Dr. Deepthi Mariam John

Assistant Professor

Department of Electronics and Communication Engineering, 

CMR Institute of Technology, Bangalore

email id: deepthi.m@cmrit.ac.in

Qualification: 

• Ph.D (Antenna Engineering), Manipal Institute of Technology, Manipal

• M.E. (Communication Systems), Anna University, Chennai

• B.E. (Electronics and Communication Engineering, Anna University, Chennai

Areas of Interest in Teaching:

 Basic Electronics, Electronic Devices and Circuits, Analog and Digital Communications, Electromagnetic Wave Theory, Microwave and Antennas.

Areas of Research:

 Microwave and Antennas, Smart Wearables, Metamaterials.

Publications and Patents:

Patent:

 1) A DUAL-BAND FLEXIBLE ANTENNA FOR SUB-6 GHz WEARABLE AND VEHICULAR APPLICATIONS WITH HIGH GAIN PERFORMANCE. 

Application Number: 202541032107

2) Smart Adaptive Energy Harvesting Footwear

Application Number: 202541127375

Journal Publications: 

• John, D. M., Vincent, S., Pathan, S., Shinde, K. D., Supreetha, B. S., & Ali, T. (2025). Eight-element flexible MIMO antenna based on characteristics mode theory with enhanced channel capacity for sub 6 ghz 5g communications. Results in Engineering, 25, 104208.

• John, D. M., Vincent, S., Pathan, S., & Ali, T. (2024). A compact highly flexible two-element wideband MIMO antenna based on modal analysis for 5G wireless applications. Physica Scripta, 99(7), 075535.

• John, D. M., Vincent, S., Nayak, K., BS, S., Ali, T., Kumar, P., & Pathan, S. (2024). A compact flexible four-element dual-band antenna using a unique defective ground decoupling structure for Sub-6 GHz wearable applications. Results in Engineering, 21, 101900.

• John, D. M., Ali, T., Vincent, S., Pathan, S., Anguera, J., Virdee, B., ... & Puthenveettil Gopi, S. (2025). A dual-band flexible MIMO array antenna for sub-6 GHz 5G communications. Sensors, 25(11), 3557.

• John, D. M., Vincent, S., Pathan, S., Nayak, K. M., & Ali, T. (2024). A wideband highly flexible CPW-fed antenna based on characteristic mode analysis for 5G wireless wearable sensor applications. Results in Engineering, 23, 102412.

• John, D. M., Vincent, S., Nayak, K., BS, S., Ali, T., Kumar, P., & Pathan, S. (2024). A compact flexible four-element dual-band antenna using a unique defective ground decoupling structure for Sub-6 GHz wearable applications. Results in Engineering, 21, 101900.

• John, D. M., Vincent, S., Pathan, S., & Ali, T. (2024). Characteristics mode analysis based wideband Sub-6 GHz flexible MIMO antenna using a unique hybrid decoupling structure for wearable applications. Physica Scripta, 99(3), 035032.

• John, D. M., Vincent, S., Pathan, S., Kumar, P., & Ali, T. (2022). Flexible antennas for a Sub-6 GHz 5G band: a comprehensive review. Sensors, 22(19), 7615.

• John, D. M., Vincent, S., Pathan, S., Boulogeorgos, A. A. A., Anguera, J., Ali, T., & David, R. M. (2024). Eight Element Wideband Antenna with Improved Isolation for 5G Mid Band Applications. Technologies, 12(10), 200.

• John, D. M., Ali, T., Vincent, S., Pathan, S., Bhati, K. P., & Yadav, M. V. (2025). A Modal Analysis-Based Cloud-Shaped Flexible Two-Element CPW-Fed Antenna for 5G Wireless Applications.

• John, D. M., Vincent, S., Pathan, S., & Ali, T. (2024). A DODECAGON SLOTTED CIRCULAR TWO-ELEMENT SUB-6 GHZ FLEXIBLE ANTENNA FOR WEARABLE APPLICATIONS USING MODAL ANALYSIS. Telecommunications and Radio Engineering, 83(10).

• Ghouse, P. S. B., John, D. M., Mane, P. R., Saha, D., Balavalikar Shivarama, S., Pathan, S., ... & Ali, T. (2024). A compact MIMO antenna based on modal analysis for 5G wireless applications. Micromachines, 15(6), 729.

International Conferences: 

• John, D. M., Dongare, A. P., Ali, T., Vincent, S., & Pathan, S. (2024, July). A Modal Analysis Based CPW-Fed Flexible Wideband Antenna for Sub-6 GHz Wearable Technology. In 2024 IEEE INC-USNC-URSI Radio Science Meeting (Joint with AP-S Symposium) (pp. 251-252). IEEE.

• John, D. M., Patel, L., Dongare, A. P., Ali, T., Vincent, S., & Pathan, S. (2024, October). A CPW-Fed Flexble Wideband Antenna Based on Modal Analysis for Sub-6 GHz Wearable Technology. In International Conference on Data-Processing and Networking (pp. 127-136). Singapore: Springer Nature Singapore.

• John, D. M., Ali, T., Vincent, S., Pathan, S., Kumar, P., & Shariff, B. P. (2023, July). Characteristics Mode Analysis Based Dual-Port Sub-6 GHz Flexible Antenna for Surveillance Applications. In 2023 International Telecommunications Conference (ITC-Egypt) (pp. 23-28). IEEE.

• John, D. M., Ali, T., Vincent, S., Pathan, S., & Kumar, P. (2023, July). A Conformal Wideband Antenna for Wearable Applications at Sub-6 GHz: Characteristic Mode Analysis. In 2023 International Telecommunications Conference (ITC-Egypt) (pp. 29-33). IEEE.

• BG, P.S., Kumar, P. and John, D.M., 2025, December. A Wideband RF Integrable MIMO Antenna Operating at 122 Ghz for 6G Wireless Applications. In 2025 13th International Conference on Intelligent Embedded, MicroElectronics, Communication and Optical Networks (IEMECON) (pp. 1-5). IEEE.

Awards:

IEEE AP-S/URSI 2024 Student Travel Grant-General Category (Florence, Italy).

Won Best Paper Award for the paper titled “A CPW-fed flexible wideband antenna based on modal analysis for Sub-6 GHz wearable technology” at ICDPN 2024 (Europe). 

Google Scholar Link:

https://scholar.google.com/citations?user=iw6cAtoAAAAJ&hl=en&oi=ao