D. in Electronics and Communication Engineering from Sardar Vallabhbhai National Institute of Technology, Surat, with a specialized focus on Signal Processing and Massive MIMO Detection for next-generation wireless communication systems. His primary research interests include Signal Detection and Estimation Techniques, User-Centric Architectures, and 5G/6G Communication Systems, with a strong emphasis on low-complexity algorithms and energy-efficient solutions. With a rich academic background and over a decade of teaching experience, Dr. Solanki has actively contributed to research projects, including innovations in smart IoT devices, wireless communications, and healthcare technology. He has also authored several high-impact publications and holds multiple patents. His ongoing work is supported by national funding agencies, such as the University SEED Grant, and spans both theoretical and applied aspects of electromagnetic theory and signal processing.

Online Profiles

ORCID Profile

Dr. Solanki maintains a strong presence on various academic and professional platforms, where he shares his research findings, teaching activities, and collaborations.

• LinkedIn: Mitesh Solanki – Connect with Dr. Solanki for insights on 5G/6G technologies, Signal Processing, and IoT innovations.

• ResearchGate: Mitesh Solanki – Explore his publications and collaborative research in the field of Wireless Communication and Electronics Engineering.

• Google Scholar: Mitesh Solanki – Access Dr. Solanki’s most-cited papers, including his work on Massive MIMO detection and low-complexity algorithms.

Education

Dr. Solanki’s academic journey spans both undergraduate and postgraduate levels, culminating in a Doctor of Philosophy (Ph.D.) from Sardar Vallabhbhai National Institute of Technology, Surat, in 2023, where he focused on Signal Detection Schemes for Massive MIMO Systems. His doctoral research introduced Conjugate Gradient-based Detection algorithms designed to improve the performance and efficiency of Massive MIMO systems, a crucial technology for 5G and beyond communications. He completed his Master of Engineering in Electronics and Communication Engineering from Marwadi Education Foundation’s Group of Institutions, affiliated with Gujarat Technological University, in 2013. During his undergraduate studies at Government Engineering College, Rajkot, he earned a Bachelor of Engineering degree in Electronics and Communication Engineering in 2011, where his foundation in signal processing and communication systems was solidified. This educational background has provided Dr. Solanki with the knowledge and skills to engage in cutting-edge research and contribute to both academic and applied technological advancements.

Research Focus

Dr. Solanki’s primary research revolves around Signal Processing for Massive MIMO Systems and the development of low-complexity detection algorithms tailored for emerging wireless communication technologies. His research has significant implications for 5G/6G network architecture, particularly in Massive MIMO detection and channel estimation, aiming to enhance spectral efficiency and energy efficiency. He has contributed to the design and optimization of algorithms that reduce computational complexity while maintaining robustness in signal detection across a wide range of wireless communication environments. Beyond Massive MIMO, Dr. Solanki is also exploring user-centric architectures and innovative solutions for next-generation communication networks such as IoT and smart cities. His work also extends to healthcare technologies, where he is involved in projects related to non-invasive cancer detection and the design of intelligent systems for health monitoring. This multidisciplinary approach has led to numerous patents and research papers that advance both theoretical knowledge and practical applications.

Experience

Dr. Solanki’s academic career spans more than a decade, with roles at both Marwadi University and other institutions. Since April 2022, he has been serving as an Assistant Professor at Marwadi University, Rajkot, where he actively engages in teaching, research, and curriculum development in the Information and Communication Technology department. His teaching interests include Signal Processing, Wireless Communication, 5G/6G Networks, and Embedded Systems. From October 2021 to March 2022, Dr. Solanki worked as a Program Associate at Gujarat Student Startup and Innovation Hub (i-Hub), where he contributed to the management of innovation programs, offering support and guidance to emerging startups. Earlier, he worked as an Assistant Professor at Gujarat Technological University (2015–2016) and a Teaching Assistant at Government Engineering College, Rajkot (2013–2014), where he gained valuable experience in student mentoring, lab instruction, and academic research. His professional journey has been marked by a focus on academic development and innovation, both in teaching and in research collaboration.

Research Timeline

• 2024–2025: Currently leading the University SEED Grant project on cost-effective breast cancer detection using Ultra-Wideband Microwave Imaging and a Sub-6 GHz 5G Antenna for non-invasive diagnostics.

• 2023: Successfully completed the Ph.D. on Conjugate Gradient-based Detection Schemes for Massive MIMO Systems, improving the performance of LTE 5G systems.

• 2022: Actively engaged in funded projects such as Smart Street Lighting in remote Indian villages and the development of IoT solutions for energy harvesting and smart infrastructure.

• 2019–2020: Focused on low-complexity MIMO detection for 5G communications, publishing significant work on training-based channel estimation and conjugate gradient detection.

• 2013–2014: Conducted research in WiMAX MISO Systems, studying adaptive modulation and real-time information transmission, contributing to his Master’s thesis on OFDM PHY Models.

Awards & Honors

Dr. Solanki’s contributions to electronic communication and signal processing have earned him several prestigious accolades. Notably, he holds a patent for a Low-Complexity Detection Scheme in collaboration with Shilpi Gupta (AU2021106228A4), granted by the Australian Government in 2021. His work on Smart Shopping Trolley was recognized with a Design Patent in 2023. Furthermore, he has been awarded the University SEED Grant for his ongoing work on cost-effective breast cancer detection (2024). His innovative projects and research have also resulted in several national project proposals focused on smart cities, IoT applications, and rural infrastructure development, further cementing his reputation as a leader in technology innovation.

Top-Noted Publications

Dr. Solanki has contributed to a range of highly regarded journals and conferences, focusing on Massive MIMO, Signal Processing, and Wireless Communications. Some of his top publications include:

A Novel Intrusion Detection Framework Using Ensemble Learning in MQTT IoT Applications

• Journal: Annals of Mathematics and Artificial Intelligence

• Date: July 16, 2025

• DOI: 10.1007/s10472-025-09993-7

• Contributors: Mitesh Solanki, Shilpi Gupta

• Abstract: This paper introduces an innovative intrusion detection system based on ensemble learning techniques tailored for MQTT IoT applications. The proposed framework aims to enhance security and fault tolerance in IoT networks, specifically targeting vulnerabilities in message queue telemetry transport protocols.

A Robust Massive MIMO Detection Based on Conjugate Gradient Approach

• Book Chapter: Computational Electronics for Wireless Communications

• Date: 2022

• DOI: 10.1007/978-981-16-6246-1_49

• Contributors: Mitesh Solanki, Shilpi Gupta

• Abstract: This chapter presents a robust approach to Massive MIMO detection using the conjugate gradient method. It discusses the efficiency and reliability of this technique, particularly in 5G and beyond communication systems, offering significant improvements in detection performance compared to traditional methods.

Performance Analysis of LAS Algorithm in Massive MIMO with Imperfect CSI

• Book Chapter: Computational Electronics for Wireless Communications

• Date: 2022

• DOI: 10.1007/978-981-16-6246-1_50

• Contributors: Mitesh Solanki, Shilpi Gupta

• Abstract: This chapter investigates the LAS (Least-Angle Shrinkage) algorithm’s performance in Massive MIMO systems under conditions of imperfect channel state information (CSI). The findings highlight the resilience of LAS in handling CSI errors while maintaining high detection accuracy in large-scale MIMO systems.

Training-Based Channel Estimation for Massive MIMO Systems Using LAS Algorithm

• Journal: International Journal of Ultra Wideband Communications and Systems

• Date: 2022

• DOI: 10.1504/IJUWBCS.2022.123423

• EID: 2-s2.0-85133193079

• Contributors: Mitesh Solanki, Shilpi Gupta

• Abstract: This paper presents a training-based method for channel estimation in Massive MIMO systems using the LAS algorithm. It focuses on improving the estimation accuracy by incorporating training sequences that account for both non-linearity and multipath interference in next-generation communication systems.

Robust Conjugate-Gradient Based LAS Detector for Massive MIMO Systems

• Journal: International Journal of Electronics

• Date: May 4, 2022

• DOI: 10.1080/00207217.2021.1941292

• Contributors: Mitesh Solanki, Shilpi Gupta

• Abstract: This paper proposes a robust conjugate-gradient based LAS detector for Massive MIMO systems, designed to address high-dimensional signal detection challenges in large antenna arrays. It provides a detailed analysis of the convergence speed, accuracy, and computational efficiency of the proposed detector under various SNR (Signal-to-Noise Ratio) conditions.

Dr. Mitesh S. Solanki seems to be a highly accomplished researcher and academic in the field of wireless communication, signal processing, and electronics engineering. His extensive contributions to the development of low-complexity detection algorithms for Massive MIMO systems, along with his focus on 5G/6G technologies, smart IoT devices, and healthcare innovations, make him a strong candidate for any prestigious recognition, including an Innovative Researcher Award.

Key Strengths for the Innovative Researcher Award:

1. Groundbreaking Research Contributions:
   Dr. Solanki’s work on Massive MIMO detection, signal processing, and low-complexity detection algorithms is particularly impactful, especially in the context of 5G/6G networks. His Conjugate Gradient-based detection algorithms have notably enhanced the performance of Massive MIMO systems, which are critical for the efficiency and scalability of next-generation wireless communication systems.

2. Multidisciplinary Innovation:
   His ability to bridge multiple domains—such as wireless communications, healthcare technologies, and IoT innovations—is impressive. For instance, his ongoing research on cost-effective breast cancer detection using Ultra-Wideband Microwave Imaging showcases his commitment to applying advanced signal processing techniques to real-world problems, contributing to healthcare technology advancements.

3. Patents and Intellectual Property:
   Dr. Solanki holds patents for his Low-Complexity Detection Scheme and the Smart Shopping Trolley, demonstrating his ability to translate academic research into practical, innovative solutions. These patents further reinforce his eligibility for the award.

4. National and International Recognition:
   His active involvement in funded projects, such as the University SEED Grant for breast cancer detection, as well as his publications in top journals and conferences, demonstrate the broad impact of his work. His contributions to smart city initiatives and IoT-based rural infrastructure highlight his ability to address pressing societal issues.

5. Teaching and Mentorship:
   With over a decade of teaching experience at prominent institutions like Marwadi University and Gujarat Technological University, Dr. Solanki is also contributing to the next generation of engineers and researchers. His active involvement in curriculum development and research mentorship enhances his standing as an influential figure in academia.

6. Publications and Collaborations:
   Dr. Solanki’s consistent publication record in respected journals like the Annals of Mathematics and Artificial Intelligence, International Journal of Electronics, and the International Journal of Ultra Wideband Communications speaks volumes about his dedication to advancing the field of electronics and communications. His collaborations with peers, such as Shilpi Gupta, also underline the collaborative and innovative nature of his research.