Electronics & Communication Engineering

About the Department Key Strengths of the Department Future Job Prospects HOD's Message Faculty & Staff Members Faculty Achievements Student Achievements Developed Projects Training & Workshops R&D and Research and Publications List of few Recent Notable Alumni Gallery

About the Department

 

"Welcome to the world of “Electronics and Communication Engineering”

The term “Electronics and Communication Engineering” denotes a broad engineering field that covers sub fields such as analog electronics, digital electronics, consumer electronics, embedded systems, communication systems, electromagnetic field theory, antenna design, microwave communication, power electronics, solid state devices, control systems, signal processing, VLSI design and many others. Electronics engineering deals with implementation of applications, principles and algorithms developed within many related fields. The beauty of electronics is it is used everywhere. From electronic goods manufacturer to hospitals, it is implemented in many devices. So, the future for this stream is highly positive. Its implementation is wide spread, and it is almost found in all streams. The microprocessors, mother boards, picture tubes, LED, LCD, mobile handset, camera and TV etc. are various electronic items, and you know about the impact they have created on billions of people and world’s economy. You can be a part of this huge world by getting into ECE at the engineering level. Apart from the electronics, you also have communications in this engineering. It is important in industries like telecommunications, posts & telegraph, defense, etc. The communications department is very crucial for important aspects, like country protection, etc.

                                                                                            Electronics & Communication Engineering is of the largest and fastest growing industries. It covers a wide range of applications we use daily and which make our life easier and enjoyable such as Television, Radio, Computers, and Telecommunications etc. Telecommunication electronics comprises of audio – video system, microwave system, satellite system, mobile radio system, radar system, fiber optics system, computer networking and digital and multimedia telecommunication systems. Electronics communication engineering involves work with fiber optics and telecommunications, television, radio, antenna for modern wireless communication etc. The uses are endless.

                                                                                    No field in the history of mankind has evolved so rapidly as the field of electronics. Some emerging fields of electronics are (i) Li-Fi (ii) Internet of Things (iii) RFID (iv) Outer net (v) Quantum computing (vi) Artificial intelligence (vii) Bio battery (viii) solar tree (ix) 5G System (x) pen pc technology (xi) wearable computing (xii) mobile phone cloning (xiii) polymer memory (xiv) Zig Bee Technology (xv) Artificial Eye (xvi) Brain chips (xvii) Google glass (xviii) 3D integrated circuits (xix) humanoid robot (xx) Multicore processor Technology etc.

                                                                                           The Govt. of India has set up several autonomous organizations, as given below, to address the requirements of different sectors of Electronics in a focused manner: National Informatics Centre (NIC); Centre for Development of Advanced Computing (C-DAC); Computer Maintenance Corporation Ltd.; Standardization, Testing & Quality Certifications (STQC) Directorate; Controller of Certification Authority(CCA); National Centre for Software Technology (NCST); Society for Applied Microwave Electronics Engineering and Research (SAMEER); ERNET Society; DOEACC Society; Centre for e-Governance; Centre for Electronics Design and Technology of India (CEDTI); Semiconductor Complex of India (SCI); Electronics Research & Development Centre of India; ET&T; Electronics and Software Export Promotion Council; Technology Development Council; National Radar Council; National Photonics Council; Electronics Materials Development Council. The Institute of Electrical and Electronics Engineers (IEEE) is one of the most important and influential organizations for electronics engineers.

Key Strengths of the Department

1. Well trained, highly qualified, experienced and supportive faculty members.
2. Fully equipped Laboratories.
3. Practical Electronics based model development by the students of ECE from first year onwards.
4. The students are trained to be user friendly with different software related to ECE (Such as IE3D, HFSS, Circuit Maker, PCB express, Multisim, Matlab etc.)
5.Research based final year projects with research publications in different international journals of repute
6.Organization of Seminar and Workshop to make students familiar with advancement of Technology and gain confidence in technical subjects.
7. Industrial visit followed by industrial training
8. Remedial classes for weak students
9. Assessments of students by timely examination/class test
10. The students are guided by the faculty members according to their interests (ex: Job in IT or any core sector or Higher Studies) from 2nd year onwards
11. Soft skill development to get prepared for GD, PI, Technical round etc.
12. Preparatory guidance for AMCAT examination to get a successful career
13. Preparatory guidance for GATE examination to pursue higher studies, research or Govt. Jobs

Future Job Prospects

The Electronics and communication engineers would be involved in sustaining cutting edge technology to stay ahead in competition. An electronic engineer can find a job in----
i) Consumer electronics manufacturing organization
ii) Telecommunication industries
iii) IT industries
iv) Health care equipment manufacturing
v) Mobile communication
vi) Power Electronics, and some other industries like
vii) Steel
viii) Petroleum
ix) Chemical industry
x) Automation industry
xi) Networking
xii) Robotics
xiii) VLSI industry
xiv) Embedded technology
xv) Research and development etc.

The Electronic technicians and technologists can specialize in technical sales, product representation, systems management, the design and manufacture of electronic devices and systems, or the installation, maintenance and repair of electronic systems and equipment. They may also work with computers and electronic equipment in the medical, manufacturing, industrial control, telecommunications, aeronautical and military fields.

 

 

HOD's Message

I welcome all the students & their parents to the Department of Electronics and Communication Engineering (ECE). The Department of Electronics & Communication Engineering at IMPSCET has a top-level quality assessment rating for teaching and reputation for research. It was established in 2003 with an intake of 60 students in the B‒Tech program. The course of Electronics and Communication Engineering covers the major fields of electronics like Microwave Engineering, DSP, Embedded systems, VLSI technology design, Electronic devices, Microprocessors & Microcontrollers, Antenna Design, Digital Communication, Satellite Communication, and mobile communication apart from basic subjects. The greatest assets of our department are its highly qualified faculty, well-equipped laboratories and hardworking disciplined students. The Department is enriched with qualified and experienced faculty members with several years of exposure in Electronics and Communication Engineering and its allied fields. The faculty members are also pursuing research work regularly followed by national and international publications to their credit. The students of this department are highly competent and ever enthusiastic. They are also keenly interested in research work and work regularly with faculty members to have national and international publications to their credit. The faculty members and students of this department are actively engaged in various development programs, training and workshops. The group of an experienced faculty member of the Department constantly motivates the students to make better future by means of job, research and higher studies; and the results reflect in their achievement.

                                                                               The pass out students of the ECE Department of this college is now associated with pioneer Institutions like TU, Chemnitz, Germany, IIT Kharagpur, IIEST, Indian Institute of information technology and management (IIITM), University of Kalyani, Jadavpur University, and RTU etc for higher studies and research. Moreover, the students of this Department are also allied with prestigious organizations like BSNL, RELIANCE, SIEMENS, ZTE, TCS, CTS, INFOSYS, IBM, ACCENTURE, TECH MAHINDRA, ERICSSON L&T etc.

                                                                             I hope that the students of the department of ECE will continue to deliver their best to serve the society and mankind. I will be happy to receive your suggestions for further improvement and development of our department

Parimal Chowdhury
H.O.D. (Dept. of Electronics & Communication Engg.)
IMPS College of Engineering & Technology
 

Faculty & Staff Members

Dr. Sudipta Das

Professor/Principal

Electronics & Communication Engineering

9647764962

sudipta.das1985@gmail.com

Specialization/Research : Mobile Communication, Microstrip Antenna & Filter, DGS,PBG Structures,FSS and RFID

Mr. Anirban Dutta

Asst. Professor

Electronics & Communication Engineering

anirban_dut@yahoo.com

Specialization/Research : VLSI Design & Microelectronics

Mr. Parimal Chowdhury

Asst. Professor (HOD)

Electronics & Communication Engineering

parimal.chowdhury1985@gmail.com

Specialization/Research : Mobile Communication & Network Technology

Mrs. Sharmistha Dutta

Asst. Professor

Electronics & Communication Engineering

sharmistha.biswas48@gmail.com

Specialization/Research : Radio physics & Electronics

Mr.Gopal Dutta

Asst. Professor

Electronics & Communication Engineering

dutta.g07@gmail.com

Specialization/Research : Optics and Photonics

Mr. Dipankar Misra

Technical Assistant

Electronics & Communication Engineering

dipankar.misra1971@gmail.com

Specialization/Research : Electronics & Communication

Faculty Achievements

AWARDS & HONOURS
1. The biography of Dr. Sudipta Das of Department of Electronics & Communication Engineering (ECE) is included in Marquis Who’s Who in the World 2016 (33rd Edition) for outstanding achievements in research.
2. The biography of Dr. Sudipta Das of Department of Electronics & Communication Engineering (ECE) is included in the 38th Edition of “Dictionary of International Biography”, published by the international biographical centre of Cambridge, England.
3. Dr. Sudipta Das of Department of Electronics & Communication Engineering (ECE) qualifies for Schottky Research Award-2015 in Electronics by IASR.
4. Dr. Sudipta Das of Department of Electronics & Communication Engineering (ECE) is nominated for MAN OF THE YEAR, 2015 by International Biographical centre.
5. Dr. Sudipta Das of Department of Electronics & Communication Engineering (ECE) is Selected in the list of the IBC TOP 100 Engneers~2017
6. Dr. Sudipta Das of Department of Electronics & Communication Engineering (ECE) is selected in world’s 500 most influential people in 2016 by USA NEWS CORPORATION and selected for academic excellence award-2016 in Microwave Engineering
Professional Memberships:
Dr. Sudipta Das of Department of ECE holds the professional memberships of
1. International Association of Engineers (IAENG)
2. Computer Science Teachers Association (CSTA)
3. Internet Society (ISOC)
4. International Association of Online Engineering (IAOE)
5. Microwave, Antennas and Remote Society (MARS) of International Association of Computer Science and Information Technology (IACSIT)
6. AIRCC Network and Communication Community (NCC)
7. The Society of Digital Information and Wireless Communications (SDIWC)
8. Associate Member of Universal Association of Computer and Electronics Engineers (UACEE).
 Editorial Board Member:
Dr. Sudipta Das is Editorial Board member of
1. International journal of Advanced Research in Electronics and Communication Engineering (IJARECE)
2. Journal Engineering, Computers and Applied Sciences (JEC&AS)
3. International Journal of Advancements in Research & Technology (IJOART) 
Reviewer of International Journals:
Dr. Sudipta Das is Reviewer of different international journals of repute
1. IET Microwaves, Antennas & Propagation
2. ACES Journal
3. IETE Journal of Research
4. Microwave and Optical Technology Letters
5. International Journal of Electronics and Communication Technology (IJECT)
6. International Journal of Research in Engineering and Technology (IJRET)
7. International Journal of Technological Exploration and Learning (IJTEL)
8. International Journal of Research in Electronics and Computer Engineering (IJRECE)
9. International Journal of Advanced Computer Science and Information Technology (IJACSIT)
10. Engineering Science and Technology: An International Journal (Elsevier)
11. IEEE Transactions on Magnetics etc.

Student Achievements

Achievements of Students
1. Sabir Ali from 4th year ECE has attended workshop on Design of Millimeter wave antennas for 5G wireless communication system from 30th June 2017 to 2nd July 2017, IIT-KGP.
2. Bikram Lala from 4th year ECE has successfully completed training on satellite broadcasting from Prasar Bharati
3. Binoy kumar paul from 3rd year ECE has successfully completed training on PCB from skubotics, Kolkata.
4. Binoy kumar paul from 3rd year ECE has successfully completed training on IOT from roboversity, Kolkata and implemented a smart irrigation system.
5. Manash Das from 3rd year ECE has successfully completed training on Introduction to Arduino from Skubotics, Kolkata.
6. Avik sur from 3rd year ECE has successfully completed training on industrial 6 axis robotics from AKGEC, Gaziabad.
7. Avik sur from 3rd year ECE has successfully completed training on mechatronics systems from skyfi labs, Bangalore.
8. Nibedita Kundu from 3rd year ECE has successfully completed training on IOT from Roboversity, Kolkata and implemented a weather monitoring system.
9. Sanju Das from 2nd year ECE has participated in Indian science congress meet in Mumbai.
10. Sanju Das from 2nd year ECE has participated in 22nd national science congress meet in Bangalore.
11. Avijeet Negel, student of ECE department has received Dewang Mehta excellence award for academic excellence.
  Research Publications by Students of Department of ECE
1. A. Negel, Sudipta Das, B.Dutta, S.K.Mishra, “Compact microstrip patch antenna with dual frequency tuning characteristics using E-shaped defected ground plane structure”, Journal for foundations and applications of physics, Vol. 4, No.2, pp.48-61, 2017.
2. S. Bhattacharjee, D. Poddar, S. Mukherjee, S. Saurabh, Sudipta Das, “Design of microstrip parallel coupled band pass filter for global positioning system”, Journal of Engineering, Computers & Applied Sciences (JEC&AS), Volume 2, No.5, May 2013, pp-28-32.
3. M. Mohan, Sudipta Das, S. Mahato, A. K. Chowdhury, “Size reduction and bandwidth enhancement of microstrip patch antenna by proper positioning of patch above the defected ground plane”, International journal of innovative research in electrical, electronics, instrumentation and control engineering (IJIREEICE), Vol.01, issue-06, September 2013, PP-265-271.
4. R.K.Singh, Sudipta Das, and A. Kumar, “A Novel Fractal Shaped Slot Loaded Compact Printed Antenna for Wireless Communication Applications”, International Journal of Modern Electronics and Communication Engineering (IJMECE), Vol. 4, Issue No.-1, pp. 12-16, 2016.
5. S.M. M. Rahman, Sudipta Das, V.K.Yadaw, A.P.Ramkanu, A. Karmakar, “New Compact Tri-band Microstrip patch antenna using dual T-shaped slit for Wi-Max and Microwave C band applications”, International journal of Engineering Sciences Research (IJESR),Vol.3, Issue.5, Sept-Oct.2012, Page-786-789.
6. J.P.Burman, A.K.Singh and A.Karmakar,“Novel design of mobile projector with wireless flex sensor keypad and photo sensor keypad ”, International journal of advanced research in electronics and communication engineering, Vol.4, issue 6, pp.1802-1806, 2015.
7. J.P.Burman, “Novel design of low cost flex sensor for automatic controlling of robotic car”, International journal of advanced research in electronics and communication engineering, Vol.4, issue 3, pp.411-413, 2015.
8. R.Saha, S.Kundu, T. Bardhan, Sudipta Das, “Novel Compact Log-Periodic Array Shaped Slotted Microstrip Patch Antenna for Wireless Communication System”, International journal of Emerging trends in Engineering and Development, RS PUBLICATION, Vol.6, Issue2, Sept.2012, Page-402-409.
9. S.Mukherjee, S.Bhattacharya, D.Poddar, S. Saurabh, Sudipta Das, “Design of Wide Band Microstrip Bandstop Filter with Open-Circuited Stubs for Wireless Communication Applications”, International Journal of Electronics Communication and Computer Technology (IJECCT), Vol.2, Issue-6, November, 2012, pp-259-261.
10. V. K. Yadaw, Sudipta Das, S.M. M. Rahman, A.P.Ramkanu, A. Karmakar, “Size Reduction and Bandwidth Enhancement of Rectangular Printed Antenna using triple narrow slits for Wireless Communication System and Microwave X-Band Applications”, International journal of Engineering Research and Applications(IJERA),Vol.2,Issue-5,Sept-Oct,2012,page-1478-1484.
11. S. Ali, B.Lala, S.Das, “Analysis of a multiple notch loaded multifrequency printed antenna”, Journal for foundations and applications of physics, 2018 (communicated)
12. B.Lala, S.Ali, S.Das, “Hammer-shaped slot loaded multiband monopole microstrip patch antenna for wireless communication”, Journal for foundations and applications of physics, 2018 (communicated)

Developed Projects


The students of ECE are rigorously guided by the faculty members to pursue and complete their projects on different aspects of Electronics & Communication Engineering such as
i. Antenna
ii. Filter
iii. Microcontroller
iv. RADAR
v. Robotics
vi. VHDL
vii. Flex sensor
viii. Ultrasonic Sensor
ix. Communication system
x. Wearable Antenna
xi. Digital Signal Processing
xii. Microwave passive component design
xiii. Automation system etc.
List of Some Projects Supervised by the Faculty Members
1. Design of some miniaturized multifrequency broadband microstrip patch antenna for wireless communication application
2. A compact microstrip patch antenna for wireless communication
3. Modified rectangular microstrip patch antenna with multi-faceted ability: frequency tuning, compactness and bandwidth enhancement
4. Design, simulation and fabrication of microstrip low pass and band stop filter for wireless communication
5. Design, simulation and fabrication of wideband microstrip band stop and parallel coupled band pass filter for wireless communication
6. Investigation on slot loaded microstrip patch and ground plane for multiresonant wideband operation
7. Design of some miniaturized multifrequency broadband microstrip patch antenna for wireless communication application
8. Design and optimization of circular patch antenna
9. Design, simulation and fabrication of rectangular microstrip patch antenna for GSM and Wi-Max application
10. Electro model of IMPS college using PIC 18F4520 microcontroller
11. Cell phone detector circuit based on RF
12. Audio transmitter system
13. Simple metal detector
14. Mini programmable logic controller
15. Remote controlled land rover
16. Digital stop watch
17. Brake failure indicator
18. A line follower robot
19. Design of 162A LCD display interfacing and LED blinking using PIC 18F4520 microcontroller
20. Remote controlled fan regulator
21. Automatic railway gate control signaling
22. Ultrasonic radar
23. Microcontroller based code lock
24. Anti theft alarm for bikes
25. Introduction to line following robot
26. Cell phone operated land rover
27. Controlling home appliances using remote
28. Design and implementation of 64 Bit ALU using VHDL
29. Dual tone multifrequency (DTMF) based wireless robot
30. Microcontroller based automatic railway gate controller
31. Microcontroller based temperature controller
32. RF remote control device
33. Speed control and reversal of DC motor with Audrino via Bluetooth module
34. LPG Gas leakage detector using audrino
35. Child monitoring system
36. Password based door lock system
37. Obstacle avoiding robots using ATMEGA8 microcontroller
38. Mini electronics UPS system (DC load) and related application system
39. Detecting power grid synchronization failure on sensing out of range frequency or voltage
40. GSM based electronic notice board system
41. Auto intensity control of street light
42. LDR based electronic security system
43. Automatic water level monitoring and controller using microcontroller circuit
44. Door automation system
45. Automatic washroom light switch
46. Wireless fire alarm system
47. Solar mobile charger
48. Earthquake detector
49. Mobile projection with flex and photo sensor
50. IR Remote control home appliances
51. Audio transmitter system
52. Microcontroller based electronic voting machine
53. Computer controlled car
54. DTMF Controlled home automation system
55. Wireless door bell
56. Wireless (inductive) power transfer
57. Active infrared motion detector
58. Characteristic of spontaneous emission of LED
59. LASER Based voice transmitter and receiver
60. Animatronics hand using flex sensor
61. Wi-Fi controlled robot using ESP 8266 module
62. Line following ROBOT
63. Phototropic ROBOT
64. DTMF Controlled ROBOT
65. Gesture controlled ROBOT
66. Home automation using Bluetooth, Wi-Fi and server
67. Wi-Fi signal jammer
68. Mobile phone detector
69. Voice controlled home automation and robotics application using Smartphone
70. Autonomous quad copter with obstacle avoider using four ultrasonic sensor

Training & Workshops

Training/Workshops Attended by Faculty Members
1. Dr. Sudipta Das and Mr. Parimal Chowdhury attended professional training on “Mobile Communication System “, organized by GSS, Kolkata.
2. Mrs. Sharmistha Dutta, Mr. Anirban Dutta, Mr.Gopal Dutta and Mr. Parimal Chowdhury attended workshop on “High Impact Teaching Skill” organized by Mission 10X Wipro.
3. Mr. Anirban Dutta and Mr. Gopal Dutta attended workshop on Optoelectronics Devices organized by IIT KGP.
4. Dr. Sudipta Das attended one day seminar on Microstrip Antenna Research: Current Trends , JISCE, Kalyani
5. Dr. Sudipta Das, Mr. Anirban Dutta Mr. Gopal Dutta, Mrs. Sharmistha Dutta, Mr. Parimal Chowdhury and Mr. Himadri Shekhar Panda attended One-day Seminar on “Nano-technology, Electronics & Photonics” at IMPS College of Engineering & Technology, 2013.
6. Mr. Anirban Dutta attended training on Photonics organized by IIT KGP.
7. Mrs. Sharmistha Dutta attended a seminar on “Nanotechnology” organized by Dept. of Electronics and science, CU.
8. Mr. Himadri Sekhar Panda attended training program on “Process control using PLC and DCS”, organized by NITTTR, Kolkata.
9. Mr. Himadri Sekhar Panda attended Faculty development program on “Recent trends in Communication”, organized by BPPIMT, Kolkata.
10. Mr. Himadri Sekhar Panda attended workshop on “Celebration of World year physics and national science day”, organized by KGEC, Kalyani.
11. Mr. Himadri Sekhar Panda attended “National workshop on applied optimization”, organized by CEMK, Kolaghat.
12. Mr.Himadri Sekhar Panda attended National workshop on “Computational tools for Engineers”, organized by CEMK, Kolaghat.
Training Attended by Students The students are continuously encouraged by the faculty members to pursue technical training and also to attend workshops. The students have successfully completed their training from renowned organizations/institutions like
1. BSNL
2. PRASAR BHARATI
3. WEBEL
4. RAILWAY
5. BHEL
6. BEL
7. NALCO
8. HPCL
9. POWERGRID
10. NTPC
11. Airport Authority of India
12. GLOBSYN
13. All India radio
14. Wing fotech Pvt. Ltd
15. Pulse tone industries
16. Prolific system and technologies Pvt. Ltd
17. IITKGP etc. 
Workshop Attended by Students The students are actively participating on different technical workshops such as
1. Arduino programming
2. IOT (internet of Things)
3. PCB design and fabrication
4. Robotics
5. Nanotechnology
6. Networking
7. PLC
8. SAP
9. Microstrip antenna
10. VLSI
11. Embedded technology
12. Digital Communication system
13. Microcontroller
14. Android app development
15. Mobile communication
16. Solar cell etc.

R&D and Research and Publications

RESEARCH PUBLICATIONS

List of Research Paper published in International Journals
  •  Research Publications [Till March, 2024]
    • International Journals:
  1. N. Nasri, M. EL Ghzaoui, Sudipta Das, B Jackson, Boddapati Taraka Phani Madhav, Mohammed Fattah, A square split ring resonator-based metamaterial integrated high gain 4×4 MIMO antenna with circular polarization for wideband 5G millimeter-wave applications, Optical and Quantum Electronics (Accepted), March 27th, 2024. (SCI Indexed Journal)
  2. Rashmi Roges, Sandeep Sharma, Praveen Kumar Malik, Tanvir Islam, Sivaji Asha, Sudipta Das, A Compact Circularly Polarized Dual Port MIMO Antenna with DGS and Parasitic Patch for Modern Wireless Communication and IOT Applications, Physica Scripta (Accepted), March, 2024 (SCI Indexed Journal)
  3. Haritha Thotakura, Y V N R Swamy Banothu, K V Vineetha, B T P Madhav, Sudipta Das, Design and Development of Square Stub Loaded Band Pass Filter with Quality Factor Analysis, Journal of Instrumentation (SCI Indexed Journal)
  4. Abdelmounim HMAMOU, Jamal MESTOUI, Tanvir Islam, Mohammed EL GHZAOUI, Narayanan Gangatharan, Sudipta Das, Analysis of MIMO Channel Capacity for Terahertz Communication Systems, PIER C (Accepted), 2024. (SCOPUS Indexed Journal)
  5. Padmanabha Raju, Bathula Sadasiva Rao, Beulah Jackson, Tanvir Islam, Boddapati Taraka Phani Madhav, Sudipta Das, Yalavarthi Usha Devi, Design and Analysis of Printed Conformal Antenna System for Inter and Intra Vehicular (V2V) Communication Utilizations PIER C (Accepted), 2024. (SCOPUS Indexed Journal)
  6. M.Berka, B.Fellah, S.Das, T.Islam, S.Asha, Z.Mahdjoub, Nano-resonator based broadband metamaterial absorber with angular stability operating in visible light spectrum for solar energy harvesting applications, Optical Materials, Volume 149,2024,115043. (SCI Indexed Journal)
  7. Suverna Sengar, Praveen Kumar Malik, Sudipta Das, Tanvir Islam, Rajesh Singh, Sivaji Asha, A Quad Port MIMO Antenna Designed with an X-Shaped Decoupling Structure for Wideband Millimeter-Wave (mm-Wave) 5G FR2 New Radio (N258/N261) Bands Applications, Wireless Personal Communications, Accepted for publication, 2024. (SCI Indexed Journal)
  8. Gorre Naga Jyothi Sree, K. Vasu Babu, Sudipta Das, Tanvir Islam, Design and optimization of a deep learning algorithm assisted stub-loaded dual band four-port MIMO antenna for Sub-6 GHz 5G and X band satellite communication applications, AEU - International Journal of Electronics and Communications, Volume 175, 2024,155074 (SCI Indexed Journal)
  9. Errajraji, K., Jebbor, N., Das, S. et al. Design and analysis of a multi-band miniaturized metamaterial absorber for wireless communication applications. Opt Quant Electron 56, 232 (2024). https://doi.org/10.1007/s11082-023-05813-6 (SCI Indexed Journal)
  10. Abdelaaziz El Ansari, Sudipta Das, Tanvir Islam, Sivaji Asha, Najiba El Amrani El Idrissi, Boddapati Taraka Phani Madhav, A High-Gain Directional 1×81×8 Planar Antenna Array for 2.4GHz RFID Reader Applications,  Journal of Circuits, Systems and Computers, https://doi.org/1142/S0218126624502190, 2024. (SCI Indexed Journal)
  11. Nour El houda NasriMohammed EL GHZAOUISudipta DasTanvir IslamWael AliMohammed Fattah, A novel arc-shaped four-port wideband (21.8–29.1 GHz) MIMO antenna with improved characteristics for 5G NR networks, International Journal of Communication Systems, e5746, 2024. (SCI Indexed Journal)
  12. Goffar Ali Sarkar, Khan Masood Parvez, Arunachalam Ambika, Tanvir Islam, Sudipta Das, Utpal Mandal, and Susanta Kumar Parui, "A Quad Port MIMO Antenna Using Rectangular Dielectric Resonator Antenna Array for Intelligent Transportation System Applications," Progress In Electromagnetics Research M, Vol. 123, 45-52, 2024. (Scopus Indexed Journal)
  13. Mohd Wasim, Shelej Khera, Tanvir Islam, Praveen Kumar Malik, Sivaji Asha, and Sudipta Das, "Performance Enhancement of High-Gain STDA Antennas with Reflector for 4G LTE and Sub-6 GHz 5G Applications: Design, Measurement, and Analysis," Progress In Electromagnetics Research C, Vol. 139, 87-94, 2024. (Scopus Indexed Journal)
  14. Sankha Subhra Ghosh, Surajit Chattopadhyay, Arabinda Das, Nageswara Rao Medikondu, Abdulkarem H.M. Almawgani, Adam R.H. Alhawari, Sudipta Das, Wavelet-based rapid identification of IGBT switch breakdown in voltage source converter, Microelectronics Reliability, Volume 152,2024,115283 (SCI Indexed Journal)
  15. Yalavarthi Usha Devi, Boddapati Taraka Phani Madhav, Sudipta Das, Tanvir Islam, Mohammed El Ghzaoui, Dual-Notched UWB Orthogonal MIMO Antenna with Improved Gain Characteristics Using Frequency Selective Surfaces for Wireless Communication Applications, Journal of Circuits, Systems and Computers, Accepted for Publication, 2024. (SCI Indexed Journal)
  16. Kiouach, F., El Ghzaoui, M., Das, S. et al. A Compact Wideband Printed 4 × 4 MIMO Antenna with High Gain and Circular Polarization Characteristics for mm-wave 5G NR n260 Applications. Wireless Pers Commun 133, 1857–1886 (2023). https://doi.org/10.1007/s11277-023-10850-1 (SCI Indexed Journal)
  17. Nour Elhouda Nasri, Sudipta Das, Mohammed El Ghzaoui, Boddapati Taraka Phani Madhav, Samudrala Vara Kumari, Mohammed Fattah A Compact Wideband (22–44GHz) Printed 2×42×4 MIMO Array Antenna with High Gain for 26/28/38GHz Millimeter-Wave 5G Applications, Journal of Circuits, Systems and Computers, Vol. 32, No. 17, 2350300, 2023) (SCI Indexed Journal)
  18. Vineetha, K.V.; Madhav, B.T.P.; Kumar, M.S.; Das, S.; Islam, T.; Alathbah, M. Development of Compact Bandpass Filter Using Symmetrical Metamaterial Structures for GPS, ISM, Wi-MAX, and WLAN Applications. Symmetry 2023, 15, 2058. https://doi.org/10.3390/sym15112058 (SCI Indexed Journal)
  19. K Vasu Babu, Das Sudipta, Gorre Naga Jyothi Sree, Abdulkarem H M Almawgani, Tanvir Islam and Adam R H Alhawari Deep learning assisted fractal slotted substrate MIMO antenna with characteristic mode analysis (CMA) for Sub-6 GHz n78 5 G NR applications: design, optimization and experimental validation 2023 Phys. Scr. 98 115526 (SCI Indexed Journal)
  20. A. Ambika, C. Tharini, P. Chakraborty, T. Islam, S. Das, M. El Ghzaoui, A Modified SRR-Based Miniaturized Monopole Antenna with Ultra-wide Bandwidth for Wireless UWB Systems, J. Nano- Electron. Phys. 15 No 6, 06021, 2023 (Scopus Indexed Journal)
  21. Kumutha Duraisamy, Tanvir Islam, Samudrala Varakumari, Sudipta Das4, Sivaji Asha, Mohammed El Ghzaoui, A Coplanar Waveguide-Fed Highly Efficient Miniaturized Conformal Triple Band Antenna for Bio-Medical Applications, J. Nano- Electron. Phys. 15 No 6, 06029, 2023 (Scopus Indexed Journal)
  22. Md. Najumunnisa, A.S.C.S. Sastry, B.T.P. Madhav, Tanvir Islam, Sudipta Das, Compact and Innovative Microstrip Patch Antenna with Enhanced Microwave Circuit Performance for RFID Applications, J. Nano- Electron. Phys. 15 No 5, 05024, 2023 (Scopus Indexed Journal)
  23. Houda Hiddar, Bilal Aghoutane, Tanvir Islam, Bouchra Belkadi, Sudipta Das, Abdelkarim Filali-Maltouf, Dual-Band Silo-Slotted Antenna with Equivalent Circuit Model for 5G mm-wave Applications, J. Nano- Electron. Phys. 15 No 5, 05029, 2023 (Scopus Indexed Journal)
  24. Sneha Bhardwaj, Praveen Kumar Malik, Tanvir Islam, Anita Gehlot, Sudipta Das, and Sivaji Asha, "A Printed Monopole Antenna for Next Generation Internet of Things: Narrow Band Internet of Things (Nb -IoT)," Progress In Electromagnetics Research C, Vol. 138, 117-129, 2023 (Scopus Indexed Journal)
  25. Alla Venkata Ranga Surya Prasad, Leela Santi Parige, A. Chandra Sekhara Babu, Vinjamuri Venkata Kamesh, Nageswara Rao Medikondu, Sudipta Das, Power-Optimized Information Systems for Mobile Robotics in Physical Processes, J. Nano- Electron. Phys. 16 No 1, 01015, 2024 (Scopus Indexed Journal)
  26. S.S. Ghosh, S. Chattopadhyay, S.H. Arigela, V.V. Kamesh, A. Das, S. Das, Expeditious Identification of IGBT Switch Fault in Bidirectional Microgrid Inverter Linked to Distributed Energy Resources, J. Nano- Electron. Phys. 16 No 1, 01019, 2024 (Scopus Indexed Journal)
  27. K.V. Babu, G.N.J Sree, T. Islam, Sudipta Das, M. El. Ghzaoui, R.A. Saravanan, Performance Analysis of a Photonic Crystals Embedded Wideband (1.41–3.0 THz) Fractal MIMO Antenna Over SiO2 Substrate for Terahertz Band Applications. Silicon (2023). https://doi.org/10.1007/s12633-023-02622-0 (SCI Indexed Journal)
  28. K. Vasu Babu, Priyanka Das, Sudipta Das, Abdulkarem H. M. Almawgani, Tanvir Islam, Adam R. H. Alhawari, Design of Graphene-based Broadband Metamaterial Absorber with Circuit Analysis Approach for Terahertz Region Applications, Accepted for publication in Optical and Quantum Electronics, 2023 [SCI Indexed Journal]
  29. Nitasha Bisht, Praveen Kumar Malik, Sudipta Das, Tanvir Islam, Sivaji Asha, Moath Alathbah, Design of a modified MIMO antenna based on tweaked spherical fractal geometry for 5G New Radio (NR) Band N258 (24.25-27.25 GHz) Applications, Accepted for publication in Fractal and Fractional, 2023, VOL. 7, pp. 718 [SCI Indexed Journal]
  30. Saïd Douhi, Adil Eddiai, Sudipta Das, Boddapati Taraka Phani Madhav, Mounir Meddad, Omar Cherkaoui, M'hammed Mazroui, Design of a Compact Super Wideband All-Textile Antenna for Radio Frequency Energy Harvesting and Wearable Devices, Accepted for publication in Optical and Quantum Electronics, 2023 [SCI Indexed Journal]
  31. M. Berka, B. Fellah, T. Islam, A. Bendaoudi, Sudipta Das, Z. Mahdjoub, L. Tarricone, A Triple band Square-Interlinked-Rhombus Shaped Metamaterial Absorber for Microwave C and X-band Utilizations, Accepted for publication in Optical and Quantum Electronics, 2023 [SCI Indexed Journal]
  32. Fatima Kiouach, Bilal Aghoutane, Sudipta Das, Tanvir Islam, Mohammed El Ghzaoui and B T P Madhav, A dual operating (27/38 GHz) High performance 2x4 MIMO Antenna array for 5G new radio applications, Physica Scripta, 2023, 98 (11). (SCI Indexed Journal)
  33. V.S.D. Rekha, K.V. Vineetha, B.T.P. Madhav, T. Islam, Sudipta Das, M. El. Ghzaoui, A Metamaterial Inspired Multiband Conformal Bandpass Filter with Improved Quality factor for Sub-6 GHz Wireless Communication Applications, Journal of Circuits, Systems, and Computers, 2023 [Accepted for publication, September, 2023] (SCI Indexed Journal)
  34. Berka, M., Özkaya, U., Islam, T. Sudipta Das., et al. A miniaturized folded square split ring resonator cell based dual band polarization insensitive metamaterial absorber for C- and Ku-band applications. Opt Quant Electron 55, 699 (2023). https://doi.org/10.1007/s11082-023-04954-y (SCI Indexed Journal)
  35. Yousra Ghazaoui, Mohammed El Ghzaoui, Sudipta Das, Boddapati Taraka Phani Madhav, Tanvir Islam, Bri Seddik, A Quad-Port Design of a Bow-Tie Shaped Slot loaded Wideband (24.2-30.8 GHz) MIMO Antenna Array for 26/28 GHz mm-Wave 5G NR n257/n258/n260 band Applications, Journal of Circuits, Systems and Computers, https://doi.org/10.1142/S0218126624500555 (SCI Indexed Journal)
  36. Sneha, Praveen Malik, Sudipta Das, Syed Inthiyaz, Long-Range Technology-Enabled Smart Communication: Challenges and Comparison, Journal of Circuits, Systems and Computers, Vol. 32, No. 10, 2350161 (2023) (SCI Indexed Journal)
  37. Sudipta Das, Lakrit, S., Krishna, C.M. et al. A novel flower petal-shaped super wideband (439.36–557.59 THz) optical nano-antenna for terahertz (THz) wireless communication applications. Opt Quant Electron 55, 516 (2023). https://doi.org/10.1007/s11082-023-04802-z (SCI Indexed Journal)
  38. Serghini Elaage, Mohammed EL Ghzaoui, Nabil Mrani, Sudipta Das, Optimum GMSK based transceiver model for cellular IoT networks, Simulation Modelling Practice and Theory, Volume 125,2023,102756 (SCI Indexed Journal)
  39. Dwivedi, R., Kiran Kommuri, U., Das, S., Lakrit, S., & Goyal, V. (2023). Design of low-profile high gain antenna using loop-based wideband artificial magnetic conductor for UWB applications. International Journal of Microwave and Wireless Technologies, 15(3), 502-512. doi:10.1017/S175907872200037X (SCI Indexed Journal)
  40. K. Vasu BabuSudipta DasSyed Samser AliMohammed EL GhzaouiBoddapati Taraka Phani MadhavBroadband sub-6 GHz flower-shaped MIMO antenna with high isolation using theory of characteristic mode analysis (TCMA) for 5G NR bands and WLAN applications, International Journal of Communication Systems, 36(6), 2023. (SCI Indexed Journal)
  41. Suresh, A.C.; Reddy, T.S.; Madhav, B.T.P.; Alshathri, S.; El-Shafai, W.; Das, S.; Sorathiya, V. A Novel Design of Spike-Shaped Miniaturized 4 × 4 MIMO Antenna for Wireless UWB Network Applications Using Characteristic Mode Analysis. Micromachines 2023, 14, 612. https://doi.org/10.3390/mi14030612 (SCI Indexed Journal)
  42. Devi, D.H.; Duraisamy, K.; Armghan, A.; Alsharari, M.; Aliqab, K.; Sorathiya, V.; Das, S.; Rashid, N. 5G Technology in Healthcare and Wearable Devices: A Review. Sensors 2023, 23, 2519. https://doi.org/10.3390/s23052519 (SCI Indexed Journal)
  43. Aghoutane, B., Ghzaoui, M.E., Kumari, S.V., Das. S. et al. A circularly polarized super wideband transparent optical nanoantenna for advanced THz communication applications. Opt Quant Electron 55, 211 (2023). https://doi.org/10.1007/s11082-022-04484-z (SCI Indexed Journal)
  44. Chakraborty K, Medikondu NR, Duraisamy K, Soliman NF, El-Shafai W, Lavadiya S, Paul S, Das S. Studies of Performance of Cs2TiI6-XBrX (Where x = 0 to 6)-Based Mixed Halide Perovskite Solar Cell with CdS Electron Transport Layer. Micromachines (Basel). 2023 Feb 14;14(2):447. doi: 10.3390/mi14020447. PMID: 36838147; PMCID: PMC9965436. (SCI Indexed Journal)
  45. Prasad, N.; Pardhasaradhi, P.; Madhav, B.T.P.; Das, S.; Awan, W.A.; Hussain, N. Flexible Metamaterial-Based Frequency Selective Surface with Square and Circular Split Ring Resonators Combinations for X-Band Applications. Mathematics 2023, 11, 800. https://doi.org/10.3390/math11040800 (SCI Indexed Journal)
  46. Wasim, M.; Khera, S.; Malik, P.K.; Kumari, S.V.; Das, S.; El-Shafai, W.; Aly, M.H. Base Station MIMO Antenna in 1×6 Array Configurations with Reflector Design for Sub-6 GHz 5G Applications. Electronics 2023, 12, 669. https://doi.org/10.3390/electronics12030669 (SCI Indexed Journal)
  47. Murali krishna Ch, Tanvir Islam, N. Suguna, Samudrala Vara Kumari, R. Delshi Howsalya Devi, Sudipta Das, A micro-scaled graphene-based wideband (0.57–1.02 THz) patch antenna for terahertz applications, Results in Optics, Volume 12, 2023,100501, https://doi.org/10.1016/j.rio.2023.100501. (Scopus Indexed Journal)
  48. R. Roubhi, M. Bendaoued A. Essaleh S. Lakrit Sudipta Das M. Atounti A. Faize, Design and Optimization of a bowtie antenna for ground penetrating Radar (GPR) system, J. Nano- Electron. Phys. 15 No 4, 04012 (2023) (Scopus Indexed Journal)
  49. M. Bendaoued, A. Es-saleh, B. Nasiri, S. Lakrit, Sudipta Das , R. Mandry, A. Faize, Design of a planar multiband antenna array based on split ring resonator for WiMAX and 5G sub-6GHz applications, J. Nano- Electron. Phys. 15 No 4, 04014 (2023) (Scopus Indexed Journal)
  50. Suverna Sengar, Praveen Kumar Malik, Subba Reddy V., Sudipta Das, Design of a Novel Capsule-Shaped Compact UWB Antenna for 5G Wireless Applications, J. Nano- Electron. Phys. 15 No 4, 04031 (2023) (Scopus Indexed Journal)
  51. N. Prasad, P. Pardhasaradhi, B.T.P. Madhav, T. Islam, Sudipta Das, and M. El Ghzaoui, Radiation Performance Improvement of a Staircase Shaped Dual Band Printed Antenna with a Frequency Selective Surface (FSS) for Wireless Communication Applications, Progress In Electromagnetics Research C, Vol. 137, 53-64, 2023. (Scopus Indexed Journal)
  52. D. R. Sandeep, B. T. P. Madhav, S. Das, N. Hussain, T. Islam and M. Alathbah, "Performance Analysis of Skin Contact Wearable Textile Antenna in Human Sweat Environment," in IEEE Access, vol. 11, pp. 62039-62050, 2023, doi: 10.1109/ACCESS.2023.3286659. (SCI Indexed Journal)
  53. A. Slimani, T.S.N. Murthy, S.D. Bennani, I. Slimani, Sudipta Das , M. Jorio, High-Co and Low-Cross Polarization Measurements in a Miniaturized Ultra-Wideband Compact Array Antenna for Multi-Mission Radars, J. Nano- Electron. Phys. 15 No 2, 02010 (2023) (Scopus Indexed Journal)
  54. Ouafae Elalaouy, Samudrala Varakumari, Mohammed El Ghzaoui, Jaouad Foshi, Sudipta Das, A Compact Two-port MIMO Array Antenna for ISM/5G NR/WLAN Band Applications, J. Nano- Electron. Phys. 15 No 1, 01027 (2023) (Scopus Indexed Journal)
  55. S. Douhi, G.R.K. Prasad, A. Eddiai, O. Cherkaoui, M. Mazroui, Sudipta Das, A Miniaturized Wearable Textile UWB Monopole Antenna for RF Energy Harvesting, J. Nano- Electron. Phys. 15 No 1, 01028 (2023) (Scopus Indexed Journal)
  56. Fatima Kiouach, Mohammed El Ghzaoui, Samudrala Varakumari, Rachid El Alami, Sudipta Das, A Low-profile Wideband Two Ports MIMO Antenna Working at 38 GHz for mm-wave 5G Applications, J. Nano- Electron. Phys. 15 No 1, 01025 (2023) (Scopus Indexed Journal)
  57. El Arrouch Tarik, Najiba El Amrani El Idrissi D. Kumutha , S. Jeevitha, Sudipta Das, A Compact Multi-resonant Wide Band MIMO Antenna for 5G Communication Systems at mm-wave Band, J. Nano- Electron. Phys. 15 No 1, 01026 (2023) (Scopus Indexed Journal)
  58. Nitasha Bisht, Praveen Kumar Malik, Sudipta Das, Feeding Methods for a Circular Shaped Multiband Patch Antenna at 5G, X and Ku Band to Quantify their Effects on Antenna Characteristics,  J. Nano- Electron. Phys. 15 No 3, 03007 (2023) (Scopus Indexed Journal)
  59. Abdelaaziz El Ansari, Tanvir Islam, S.V. Rama Rao, Agilesh Saravanan, Sudipta Das, Najiba El Amrani El Idrissi, A Broadband Microstrip 1 x 8 Magic-T Power Divider for ISM Band Array Antenna Applications J. Nano- Electron. Phys. 15 No 3, 03003 (2023) (Scopus Indexed Journal)
  60. Said Douhi, Tanvir Islam, R. Agilesh Saravanan, Adil Eddiai, Sudipta Das, Omar Cherkaoui,
    Design of a Flexible Rectangular Antenna Array with High Gain for RF Energy Harvesting and Wearable Devices, J. Nano- Electron. Phys. 15 No 3, 03010 (2023) (Scopus Indexed Journal)
  61. Anouar Es-saleh, Mohammed Bendaoued, Soufian Lakrit, Sudipta Das, Mohamed Atounti, Ahmed Faize, A Novel Fractal Patch Antenna Using Defected Ground Structure (DGS) with High Isolation for 5G Applications  J. Nano- Electron. Phys. 15 No 3, 03012 (2023) (Scopus Indexed Journal)
  62. Safae Dou-allal, Mohammed Bendaoued, Anouar Es-saleh, Soufian Lakrit, Sudipta Das, Ahmed Faize, Study and Development of a Multi-band Triangular Patch Antenna for 2.45/5.8 GHz WLAN and Wi-Fi Applications, J. Nano- Electron. Phys. 15 No 3, 03014 (2023) (Scopus Indexed Journal)
  63. Mohammed Bendaoued, Anouar Es-saleh, Badr Nasiri, Soufian Lakrit, Sudipta Das, Rachid Mandry, Ahmed Faize, A Compact Square Split-Ring Resonators Band-pass Filter for X Band Applications J. Nano- Electron. Phys. 15 No 3, 03017 (2023) (Scopus Indexed Journal)
  64. Abdelaaziz El Ansari, V. Jayaprakasan, K. Duraisamy, Sudipta Das,, Tarik El-Arrouch, Najiba El Amrani El Idrissi, A Wideband Microstrip 1 x 2 Array Antenna Fed by Coupler for Beam Steering Terahertz (THz) Band Applications, J. Nano- Electron. Phys. 15 No 3, 03028 (2023) (Scopus Indexed Journal)
  65. El-Arrouch Tarik, Najiba El Amrani El Idrissi, G.R.K. Prasad, Samudrala Varakumari, Sudipta Das, Design of Parasitic Patch Integrated High Isolation Compact Super Wideband (26 GHz-50 GHz) MIMO Antenna for 5G Applications, J. Nano- Electron. Phys. 15 No 3, 03032 (2023) (Scopus Indexed Journal)
  66. Srikar, D.; Nella, A.; Mamidi, R.; Babu, A.; Das, S.; Lavadiya, S.; Algarni, A.D.; El-Shafai, W. A Novel Integrated UWB Sensing and 8-Element MIMO Communication Cognitive Radio Antenna System. Electronics 2023, 12, 330. https://doi.org/10.3390/electronics12020330 (SCI Indexed Journal)
  67. Suresh, A.C.; Reddy, T.S.; Madhav, B.T.P.; Das, S.; Lavadiya, S.; Algarni, A.D.; El-Shafai, W. Investigations on Stub-Based UWB-MIMO Antennas to Enhance Isolation Using Characteristic Mode Analysis. Micromachines 2022, 13, 2088. https://doi.org/10.3390/mi13122088 (SCI Indexed Journal)
  68. K Srilatha, B T P Madhav, S S Mohan Reddy, Shaik Shakeel Ahamad, Sudipta Das and J Lakshmi Narayana, Instrumentation based material characterization of a split square ring metamaterial and its analytical study as cloak for microwave communication applications, Eng. Res. Express 4 045027(ESCI/SCOPUS Indexed Journal)
  69. Srilatha, K., Madhav, B.T.P., babu, B.A. et al. Flexible multiband near-field cloaking metasurface for C, X and Ku band applications. Appl. Phys. A 128, 1091 (2022). https://doi.org/10.1007/s00339-022-06247-9 (SCI Indexed Journal)
  70. Sunil P. LavadiyaShobhit K. PatelKawsar AhmedSofyan A. TayaSudipta DasDesign and fabrication of flexible and frequency reconfigurable antenna loaded with copper, distilled water and seawater metamaterial superstrate for IoT applications, Int. J. RF and Microwave Computer aided Engineering, 32, 2022, e23481 (SCI Indexed Journal)
  71. Babu, B.A.; Madhav, B.T.P.; Das, S.; Hussain, N.; Ali, S.S.; Kim, N. A Triple-Band Reflective Polarization Conversion Metasurface with High Polarization Conversion Ratio for Ism and X-Band Applications. Sensors 2022, 22, 8213. https://doi.org/10.3390/s22218213 (SCI Indexed Journal)
  72. K V Vineetha, P Rakesh Kumar, A Narendra Babu, J Brahmaiah Naik, B T P Madhav and Sudipta Das, Investigations on Complementary Split Ring Resonator (CSRR) array integrated printed conformal band pass filters for modern wireless communication applications, Journal of Instrumentation, 17 P10043, 2022. (SCI Indexed Journal)
  73. Najumunnisa, M.; Sastry, A.S.C.; Madhav, B.T.P.; Das, S.; Hussain, N.; Ali, S.S.; Aslam, M. A Metamaterial Inspired AMC Backed Dual Band Antenna for ISM and RFID Applications. Sensors 2022, 22, 8065. https://doi.org/10.3390/s22208065 (SCI Indexed Journal)
  74. Bisht, Nitasha; Malik, Praveen Kumar; Das, SudiptaA Modified Circular Disk-Shaped Miniaturized Multiband Printed-Antenna with Enhanced Bandwidth for 5G Mobile Application. International Journal of Microwave & Optical Technology. Sep2022, Vol. 17 Issue 5, p487-495. 9p. (Scopus Indexed Journal)
  75. Bhavani, K.D.; Madhav, B.T.P.; Das, S.; Hussain, N.; Ali, S.S.; Babu, K.V. Development of Metamaterial Inspired Non-Uniform Circular Array Superstate Antenna Using Characteristic Mode Analysis. Electronics 2022, 11, 2517. https://doi.org/10.3390/electronics11162517 (SCI Indexed Journal)
  76. Roubhi Rihab, Es-saleh Anouar, Lakrit Soufian, Sudipta Das, El Otmani Fouad, Atounti Mohamed, Faize Ahmed , Evaluation of the Iron State in Humid Zones Using GPR with 1.6 GHz Bowtie Antenna J. Nano- Electron. Phys. 14 No 5, 05018 (2022) (Scopus Indexed Journal)
  77. Es-saleh Anouar, Bendaoued Mohammed, Rihab Roubhi, Lakrit Soufian, Sudipta Das , Atounti Mohamed, Faize Ahmed, Design and Analysis of a Dual-Band 27/38 GHz Elliptical-Shaped Patch Antenna for 5G Applications, J. Nano- Electron. Phys. 14 No 5, 05017 (2022) (Scopus Indexed Journal)
  78. Shobhit K. Patel, Sunil P. Lavadiya, Juveriya Parmar, Kawsar Ahmed, Sofyan A. Taya & Sudipta Das (2022) Design and fabrication of reconfigurable, broadband and high gain complementary split-ring resonator microstrip-based radiating structure for 5G and WiMAX applications, Waves in Random and Complex Media, DOI: 10.1080/17455030.2022.2139422 (SCI Indexed Journal)
  79. Kunal Chakraborty S.V. Kumari Sri Harsha Arigela Mahua Gupta Choudhury Sudipta Das Samrat Paul, Performance Study of Lead-Free Mixed Halide Cs2TiI6 – xBrx (where x = 1 to 5) Based Perovskite Solar Cell J. Nano- Electron. Phys. 14 No 3, 03001 (2022) (Scopus Indexed Journal)
  80. Kunal Chakraborty, S.V. Kumari, Sri Harsha Arigela, Mahua Gupta Choudhury, Sudipta Das, Samrat Paul. Numerical Analysis of Performance of Various ETL Materials for Cesium Titanium (IV) Single Halide Based PSCs J. Nano- Electron. Phys. 14 No 3, 03015 (2022(Scopus Indexed Journal)
  81. Y. Ghazaoui, M. El Ghzaoui, S. Bri, A. El Alami, S.V. Kumari, Sudipta Das, A Flower-Shaped Quad-Port Dual-Band MIMO Antenna of 29/39 GHz Millimeter-Wave for 5G Applications J. Nano- Electron. Phys. 14 No 3, 03023 (2022) (Scopus Indexed Journal)
  82. A. Slimani, Sudipta Das, B.T.P. Madhav, A. El Alami, S.D. Bennani, M. Jorio, A Miniaturized High Isolation Printed Diplexer Model Based on Band Pass Filter Technique for 4G-LTE/5G- Sub 6 GHz Applications, Journal of Instrumentation, 2022, Accepted (SCI Indexed Journal)
  83. BTP Madhav and Sudipta Das, A Multiband Frequency Reconfigurable and Bifunctional Metasurface, International Journal of Electronics Letters, 2022, Accepted (Scopus Indexed Journal)
  84. Anil Badisa, Boddapati Taraka Madhav, Kantamaneni Srilatha, Myla Chimpiri Rao, Sudipta Das, A Circularly Polarized Quad-Band Wearable Textile Antenna Integrated with Triple Band AMC Reflector for WBAN Applications, Progress In Electromagnetics Research C, Vol. 121, pp.1-18, 2022. (Scopus Indexed Journal)
  85. Abdelaaziz El Ansari, Sudipta Das, Ikram Tabakh, BTP Madhav, Abdelhak Bendali, Najiba El Amrani El Idrissi, Design and Realization of a broadband multi-beam 1× 2 array antenna based on 2× 2 Butler Matrix for 2.45 GHz RFID Reader Applications, Journal of Circuits, Systems and Computers, 31 (17), 2022. (SCI Indexed Journal)
  86. Kantamaneni, S., Madhav, B.T.P., Badisa, A.B. et al. Conformal and polarization adjustable cloaking metasurface utilizing graphene with low radar cross section for terahertz applications. Opt Quant Electron 54, 454 (2022). https://doi.org/10.1007/s11082-022-03863-w (SCI Indexed Journal)
  87. K Vasu Babu, Sudipta Das, GNJ Sree, Shobhit K Patel, M. Pardha Saradhi, MRN Tagore, “Design and development of miniaturized MIMO antenna using parasitic elements and Machine learning (ML) technique for lower sub 6 GHz 5 G applications, AEU-International Journal of Electronics and Communications, 153, 154281, 2022. (SCI Indexed JOURNAL)
  88. A. Slimani, Sudipta Das, W.A.E. Ali, S.D. Bennani, M. Jorio, Second Order Microstrip Bandpass Filter Design Based on Square Resonator for 5G Sub-6GHz Band, Journal of Instrumentation, Vol. 17, P07002, 2022 (SCI Indexed JOURNAL)
  89. Shobhit K. Patel, Sunil P. Lavadiya, Juveriya Parmar, Kawsar Ahmed, Sofyan A. Taya, Sudipta Das, Low-cost, multiband, high gain and reconfigurable microstrip radiating structure using PIN diode for 5G/Wi-MAX/WLAN applications, Physica B: Condensed Matter, Volume 639,2022,413972, 2022. (SCI Indexed JOURNAL)
  90. Patel, Shobhit, Lavadiya, Sunil, Parmar, Juveriya, Das, Sudipta, Ahmed, Kawsar, Taya, Sofyan, “Low-cost, compact, and reconfigurable antenna using complementary split-ring resonator metasurface for next generation communication systems”, Accepted for publication in International Journal of Microwave and Wireless Technologies, Vol. 15 (5), 860-870, 2023. (SCI Indexed JOURNAL).
  91. Ibrahime Hassan Nejdi, Sudipta Das, Youssef Rhazi, Boddapati Taraka Phani Madhav, Seddik Bri, Mustapha Ait lafkih, As Compact planar multi-resonant multi-broadband fractal monopole antenna for Wi-Fi, WLAN, Wi-MAX, Bluetooth, LTE, S, C, and X band wireless communication systems, Journal of Circuits, Systems, and Computers, 31 (11), 2022. doi.org/10.1142/S0218126622502048 (SCI Indexed JOURNAL)
  92. Kommanaboyina Vasu Babu, Sudipta Das, Gorre Naga Jyothi Sree, Boddapati Taraka Phani Madhav, Shobhit K. Patel, Juveriya Parmar, Design and optimization of micro-sized wideband fractal MIMO antenna based on characteristic analysis of graphene for terahertz applications, Optical and Quantum Electronics, Vol. 54, 281, 2022 (SCI Indexed JOURNAL)
  93. Shobhit K. Patel, Nitul Dutta, Juveriya Parmar, Sudipta Das, BTP Madhav, Metasurface based glucose refractive index sensor using Ge2Sb2Te5 for glucose detection, Microwave and Optical Technology Letters., Vol. 64, 5, 867-872, 2022 (SCI Indexed JOURNAL)
  94. B. Aghoutane, M.El. Ghzaoui, Sudipta Das, Wael Ali, H. El. Faylali, A dual wideband high gain 2x2 multiple input multiple output monopole antenna with an end launch connector model for 5G millimeter wave mobile applications, International Journal of RF and Microawve Computer-Aided Engineering, Vol. 32, 5, e23088, https://doi.org/10.1002/mmce.23088 (SCI Indexed JOURNAL)
  95. Vishal Sorathiya, Sunil Lavadiya, Bijrajsinh Parmar, Sudipta Das, Murali Krishna et al., Tunable Polarizer Using Gold Array and Graphene Metamaterial Structure for an Infrared Frequency Range, Applied Physics B: Lasers and optics, Vol. 128, 13 (2022) (SCI Indexed JOURNAL)
  96. Anil Badisa, BTP Madhav, Sudipta Das, M.C.Rao, Design and analysis of varactor loaded bi- state switchable active AMC reflector for wearable antenna integration, International Journal of RF and Microawve Computer-Aided Engineering, Vol. 32, 4, e23047, https://doi.org/10.1002/mmce.23047 (SCI Indexed JOURNAL)
  97. Bilal Aghoutane, Sudipta Das, Mohammed EL Ghzaoui,B.T.P. Madhav, Hanan El Faylali, A novel dual band high gain 4-port millimeter wave mimo antenna array for 28/37 GHz 5G applications, Accepted for Publication, AEU-International Journal of Electronics and communication, Vol. 145 (16), 154071, 2022 (SCI Indexed JOURNAL)
  98. Vishal Sorathiya; Shobhitkumar Patel; Kawsar Ahmed; Sofyan A. Taya; Sudipta Das; Ch Murli Krishna, Multi-layered graphene silica-metasurface based infrared polarizer structure, Optical and Quantum Electronics, Vol. 54, 254, 2022 (SCI Indexed JOURNAL)
  99. K Vasu Babu, Sudipta Das, Gaurav Varshney, Gorre Naga Jyothi Sree, Boddapati Taraka Phani Madhav, A Micro-Scaled Graphene based Tree-Shaped Wideband Printed MIMO Antenna for Terahertz Applications, Journal of Computational Electronics, Vol. 21, 289-303, 2022 doi.org/10.1007/s10825-021-01831-3 (SCI Indexed JOURNAL)
  100. Nella Anveshkumar, Jai Mangal, Sudipta Das, Boddapati Taraka Phaneendra Madhav, Wael Abd Ellatif Ali, A low-cost miniaturized flower-shaped printed antenna with enhanced bandwidth for uwb applications, Accepted for publication in Progress in Electromagnetics Research B, 96, 1-18, 2022 (Scopus Indexed Journal)
  101. Ashraf. E. Ahmed, Wael A.E.Ali, Sudipta Das, Quintuple Band Circular Antenna with Innovative 3D-Printed PLA Substrate for Wireless Applications, Frequenz, 76, 199-207, 2022 https://doi.org/10.1515/freq-2021-0082 (SCI Indexed JOURNAL).
  102. K. Vasu Babu, Sudipta Das, Soufian Lakrit, Hicham Medkour, B. T. P. Madhav, P.J.Saikumar , Compact Dual-Band MIMO Antenna with Very Low Mutual Coupling for Wireless Communication Applications, Progress in Electromagnetics Research C, Vol. 117, pp.99-114, 2021. (SCOPUS JOURNAL)
  103. Yousra GHAZAOUI, Mohammed El GHZAOUI, Sudipta Das, B.T.P. Madhav, Ali EL ALAMI, A Compact High Gain Wideband Millimeter Wave 1×2 Array antenna for 26/28 GHz 5G Applications, Circuit World, https://doi.org/10.1108/CW-10-2021-0255, 2021 (SCI Indexed JOURNAL)
  104. A. Belmajdoub, M. Jorio, S. Bennani, Sudipta Das, and B.T.P. Madhav, Design of a Compact Reconfigurable Bandpass Filter using Interdigital Capacitor, DMS Slots and Varactor Diode for Wireless RF Systems, Journal of Instrumentation, Vol. 16 P11013, 2021 (SCI Indexed JOURNAL)
  105. Ch.Murali Krishna, Sudipta Das,, Chaitali Koley, BTP Madhav, Investigations on three pole microstrip low pass filters incorporated with DGS and fractals for selectivity improvement, Journal of Circuit, systems and computers, https://doi.org/10.1142/S0218126622500906 (SCI Indexed JOURNAL)
  106. Ch Murali Krishna, Sudipta Das, Soufian Lakrit, Sunil Lavadiya, Boddapati Taraka Phani Madhav, Vishal Sorathiya, Design and Analysis of a Super Wideband (0.09−30.14 THz) Graphene based Log Periodic Dipole Array Antenna for Terahertz Applications, Optik, Volume 247, 2021, 167991. (SCI Indexed JOURNAL)
  107. H. Medkour, S. Lakrit, Sudipta Das, BTP. Madhav, K. V. Babu, A Compact Printed UWB MIMO Antenna with Electronically Reconfigurable WLAN Band-Notched Characteristics, Journal of Circuit, systems and computers, Vol. 31, 03, 2021, doi.org/10.1142/S0218126622500451.(SCI   Indexed JOURNAL)
  108. Krihna, C.M., Sudipta Das., Nella, A. Lakrit, S., Madhav, BTP. A Micro-Sized Rhombus- Shaped THz Antenna for High-Speed Short-Range Wireless Communication Applications. Plasmonics, Vol. 16, 2167-2177, 2021 (SCI Indexed JOURNAL).
  109. S. Lakrit, A. Nella, Sudipta Das, BTP Madhav, CM, Krishna, An Integrated Three-antenna Structure for 5G, WLAN, LTE and ITU Band Cognitive Radio Communication, Vol. 139, https://doi.org/10.1016/j.aeue.2021.153906, AEUE - International Journal of Electronics and Communications, 2021 (SCI Indexed JOURNAL)
  110. Sudipta Das, B.K. Paul, M.El. Ghzaoui, S. Lakrit, K. Chakraborty, Compact Dual Wideband Open- Ended Ring-Shaped Slot Loaded Printed Monopole Antenna for X Band Applications, J. Nano- Electron. Phys. 13 No 3, 03001, 2021(Scopus Indexed JOURNAL)
  111. Ashraf E. Ahmed, Wael A.E. Ali , Sudipta Das, A 3D Printed 2x2 Circular Planar Antenna Array for Wireless Communications Applications, J. Nano- Electron. Phys. 13 No 3, 03028, 2021 (Scopus Indexed JOURNAL)
  112. Abdelhalim El Basset, Bilal Aghoutane, Mohammed El Ghzaoui, Abdi Farid, Sudipta Das, Hanan El Faylali, Modeling and Characteristics of a 3 dB Hybrid Coupler for 5G Applications, J. Nano- Electron. Phys. 13 No 3, 03032, 2021 (Scopus Indexed JOURNAL)
  113. Hind Raihani, Ali Benbassou, Mohammed El Ghzaoui, Jamal Belkadid, Sudipta Das, Patch Antennas with T-Match, Inductively Coupled Loop and Nested-slots Layouts for Passive UHF- RFID Tags, J. Nano- Electron. Phys. 13 No 3, 03033, 2021 (Scopus Indexed JOURNAL)
  114. A. Hmamou,M.El Ghzaoui,J. Foshi,J.Mestoui,A. El Basset, Sudipta Das, Performance Analysis of Oversampled OFDM over PLC Network, J. Nano- Electron. Phys. 13 No 3, 03035, 2021 (Scopus Indexed JOURNAL)
  115. Bilal Aghoutane, Mohammed El Ghzaoui, Hanan El Faylali, Sudipta Das, Investigation of Equivalent Circuit Model for a 5G Microstrip Patch Antenna, J. Nano- Electron. Phys. 13 No 3, 03036, 2021 (Scopus Indexed JOURNAL)
  116. K.V.M.Vineetha, M.S.Kumar, B.T.P.Madhav, Usha Devi, Sudipta Das, “Flexible and Conformal metamaterial based microwave absorber for WLAN, Wi-Max, and ISM Band Applications”, DOI: 10.1080/10667857.2020.1864194, January, 2021, Materials Technology (SCI INDEXED JOURNAL)
  117. A. slimani, Sudipta Das, A. el Alami, B.T.P. Madhav, S.D.Bennani, M. Jorio, Phase Shift Switching of a Miniaturized Ultra-Wide Band Hybrid Coupler for 5G Technology, Microwave and optical technology letters. Vol.63, Issue, 2, pp. 437-441, 2021. (SCI Indexed JOURNAL)
  118. Wael Ali, Sudipta Das, Hicham Medkour, Soufian Lakrit, “Planar dual-band 27/39 GHz millimeter-wave MIMO antenna for 5G applications”, Microsystem Technologies (2021). https://doi.org/10.1007/s00542-020-04951-1, Vol. 27, pp. 283–292 (SCI Indexed JOURNAL).
  119. Sardar Mohammed Shamim, Sudipta Das, Arafat Hossain, Boddapati Taraka Phani Madhav, Investigations on Graphene Based Ultra-wideband (UWB) Microstrip Patch Antennas for Terahertz (THz) Applications, Plasmonics, Vol. 16, 1623-1631, March, 2021, (SCI Indexed JOURNAL)
  120. Soufian Lakrit , Hicham Medkour, Sudipta Das , B. T. P. Madhav , Wael A.E. Ali, R.P.Dwivdi , A Novel High Gain Flexible UWB Antenna Array with Notched-Band and Wideband WPD for WBANApplications, Journal of Circuit, systems and computers, Vol. 30, No. 08, 2150133, 2021, (SCI Indexed JOURNAL).
  121. Bilal Aghoutane, Sudipta Das, Hanan El Faylali, B.T.P. Madhav, Mohammed EL Ghzaoui, Ali EL ALAMI, “Analysis, Design and Fabrication of a Square Slot Loaded (SSL) Millimeter-Wave Patch Antenna Array for 5G Applications”, Journal of Circuit, systems and computers, Vol. 30, No. 05, 2021, https://doi.org/10.1142/S0218126621500869. (SCI Indexed JOURNAL)
  122. I. Tabakh, Sudipta Das, M. Jorio, N. El Amrani El Idrissi, S. Mohapatra, D. Barad “Defected Ground Structure (DGS) Incorporated RFID Reader Antenna Array for Indoor Positioning Systems at 2.45 GHz”, International journal of microwave and optical technology, VOL.15, NO.6, pp. 517- 524, NOVEMBER 2020 (SCOPUS Indexed JOURNAL).
  123. S. Lakrit, Sudipta Das, S.Ghosh, BTP. Madhav, “Compact UWB Flexible Elliptical CPW-fed Antenna with Triple Notch Bands for Wireless Communications”, International Journal of RF & Microwave Computer Aided Engineering, 30(7), 2020. (SCI Indexed JOURNAL)
  124. S. Lakrit, Sudipta Das, B.T.P. Madhav, K.Vasu Babu “An octagonal star shaped flexible UWB antenna with Band−notched characteristics for WLAN applications”, Journal of Instrumentation vol. 15, P02021, 2020 (SCI Indexed JOURNAL)
  125. Y. Ghazaoui, A. El Alami, M. El Ghzaoui, Sudipta Das, D. Barad and S. Mohapatra. “Millimeter wave antenna with enhanced bandwidth for 5G wireless application. Journal of Instrumentation,Vol. 15, T01003, 2020 (SCI Indexed JOURNAL)
  126. H. Medkour, M. Cheniti, A. Narbudowicz, Sudipta Das, E. Vandelle, T.P.Vuong. “Coplanar waveguide based ultra wide band antenna with switchable filtering of WiMAX 3.5 GHz and WLAN 5 GHz signals. Microwave and Optical Technology Lett. 2020; 62:2398–2404. DOI: 10.1002/mop.32321 (SCI Indexed JOURNAL)
  127. M. A. Salmin, W. Ali, Sudipta Das, A. Zugari. A Novel etched-substrate mechanism for characteristics improvement of X band broadband monopole antenna, Microsys Technol, 2020, 26, pp. 3773–3782(2020), doi:10.1007/s00542-020-04862-1 (SCI Indexed JOURNAL)
  128. Kunal Chakraborty , Mahua Gupta Choudhury, Sudipta Das, Samrat Paul, “Development of PLC- SCADA based control strategy for water storage in a tank for a semi-automated plant”, Journal of Instrumentation, Vol. 15, T04007, 2020 (SCI Indexed JOURNAL)
  129. P. Paradha Saradhi, B.T.P. Madhav, K.V. Vineetha, G. C. Kiran, A. Pavani, M.C.Rao, Sudipta Das, “CSRR integrated reconfigurable mimo antenna for isolation enhancement” International Journal of Advanced Science and Technology Vol. 29, No. 4s, (2020), pp. 2034- 2045 (SCOPUS Indexed JOURNAL)
  130. B.T.P. Madhav, K.V. Vineetha, Meghana, D. Arun Kumar Reddy, M.C.Rao, Sudipta Das, “Circular Monopole with star shaped etched antenna for PCS, UMTS and WIFI applications”, International Journal of Advanced Science and Technology Vol. 29, No. 4s, (2020), pp. 2046- 2056 (SCOPUS Indexed JOURNAL)
  131. M. A. Salamin, Sudipta Das, BTP. Madhav, S. Lakrit, A. Roy, A. Zugari, “A miniaturized printed UWB antenna with dual notching for X-band and aeronautical radio navigation applications,” Telkomnika (Telecommunication Computing Electronics and Control) , Vol.18 (6), pp.2868- 2877, 2020. (SCOPUS Indexed JOURNAL)
  132. Mohammad Ahmad Salamin, Sudipta Das, Asmaa Zugari, “Closed Loop Resonator Based Compact UWB Antenna with Single Notched Band Varying between WLAN and X-band for UWB Applications”, Frequenz 2020; 74(5-6): 201–209, https://doi.org/10.1515/freq-2019- 0115 (SCI Indexed JOURNAL)
  133. A. Boutejder, M.Challal, Sudipta Das, S. El. Hani, “Design and manufacturing of a novel compact 2.4 GHz LPF using a DGS-DMS combination and quasi octagonal resonators for RADAR and GPS applications, Progress In Electromagnetics Research C, Vol. 90, 15–28, 2019 (SCOPUS Indexed JOURNAL)
  134. Sudipta Das, P.P.Sarkar, S.K.Chowdhury, “Frequency tunable printed antenna with 90% size reduction for wireless communication applications”, Journal of Instrumentation, Vol. 14, P11010, doi.org/10.1088/1748-0221/14/11/P11010, November, 2019. (SCI Indexed JOURNAL)
  135. A. Belmajdoub, A. El Alami, Sudipta Das, B.T.P. Madhav, S.D. Bennani and M. Jorio, “Design, optimization and realization of compact band pass filter using two identical square open-loop resonators for wireless communications systems,” Vol.14, P09012, Journal of Instrumentation doi.org/10.1088/1748-0221/14/09/P09012, September, 2019 (SCI Indexed JOURNAL).
  136. A. El Alami, Sudipta Das, B.T.P. Madhav, S.D. Bennani, “Design, optimization and realization of high gain RFID array antenna 4x1 for detection system of objects in motion,” Journal of Instrumentation, Vol. 14, P05002, doi.org/10.1088/1748-0221/14/05/P05002, May 2019. (SCI Indexed JOURNAL)
  137. L. Soufian, Sudipta Das, El Alami Ali, D. Barad, S. Mohapatra, “A Compact UWB Monopole Patch Antenna with Reconfigurable Band-notched Characteristics for Wi-MAX and WLAN applications,” AEU - International Journal of Electronics and Communications Vol. 105, pp. 106-115, 2019. (SCI Indexed JOURNAL)
  138. Mohammad Ahmad Salamin, Wael A.E. Ali, Sudipta Das, Asmaa Zugari, “Design and investigation of a multi-functional antenna with variable wideband/notched UWB behavior for WLAN/X-band/UWB and Ku-band applications, Int. J. Electron. Commun. (AEÜ) 111 (2019) 152895. (SCI Indexed JOURNAL)
  139. K. Vasu Babu, B. Anuradha and Sudipta Das, “Design & analysis of a dual-band MIMO antenna to reduce the mutual coupling”, Journal of Instrumentation, Vol. 14, P09023, September 2019, doi.org/10.1088/1748-0221/14/09/P09023. (SCI Indexed JOURNAL) Year: 2018
  140. S.ali, Sudipta Das, B.Lala, “Analysis of complementary notch loaded multifrequency compact printed antenna”, Journal for Foundations and Applications of Physics, vol. 5, No. 2, pp.77-91, (2018)
  141. A. Boutejdar, M. A. Salamin, M. Challal, Sudipta Das, S. El Hani, S. S. Bennani, P.P.Sarkar, “A Compact Wideband Monopole Antenna using Single Open Loop Resonator for Wireless Communication Applications,” TELKOMNIKA, Vol.16, No.5, October 2018, pp.2023-2031 (SCOPUS Indexed JOURNAL)
  142. M. A. Salamin, Sudipta Das, A. Zugari, “Design and realization of low profile dual-wideband monopole antenna incorporating a novel ohm (Ω) shaped DMS and semi-circular DGS for wireless applications,” International Journal of Electronics and Communications (AEÜ), Vol. 97, pp. 45-53, 2018. (SCI Indexed JOURNAL)
  143. Sudipta Das, P.P.Sarkar, S.K.Chowdhury, “Compact dual band printed monopole antenna”, International journal of future generation communication and networking, Vol.10, pp.85-98, 2017. http://dx.doi.org/10.14257/ijfgcn.2017.10.4.09 (ESCI Indexed JOURNAL)
  144. Sudipta Das, P.P.Sarkar, S.K.Chowdhury,“Compact modified ground plane (MGP) microstrip antenna with narrowband and wideband resonance characteristics”, International journal of signal processing, image processing and pattern recognition, Vol.10, pp.13-26, 2017 http://dx.doi.org/10.14257/ijsip.2017.10.2.02
  145. Sudipta Das, P.P.Sarkar, S.K.Chowdhury, “Analysis of a notch loaded miniaturized multifrequency microstrip patch antenna”, International journal of signal processing, image processing and pattern recognition, Vol.10, No.8, pp.75-88, 2017.
  146. Sudipta Das, “Miniaturization and bandwidth enhancement of a microstrip patch antenna using defected ground structure”, American Journal of Circuits, Systems and Signal processing, Vol.3, no.2, pp.6-11, 2017.
  147. A. Negel, Sudipta Das, B.Dutta, S.K.Mishra, “Compact microstrip patch antenna with dual frequency tuning characteristics using E-shaped defected ground plane structure”, Journal for foundations and applications of physics, Vol. 4, No.2, pp.48-61, 2017.
  148. Sudipta Das, P.P.Sarkar, S.K.Chowdhury, “Analysis of slits loaded compact printed antenna for multifrequency operation”, International journal of advances in microwave Technology, Vol. 2, pp.80-84, 2016.
  149. R.K.Singh, Sudipta Das, and A. Kumar, “A Novel Fractal Shaped Slot Loaded Compact Printed Antenna for Wireless Communication Applications”, International Journal of Modern Electronics and Communication Engineering (IJMECE), Vol. 4, Issue No.-1, pp. 12-16, 2016.
  150. Sudipta Das, Partha P. Sarkar, and Santosh K. Chowdhury, “Reduced Sized Triple frequency Microstrip Antenna with Dual Frequency Tuning Characteristics”, COMPUSOFT, An international journal of advanced computer technology, Vol. 5, pp. 2105-2110, April, 2016
  151. Sudipta Das, P. Chowdhury, A. Biswas, Partha P. Sarkar and S. K. Chowdhury, “Analysis of a miniaturized multiresonant wideband slotted microstrip antenna with modified ground plane”, IEEE Antennas and Wireless Propagation Letters, Vol.14, Page(s): 60-63, January, 2015. (SCI Indexed JOURNAL)
  152. Sudipta Das, Partha Pratim Sarkar and Santosh Kumar Chowdhury, “Analysis of an open-ended Inverted L-shaped slot loaded Microstrip patch antenna for size reduction and multifrequency operation”, Journal of Electromagnetic Waves and Applications, Vol.29, No.07, pp.874-890, 2015. http://dx.doi.org/10.1080/09205071.2015.1025914 (SCI Indexed JOURNAL)
  153. Sudipta Das, Partha P. Sarkar, and Santosh K. Chowdhury, “Modified π-shaped Slot Loaded Multifrequency Microstrip Antenna”, Progress In Electromagnetics Research B, Vol. 64, 103– 117, 2015. (SCOPUS Indexed JOURNAL)
  154. Sudipta Das, Abhishek karmakar, Partha Pratim Sarkar, Santosh Kumar Chowdhury, “Design and Analysis of a novel open ended T shaped slot loaded Compact Multifrequency Microstrip patch Antenna”, Microwave and Optical Technology Letters (MOTL), Vol-56, Issue-2, pp.316- 322, February, 2014. (SCI Indexed JOURNAL)
  155. Sudipta Das, Partha Pratim Sarkar, Santosh Kumar Chowdhury, “Design and Analysis of a Compact Monitor Shaped Multifrequency Microstrip Patch Antenna”, Journal of Electromagnetic waves and applications, Vol-28, No.7, 2014, pp.827-837. 10.1080/09205071.2014.892441 (SCI Indexed JOURNAL)
  156. Sudipta Das, Partha Pratim Sarkar, Santosh Kumar Chowdhury, “Design and analysis of a compact triple band slotted microstrip antenna with modified ground plane for wireless communication applications”, Progress In Electromagnetics Research B, Vol.60,215-225,2014. (SCOPUS Indexed JOURNAL)
  157. Sudipta Das, Partha Pratim Sarkar, Santosh Kumar Chowdhury, “Investigations on miniaturized multifrequency microstrip patch antennas for wireless communication applications”, Journal of Electromagnetic waves and Applications, Vol-27, June 2013, pp.1145-1162 (SCI Indexed JOURNAL)
  158. Sudipta Das, “Designing microstrip band reject filter with wide bandwidth covering S band to C band using IE3D”, International Journal of Research in Electronics and Computer Engineering (IJRECE) Vol. 1. Issue 1 Oct-Dec, 2013.
  159. M. Mohan, Sudipta Das, S. Mahato, A. K. Chowdhury, “Size reduction and bandwidth enhancement of microstrip patch antenna by proper positioning of patch above the defected ground plane”, International journal of innovative research in electrical, electronics, instrumentation and control engineering (IJIREEICE), Vol.01, issue-06, September 2013, PP- 265- 271.
  160. Sudipta Das, Santosh Kumar Chowdhury, “Design Simulation and Fabrication of Stepped Impedance Microstrip line Low Pass Filter for S-band Application using IE3D and MATLAB” International Journal of Electronics & Communication Technology (IJECT), Vol.3, Issue 1, Jan. - March 2012, Page 98-100.
  161. Sudipta Das, Partha Pratim Sarkar, Santosh Kumar Chowdhury, P. Chowdhury, “Compact multifrequency slotted microstrip patch antenna with enhanced bandwidth using defected ground structure for mobile communication”, IJESAT, Vol-2, Issue2, March-April 2012, 301- 306.
  162. Sudipta Das, K. Chakraborty, “Design of Slotted Circular Printed Antenna for WLAN, RFID and C Band Applications”, International Journal of Electronics & Communication Technology (IJECT), Vol-3, Issue-2, Apr-Jun 2012, Page-160-162.
  163. Sudipta Das, Partha Pratim Sarkar, Santosh Kumar Chowdhury, “New Compact Impedance Matched Dual Frequency Printed Antenna for PCS System”, International Journal of Advanced Scientific Research and Technology (IJASRT), RS PUBLICATION, Vol-2, Issue-3, May- June 2012, Page-338-345.
  164. V. K. Yadaw, Sudipta Das, S.M. M. Rahman, A.P.Ramkanu, A. Karmakar, “Size Reduction and Bandwidth Enhancement of Rectangular Printed Antenna using triple narrow slits for Wireless Communication System and Microwave X-Band Applications”, International journal of Engineering Research and Applications(IJERA),Vol.2,Issue-5,Sept-Oct,2012,page-1478- 1484.
  165. R.Saha, S.Kundu, T. Bardhan, Sudipta Das, “Novel Compact Log-Periodic Array Shaped Slotted Microstrip Patch Antenna for Wireless Communication System”, International journal of Emerging trends in Engineering and Development, RS PUBLICATION, Vol.6, Issue2, Sept.2012, Page-402-409.
  • International Conferences
    1. Iftissane El Mustapha, Sudipta Das, Bri Seddik, Foshi Jaouad, Belrhiti Moulay Driss and Jebbor Nawfal, Reconfigurable Dual Band Microstrip Array Antenna, International Conference on Innovative Research in Applied Science, Engineering and Technology (IRASET), 2022
    2. F. Rahioui, M. A. T. Jouti, M. El Ghzaoui, P. Malik, S. Das and R. Singh, "Machine Learning for Data Flow Processing in Learning Process," 2023 International Conference on Artificial Intelligence and Smart Communication (AISC), Greater Noida, India, 2023, pp. 357-360, doi: 10.1109/AISC56616.2023.10085154.
    3. Abdelaaziz El Ansari, Sudipta Das, Najiba El Amrani El Idrissi, Tarik El-Arrouch and Abdelhak Bendali, Slot incorporated high gain printed RFID reader array antenna for 2.4 GHz ISM band applications, E3S Web Conf. Volume 351, 2022, 10th International Conference on Innovation, Modern Applied Science & Environmental Studies (ICIES’2022)
    4. A. E. Ansari, S. Das, T. El-Arrouch and N. El Amrani El Idrissi, "A Hybrid Coupler Integrated 1×4 Printed Array Antenna with Broadband and High Performance for Beamforming RFID Reader," 2022 9th International Conference on Wireless Networks and Mobile Communications (WINCOM), Rabat, Morocco, 2022, pp. 1-6, doi: 10.1109/WINCOM55661.2022.9966467.
    5. Ali El Alami, Sudipta Das, Saad D Bennani, “Design and Simulation of RFID Array Antenna 2x1 for Detection System of Objects or Living Things in Motion”, The International Workshop on Microwave Engineering, Communications Systems and Technologies (MECST’2019) held in parallel with the 10th international conference on Ambient systems, networks and Technologies, April 29-May-2, 2019, Leuven, Belgium, Procedia Computer Science. (SCOPUS)
    6. Bilal Aghoutane, Hanan El Faylali, Mohammed EL Ghzaoui and Sudipta Das, “Design of a high gain 2*1 patch array for fifth generation wireless applications”, CMT-2019, Fez, Morocco, 2019. (SCOPUS)
    7. Md Nazmul Hasan, Oluwatosin John Babarinde, Sudipta Das and K. Vasu Babu, “Dispersion Characterization of a UWB Vivaldi Antenna in Time and Frequency Domain,” IEEE Indian conference on Antennas & Propagation (InCAP), Dec. 16-19, Hyderabad, 2018. (SCOPUS)

Authored/Edited Books:

Title of the Book:
  1. “The basic idea of Microstrip filter design for wireless Communication”- Basics, Concepts and Design Methods

Author of the Book: Sudipta Das

ISBN NO: 978-3-659-14093-8

Year of Publication: 2012, Publisher: LAP-Lambert Academic Publisher, GERMANY.

  1. Title of the Book:

“Advances in Terahertz Technology and its applications

Editors: Sudipta Das, Nella A. Kumar, Joydeep Dutta, Arindam Biswas

Publisher: Springer

Appeared Online, 2021, https://link.springer.com/book/10.1007/978-981-16-5731-3

  1. Title of the Book:

Terahertz wireless communication components and system technologies

Editors: M. Elghazoui, Sudipta Das, T.R.Lenka, Arindam Biswas

Publisher: Springer, https://link.springer.com/book/9789811691812, 2022

  1. Title of the Book:

Terahertz devices, circuits and systems-materials, methods and applications

Editors: Sudipta Das, Nella A. Kumar, Shobhit K. Patel

Publisher: Springer, 2023, https://link.springer.com/book/10.1007/978-981-19-4105-4

  1. Title of the Book: Recent Advances in Graphene Nanophotonics

Editors: S.K. Patel, Sofyan A. Taya, Sudipta Das, K. Vasu Babu

Publisher: Springer, 2023, https://link.springer.com/book/10.1007/978-3-031-28942-2

  1. Title of the Book: Next Generation Wireless Communication

           Advances in Optical, mm-Wave, and THz Technologies

Editors: M. Elghazoui, Sudipta Das, Varakumari Samudrala, Nageswara Rao Medikondu

Publisher: Springer, 2023, https://link.springer.com/book/9783031561436

    • BOOK CHAPTERS:
  2. Lavadiya, S., Sorathiya, V., Das, S. (2022). Simulation and Fabrication of High Gain Diffracted Ground-Based Metamaterial Microstrip Patch Antenna for C Band. In: Sikdar, B., Prasad Maity, S., Samanta, J., Roy, A. (eds) Proceedings of the 3rd International Conference on Communication, Devices and Computing. Lecture Notes in Electrical Engineering, vol 851.Springer, Singapore. https://doi.org/10.1007/978-981-16-9154-6_38 (SCOPUS INDEXED)
  3. Ahmed, A.E., Ali, W.A.E., Das, S. (2022). High Gain 3-D Printed 2 × 2 Trapezoidal Planar Antenna Array for X-band Wireless Applications. In: Sikdar, B., Prasad Maity, S., Samanta, J., Roy, A. (eds) Proceedings of the 3rd International Conference on Communication, Devices and Computing. Lecture Notes in Electrical Engineering, vol 851. Springer, Singapore. https://doi.org/10.1007/978-981-16-9154-6_40 (SCOPUS INDEXED)
  4. Chakraborty, K., Mukherjee, S., Mukherjee, U., Das, S., Paul, S. (2022). Development of a Programmable Logic Controller-Based Advance Control Strategy for the Multiple Boiler System. In: Sikdar, B., Prasad Maity, S., Samanta, J., Roy, A. (eds) Proceedings of the 3rd International Conference on Communication, Devices and Computing. Lecture Notes in Electrical Engineering, vol 851. Springer, Singapore. https://doi.org/10.1007/978-981-16- 9154-6_42 (SCOPUS INDEXED)
  5. Ghazaoui, Y., El Alami, A., Das, S., El Ghzaoui, M. (2022). A Modified E-Shaped Compact Printed Antenna for 28 GHz 5G Applications. In: Bennani, S., Lakhrissi, Y., Khaissidi, G., Mansouri, A., Khamlichi, Y. (eds) WITS 2020. Lecture Notes in Electrical Engineering, vol 745. Springer, Singapore. https://doi.org/10.1007/978-981-33-6893-4_87 (SCOPUS INDEXED)
  6. Abdellatif Slimani, Saad Dosse Bennani, Ali El Alami, Mohammed Jorio, Abdelhafid Belmajdoub, Mohamed Amzi, Sudipta Das and Sghir Elmahjouby (2022). Development of an Ultra Wide Band Hybrid Coupler with Adjustable Phase Shifter for 5G Applications. In: Bennani, S., Lakhrissi, Y., Khaissidi, G., Mansouri, A., Khamlichi, Y. (eds) WITS 2020. Lecture Notes in Electrical Engineering, vol 745. Springer, Singapore. https://doi.org/10.1007/978- 981-33-6893-4_82 (SCOPUS INDEXED)
  7. Lakrit, S., Das, S., Chowdhury, A., MoussaLabbadi, Madhav, B.T.P. (2022). Analysis and Fabrication of a Compact CPW-Fed Planar Printed UWB Antenna Using Isola Tera MT (R) Substrate for Medical Applications. In: Chanda, C.K., Szymanski, J.R., Sikander, A., Mondal, P.K., Acharjee, D. (eds) Advanced Energy and Control Systems. Lecture Notes in Electrical Engineering, vol 820. Springer, Singapore. https://doi.org/10.1007/978-981-16-7274-3_17 (SCOPUS INDEXED)
  8. Sudipta Das., Chowdhury A., Lala B., Dwivedi R.P., Vasu Babu K., EL Ghzaoui M. (2022) A Compact Penta-Band Printed Monopole Antenna for Multiple Wireless Communication Systems. In: Sivasubramanian A., Shastry P.N., Hong P.C. (eds) Futuristic Communication and Network Technologies. Lecture Notes in Electrical Engineering, vol 792. Springer, Singapore.    https://doi.org/10.1007/978-981-16-4625-6_11 (SCOPUS INDEXED)
  9. Vasu Babu K., Kokkirigadda S., Sudipta Das (2022) Design and Simulation of Dual-Band MIMO Antenna for Radar and Sub-6-GHz 5G Applications. In: Sivasubramanian A., Shastry P.N., Hong P.C. (eds) Futuristic Communication and Network Technologies. Lecture Notes in Electrical Engineering, vol 792. Springer, Singapore. https://doi.org/10.1007/978-981- 16-4625-6_29 (SCOPUS INDEXED)
  10. Hmamou A., EL Ghzaoui M., Sudipta Das., Foshi J. (2022) An Analytical Model of Propagation Channels for Terahertz             Wireless Communication System. In: Sivasubramanian A., Shastry P.N., Hong P.C. (eds) Futuristic Communication and Network Technologies. Lecture Notes in Electrical Engineering, vol 792. Springer, Singapore. https://doi.org/10.1007/978-981-16-4625-6_52 (SCOPUS INDEXED)
  11. Aghoutane B., Faylali H.E., EL Ghzaoui M., Sudipta Das., Dwivedi R.P. (2022) MIMO Channels Modeling for Terahertz Radio Communications Systems. In: Sivasubramanian A., Shastry P.N., Hong   P.C.   (eds) Futuristic Communication   and   Network   Technologies. Lecture Notes in Electrical Engineering, vol 792. Springer, Singapore. https://doi.org/10.1007/978-981-16-4625-6_53 (SCOPUS INDEXED)
  12. Mestoui J., EL Ghzaoui M., Sudipta Das., Aghoutane B., Faylali H.E., Dwivedi R.P. (2022) MIMO-OFDM Technique Over Terahertz Radio Channels. In: Sivasubramanian A., Shastry P.N., Hong P.C. (eds) Futuristic Communication and Network Technologies. Lecture Notes in Electrical Engineering, vol 792. Springer, Singapore. https://doi.org/10.1007/978-981- 16-4625-6_54 (SCOPUS INDEXED)
  13. Ahmed A.E., Ali W.A.E., Chowdhury A., Sudipta Das (2022) A 3-D Printed Trapezoidal Antenna for X-Band Wireless Communications Applications. In: Sivasubramanian A., Shastry P.N., Hong   P.C. (eds) Futuristic Communication and Network Technologies. Lecture Notes in  Electrical Engineering, vol 792. Springer, Singapore. https://doi.org/10.1007/978-981-16-4625-6_94 (SCOPUS INDEXED)
  14. Sunil Lavadiya, Vishal Sorathiya, Sudipta Das, Ahmed Nabil Zaki Raashed, Shunmughavel V, Pradeep K, Visison, challenge, Futuristic approach of machine learning in 6G wireless technology, Handbook of research on design, deployment, automation, and testing strategies for 6G mobile core network, DOI: 10.4018/978-1-7998-9636-4, 2022. (SCOPUS INDEXED)
  15. Aghoutane, B., Faylali, H.E., Das, S. (2022). High Gain of a Canine MIMO Antenna for Terahertz Applications. In: El Ghzaoui, M., Das, S., Lenka, T.R., Biswas, A. (eds) Terahertz Wireless Communication Components and System Technologies. Springer, Singapore. https://doi.org/10.1007/978-981-16-9182-9_9 (SCOPUS INDEXED)

 

  1. Salah-Eddine DIDI, Imane HALKHAMS, FATTAH Mohammed, Younes BALBOUL, Said MAZER, Moulhime EL BEKKALI, Sudipta Das (2022). Study and Design of the Microstrip Patch Antenna Operating at 120 GHz. In: El Ghzaoui, M., Das, S., Lenka, T.R., Biswas, A. (eds) Terahertz Wireless Communication Components   and System   Technologies.   Springer, Singapore.https://doi.org/10.1007/978-981-16-9182-9_12 (SCOPUS INDEXED)
  2. El Ghzaoui M., Sudipta Das (2021) OFDM for Terahertz Wireless Communication Systems. In: Biswas A., Banerjee A., Acharyya A., Inokawa H. (eds) Emerging Trends in Terahertz Engineering and System Technologies. Springer, Singapore. https://doi.org/10.1007/978-981- 15-9766-4_7(SCOPUS INDEXED)
  3. Sudipta Das., Ali S., Lala B., Chowdhury A., Vasu Babu K., Madhav B.T.P. (2021) Analysis of a Miniaturized Modified Multifrequency Printed Antenna with Broadband Characteristics for WLAN Application. In: Priyadarshi N., Padmanaban S., Ghadai R.K., Panda A.R., Patel R. (eds) Advances in Power Systems and Energy Management. ETAEERE 2020. Lecture Notes in Electrical Engineering, vol 690. Springer, Singapore. https://doi.org/10.1007/978-981-15- 7504-4_69 (SCOPUS INDEXED)
  4. El Ghzaoui M., Sudipta Das (2020) Data Transmission with Terahertz Communication Systems. In: Biswas A., Banerjee A., Acharyya A., Inokawa H., Roy J. (eds) Emerging Trends in Terahertz Solid-State Physics and Devices. Springer, Singapore. https://doi.org/10.1007/978- 981-15-3235-1_9 (SCOPUS INDEXED)
  5. Paul B.K., Chowdhury A., Sudipta Das., Sarkar S. (2020) A Compact Microstrip-Fed Dual Band Printed Antenna with Enhanced Bandwidth Incorporating L-Shaped DGS for Wireless Applications. In: Sikander A., Acharjee D., Chanda C., Mondal P., Verma P. (eds) Energy Systems, Drives and Automations. Lecture Notes in Electrical Engineering, vol 664. Springer, Singapore. https://doi.org/10.1007/978-981-15-5089-8_47 (SCOPUS INDEXED)
  6. Kiouach, F., El Ghzaoui, M., El Alami, R., Das, S., Jamil, M.O., Qjidaa, H. (2023). Design and Analysis of a Slot Antenna Array with a Defected Ground Plan for Millimeter Wave Application. In: Motahhir, S., Bossoufi, B. (eds) Digital Technologies and Applications. ICDTA 2023. Lecture Notes in Networks and Systems, vol 668. Springer, Cham. https://doi.org/10.1007/978-3-031-29857-8_29 (SCOPUS INDEXED)
  7. Vasu Babu, K., Sree, G.N.J., Duraisamy, K., Jeyabharathi, M., Das, S. (2023). Design of Monopole Ground Graphene Disc-Inserted THz Antenna for Future Wireless Systems. In: Patel, S.K., Taya, S.A., Das, S., Vasu Babu, K. (eds) Recent Advances in Graphene Nanophotonics. Advanced Structured Materials, vol 190. Springer, Cham. https://doi.org/10.1007/978-3-031-28942-2_14 (SCOPUS INDEXED)
  8. Babu, K.V., Sree, G.N.J., Duraisamy, K., Vanarajan, D.P., Das, S. (2023). Design and Analysis of Fractal-Based THz Antenna with Co-Axial Feeding Technique for Wireless Applications. In: Patel, S.K., Taya, S.A., Das, S., Vasu Babu, K. (eds) Recent Advances in Graphene Nanophotonics. Advanced Structured Materials, vol 190. Springer, Cham. https://doi.org/10.1007/978-3-031-28942-2_17 (SCOPUS INDEXED)
  9. Lavadiya, S., Sorathiya, V., Duraisamy, K., Devi, D.H., Das, S. (2023). Graphene-Based THz Antenna: Rudiments, Fabrication, and Forthcoming Opportunity. In: Patel, S.K., Taya, S.A., Das, S., Vasu Babu, K. (eds) Recent Advances in Graphene Nanophotonics. Advanced Structured Materials, vol 190. Springer, Cham. https://doi.org/10.1007/978-3-031-28942-2_13 (SCOPUS INDEXED)
  10. Bendaoued, M., Es-Saleh, A., Lakrit, S., De, A., Das, S., Faize, A. (2023). Split Ring Resonator (SRR) Incorporated Patch Array Antenna with Enhanced Gain and Bandwidth for 5.8 GHz WLAN Applications. In: Ben Ahmed, M., Boudhir, A.A., Santos, D., Dionisio, R., Benaya, N. (eds) Innovations in Smart Cities Applications Volume 6. SCA 2022. Lecture Notes in Networks and Systems, vol 629. Springer, Cham. https://doi.org/10.1007/978-3-031-26852-6_68 (SCOPUS INDEXED)
  11. Aghoutane, B., Faylali, H.E., Das, S. (2022). High Gain of a Canine MIMO Antenna for Terahertz Applications. In: El Ghzaoui, M., Das, S., Lenka, T.R., Biswas, A. (eds) Terahertz Wireless Communication Components and System Technologies. Springer, Singapore. https://doi.org/10.1007/978-981-16-9182-9_9 (SCOPUS INDEXED)
  12. Vasu Babu, K., Sree, G.N.J., Kumari, S.V., Das, S. (2022). Design and Analysis of a CPW-Fed Fractal MIMO THz Antenna Using an Array of Parasitic Elements. In: Das, S., Nella, A., Patel, S.K. (eds) Terahertz Devices, Circuits and Systems. Springer, Singapore. https://doi.org/10.1007/978-981-19-4105-4_4 (SCOPUS INDEXED)

 

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