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Institution Details:
Name of the University/ Institution : Birla Institute of Technology(BIT)
Postal Address with phone/ Fax/email : Mesra, Ranchi, Jharkhand ,PIN:835215
Fax No. (0651)2275401;
Tel No. 0651-2275444/896, 0651-2276002/004,
0651-2276494/495/498
Status : Central Univ. /State Univ./Deemed Univ./Private Univ. / Institute, etc. : Deemed Univ.
Contact details of Nodal Person with phone/Fax/email appointed by Institution for the PhD Scheme of
DeitY :Dr.(Prof.) B.K. Singh , Dean (UG,PG &Doctoral Research),
Email: [email protected]
PH: 0651-2275338
Fax: (0651)2275401
Availability of Hostel accommodation : Yes
Whether the institute is recognized by UGC for award of PhD degree : Yes
Department Details:
Name of Department : Electronics & Communication Engineering (ECE)
Current Areas of Research of the department :
1. Computational Electromagnetics
2. EMI/EMC
3. Printed RF and Microwave Circuits / Antennas for various applications
4. Fiber Optic Instrumentation and Communication
5. Signal Processing: Biomedical Signal Processing, Image Processing, and Speech Processing
6. VLSI and Embedded System
7. Wireless Networking and Communication
Number of faculties/ guides in the department with name and other details :Given Below
S.
No. Name Designation Research area
Publication Books/
Book
Chapters
No. of
PhD
candidate
registered Int.
Journals National
Journals Int.
Conference
National
conference
1.
Dr. (Prof.)R.
Sukesh
Kumar
Professor Digital Image
Processing 3 0 3 1 1 3
2. Dr.(Prof.)
Vibha Rani
Gupta
Professor
Printed RF and
Microwave
Circuits /
Antennas for
various
applications
21 Nil 37 12 Nil 7
3. Dr.(Prof.)
Nisha Gupta Professor
Computational
Electromagnetics,
AI Techniques in
Antenna Design,
RF Circuit
Design, EMI &
EMC
54 1 37 16 Nil 3
4. Dr.(Prof.)S.K.
Ghorai Professor
Fiber Optic
Instrumentation
and
Communication
14 1 19 14 Nil 3
5. Dr. Sanjay
Kumar
Associate
Professor
Wireless &
Mobile
Communication
12 Nil 23 12 1
chapter 6
6. Dr. Sandeep
Singh Solanki
Associate
Professor
Speech
Processing 15 Nil 12 10 Nil 4
7. Dr. Rajesh
Kumar Lal
Associate
Professor
Optoelectronic
Devices 9 Nil 15 7 Nil 7
8. Dr. Neela
Chattoraj
Associate
Professor
Application of
GA in Microstrip
Antenna, GA
Microwave,
MEMS
20 Nil 31 4 Nil 7
9. Dr. Mahesh
Chandra
Associate
Professor
Signal
Processing,
Speech
Processing
40 11 57 7 1 7
10. Dr. Sanjeet
Kumar
Assistant
Professor
Distributed and
Scalable video
coding for
Wireless
Communication
3 Nil 6 4 Nil 4
11. Dr. Sitanshu
Sekhar Sahu
Assistant
Professor
Signal
Processing, Soft
Computing,
Machine
Learning, Data
Mining,
Bioinformatics,
Computational
Biology
10 Nil 12 Nil Nil Nil
12. Dr. A.K.
Tiwary
Assistant
Professor
Wireless
Communication ,
RF Circuit
Design
4 1 6 Nil Nil 3
13. Dr. Aminul
Islam
Assistant
Professor
VLSI / CAD
design for
classical CMOS,
non-classical
CMOS and non-
CMOS (non-
Silicon)
technologies
26 1 55 9 2
chapters 5
14.
Dr. Dileep
Kumar
Upadhyay
Assistant
Professor
Metamaterial
based Microwave
Devices for
Wireless
Communication
Applications, RF
circuits
7 1 2 2 Nil 1
15.
Dr. Manoj
Kumar
Mukul
Assistant
Professor
BSS- Based EEG
Signal
Processing,
Feature
Extraction, EEG
- Based
BMI,Pattern
Recognition
2 Nil 14 Nil Nil 4
16.
Dr. Sanjaya
Shankar
Tripathy
Assistant
Professor Image Processing 4 Nil 9 2 Nil 1
17. Dr. Vijay
Nath
Assistant
Professor
VLSI Design,
Embedded
Systems, MEMS
9 Nil 25 31 2 (under
review) 5
Current number of PhDs in the department (average of last three year intake) :70 (Approx. 12/year)
Distribution of current PhD candidates among the Faculty/ Guides:
Assist. Prof. : 5
Associate prof./Professor : 8
Availability of Infrastructural Facilities in the department /Institute/ Univ.:
1. Infrastructural Facilities for Computational Electromagnetics and Printed RF and
Microwave Circuits / Antennas for various applications and EMI & EMC:
Major equipment and software available are
Equipment:
2 Line V – network LISN(9KHz-30MHz), Probe Set for E & H (30MHz- 3GHz), RF current probe
(20Hz-100MHz), Hand held spectrum analyser(100KHz-3.6GHz), Hand held spectrum
analyser(100KHz-7GHz), ANECHOIC Chamber(KV-APB) , Vector Network
analyser(VNA,N5230), Microwave Signal Generator(1GHZ-20GHz)SMR20, Spectrum
Analyser(9KHz-30GHz)R&S, Conical horn antenna(C -band), Conical horn antenna(X -band),
PCB Fabrication setup (microwave oven,UV exposure unit,die,chemicals etc.)
Software:
IE3D, HFSS, SONNET, ADS, CST Studio, Microwave office, Comsol version 4.1 ,requrement
version 5, Coventoreware
2. Infrastructural Facilities available for Fiber Optic Instrumentation and Communication
Tunable LASER Source (TLS), Optical Spectrum Analyser(OSA), Fusion Splicer, Photo
detector, e. Ar-Ion LASER(200mW), LASER diode (670nm)with driver, Monochromator
, Broadband Source(BBS), Optical Time Domain Reflectometer(OTDR) , Beam
Expander(20X), Birefringence fiber(600,800,1300), Variable ND filter
3. Infrastructural Facilities available for Signal Processing: Biomedical Signal Processing,
Image Processing, and Speech Processing:
a. Eqipment: DSP processors
b. Software: MATLAB
4. Infrastructural Facilities available for VLSI and Embedded System:
Softwares:
Virtuoso Analog Design Environment, Spectre, Virtuoso Layout Editor and Parasitic Extraction
tools of Cadence Design System, Inc. softwares, Microwind software for layout design of CMOS
circuits,
Various EDA tools and hardware implementation kits :
Xilinx ISE (Integrated Software Environment) of Xilinx Inc. for VHDL and Verilog based ASIC
(Application Specific Integrated Circuit) Design, Active-HDL of ALDEC Inc. for VHDL and
Verilog based ASIC (Application Specific Integrated Circuit) Design, Atmel Microcontrollers
(AT89S51 and AT89S52) for verification of embedded software developed using Assembly/C
Language, μVision of Keil Software Inc. for designing embedded software for Atmel
Microcontrollers using Assembly/C Language, Spartan-II (FPGA XC2S50, CPLD XC9572) ,
Video decoder (VDEC) card (for universal kit), Flash Programmer (FP-8903 Version 2.0.2) of
Oriole Electronics Pvt. Ltd. for programming (embedding the embedded software) ATMEL
Microcontrollers (AT89S51 and AT89S52) having FLASH program memory, Microcontroller
kits supplied by Freescale India Pvt. Ltd.
5. Infrastructural Facilities available for Wireless Networking and Communication
Qualnet 6.1 (research license) software, System viewer (software), Avaya Telephony
setup, GSM test system
Capacity to take additional PhD candidates : 42
Details about Guide and PhD Candidates:
Research areas proposed for additional PhDs : ESDM or IT/ITES
Area1:Brief on Research areas proposed: Electromagnetic Compatibility issues in Chaotic Circuits
The Electromagnetic Compatibility (EMC) is becoming more important due to tremendous use of
electronic devices in personal computing/entertainment/communication and in automobiles.
Increased packaging density, increasing clock frequencies, demand for smaller, lighter, cheaper
and low power devices have increased the problem of emission and susceptibility. The EMC
mainly concerns about the satisfactory functioning of the device in Electromagnetic Interference
(EMI) environment and at the same time do not be a source of interference or do not generate
more than the specified amount of interference. The proposed work would focus on the
performance of chaotic circuits in presence of EMI and would also suggest the mitigation
techniques for its satisfactory operation in presence of EMI.
Brief extract of Research proposed for new PhDs :
Design of Chaotic Circuits and its performance under the influence of Electromagnetic
Interference
In the past, a large variety of electronic devices and circuits have been realized which exhibit very
complicated dynamical behavior, called chaos. The development of chaotic oscillators and their
synchronization is an active field of research in communications technology. Most of the
nonlinear devices/circuits exhibit chaotic mode of operation under certain parametric conditions.
These parameters are in turn very much sensitive to the Electromagnetic Interfernece (EMI). The
EMI is the undesirable signal which causes unsatisfactory operation of the devices and circuits.
With the vast growth in the usage of electronic equipment, this problem of Electromagnetic
Compatibility (EMC) has become an important topic. As a result, it is necessary to design for
EMC from the outset of a new electronics development project and implement the various design
techniques for EMC into the whole concept of the product. By taking into account the design for
EMC aspects at the concept stages of a development precautions required can be implemented
correctly.
The proposed work would focus on the design of chaotic circuits, namely the chaotic oscillators,
both autonomous and non autonomous type and their performance in presence of Electromagnetic
interference (EMI). In case of unsatisfactory operation of the circuit a number of precautions can
be adopted to ensure that its EMC performance requirements can be met. Trying to fix the EMC
performance once the circuit has been designed and built will be far more difficult and costly.
Accordingly there are a number of areas that can be addressed during the design to ensure that the
EMC performance is optimized such as EMC filters, Circuit partitioning, Grounding, shielding,
etc. However, by adopting these precautions, the EMC performance of the circuit can be greatly
enhanced. However it will still need to undergo EMC testing to ensure that it meets the required
performance.
Name and Publications of Guide(s) for new PhD candidates : Dr. Nisha Gupta
A. International Journals: (54)
1. N. Gupta & M. Singh, “The Space Spectral Domain applied to a fin line Configuration”, IEEE
Microwave and Guided Wave Letters, vol. 3, No. 3, pp. 125-126, May 1993.
2. N. Gupta and M. Singh, “Space-spectral domain approach for the resonant characteristics of fin
line,” Microwave and Optical Technology Letters, vol. 9, No. 2, June 1995, pp. 98-100 ".
3. N. Gupta and M. Singh,"Analysis of periodic fin line resonators," Proceedings of IEE on
Microwaves Antennas and Propagation, vol. 142, No. 5, Oct. 1995, pp. 411-413.
4. N. Gupta and M. Singh,"Investigation of periodic structures in a fin line: A space-spectral
domain approach," IEEE Transactions on Microwave Theory and Techniques, vol. 43, No. 12,
Dec. 1995 issue part-I.
5. N.Gupta and M. Singh, "Analysis of arbitrarily shaped resonator in fin line,"
ArchivElectronikUbertragung., Vol. 50, No.1, Jan. 1996, pp. 54-58.
6. N. Gupta and M. Singh, "Space-spectral domain analysis of rectangular fin line resonator,"
International Journal of Electronics, Vol. 81, No. 3, 1996, pp. 297-310.
7. N. Gupta, "Periodic Elliptic shaped resonators," ArchivElectronikUbertragung, Vol. 51, No. 2,
1997, pp. 111-113.
8. N. Gupta, C. Ravipati, L. Shafai,"Characteristics of Microwave Transmission line on grooved
dielectric substrate", Microwave and Optical Technology Letters, Vol. 17, No. 1, January 98, pp.
55-57.
9. W. Chamma, N. Gupta and L. Shafai, "Dispersion Characteristics of Grooved Microstrip Line
(GMSL), IEEE Trans, No. 4, April 2000, pp 611-615.
10. V. R. Gupta and N. Gupta, “A Compact Circularly Polarized Microstrip Antenna,” Scientific
Journal of Electronics and Electrical Engineering – Kaunas, vol. 52, No. 3, pp. 10-12, 2004.
11. D. K. Gupta and N. Gupta, “A New Approach to Partial Constraint Satisfaction Problem,”
International Journal of Computer Mathematics, vol. 81, No. 12, pp 1465-1476, Dec. 2004.
12. N. Gupta and D. K. Gupta, “Analysis of Microstrip Lines using Dyadic Green's Function,”
Scientific Journal of Electronics and Electrical Engineering – Kaunas, Vol 55, No.6, 2004.
13. V. R. Gupta and N. Gupta, “Characteristics of a compact microstrip antenna,” Microwave and
Optical Technology Letters, Vol. 40, No. 2, pp. 158-160, January 2004.
14. D. K. Gupta and N. Gupta, “Stochastic Techniques for vehicle routing problem,” International
Journal of Computer Mathematics, vol. 81, pp 15-23, 2004.
15. V. R. Gupta and N. Gupta, “An Artificial Neural Network model for Feed Position of the
Microstrip Antenna,” Scientific Journal of Electronics and Electrical Engineering – Kaunas, vol.
60, No. 4, pp. 81-83, 2005.
16. V. R. Gupta and N. Gupta “Design of Compact Microstrip Antenna for Bluetooth Application,”
Tech Online Educational Resource, December 02, 2005.
17. V. R. Gupta and N. Gupta, “Realization of Compact Microstrip Antenna – An Optimization
Approach,” International Journal of RF and Microwave Computer –Aided Engineering”, vol. 16,
issue 4, pp. 367-373, 2006.
18. Anurag Kamal, V. R. Gupta and Nisha Gupta “Reconfigurable Satellite Communication
Systems,” Tech Online Educational Resource, May 05, 2006.
19. V. R. Gupta and N. Gupta, “Two Compact Microstrip Patch Antennas for 2.4 GHz. Band – A
comparison,” Microwave Review, November 2006, pp. 29-31.
20. Vibha Rani Gupta and Nisha Gupta, “Analysis of a Fractal Patch Antenna,” International Journal
of Optical and Microwave Technology, pp. 124-129, vol. 2 No. 2, April 2007.
21. Nisha Gupta, Mrinal Mishra, Suneel Chandra Kotha and YalamanchiliKiran, “Multifrequency
Characteristics of Sinc Shaped Microstrip Patch Antenna”, Microwave and Optical Technology
Letters, Vol. 49, No. 7, pp 1673-1675, July 2007.
22. M. Mishra and N. Gupta, “Monte Carlo Integration Technique for the Analysis of
Electromagnetic Scattering from Conducting Surfaces, Progress in Electromagnetic Research,
PIER 79, 91–106, 2008.
23. Mrinal Mishra and Nisha Gupta, “Singularity Treatment for Integral Equations in
Electromagnetic Scattering using Monte Carlo Integration Technique,” Microwave and Optical
Technology Letters, Vol. 50 No. 6, pp. 1619-1623, June 2008.
24. B. N. Kiran Kumar, Vibha Rani Gupta and Nisha Gupta, “Reduced Size, Wide Band Microstrip
Patch Antenna for Wireless LAN Applications,” Tech Online Educational Resource, May 30,
2008.
25. Tanushree Bose and Nisha Gupta, “Neural Network Model for Aperture Coupled Microsrip
Antenna, “ Microwave Review, September 2008, pp. 21-24.
26. Mrinal Mishra and Nisha Gupta, “Quasi Monte Carlo Integration Technique for Method of
Moments Solution of EFIE in Radiation Problems,” Applied Computational Electromagnetics
Society Journal, Vol..24 No. 3 June 2009.
27. Mrinal Mishra, Nisha Gupta, Ankhuri Dubey and ShradhaShekhar, “Application of Quasi Monte
Carlo Integartion Technique in Efficient Capacitance computation,” Progress In Electromagnetics
Research, PIER 90, 2009, pp. 309-322.
28. Nisha Gupta, K. Kaushal, A. K. Yadav, and V. Kumar, “Experimental Investigations on
Radiation Characteristics of IC Chips,“Progress In Electromagnetics Research Letters, Vol. 7,
161-169, 2009.
29. Mrinal Mishra and Nisha Gupta, “Application of Quasi Monte Carlo Integration Technique in
EM Scattering from Finite Cylinders,” Progress In Electromagnetics Research Letters, Vol. 9,
109-118, 2009.
30. Nisha Gupta and Md. AnjarulHaque, “Design of Printed Log Periodic EMI Sensor,” International
Journal of Microwave and Optical Technology, Vol. 4, 205-210, July 2009.
31. Ritesh Kumar Badhai and Nisha Gupta, “Reduced Size Monopole Antenna for Land Mine
detection,” International Journal of Microwave and Optical Technology, Vol. 52, 338-343,
November, 2009.
32. Mrinal Mishra and Nisha Gupta, “Monte Carlo Integration Technique for Method of Moments
Solution of EFIE in Scattering Problems,” Journal of Electromagnetic Analysis and Applications,
Vol. 1, 254-258, December 2009.
33. Ritesh Kumar Badhai and Nisha Gupta, “Reduced Size Bow-Tie Slot Monopole Antenna for
Land Mine detection,” Microwave and Optical Technology Letters, Vol. 52, 122-125, January,
2010.
34. Nisha Gupta, S. K. Rout and K. Shivaji, “Characteristics of Cylindrical Dielectric resonator
Antenna, “ Microwave Review, December 2009, pp. 29-32.
35. Anjini Kumar Tiwary and Nisha Gupta, “Performance of Two Microstrip Low Pass Filters on
EBG Ground Plane, “Microwave Review, December 2009, pp. 37-40.
36. Tanushree Bose and NishaGupta,“Design of Rectangular Monopole Antenna using Radial Basis
Function Networks” International Journal of Applied Engineering Research, ISSN 0973-4562,
Vol. 5, No. 14(2010), pp. 2435-2440.
37. Tanushree Bose and Nisha Gupta, “Design of Aperture Coupled Microstrip Antenna Using
Radial Basis Function Networks”, Wireless Engineering and Technology, 2010, 1, 64-68,
doi:10.4236/wet.2010.12010
38. Anjini Kumar Tiwary and Nisha Gupta, “Design of Compact Coupled Microstrip Line Band Pass
Filter with Improved Stopband Characteristics,”Progress In Electromagnetics Research C, Vol.
24, 97-109, 2011.
39. SumanaKumari and Nisha Gupta, “MultisegmentMicrostrip Patch Antenna with Y-shaped Feed,”
International Journal of RF and Microwave Computer Aided Engineering, Vol 21, No. 6, pp 658-
664, Nov. 2011.
40. Nisha Gupta, Pallabi Ghosh and MeghaToppo, “A Miniaturized Wilkinson Power Divider using
DGS and Fractal Structure for GSM Appliacation, “ Progress in Electromagnetic Research
Letters, Vol. 27, pp.25-31, 2011.
41. Parida, S.K. Rout, L.S. Cavalcante, E. Sinha, M. Siu Li, V. Subramanian, N. Gupta, V.R. Gupta,
J.A. Varela, E. Longo, “Structural refinement, optical and microwave dielectric properties of
BaZrO3”, Ceramics International, October, 2011.
42. Shailendra Singh Rajput, Vibha Rani Gupta, Nisha Gupta, SunitaKeshri, Viktor Bovtun, Jan
Petzelt, “Design of Microwave Dielectric Resonator Antenna using MZTO-CSTO Composite"
Ceramics International, November 2011.
43. S Parida, S.K. Rout, V. Subramanian, P. K. Barhai, N. Gupta, V.R. Gupta, “Structural
Microwave Dielectric Properties and Dielectric Resonator Antenna studies of Sr(ZrxTi1-x) O3
ceramics” , Journal of Alloys and Compounds, 528(2012), pp.126-134.
44. SumanaKumari and Nisha Gupta, “Multisegment MPA with T-feed for Multiband Wireless
Communication,” International Journal of Electronics, 2011, pp. 1-11.
45. SumanaKumari and Nisha Gupta, “Muli-segmant Printed Monopole Antenna for Multi Band
Wireless Communication,” Microwave Review, Vol. 17, No. 2, December 2011, pp 36-40.
46. Tanushre Bose and Nisha Gupta, “Design of an Aperture Coupled Microstrip Antenna using
Hybrid Neural Network, “ IET Microwaves, Antennas and propagation, vol.6, issue 4, March
2012, pp 470-474.
47. ShradhaShekhar, Ankhuri Dubey, Mrinal Mishra, Nisha Gupta, "Interconnect Modeling Using
the Quasi Monte Carlo Integration Technique", Advanced Computational Techniques in
Electromagnetics, Volume 2012 (2012) , 1-5.
48. P. R. Pani, R. K. Nagpal, R. Malik, and N. Gupta, "Design of planar EBG structures using cuckoo
search algorithm for power/ground noise suppression," Progress In Electromagnetics Research M,
Vol. 28, 145-155, 2013.
49. Ritesh Kr. Badhai and Nisha Gupta,. "Compact Dual Sinc‐Shaped Monopole Antenna for Dual
Band Wireless Applications." Microwave and Optical Technology Letters 55.12 (2013): 2883-
2888.
50. AppasaniBhargav and Nisha Gupta, “Multiobjective Genetic Optimization of Nonuniform Linear
Array With Low Sidelobes and Beamwidth,” IEEE Antennas and Wireless Propagation Lettters,
12, pp. 1547-1549, Nov. 2013.
51. AppasaniBhargav, and Nisha Gupta, “Genetic Algorithm using Novel Objective Function for
Realizing Compact Uniform Linear Array with Non-Uniform Element Spacing,” Microwave
Review, No. 1, vol. 20, pp. 12-16, 2014.
52. Ritesh Kumar Badhai and Nisha Gupta, “Inverted Sinc Shaped Monopole Antenna for Wireless
Devices,” Microwave Review, No. 1, vol. 20, pp. 17-25, 2014.
53. BibhaKumari, andNisha Gupta. "Multifrequency Oscillator-Type Active Printed Antenna Using
Chaotic Colpitts Oscillator." International Journal of Microwave Science and Technology 2014
(2014).
54. ItuSnigdh and Nisha Gupta, “Quality of Service Metrix in Wireless Sensor Networks: A survery,”
Journal of The Institution of Engineers (India): Series B 12/2014; DOI: 10.1007/s40031-014-
0160-6
B. National Journals: (01)
1. Anjini Kumar Tiwary and Nisha Gupta, “Performance of Microstrip Low-Pass Filter on
Electromagnetic Band Gap Ground Plane,” IETE Journal of Research, September-October -
2010, Volume 56, Issue 5.
2. ItuSnigdh and Nisha Gupta. "Quality of Service Metrics in Wireless Sensor Networks: A
Survey." Journal of The Institution of Engineers (India): Series B(2014): 1-6.
C. International Conferences: (36)
1. S.K.L.V. Sai Prakash, N. Gupta & M. Singh, “Design Development and Evaluation of a
waveguide array at W-band,” IEEE International Conference on Infra red and Millimeter waves,
Florida, USA, Dec. 1987.
2. N. Gupta and L. Shafai, “Low loss microstrip lines” Wireless 97 Conference held at Calgary, July
9-11, 1997.
3. N. Gupta and L. Shafai, “Grooved suspended microstrip lines” in IEEE APS Conference held at
Atlanta, June 1998.
4. W. Chamma, N. Gupta and L. Shafai., “Dispersion Characteristics of suspended microstrip lines
on segmented dielectric substrate”, Symposium on Antenna Technology and Applied
Electromagnetics, ANTEM 98, pp. 159-162, August 1998.
5. N. Gupta, N. Jacob, W. Chamma, L. Shafai, S. Raut and A. Asi,, "Simulation and experimental
evaluation of the low loss grooved lines," Symposium on Antenna Technology and Applied
Electromagnetics, ANTEM 98, pp. 451-454, August, 1998.
6. N. Gupta & D. K. Gupta, “Constraint Satisfaction in Engineering Electromagnetics”, in
International AMSE Conference on Computer Modeling, Simulation and Communication
(CMSC-99), Jaipur, Dec.1999.
7. V. R. Gupta and N. Gupta, “Beam Steering in Microstrip Reflect-array Antenna – A Genetic
Algorithm Approach,” in Proc. of IEEE 2002 AP_S International Symposium held at San
Antonio, Texas, USA ,16th June to 21st June 2002.
8. V. R. Gupta and N. Gupta, “Design of a Circularly Polarized Microstrip Antenna -An
Optimization Approach,” in Proc. of 48th Congress of Indian Society of Theoretical and Applied
Mechanics (ISTAM) , An International Meet, IIT Kharagpur, held at BIT, Mesra, Ranchi,
December 18-21, 2003
9. N. Gupta, V. R. Gupta, “Characteristics of a Compact Microstrip Antenna,” in Proc. of An
International Conference on Computers and Devices for Communication (CODEC-2004),
Institute of Radio Physics & Electronics, University of Calcutta, January 1-3, 2004.
10. N. Gupta, V. R. Gupta, Amit Agarwal, Arnab Kr. Das and UttamMinz, “Satellite Tracking
Antenna with Fuzzy Logic Control,” in Proc. of 7th International Symposium on Wireless
Personal Multimedia Communication 2004, University of Padova, Italy, September 12-15, 2004.
11. D. K. Gupta and N. Gupta, “An Efficient Cost Optimization technique for VSAT Networks,” in
Proc. of 7th International Symposium on Wireless Personal Multimedia Communication 2004,
University of Padova, Italy, September 12-15, 2004.
12. N. Gupta and V. R. Gupta, “Microstrip Patch Antenna for 2.4 GHz Band,” in Proc. of Asia –
Pacific Microwave Conference (APMC-2004), New Delhi, December 15-18, 2004.
13. K. Sambasiva Rao, V. R. Gupta and N. Gupta, “Characteristics of Fractal Dipole Antenna”, in
Proc. of International Conference on Biomedical, Electronics and Communications (BET04),
Visakhapatnam, December 9-10, 2004.
14. N. Gupta, V. R. Gupta, “Reduced Size, Dual Frequency Band Antenna for Wireless
Communication,” in Proc. of IEEE International Conference On Personal Wireless
Communications (ICPWC-2005), New Delhi, INDIA, January 23-25, 2005.
15. V. R. Gupta, Nisha Gupta “Design of a Compact Circularly Polarized Microstrip Patch Antenna
for Wireless Communication”, International Symposium on Wireless personal Multimedia
communication to be held at Denmark, September 2005.
16. Nisha Gupta, Vibha Rani Gupta, Smit Garg, Priyanshu Agarwal, ShobhitBudhia, “Experimental
Investigations on Textile Microstrip Antennas for Wearable applications,” International
conference Computers and Devices for Communication (CODEC) Kolkata , 2006.
17. V. R. Gupta, Nisha Gupta “Gain and Bandwidth Enhancement in Compact Microstrip Antenna”,
XXVIIIth General Assembly of International Union of Radio Science (URSI GA) held in New
Delhi, India, October 23-29, 2005.
18. Nisha Gupta and A. Lakshmi Narayana Reddy, “Adaptive Antenna using Fuzzy Logic Control”
in IEEE Applied Electromagnetics Conference held in Kolkata during 19-20 December 2007.
19. Mrinal Mishra and Nisha Gupta, “Monte Carlo Integration Technique in Method of Moments
Solution of Integral Equation,” in IEEE Applied Electromagnetics Conference held in Kolkata
during 19-20 December 2007.
20. Anjani Kr. Tiwary and Nisha Gupta, “Electromagnetic Interference reduction using
Electromagnetic Bandgap Structures,” 10th Int. Conference on Electromagnetic Interference and
Compatibility (INCEMIC 2008), pp. 33-36, 26-27 Nov. 2008, Bangalore
21. Md. AnzarulHaque andNisha Gupta, “Study of Electromagnetic Interference due to Mobile
Communication,” 10th Int. Conference on Electromagnetic Interference and Compatibility
(INCEMIC 2008), 26-27 Nov. 2008, Bangalore.
22. Anjani Kr. Tiwary and Nisha Gupta, “MicrostripLowpass Filter with improved rejection
bandwidth,” in the IEEE Colloquium and the third IEEE International Conference on Industrial
and Information Systems (ICIIS 2008) at Indian Institute of Technology, Kharagpur, India during
08 – 10 December 2008.
23. Mrinal Mishra, Nisha Gupta, Ankhuri Dubey and ShradhaShekhar, “A New Algorithm for
Method of Moments Solution of Static Charge Distribution,” in the IEEE Colloquium and the
third IEEE International Conference on Industrial and Information Systems (ICIIS 2008) held in
Indian Institute of Technology, Kharagpur, India during 08 – 10 December 2008.
24. Nisha Gupta and SumanaKumari, “Printed Monopole Antennas for Wireless Devices,”
Proceedings of Int. Conf. on recent Advances in Microwave Theory and Applications, pp. 625-
628, Nov. 21-24, Jaipur.
25. Tanushree Bose, Vibha Rani Gupta and Nisha Gupta, “Neural Network Model for Design of
Printed Monopole Antenna,” Proceedings of Int. Conf. on recent Advances in Microwave Theory
and Applications, pp. 71-73, Nov. 21-24, Jaipur.
26. Ritesh Kumar Badhai and Nisha Gupta, “Reduced Size Bow-Tie Coupled Slot Monopole
Antenna for Land Mine Detection”, International Conference on Innovative Technologies (ICIT-
09): Research and Development in Science, Technology and Management, 18-19 June 2009,
PDM College of Engineering, Bahadurgarh, Haryana.
27. ApurvaSacheti, Nisha Gupta, and D. K. Gupta “ Constraint Satisfaction Based Approach for
Propagation Modelling”, International Conference on Innovative Technologies (ICIT-09):
Research and Development in Science, Technology and Management, 18-19 June 2009, PDM
College of Engineering, Bahadurgarh, Haryana.
28. N. Kulkarni, R. Prasad, H. Comean, and N. Gupta , “performance evaluation of AODV, DSDV
and DSR for quasi random deployment of sensor nodes in wireless sensor networks,”
International Conferenec on Devices and Communications (ICDeCom), Feb. 24-25, 2011, BIT
Mesra, Ranchi.
29. SnehaShrivastava, Syed Azeemuddin and Nisha Gupta, “Design and Analysis of Cavity Antenna
for In-Body Purpose,” 4th International Conference on Electronics Computer Technology,
Kanyakumari, India, April 6-8, 2012.
30. Chandan Kumar Jha and Nisha Gupta, “Design of a front end Low Noise Amplifier for Wireless
devices,” 2012 Student’s Conference on Engineering and Systems, (SCES 2012), MNIT
Allahabad, India, March 16-18, 2012.
31. PriyaRanjanPani, Raj Kumar Nagpal, Rakesh Malik, and Nisha Gupta. "Mitigation of
simultaneous switching noise on EBG planes using firefly algorithm." in Communication,
Information & Computing Technology (ICCICT), 2012 International Conference on, pp. 1-4.
IEEE, 2012.
32. Nisha Gupta and BibhaKumari “Effect of Radiated Electromagnetic Interference on Colpitt’s
Oscillators” The 29th Annual Review of Progress in Applied Computational Electromagnetics
Monterey, March 24-28 California 2013, pp. 875-880.
33. AppasamiBhargav and Nisha Gupta, “Realization of Compact Arrays with low side lobes using
Biogeography based optimization, “International Conference on Microwave and Photonics
(ICMAP), Dec. 13-15, 2013, ISMDhanbad.
34. NidhiPandit, Anjini Kumar Tiwary and Nisha Gupta, “Improving characteristics of Hairpin
Bandpass filter using SIR Concept,” 1st International Conference on Innovative Advancements in
Engineering and Technology(IAET-2014), March 7-8, 2014.
35. Ritesh Kumar Badhai and Nisha Gupta, “Design of Wideband Inverted Sinc Shaped Monopole
Antenna,” Fourth International Conference on Communication Systems and Network
Technologies, (CSNT) 2014, pp. 34-37.
36. Anjini Kumar Tiwary, RishikeshRanjan and Nisha Gupta, “Design and development of Bandstop
Filter using Spiral Stubs,” International Conference on Advances in Computing, Communications
and Informatics (ICACCI) 2014.
D. National Conferences: (15)
1. N. Gupta, “A New Approach to method of Lines”, Advanced Mathematical tools for Antenna
Theory & Design, BIT Mesra, Jan. 2001.
2. Raman Gupta & N. Gupta, “Constraint Satisfaction in Engineering Electromagnetics”, Advanced
Mathematical tools for Antenna Theory & Design, BIT Mesra, Jan. 2001.
3. D. K. Gupta , D Ghosh and N. Gupta, “A Simple Algorithm for testing Cordiality of a Graph”, in
National seminar on Recent Advances in Applied Mathematics held at Vidyasagar University,
Mar. 18-19, 2004.
4. V. R. Gupta and Nisha Gupta, “Fractal Patch Antenna for 2.4 GHz Band,” in proc. of National
Symposium on Antennas and Propagation, Cochin, 21-23 December 2004
5. Vibha Rani Gupta, Susanta Kumar Sahoo and Nisha Gupta, “Design of Compact Microstrip
Antenna Array for Wireless Communication,” in National Conference on Recent Advancements
in Microwave Technique and Applications (Microwave-2006), Jaipur 2006.
6. SumanaKumari, Vibha Rani Gupta and Nisha Gupta, “Design of Compact Broadband Microstrip
Antenna for Wireless Communication”, in National Seminar on Devices, Circuits &
Communication, BIT, Mesra, Ranchi, 2006.
7. N. Sah and N. Gupta, “Comparative power requirement for a cellular system using GMSK and
QPSK modulation scheme for Hata-Okumura and Walfisch-Ikegami Propagation Model,” in
National Seminar on Devices, Circuits & Communication, BIT, Mesra, Ranchi, 2006.
8. Tanushree Bose, Vibha Rani Gupta and Nisha Gupta, “ An Aritificial Neural Network Model in
design of Compact Microstrip Antenna for Wireless Communication,”in National Seminar on
Devices, Circuits & Communication, BIT, Mesra, Ranchi, 2006.
9. SumanaKumari, Tanushree Bose, Vibha Rani Gupta and Nisha Gupta “Design and Analysis of
Multilayer Broadband Microstrip Patch Antenna,”National Seminar on Achievements and
Challenges in Electronics and Telecommunication Engineering, Institute of Engineers, Ranchi,
Jan. 20-21, 2007.
10. Tanushree Bose, SumanaKumari, Vibha Rani Gupta and Nisha Gupta “Design of a Rectangular
Patch Microstrip Antenna Using Artificial Neural Network”, National Seminar on Achievements
and Challenges in Electronics and Telecommunication Engineering, Institute of Engineers,
Ranchi, Jan. 20-21, 2007.
11. Md. AnzarulHaque and Nisha Gupta, “A Low cost multiband planar monopole antenna for
wireless communication”, National Seminar on Achievements and Challenges in Electronics and
Telecommunication Engineering, Institute of Engineers, Ranchi, Jan. 20-21, 2007.
12. SumanaKumari, Tanushree Bose, Vibha Rani Gupta and Nisha Gupta, “Design and Analysis of
Multilayer Compact Microstrip Antenna,” Women in Engineering National Symposium on
Emerging Technologies 2007( WIENSET 2007), Kolkata, June 29-30, 2007.
13. Nisha Gupta, Parvathi Ajith Kumar and MoinaAjmeri, “Simulation Study of Effect of
Interference on Non-autonomous Chaotic Circuits,“ in National Symposium on Antennas and
propagation, APSYM 2010, in December 14-16, 2010, in CUSAT, Cochin.
14. Nisha Gupta, V. R. Gupta, Smit Garg, Priyanshu Agarwal and ShobhitBudhia, “Experimental
Investigations on Characteristics of Textile Microstrip Antennas for Wearable Applications, “ in
National Symposium on Antennas and Propagation, APSYM 2010, in December 14-16, 2010, in
CUSAT, Cochin.
15. Poulomi Ghosh and Nisha Gupta, “Comparison of Crosstalk among Vias in multilayer printed
Circuit Board,” Regional Conference on Radio Science – 2014, 2-5 Jan. 2014, Symbiosis Institute
of Technology, Pune.
Area2: Brief on Research areas proposed :
Applications of mems in ecological and environmental modeling. A classification of MEMS is
made on the basis of their designation and the region, where they operate. A special place is
separated on the application of MEMS in the ecology as well as concrete examples are indicated –
developments of firms .
Brief extract of Research proposed for new PhDs :
The applications of mems in ecological and environmental modeling. As The present
development of MEMS leads to a multilateral introduction of miniature systems for analysis in
the ecology. In this field the microsystems for analysis of water and gases. As an example sensor
for cigarette smoke will be pointed, which can recognize selected and determinate types of
smokes during combustion. The conditions of introduction, especially in industrial mediums as
for example thermo-electric power stations of coal, require protection against dust (ash) and
corrosion, external moisture and changes in the temperature, shocks and vibrations,
electromagnetic fields as well gases disturbing its operation.Masssensitive, capacity and
calorimetric sensors are realized within the framework of common chip, together with the
processing and controlling electronics.
Name and List of Publications of proposed guide for new PhDs : Dr. NeelaChattoraj
Publications(journal)
International Journals:
1. N. Chattoraj& J. S. Roy, “Application of Genetic Algorithm to TheOptimization of Microstrip Antennas with and Without Superstrate”, rowave Review, Vol.12, No.2, pp.32-35, Nov.2006. 1. N. Chattoraj& J. S. Roy, “The Optimization of Gain of Patch Antennasusing Genetic Algorithm”,
ACTA Tech CSAV Journal, Vol.51, pp.279-287,Nov.2006.
2. J. S. Roy, N. Chattoraj and N. Swain “Short Circuited Microstrip Antennas for Multi-band Wireless Communications”, Microwave & OpticalTechnology Letters (USA), Vol. 48, No. 12, pp. 2372 – 2375, Dec.2006.
3. N. Chattoraj& J. S. Roy, “Application of Genetic Algorithm to theOptimization of Gain of Magnetized Ferrite Microstrip Antenna”, Engineering Letters, Vol. 14, No. 2, pp. 124 – 129, June 2007.
4. J. S. Roy, N. Chattoraj and N. Swain” New Dual-Frequency Microstrip Antennas For Wireless Communications”, Romanian Journal ofInformation Science and Technology ,Vol. 10, No. 1, pp.113 –119, 2007.
5. V Janardhana, S Pamidighantam, N Chattoraj, J S Roy, R G Kulkarni, “Experimental Investigations on a Surface Micromachined Tunable Low Pass Filter”, Progress in Electromagnetics Research Letters, Vol.27, 171-178,Nov 2011.
6. A. Sen, N. Chattoraj, “Dual-Frequency Microstrip Antenna for WirelessApplications and effect on fraud “Electrical and Electronic EngineeringSAP journal USA, Vol.2, No.2, pp78-81, April 2012.
7. A. Sen, N. Chattoraj, “Quadruple-Frequency Microstrip Antenna for Wireless Applications and its Equivalent Circuit” IRNet Transactions on ComputerScience and Engineering ITCSE, Vol. 1, No 1, pp. 42-46, July 2012.
8. Quartalluin, N. Chattoraj, “A Compact wide Band antenna with single wideband notch for WLAN band.” International Journal of ComputerApplications,IJCA Vol. 2, pp. 04-07, Sep. 2013.
9. Quartalluin,N.Chattoraj, “Effect of Ground plane on a Tapered U slot UWB Antenna WLAN band.” International Journal of computerapplicationsIJCA, Vol. 2, pp. 08-11, Sep. 2013.
10. Quartalluin, N. Chattoraj, “Design & Development of Small Compact UWB Antenna” IOP Science Series ,Vol. 44, pp.1-4, April 2013.
11. Quartalluin, N. Chattoraj “ A Compact Novel Tapered U Slot Ultra Wideband Antenna”International journal of Applied Sciece And Engineering (IJASE)Volume11 , No 3: pp301-315 Sept 2013
12. V Janardhana, S Pamidighantam, N Chattoraj, J S Roy, R G Kulkarni5, “Micromachined
MEMS Transmission Line Low Loss Phase shifter” International Journal of Engineering
Research & Technology (IJERT), Vol. 3, Issue 1, pp. 350-353, January 2014.
13. V Janardhana, S Pamidighantam, N Chattoraj, J S Roy, R G Kulkarni, “Experimental Investigations of Microstrip Distributed MEMS Transmission LinePhase Shifter” International Journal of Electronics and Communication Engineering & Technology (IJECET), pp. 222-229, Nov. 2013.
14. Arpita Sen, NeelaChattoraj “Tetra-Frequency Microstrip Antenna for Wireless Applications", International Journal of Computer Application, Vol. 85, No 15, pp 27-31,
January 2014
15. MeghnaKucheria, VijendraMaurya,ParikshitVasisht, TarunaSharmChattoraj“Comparative Analysis of Linearly polarized Patch Antenna for Wi-Fi and WLANApplications” International Journal of Engg and Computer Science Volume 3,Issue 1, pp 3784-3788 January 2014
16. MeghnaKucheria, VijendraMaurya,ParikshitVasisht, Taruna Sharma,. NeelaChattoraj “Stepped Rectangular Dielectric resonator Antenna For 5GHZ Wireless LAN APPLICATIONS” International Journal of Engineering Research& Technology (IJERT) volume2,issue3,pp561-563 February 2014.
17. N.chattoraj., Quartalluin,JSaxena “Design of Novel dual band Planar Inverted F Antenna for radio mobile Applications” International Journal of Microwaves,optoelectronics&Electromagnetics”volume 13,No 2 pp67-74,December2014.
18. A. Sen, N. Chattoraj “Design of an Electronic Reconfigurable Dual- Frequency Antenna for HIPERLAN” International Journal of Applied Engineering Research (IJAER) volume10,No 1, pp. 1215-1224, January 2015.
19. Babulalshahu, NeelaChattoraj,Srikanta Pal “A compact super Wideband Monopole Antenna Design using Fractal Geometries”Microwave review Volume 20,No2 pp20-24 December2014.
National Journal
1. N. Chattoraj& J. S. Roy, “ Application Of Genetic Algorithm To The Optimization Of Gain Of Patch Antennas With And Without Dielectric Layer” International Journal of HIT Trans. Electronics, International Journal of HIT Trans. Electronics, Communication, Computer and Networks (India), Vol. 1, No.1, pp.37 – 42, Jan.-Mar. 2006.
2. N. Chattoraj and J. S. Roy, “Application of Genetic Algorithm to the Optimization of Microstrip Antennas Covered With a Dielectric Layer”, Journal of the Institution of Engineers (India), Vol. 88, pp. 3-6, January 2008.
Conference Proceedings:
International:
1. J.S. Roy and N. Chattoraj, “Magnetically biased ferrite micrsotrip antenna”, Proc. APSYM,
Cochin, India, pp 288-291, Dec. 2002.
2. J.S.Roy and N. Chattoraj, “A New Technique for Scaling Dielectric Constant of Microstrip
Substrates from Antenna Measurement”, Proc. ICMARS-2004, Jodhpur, pp. 177-179, 23-25 Nov.
2004.
3. N. Chattoraj and J. S. Roy, “Investigations on Microstrip Antennas Covered with a Dielectric
Layer using Genetic Algorithm”, Presented in URSI Conference, New Delhi, Oct. 2005.
4. N. Chattoraj and J. S. Roy, “Optimization of Efficiency and Gain of Magnetized Ferrite
Microstrip Antenna Using Genetic Algorithm”, presented in EUCAP07 Edinburg (UK), 11-16
Nov., 2007.IEEE explorer.
5. V Janardhana, S Pamidighantam, N Chattoraj, J S Roy, R G Kulkarni5, “MEMS Distributed
Wide Band Phase Shifters” proceeding International conference on sensors and related networks
Vellore Institute of Technology, Vellore, India pp.1-5, Dec. 07-10,2009.
6. V Janardhana, S Pamidighantam, N Chattoraj, J S Roy, R G Kulkarni,”CPW- Quasi- Static
Analysis,” Proc. The third IETE Conference on RF & Wireless - 2010 (ICon RFW -10), 07-09
Oct. 2010
7. Vandana Sehgal, N.Chattoraj “Helical Antenna Design for Signal Enhancement”, Proc. of
ICMARS-2011, Jodhpur, pp.79-80, Dec. 7-10 2011
8. Vandana Sehgal, N.Chattoraj “Effects of Dielectic Superstrates on Gain of an Equilateral
Triangular Microstrip Patch Antenna “Proc. of ICMARS-2011 Jodhpur, pp.107-108, , Dec. 7-10
2011
9. Quartalluin, N.Chattoraj A small miniaturized novel tapered U slot ultrawidebandantenna ”, Proc.
of ICMARS-2011, Jodhpur, pp.89, Dec. 7-10, 2011
10. Quartalluin, N.Chattoraj “Design & Development of small tapered U slot ultrawideband antenna
with difffernent dielectric substrates” Proc. of ICMARS- 2011, Jodhpur, pp 119-120, Dec. 7-10
2011
11. A.sen,N.Chattoraj.“Multi-Frequency Microstrip Antennas for Wireless Applications and its effect
on fraud”, IEEE AEMC and IEEE IAW 2011, Kolkata, India, pp1-5,Dec. 18 – 22 2011 .
12. A.sen,N.Chattoraj."Quadruple-Frequency Microstrip Antenna for Wireless Applications and its
Equivalent Circuit", International Conference on Electronics and Communication Engineering,
ICECE-2012, Kolkata, pp. 36-40, Mar. 24, 2012.
13. A.sen,N.Chattoraj. “Reconfigurable Microstrip Antenna for Wireless Applications and its
equivalent circuit” International Conference on Innovations in Electronics and Communication
Engineering, ICIECE - 2012, Hyderabad, pp. 229-232, Jul. 20-21, 2012
14. A.sen,N.Chattoraj. “Dual Frequency Microstrip Antenna for Wireless Applications and its
reconfigurable counterpart” International Conference on Electronics and Communication
Engineering, ICECE-2012, Bangalore, pp. 115-121May. 20, 2012.
15. Quartalluin,N.Chattoraj “Design & Development of small Compact UWB Antenna” Radio and
Antenna Day of the Indian OCEAN, Radio 2012, ,Sugar Beach
resort,walmar,FlicenFlac,Mauritius, pp.14, 24-27 sep. 2012
16. Quartalluin,N.Chattoraj “Comparative Study of Compact UWB Antenna on different dielectric
substrate” Radio and Antenna Day of the Indian OCEAN,Radio 2012, Sugar Beach
resort,walmar,FlicenFlac,Mauritius, pp,40, 24-27 sep. 2012
17. Quartalluin,N.Chattoraj “A Compact wide Band antenna With single wideband notch for WLAN
band.” International Conference on Communication Circuits & systems,
,KIITUniversity,Bhubaneswar, Oct .5-7 2012.
18. Quartalluin,N.Chattoraj “Effect Of Ground plane on a tapered U slot UWB Antenna” WLAN
band.” International Conference on Communication Circuits & systems, KIIT
University,Bhubaneswar, Oct 5-7,2012
19. Quartalluin,N.Chattoraj “A compact UWB Antenna with Wide Band notch at 5GHZ for WLAN
Band,” International conference in Progress in Electromagnetic Research & Symposium,
PIERS,Proceeding ,2013,Stockholm,Sweden, pp764-767, 2013
20. Prafulla Chandra Prasad, NeelaChattoraj, “ Design & Development of Reconfigurable Microstrip
Patch Antenna Using MEMS switch for KU –band Application” International conference in
Progress in Electromagnetic Research &Symposium,PIERS,Proceeding
,2013,Stockholm,Sweden,pp 764-767, 2013.
21. Prafulla Chandra Prasad, NeelaChattoraj “Design of Compact Ku Band Microstrip Antenna for
Satellite Communication” IEEE International Conference on Communication and Signal
Processing-ICCSP'13,Tamilnadu pp. 196-200, 3-4th April 2013 published in IEEE explorer).
22. A.Sen,Prafulla Chandra Prasad, NeelaChattoraj “Design and Development of a Single Feed
Reconfigurable Dual-Frequency Microstrip Antenna” IEEE International Conference on
Communication and Signal Processing-ICCSP'13,Tamilnadu pp. 221-225, 3-4th April ,2013
published in IEEE explorer).
23. Debajit De, NeelaChattoraj" A Review - Theoretical Analysis of TCAS Antenna " Publication
Details : Proceedings of IEEE International Conference on Green Computing, Communication
and Electrical Engineering 2014 ; Page No.: 269-275, ISBN No.: 978-1-4799-4983-0, 2014.(
published in IEEE explorer).
24. Debajit De, NeelaChattoraj "RF MEMS Capacitive Type Shunt SwitchI" IEEE Applied
Electromagnetics Conference 2013 ( IEEE AEMC 2013 ), KIIT University, Bhubaneswar ; 18-
20th December, 2013.( published in IEEE explorer).
25. Debajit De, NeelaChattoraj “" RF MEMS Metal to Metal Contact Type Shunt Switch" published
in IEEE explorer).
26. Debajit De, NeelaChattoraj" A Review - Theoretical Analysis of TCAS Antenna " Publication
Details : Proceedings of IEEE International Conference on Green Computing, Communication
and Electrical Engineering 2014 ; Page No.: 269-275, ISBN No.: 978-1-4799-4983-0, 2014.(
published in IEEE explorer).
27. Babulalshahu, NeelaChattoraj, Srikanta Pal "A Novel CPW Fed Sierpinski Carpet Fractal UWB
Slot Antenna" International Conference on Microwave and Photonics (ICMAP2013) ISM
Dhanbad,13-15December (published in IEEE explorer
28. Debajit De, Prasanna Kumar Sahu,NeelaChattoraj “Development of a Novel Microstrip Patch
Antenna For TCAS Application” International Symposium on Antennas and Propagation,
December 17 – 19, 2014 Department of Electronics, Cochin University of Science & Technology,
Kochi, India.
National conference
1. S.Srivastava,N.Chattoraj&BabuR.Visvakarma “Theoretical Analysis of circular patch Antenna on
Ferrite Substrate”IEEE-ACE 2002,Kolkata,pp.16-19 , Dec 2002.
2. N. Chattoraj and J. S. Roy, “Optimization of Magnetized Ferrite Microstrip Antenna Using
Genetic Algorithm”, Proc. of NASDEC2, pp. 174-177, BIT, Mesra, Ranchi, 2-4, November, 2006
3. A.Sen,J.Ghosh, J.S.Roy, N.chattoraj “Design of A Compact Dual-Frequency MicrostripAntenna
Loaded by A Parasitic Patch for GPS and Bluetooth Systems”, Proc. of AECDISCConference,
Asansol, 2008, pp. 40-42, Aug. 1-2, 2008.
4. J.Ghosh , N.chattoraj, “Design of an Asymmetric T-slot Coupled Circular MicrostripAntenna for
GPS Application” Proceeding of National Conference on Microwave &communications
NCMicrocom 2010 ,BIET Suri(W.B), Feb 19-20, 2010.
Area3 .Brief Description of the Research Area:
The standard materials which have positive values of permittivity and permeability i.e., positive
value of refractive index are easily available in nature, whereas metamaterials which may show
both positive and negative values of permittivity and permeability are not readily available in
nature, which can be artificially engineered to provide the electromagnetic properties, those are
not observable in nature. Veselago has given the name of such materials as left-handed (LH)
metamaterials (LHMs), according to the orientation of the vectors of the electric and magnetic
field with a propagating vector of a traveling wave. Metamaterials offer many unique
electromagnetic properties such as; simultaneous negative values of dielectric permittivity and
magnetic permeability, anti-parallel phase and group velocity, supports backward wave, zero
value of propagation constant for nonzero value of frequency, reversals of Snell’s law, Doppler’s
effect and Vavilov - Cerenkov effect etc. Due to the these unique properties of metamaterial, it
has numerous advantages over the conventional right-handed materials like; circuits
miniaturization, improved power transfer efficiency, multilayered devices can be developed
easily, various electrical properties such as; characteristic impedance, surface wave propagation,
dispersion characteristics etc, can be easily controlled,
The unique properties of LHMs have allowed novel applications, concepts, and devices to be
developed. Two methods are used for realization of LHMs-(a) Resonant approach, using split ring
resonator (SRR) with metal wire (b) Transmission line approach, using interdigital capacitor
(IDC) and stubs, also known as non resonant approach. The resonant approach towards LH
metamaterials is not much practical in microwave applications due to bulky in size, narrowband
and lossy near SRR resonance. The transmission line approach using left-handed transmission
line (LH-TL) made up of IDC and shorted stub inductors are heavily used now a days. The field
of metamaterials has gained much attention within the scientific community over the past decade
and finds many applications in the field of microwave and wireless communication systems. The
major applications of left-handed metamaterials are Wide-range beam scan of radar antenna,
Superlens, Adjustment of system characteristics through the backward wave direction coupler,
Reduction of electromagnetic interferences, Phase compensation, electrically small resonators,
Sub-wavelength waveguides with lateral dimension below diffraction limits, band pass/stop
filters, Zeroth order resonator and antenna, Dual-band branch-line coupler and many more.
Brief extract of Research proposed for new PhDs :
Topic of Research: Design and Development of Left-handed Metamaterials based Microwave
Circuits for Wireless Communication Systems Unique characteristics of left-handed
metamaterials lead to the developments of microwave circuits such as Dominant mode leaky
wave antenna, Symmetric and asymmetric backward wave directional couplers, Zeroth order
resonator, Composite right/left handed transmission line based bandpass and bandstop filters,
Branch line couplers, Ultra wide band filter etc. All these developed and reported circuits are
based on the transmission line approach using series IDC and shunt stubs shorted to the ground,
suffer with the following drawbacks. 1) Usage of IDCs in the conventional designs of LHMs
circuits is generally limited to lower frequency applications because, undesired self resonances of
IDC degrade their performance at higher frequency. 2) They are of large in dimensions. 3) To get
the shunt inductors, vias are required to short the stub to ground, which requires the drilling and
soldering and hence increases the fabrication complexity.
In the proposed research work some innovative new proposed alternative technique will be
investigated to improve the circuit performance, to get the circuit miniaturization and to ease the
fabrication processes. All proposed design will be optimized using full wave electromagnetic
simulator IE3D or HFSS and developed using microwave circuits fabrication techniques. Finally
the performance of the developed circuits will be measured using microwave measurement
system such as vector network analyzer, spectrum analyzer etc. The novel miniaturized and
improved circuits of this research work will may find the applications in microwave and wireless
communication systems
Name and List of Publications of proposed guide for new PhDs : Dr. D. K. Upadhyay
1. Dileep Kumar Upadhyay, Srikanta Pal, “An Improved Full Scanning Antenna using Left Handed
Materials,” Microwave and Optical Technology Letters, Vol. 55, No. 2, pp. 261-265, Feb. 2013.
2. Dileep Kumar Upadhyay, Srikanta Pal, “Design of Miniaturized Dominant Mode Leaky-Wave
Antenna with Backfire-to-Endfire Scanning Capability by using Metamaterials” International
Journal, Microwave Review journal, Vol. 18, No. 1, pp. 02-06, Aug. 2012.
3. Dileep Kumar Upadhyay, Srikanta Pal, “An Improved Zeroth Order Resonator using Left Handed
Metamaterials,” Journal of Microwave, Optoelectronics and Electromagnetic Applications, Vol. 12,
No. 1, pp. 131-140, June 2013.
4. Gajendra Kant Mishra, D.K. Upadhyay, J. Sahay, Sanjay Kumar, “Reconfigurable Bandpass Filter
for Bandwidth Control in IMT-Advanced,” Microwave Review, Vol. 20, No. 2, pp. 9-13, Dec.
2014
5. Dileep Kumar Upadhyay, Srikanta Pal “Design of novel improved unit-cell for composite right left
handed transmission line based microwave circuits”, international journal of engineering science
and technology (IJEST), Vol.3 No.6, pp. 4962-4967, June 2011.
6. Dileep Kumar Upadhyay, Srikanta Pal “Design of novel miniaturized L - band microstripbandstop
filter using Left handed metamaterial based on wire bonded interdigital capacitor” International
journal of advances in science and technology (IJAST). vol. 2 No.6, pp. 43-50, June 2011.
7. Dileep Kumar Upadhyay, Srikanta Pal “Design of new Miniaturized Left Handed Metamaterial
based Leaky Wave Antenna” International journal of Electronics and Electrical Engineering
(IJEEE), Vol. 15, pp. 01- 06, March-May 2011
8. Dileep K. Upadhyay, Raushan K. Mahto, Ravindra Kumar, AbhiroopMitra, “A novel technique of
peak-to-average power ratio (PAPR) reduction in OFDM signal” Research Journal of Engineering
and Technology (RJET), July-Sept. 2011, pp. 119-122.
9. Dileep Kumar Upadhyay, Srikanta Pal ,“ Design of Miniaturized Dominant Mode Leaky-Wave
Antenna using Left Handed Metamaterials”, Dept. of ECE, BIT, Mesra, Ranchi, Jharkhand,
ICDeCOM-11, 24-25, February 2011 IEEE Xplore print ISBN 978-1-4244-9189-6, INSPEC
Accession Number: 11887726. Digital Object Identifier: 10.1109/ICDECOM.2011.5738522.
10. Dileep Kumar Upadhyay, Srikanta Pal,“ Design of Full Scanning Miniaturized Antenna using Left
Handed Materials, Dept. of ECE, BIT, Mesra, Ranchi, Jharkhand, ICDeCOM-11,24-25, February
2011, IEEE Xplore print ISBN 978-1-4244-9189-6, INSPEC Accession Number: 11887727,
Digital Object Identifier: 10.1109/ICDECOM.2011.5738523.
11. Dileep Kumar Upadhyay, BabuLalShahu, JibenduShekhar Roy, “Reduction of Peak to Average
power Ratio (PAPR) in OFDM based Digital Wireless Communication system” Dept. of
Computer Science and Engineering, ISMU, Dhanbad, Jharkhand, Proceedings of RAIT 2007,
PP.07-15, 26-27 February, 2007.
12. BabuLalShahu , Dileep Kumar Upadhyay , JibenduShekhar Roy, “Application of Genetic
Algorithm to the Channel Assignment Problem in Wireless Communication” Dept. of Computer
Science and Engineering, ISMU, Dhanbad, Jharkhand, Proceedings of RAIT 2007, PP.133-139,
26-27 February, 2007.
Area 4.Brief on Research areas proposed: Genomic signal processing, Bioinformatics, protein-protein
interaction, Medical informatics, Biomedical signal analysis
Brief extract of Research proposed for new PhDs :
Bioinformatics, with the main focus on application of signal processing and artificial intelligent
techniques can be applied to identify, model, extract features and to process the genomic data for
analysis and interpretation in a biological meaningful manner. Computation modeling and data
analysis has been used in successful manner to predict structure and function of gene and
proteins, protein interaction and networking, sequence analysis and disease diagnosis.
Signal processing and soft computing tools and techniques can be extensively applied in
analyzing the biomedical signals like ECG, EEG, MRI etc. for pattern identification,
classification, clustering, and feature extraction. Image processing tools and techniques can be
effectively developed for segmentation, restorations and identification in medical informatics.
Name and List of Publications of proposed guide for new PhDs : Dr. S. S. Sahu
International Journals
1. Sitanshu S. Sahu, Tyler Weirick, and Rakesh Kaundal, “Predicting genome-scale
Arabidopsis-Pseudomonas syringaeinteractome using domain and interolog-based
approaches”,BMC Bioinformatics 15(S11): S13, 2014
2. Tyler Weirick, Sitanshu S. Sahu, R. Mahalingam and Rakesh Kaundal, “LacSubPred:
predicting subtypes of Laccases, an important lignin metabolism-related enzyme class,
using in-silico approaches”, BMC Bioinformatics 15(S11): S15, 2014
3. Rakesh Kaundal, Sitanshu S. Sahu, RuchiVerma and Tyler Weirick, “Identification and
characterization of plastid-type proteins from sequence-attributed features using machine
learning”, BMC Bioinformatics 14(S14): S7, 2013
4. SitanshuS.Sahu and Ganapati panda” Efficient Localization of Hot Spot in Proteins Using
A Novel S-Transform Based Filtering Approach” IEEE /ACM Transaction on
Computational Biology and Bioinformatics (TCBB), vol. 8, issue 5, pp. 1235-1246, 2011
5. SitanshuS.Sahu and Ganapati panda” A Novel Feature Representation Method based
Chou’s Pseudo Amino Acid Composition for Protein Structural Class Prediction” Journal
of Computational Biology and Chemistry, Elsevier, vol. 34, issues 5-6, pp. 320-327, 2010
6. SitanshuS.Sahu and Ganapati panda” Identification of Protein Coding Regions In DNA
Sequence Using a Time-Frequency Filtering Approach” Journal of Genomics,
Proteomics and Bioinformatics, Elsevier, vol. 9(1-2), pp. 45-55, 2011.
7. Nithin V George, Kristy F Tiampo, SitanshuS.Sahu, Stephane Mazzotti, LaluMansinha,
Ganapati Panda” Identification of Glacial Isostatic Adjustment in Eastern Canada Using
S Transform Filtering of GPS Observations” Journal of Pure and Applied Geophysics,
Springer, 2011.
8. SitanshuS.Sahu and Ganapati Panda, “A Hybrid Method of Feature Extraction for Tumor
Classification Using Microarray Gene Expression Data”, International Journal of
Computer Science & Informatics, vol.1, issue-1, pp. 22-26, 2011.
9. SitanshuS.Sahu and G. Panda, “A DSP Approach for Protein Coding Region
Identification In DNA Sequences”, International Journal of Signal and Image Processing,
Vol. 1, Issue 2, pp. 75-79, March 2010.
10. SitanshuS.Sahu, G. Panda, S. J. Nanda and S.K. Mishra, “Protein Structural Class
Prediction Using Differential Evolution”, International Journal of Recent Trends in
Engineering, Vol. 2, 6, pp: 63-65, Nov. 2009.
11. Sitanshu S. Sahu, Kaundal, A., Rojas, C.M., Lee, S., Lee, H-K., Weirick, T., Mysore,
K.S. and Kaundal, R,“An integrated approach for deciphering genome-scale host-
pathogen interaction networks: in silico modeling and experimental validation”, BMC
Genome Biology(submitted).
International Conferences
1. Sitanshu S. Sahu, AmitaKaundal, Clemencia Rojas, Seonghee Lee, Tyler Weirick, Kiran
S. Mysore and Rakesh Kaundal,“Computational prediction and experimental validation
of host-pathogen protein-protein interactome:a case study on Arabidopsis thaliana -
Pseudomonas syringae model system”, Plant Biology, Portland, Oregon,USA,2014.
2. SitanshuS.Sahu and Rakesh Kaundal, “Prediction of Arabidopsis-Pseudomonas
syringaeinteractome based on domain and interolog based approaches”, MCBIOS
Conference, OK, USA, 2014.
3. SitanshuS.Sahu and Rakesh Kaundal. “Predicting Multi-target Protein Subcellular
Localization combining homology and Machine Learning Approaches”, MCBIOS
Conference, Columbia, MO, USA, 2013.
4. Sitanshu S Sahu and Rakesh Kaundal “A Bioinformatics Approach to Predict Host-
Pathogen Protein-Protein Interactions Network”, BMB Graduate Research Symposium,
Oklahoma State University, OK, USA, 2013.
5. SitanshuS.Sahu, Ganapati panda and RamchandraBarik ,“ Cancer Classification Using
Microarray Gene Expression Data: Approached Using Wavelet Transform and F-score
Method”, International Conference on Electronic Systems, NIT, Rourkela, Jan. 07-09,
2011.
6. SitanshuS.Sahu, Ganapati Panda, “An Efficient Signal Processing Approach in
Eukaryotic Gene Prediction”, The Eighth Asia Pacific Bioinformatics Conference,
Bangalore, India, Jan. 18-21, 2010
7. Sitanshu S. Sahu, Ganapati Panda, Nithin V. George, “An Improved S-Transform for
Time-Frequency Analysis”, IEEE International Advance Computing Conference
(IACC), Thapar University, Patiala, India, pp: 315-319, 2009, DOI No: 10.1109/ IADCC.
2009. 4809028
8. SitanshuS.Sahu, Ganapati Panda ,“A New Approach for Identification of Hot Spots in
Proteins Using S-Transform Filtering”, IEEE International Workshop on Genomic Signal
Processing and Statistics (GENSIPS), Radisson University, Minnesota, USA, pp: 1-4,
2009, DOI No: 10.1109/GENSIPS. 2009. 5174374
9. Nithin V. George, SitanshuS.Sahu, L. Mansinha, K.F. Tiampo and Ganapati Panda,
“Time Localized Band Filtering Using Modified S-Transform”, International Conference
on Signal Processing Systems (ICSPS ), Singapore, pp. 42-46, 2009, DOI No:
10.1109/ICSPS.2009.63
10. SitanshuS.Sahu, Ganapati panda and S. J. Nanda,” Improved Protein Structural
Class Prediction Using Genetic Algorithm and Artificial Immune System”, World
Congress on Nature and Biologically Inspired Computing (NaBIC), Coimbatore, India,
Dec.9-11, 2009, pp. 731-735, DOI No: 10.1109/NABIC.2009.5393488
11. SitanshuS.Sahu, Ganapati panda and ChinmayaMahapatra, “Development of a
new low complexity ANN based Drug discovery method for efficient design of SARS
Co3CL Protease Inhibitors” ,International Congress of Environmental Research (ICER),
BITS, Pilani, Vol.2, pp: 1044, Dec. 18-20, 2008
12. SitanshuS.Sahu and Ganapati panda ,“Gene Prediction by Sliding DFT
Algorithm”, International Conference Advance Bio-Engineering (ICAB), Satyabhama
University, Dec. 05-07, 2007
Area 4.Brief on Research areas proposed : Brain Machine Interface (Biomedical Signal
Processing)
The brain machine interface (BMI) is a very recent development in the area of the
human machine interaction (HCI) and emerged as the sister technology of BCI.
However, there is not a clear cut difference between the BCI and the BMI. In fact, a
computer is always between the brain and the machine for the interface. Different
mental thoughts generate the electrical potentials over the surface of the scalp. It is
recorded with the sensors placed on the surface of the head. A physiological signal
related to these electrical potentials in response of the mental thoughts is known as
Electro-encephalogram (EEG) signals. The BMI based on the EEG signals is called as
the EEG-based BMI system. The BMI pertains to manipulation or operation of the
external machine as per thought of a user and such machine is called as thought
controlled machine. Thus there is a direct communication at the level of thought for the
action between both human and machine via a computer. The BMI is most commonly
known as the BCI because there is a direct communication between the brain and the
external machine via a computer, which analyses and interprets the incoming
physiological signals (electroencephalograms), which contain the shadow of the mental
activity and the different types of artefacts. A multi-channel recording of the
electromagnetic waves emerging from the neural currents in the brain generate a large
amounts of the EEG data. The neural activity of the human brain recorded non-
invasively is sufficient to control the external machine, if advanced methods of signal
analysis and feature extraction are used in combination with the machine learning
techniques either supervised or unsupervised. A suitable feature extraction and
classification methods are useful to generate a control command for controlling the
external machine.
Brief extract of Research proposed for new PhDs
The concept of thought generation in the human brain is a very complex phenomenon and
has not been accessible yet directly as the biological processing and the format of the
signal in the brain is not clearly understood. However, the levels of thoughts and types of
thoughts have been broadly investigated as change in the rhythm and the patterns of the
EEG signals capture at the surface of the skull. Although, the EEG signals are not the
direct access to the levels of thoughts and thought related actions but it represents the
shadow of it and hence to some extent thought related patterns can be inferred and used
for a controlling action. However 100% thought recognition will remain untouched for
either of the statistical classifier using a single feature vector. For the real time control,
the information transfer rate is not sufficient to control the external machine such as a
robot, an electric wheelchair and a computer cursor. The challenges are usability of the
EEG signals for the cognitive task selection. If it can be used what will be the best
approach of signal processing, feature extraction which will maximize the information
transfer rate.
A large number of the brain signals have been employed in the design of EEG-based BCI,
e.g., event-related potentials (ERPs) and event-related EEG changes [such as event-
related desynchronization/synchronization (ERD/ERS in alpha and beta rhythm). Among
the current BCI systems, the system based on visual evoked potential (VEP) has been
studied for a long period since the 1970. We have transient state VEP (TSVEP) and
steady state VEP (SSVEP). At the time of recording the EEG Signals, the SSVEP signals
is being recorded in response of stimulus of certain frequency in front of user. SSVEP
signal can provide higher information rate 70 bits/min and also require less training time
as compare to other EEG signals. Due to this reason SSVEP based BCI have got more
attention as compare to other EEG Signals. Still the information transfer rate is not 100%.
What will be the optimal frequency band for which the users have a good interaction and
what will be the best signal processing approach for the detection of the periodic
waveforms of a certain frequency in the recorded EEG Signals in order to maximize the
information transfer rate. In my doctoral thesis, I concentrated on Blind Source
Separation based EEG Signal processing for BCI. I have investigated the effect of the
asymmetry property of the brain due to handness on the classification accuracy over the
movement imagery data particularly left and right hand movement imagery. I have
modified the second order statistics based BSS algorithm under the supervised learning
approach for the pre-processing of each class of the movement imagery data. I have done
the offline analysis of the EEG Signals and its classification.
Now we are focusing on the challenges of real time control of an electric wheel chair by
thought of a user to assist disable persons. For the same we are interested to develop the
ubiquitous computing system that will estimate the thought of user and command the
external machine to do the specific task.
Name and List of Publications of proposed guide for new PhDs : Dr. Manokj
Kumar Mukul
Journal Paper:
1. Manoj Kumar Mukul, FumitoshiMatsuno: "Feature Extraction from Subband Brain
Signals and its Classification", SICE Journal of Control, Measurement, and System
Integration, Vol. 4, No. 5, pp. 332–340, January 2011.
2. AftabAlam, Manoj Kumar Mukul, P.R. Thakura: "Stability Analysis and Reliability
Evaluation of a Z-Source Inverter" International Journal of Power Electronics, January
2015, [Accepted]
3. Manoj Kumar Mukul:” EEG Signal Pre-Processing Using Subband BSS And Its
Effectivness” Medical & Biological Engineering & Computing, Springer, 2014 [Under
Review].
4. Manoj Kumar Mukul,” Combined Effect of Blind Source Separation and Common
Spatial Pattern, WSEAS Transaction on Signal Processing. 2014 [Under Review]
5. Sumanta Bhattacharyya, Manoj Kumar Mukul, Rajkishore Prasad, “Time-frequency
series Analysis of EEG Signal”, Digital Signal Processing, 2014, Elsevier [Under
Review]
International Conference Proceedings (REFEREED):
1. Manoj Kumar Mukul, FumitoshiMatsuno: Movement Imagery Classification Based on
Subband BSS, IEEE/SICE, International Symposium on System Integration (SI
International 2011), 2011, Kyoto, Japan.
2. Manoj Kumar Mukul, FumitoshiMatsuno: "Comparative study between Subband BSS
and Standard BSS methods in Context with EEG Signals for Movement Imagery
Classifications" pp.335-340, IEEE/SICE International Symposium on System
Integration(SI International 2010) , 2010, Sendai, Japan
3. Manoj Kumar Mukul, FumitoshiMatsuno: "Rhythmic Components of Spatio-temporal
decorrelated EEG Signals based Common Spatial Pattern" pp. 341-346, IEEE/SICE
International Symposium on System Integration (SI International 2010) , 2010, Sendai,
Japan
4. Manoj Kumar Mukul, FumitoshiMatsuno: "Three- Channel Electro-encephalogram
(EEG) Signal Analysis by Independent Component Analysis and Classification by Linear
Discriminant Analysis", Proc of the SICE Annual Conference 2010, pp.449-458, August
18-21, 2010.
5. Manoj Kumar Mukul, FumitoshiMatsuno: "Relative Spectral Power (RSP) and Temporal
RSP as Features for Movement Imagery EEG classification with Linear Discriminant
Analysis", Proc of the SICE Annual Conference 2010, pp.439-448, August 18-21, 2010.
6. Manoj Kumar Mukul, FumitoshiMatsuno: "Relative Spectral Power (RSP) and Temporal
RSP as Features for Movement Imagery EEG classification with Linear Discriminant
Analysis", Proc of the SICE Annual Conference 2010, pp.439-448, August 18-21, 2010.
7. Manoj Kumar Mukul, Rajkishore Prasad , FumitoshiMatsuno,"Removal of Electro-
oculogram (EOG) Artifacts from Multi-channel EEG Time- Series data by Independent
Component Analysis, "Proc. of Second International conference on the Intelligent
Human computer Interaction , pp.231-238, January 2010.
8. Manoj Kumar Mukul, Rajkishore Prasad, FumitoshiMatsuno," Relative Spectral Power
and Power Spectral Density changes in Motor rhythm for movement Imagination",
ICROS-SICE International Joint Conference 2009, pp.1611-1616, August 2009.
9. Manoj Kumar Mukul, FumitoshiMatsuno," EEG De-Noising Based on Wavelet
Transform and Extraction of Subband Components related to Movement Imagination",
ICROS-SICE International Joint Conference 2009, pp.1605-1610, August 2009.
10. Manoj Kumar Mukul, FumitoshiMatsuno, "Extraction of Rhythmic Information from
Non-invasively Recorded EEG Signal Using IEEE Standard 1057 algorithm", Proc. of
First International conference on the Intelligent Human computer Interaction, pp.125-
130, January 2009.
11. Manoj Kumar Mukul, Rajkishore Prasad, M.M Choudhary and FumitoshiMatsuno. ,
“Steering of Camera By Stepper motor Towards Active speaker Using Microphone
Array, Proc. of the SICE Annual Conference 2008, pp.19-24, August 20-22, 2008
12. Sarath Chandra Machavarapu, Manoj Kumar Mukul, et al , “EEG Classifications based
on Variance, Proc. of the IEEE International Conference on Green Computing,
Communication and Electrical Engineering 2014, March 06-08, 2014
13. Satish Kumar, Adyasha Dash, Manoj Kumar Mukul,” Design & Development of Low-
Cost EOG Acquisition Circuit for HCI Application”, 2nd International Conference on
Signal Processing and Integrated Networks (SPIN) 2015.
14. Adyasha Dash, Satish Kumar, Manoj Kumar Mukul,” A novel online Classification
algorithm for motor Imagery EEG data”, International symposium on Intelligent System
Technologies and Applications (Sponsored by Springer), Kerala, India, 2015.
[Submitted]
Registration Number(s)&(Expected) date for new PhD candidates :July 2015
Annexure I