Ajeet Kumar

Welcome! Currently, I am working as an Associate Professor in the Department of Applied Physics at Delhi Technological University (DTU), Delhi. I received the B.Sc. degree from Deen Dayal Upadhyay Gorakhpur University (DDUGU), Gorakhpur, India, in 2002, the M.Sc. degree from Indian Institute of Technology Roorkee (IITR), India, in 2004, and the Ph.D. degree (Large-mode-area rectangular optical waveguides and fibers) from the Indian Institute of Technology Roorkee, India in 2009.  I worked as a post-doctoral fellow at Gwangju Institute of Science & Technology (GIST), South Korea. My current research interests are

• Novel large-mode-area (LMA) single-mode fibers
• Photonic crystal waveguide and fiber
• Nonlinear fiber optics
• Fiber optic sensors
• Long-period waveguide and fiber gratings

In case of any query, please feel free to drop me an email at ajeetdph@dtu.ac.in or ajeetdph@gmail.com

• Associate Professor: July, 2022 - present, Department of Applied Physics, Delhi Technological University, Delhi, India
• Assistant Professor: July, 2010 - July, 2022, Department of Applied Physics, Delhi Technological University, Delhi, India
• Postdoctoral Researcher: January, 2010 - June, 2010, Research Institute for Solar and Sustainable Energies, Gwangju Institute of Science and Technology (GIST), Korea
• Research Trainee: September, 2007 - December, 2007 (Under Indo-UK exchange program), Department of Electrical, Electronics & Information Engineering, School of Engineering and Mathematical  Sciences City University, London        
• PhD Researcher: 2004 to 2009, Department of Physics, Indian Institute of Technology Roorkee, India

THEORY:

• Undergraduate:
  • Applied Physics, 2011
  • Applied Physics (B.Tech. Evening), 2011-13 
  • Introduction to Computing, 2010-till date (Download Tutorial Sheets â–º)
  • Computational Methods, 2010-till date
• Postgraduate:
  • Optoelectronic Devices & Circuits, 2010-2015
  • Optical Communication System, 2012
  • Optical Electronics, 2012-till date
  • Fiber Optics, 2014-till date

• Undergraduate:
  • Applied Physics Lab
  • Introduction To Computing Lab 
  • Optics Lab 
  • Fiber optics and optical communication lab
• Postgraduate:
  • Optical Fiber Characterization Lab
  • Optical Communication Design and Simulation Lab

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NEW COURSE/LAB DEVELOPED

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THEORY:

• Life Member Optical Society of India (OSI)
• Life Member, Indian Society of Technical Association (ISTA)
• Life Member, Indian Laser Association (ILA)
• Member, Optical Society of America (OSA)
• Member, SPIE

JOURNAL PUBLICATIONS

1. Aditya Kumar, Akash Khamaru, Deepak Garg, Ajeet Kumar, "Computational analysis of ring core segmented cladding photonic crystal fiber to study OAM modes in telecommunication band", Journal of Computational Electronics, 2025 (Accepted Manuscript - links coming soon..) 
2. Drishti Singh Tomer and Ajeet Kumar, “A Graded Index Hybrid Photonic Crystal Fiber for Supercontinuum Generation using AsSe₂- As₂S₅, Journal of Optics, Volume 54(5), 3268-3277, 2025 Read Full Article  Download
3. Drishti Singh Tomer, Ajeet Kumar, "Photonic Crystal Fibers Filled with Organic Liquids for Low Peak Power Supercontinuum Generation", Journal of Nonlinear Optical Physics & Materials, 2025 Download
4. Shubham Sharma, Akash Khamaru, Ajeet Kumar, Than Singh Saini, "PCF Technology-based Petrochemical oil sensor with improved sensitivity in the Terahertz regime", Microsystem Technologies, 2025 Read Full Article Download
5. Shubham Sharma, Ajeet Kumar, Than Singh Saini, "Design and simulation of a terahertz sensor for blood components detection using photonic crystal fiber ", Journal of Electronic Materials, 2025 Read Full Article Download
6. Akash Khamaru, Ajeet Kumar, "Au/PtSe2 based Surface Plasmon Resonance Photonic Crystal Fiber biosensor for Cancer and UTI Detection", Plasmonics, 2025 Read Full Article Download
7. Akash Khamaru, Ajeet Kumar, "Highly Sensitive Graded Index PCF-based Refractometric SPR Sensor offering enhanced FOM" Plasmonics, Volume 20(7), 4499-4511, 2025 Read Full Article Download
8. Arhee Bhuyan, Akash Khamaru, Ajeet Kumar, "Black Phosphorus based slotted D-shaped PCF SPR sensor for Cancer Detection", Plasmonics, Volume 20(7), 5201-5213, 2025 Read Full Article Download 
9. Shubham Sharma, Ajeet Kumar, Than Singh Saini, "Design and Optimization of Refractive Index-Based Spiral Shape Twin-Core Photonic Crystal Fiber Sensor for Detection of Blood Components", Cell Biochemistry and Biophysics, 2025 Read Full Article Download
10. Deepak Garg, Ajeet Kumar, "Dispersion-Engineered segmented core rib waveguide for coherent and broadband supercontinuum generation in both all-normal and anomalous regimes", Optical and Quantum Electronics, Vol. 57, 284, 2025 Read Full Article Download
11. Plakshi Gupta, Akash Khamaru, Ajeet Kumar, "Black Phosphorus Based SPR Photonic Crystal Fiber Biosensor for Urinary Tract Infection Detection", Plasmonics, Volume 20(10), 8677-8688, 2025 Read Full Article Download
12. Shubham Sharma, Ajeet Kumar, Than Singh Saini, "Design and Theoretical Analysis of a Dual-Core Photonic Crystal Fiber Temperature Sensor with Enhanced Sensitivity Across an Extended Temperature Range", Journal of Modern Optics, Vol. 72, No. 7-9, 218-227, 2025 Download 
13. Drishti Singh Tomer, Ajeet Kumar, "Photonic Crystal Fibers infiltrated with Nitrobenzene with Low Peak Power Supercontinuum Generation in NIR to MIR region", Journal of Modern Optics, Vol. 72, No. 4-6, 175-187, 2025 Download 
14. Preethi Krishnan, Akash Khamaru, Ajeet Kumar, "MXene coated concave shaped microchannel PCF SPR Biosensor for the detection of HIV and Sickle cell anaemia", Optical and Quantum Electronics, Vol. 57, 270, 2025 Read Full Article Download
15. Deepak Garg, Ajeet Kumar, "Highly Coherent On-Chip Mid-Infrared Supercontinuum Generation from 1.5 to 25 μm in CdTe-based Rib Waveguide", Optical and Quantum Electronics, Vol. 57, No. 1, 96, 2025 Read Full Article Download
16. Plakshi Gupta, Akash Khamaru, Ajeet Kumar, "Highly Sensitive Black Phosphorus Layered SPR-PCF Refractometric Sensor", Plasmonics, Volume 20(9), 7143-7153, 2025 Read Full Article Download
17. Shubham Sharma, Ajeet Kumar, Than Singh Saini, "Design and Simulation of a Square-Core Photonic Crystal Fiber- based chemical sensor to identify Ethanol, Benzene, and Water in the Terahertz regime," Journal of Condensed Matter, Volume 2(2) (2024) Download
18. Devi Kangan B S, Akash Khamaru, Ajeet Kumar, "Design and analysis of Twin-Core Side-Polished SPR PCF Sensor for Preliminary Malaria Detection", Plasmonics, Volume 20(9), 7069-7080, 2025 Read Full Article Download
19. Deepak Garg, Ajeet Kumar, "CMOS compatible TeO2 -coated Si3N4 inverse parabolic rib waveguide for on-chip supercontinuum generation and high-resolution OCT",  Optical and Quantum Electronics, Vol. 56, No. 12, 1904 (2024) Read Full Article Download
20. Jaydeep Singh, Akash Khamaru, Ajeet Kumar, "Spiral Shaped Highly Sensitive Rectangular PCF-based Cancer Cells Detector in Terahertz Regime", Physica Scripta, Vol. 99, No. 11, 115546, 2024 Download 
21. Deepak Garg,  Akash Khamaru, Ajeet Kumar, "Ge-As-Se-Te chalcogenide based rib-waveguide for highly coherent on-chip mid-infrared supercontinuum generation: design and analysis", Optical and Quantum Electronics, Vol. 56, No. 10, 1643 (2024)  Read Full Article  Download
22. Jaydeep Singh, Akash Khamaru, Ajeet Kumar, "A Refractive Index based Cancer Cells Sensor in Terahertz Spectrum: Design and Analysis" Journal of Optics, 2024    Read Full Article   Download 
23. Deepak Garg, Jyotsna Singh, Ajeet Kumar, "Design and theoretical study of rectangular photonic crystal fiber based sensor for chemical sensing in terahertz regime" Indian Journal of Physics, Volume 99, pages 997–1005, (2025) Read Full Article   Download 
24. Drishti Singh Tomer, Ajeet Kumar, “Ethanol-Infiltrated Circular Photonic Crystal Fiber for Low Peak Power Supercontinuum Generation from Near-Infrared to Mid-Infrared Region" Journal of Optics, 2024    Read Full Article     Download 
25. Deepak Garg,  Akash Khamaru, Ajeet Kumar, “Supercontinuum Generation in Ga-Sb-S Chalcogenide based PCF Using Optofluidic Approach” Microw Opt Technol Lett. 2024;66:e34316. Download  
26. Akash Khamaru, Ajeet Kumar, "Ge-Se-Te based Penrose photonic quasi-crystal fiber for SCG covering 2–21 μm MIR regime" Optical Materials, Volume 155, 115849, 2024 Download
27. Akash Khamaru, Ajeet Kumar, "As38Se62 based Segmented Clad-Graded Index Photonic Crystal Fiber for Supercontinuum Generation Covering 3- 9.5 μm with moderate peak power," Optical and Quantum Electronics, Vol. 56, No. 7, 1246, 2024 Read Full Article  Download
28. Drishti Singh Tomer and Ajeet Kumar, "Design and numerical modeling of chalcogenide parabolic?core waveguide for on?chip supercontinuum generation extending from near?IR region to mid?IR region" Microwave and Optical Technology Letters 66, e34105 (2024) Download 
29. Gurmeet Singh, Shubham Sharma, and Ajeet Kumar. "Design and simulation of solid?core octagonal photonic crystal fiber for terahertz wave propagation" Microwave and Optical Technology Letters 66, no. 5  e34173 (2024) Download
30. Gurmeet Singh, Shubham Sharma, and Ajeet Kumar, "Design and analysis of spider-web photonic crystal fiber in the terahertz regime" Indian Journal of Physics, Vol. 98, No. 8,  2917–2922 (2024) Read Full Article   Download
31. Neeraj Singh, Akash Khamaru, and Ajeet Kumar. "Design and analysis of a rectangular core refractive index-based PCF sensor for bio-sensing application" Optical and Quantum Electronics, Volume 56, no. 7 p 1133 (2024) Read Full Article   Download 
32. Reena Reena, Yogita Kalra and Ajeet Kumar, "Electromagnetically induced transparency-based metal dielectric metamaterial and its terahertz sensing application", Applied Optics, vol. 60(34), pp. 10610-10616, 2021 Download
33. Rohan Sharma, Surleen Kaur, Pooja Chauhan, and Ajeet Kumar, "Computational Design & Analysis of GeSe2-As2Se3-PbSe Based Rib Waveguide for Mid-Infrared Supercontinuum Generation," Optik, Volume 220, October 2020, 165032  Download
34. Pooja Chauhan, Ajeet Kumar, and Yogita Kalra, "Numerical exploration of coherent supercontinuum generation in multicomponent GeSe2-As2Se3-PbSe chalcogenide based photonic crystal fiber", Optical Fiber Technology, 54, p. 102100, 2020.   Download                                                                                    
35. Pooja Chauhan, Ajeet Kumar, and Yogita Kalra, "Computational modeling of tellurite based photonic crystal fiber for infrared supercontinuum generation", Optik, 187, pp. 92-97, 2019. Download
36. Pooja Chauhan, Ajeet Kumar, and Yogita Kalra, "A dispersion engineered silica-based photonic crystal fiber for supercontinuum generation in near-infrared wavelength region", Optik, 187, pp. 230-237, 2019. Download
37. Reena Reena, Y. Kalra, and A. Kumar, “Fano Resonant Cuboidal Dielectric Nanoantennas”. Opt. Spectrosc. vol.127, pp. 1122–1127 (2019). Download
38. Pooja Chauhan, Ajeet Kumar, Yogita Kalra, "Mid-infrared broadband supercontinuum generation in a highly nonlinear rectangular core chalcogenide photonic crystal fiber", Optical Fiber Technology, vol. 46, pp. 174-178 (2018). Download                                                                                                                          
39. Reena Reena, Yogita Kalra, Ajeet Kumar,“Ellipsoidal all-dielectric Fano resonant core-shell metamaterials”, Superlattices and Microstructures, vol. 118, pp. 205-212 (2018). Download
40. Priti Siwach, Ajeet Kumar, and Than Singh Saini, “Broadband supercontinuum generation spanning 1.5–13 μm in Ge11.5As24Se64.5 based chalcogenide glass step index optical fiber,” Optik, vol. 156, pp. 564–570 (2018). Download
41. Utkarsh Nigam, Ajeet Kumar, and Than Singh Saini, “Numerical modeling of a single-mode optical fiber in bismuth oxide for slow-light generation based on stimulated Brillouin scattering,” Optik, vol. 157, pp. 1207–1213  (2018). Download
42. SandeepYadav, Ajeet Kumar, Than Singh Saini, Ravindra Kumar Sinha, “SBS based slow-light generation in rectangular lattice graded-index photonic crystal fiber: design and analysis”, Optik, vol. 132, pp. 164 - 170 (2017). Download
43. Than Singh Saini, Ajeet Kumar, and Ravindra Kumar Sinha, “Design and modeling of dispersion engineered rib waveguide for ultra broadband mid-infrared supercontinuum generation,” J. Modern Opt., vol. 64(2), pp. 143–149 (2017). Download
44. A. G. N. Chaitanya, Than Singh Saini, Ajeet Kumar, and Ravindra Kumar Sinha, "Ultra broadband mid-IR supercontinuum generation in Ge11.5As24Se64.5 based chalcogenide graded-index photonic crystal fiber: design and analysis", Applied Optics, vol 55(36), pp. 10138-10145 (2016). Download
45. Apurva Tewari, Ajeet Kumar, Than Singh Saini, Ravindra K. Sinha, "Design of As2se3 based chalcogenide ridge waveguide for generation of slow light", Optik, vol. 127(24), pp. 11816-11822, 2016. Download 
46. Purniya Jamatia, Than Singh Saini, Ajeet Kumar, Ravindra Kumar Sinha, “Design and analysis of a highly nonlinear composite photonic crystal fiber for supercontinuum generation: visible to mid-IR” Applied Optics, vol. 55 (24), pp. 6775-6778, 2016. Download
47. Varsha Jain, Shubham Sharma, Than Singh Saini, Ajeet Kumar, Ravindra Kumar Sinha, “Design and analysis of single-mode tellurite photonic crystal fibers for stimulated Brillouin scattering based slow-light generation” Applied Optics, vol. 55 (25), pp. 6791-6796, 2016. Download
48. Reena, Yogita Kalra, Ajeet Kumar, Ravindra Kumar Sinha,"Tunable unidirectional scattering of ellipsoidal single nanoparticle," Journal of Applied Physics, vol. 119, pp.243102, 2016. Download
49. Ajeet Kumar, Than Singh Saini, Kishor Dinkar Naik, Ravindra K. Sinha, “Large-mode-area single polarization single-mode photonic crystal fiber: design and analysis,” Applied Optics, vol. 55(19), pp. 4995 – 5000, 2016. Download
50. Reena, Than Singh Saini, Ajeet Kumar, Yogita Kalra, Ravindra K. Sinha, “Rectangular-core large-mode-area photonic crystal fiber for high power applications: Design and analysis,” Applied Optics, vol. 55 (15), pp. 4095 – 4100, 2016. Download
51. Than Singh Saini, Ajeet Kumar, and Ravindra Kumar Sinha, “Asymmetric large-mode-area photonic crystal fiber structure with effective single-mode operation: design and analysis,” Applied Optics, vol. 55(9), pp. 2306 – 2311, 2016. Download
52. R. K. Sinha, A. Kumar and T. S. Saini, “Analysis and design of single-mode As2Se3-chalcogenide photonic crystal fiber for generation of slow light with tunable features,”IEEE J. Sel. Topics Quant. Electron, vol. 22(2), pp. 4900706, 2016. Download
53. A. Kumar, T. S. Saini, and R. K. Sinha, "Design and analysis of photonic crystal biperiodic waveguide structure based optofluidic-gas sensor," Optik, vol. 126(24), pp. 5172-5175, 2015. Download
54. R. Cherif, A. B. Salem, T. S Saini,  A. Kumar, R. K. Sinha, M. Zghal, "Design of small core tellurite photonic crystal fiber for slow-light-based application using stimulated Brillouin scattering", Optical Engineering, vol.54, pp. 0751010-75101-6 , 2015. Download
55. T. S Saini, A. Kumar, R. K. Sinha, "Design and analysis of large-core multi-trench channel waveguide for high power applications", Applied Optics, vol. 54, pp. 6134-6139 2015. Download
56. T. S Saini, A. Baili, A. Kumar, R. Cherif, M. Zghal, R. K. Sinha, "Design and analysis of equiangular spiral photonic crystal fiber for mid-infrared supercontinuum generation", Journal of modern optics, vol. 62(19), pp. 1570 – 1576, 2015. Download
57. T. S Saini, A. Kumar, R. K. Sinha, "Design of large-mode-area microstrctured with single-mode operation for high power fiber lasers", Advanced Science Letters, vol. 21, pp. 2539–2543, 2015. Download
58. T. S Saini, A. Kumar, R. K. Sinha, "Broadband mid-infrared supercontinuum spectra spanning 2–15 µm using As2Se3 chalcogenide glass triangular-core graded-index photonic crystal fiber", J. Lightwave Technol. vol. 33(18), pp. 3914– 3920 (2015) Download 
59. T. S Saini, A. Kumar, R. K. Sinha, "Broadband mid-IR supercontinuum generation in As2Se3 based chalcogenide photonic crystal fiber: A new design and analysis" Optics Communication, vol. 347, pp. 13-19, 2015. Download
60. T. S Saini, A. Kumar, R. K. Sinha, “Slow Light Generation in Single-Mode Tellurite Fibers”, Journal of Modern Optics, vol. 62, pp. 508-513, 2015. Download
61. T. S. Saini, A. Kumar, and R. K. Sinha, "Triangular-core large-mode-area photonic crystal fiber with low bending loss for high power applications", Applied Optics, vol. 53, pp. 7246-7251, 2014. Download
62. G. Prabhakar, A. Peer, V. Rastogi and A. Kumar, "Large effective area dispersion compensating fiber design based on dual core microstructure", Applied Optics, vol. 52, pp. 4505-4509, 2013. Download
63. K. Kamakshi, V. Rastogi, A. Kumar, "Design and analysis of a refractive index sensor based on dual-core large-mode-area fiber", Optical Fiber Technology, vol. 19, pp. 325-329, 2013. Download
64. N. Ashok, V. Rastogi,and A. Kumar, "Long-period-grating in a trench assisted planar optical waveguide", Applied Optics, vol. 52, pp. 1954-1962, 2013. Download
65. Babita, V. Rastogi,and A. Kumar,“Design of large-mode-area three layered fiber structure for femtosecond laser pulse delivery”, Optics communication, vol. 293, pp. 108-112, 2013. Download
66. N. Ashok, V. Rastogi, and A. Kumar, “Dual-core leaky optical waveguide as an integrated-optic polarizer” Optics  communication, vol.285, pp. 5094-5099,2012. Download
67. A. Kumar, V. Rastogi, A. Agarawal and B.M.A. Rahman,“Birefringence analysis of segmented cladding fibre” Applied Optics, vol. 51, pp. 3104-3108, 2012. Download
68. V. Rastogi, R. Kumar, and A. Kumar, “Large- effective-area all-solid dispersion compensating fiber” Journal of Optics, vol. 13,125707, 2011. Download
69. V. Rastogi, N. Ashok,and A. Kumar, “Design and analysis of large -core high-GVD planar optical waveguide for dispersion compensation” Applied Physics B, vol. 105, pp. 821-824, 2011. Download
70. A. Kumar and V. Rastogi, “Design and analysis of dual-shape-core large-mode-area optical fiber” Applied Optics, vol. 50, pp. E119-E124, 2011. Download
71. B. Dussardier,V. Rastogi, A. Kumar, and G. Monnom, “Large mode area leaky optical fiber fabricated by MCVD” Applied Optics, vol. 50, pp. 3118-3122, 2011. Download
72. K. Kamakshi, V. Rastogi, P. Kumar and A. Kumar, “Design of dual core resonant leaky optical fiber based gain flattening filters for erbium doped fiber amplifiers,” Optics  communication, vol. 283, pp. 5025-5027,2010. Download
73. L. Labont´e, V. Rastogi, A. Kumar, B. Dussardier and G. Monnom, “Birefringence analysis of multilayer leaky cladding optical fibre”, Journal of Optics, vol. 12, 065705, 2010. Download
74. K. Kamakshi, V. Rastogi, A. Kumar and J. Rai, “Design and fabrication of a single-mode optical fibre based refractive-index sensor,” Micro. Opt Technol Lett.,vol. 52, pp. 1408-1411, 2010. Download
75. Ajeet Kumar, Vipul Rastogi, Charu Kakkar, and Bernard Dussardier, “Co-axial dual-core resonant leaky fibre for optical amplifiers”, Journal of Optics A, 10 (2008) 115306. Download
76. Ajeet Kumar and Vipul Rastogi, “Multilayer cladding leaky planar waveguide for high power applications,” Applied Physics B, vol. 92, pp. 577-583, 2008. Download
77. Ajeet Kumar, Vipul Rastogi and Kin Seng Chiang, “Large-core single-mode channel waveguide based on geometrically shaped leaky cladding,” Applied Physics B, vol .90, pp. 507-512, 2008. Download
78. Ajeet Kumar and Vipul Rastogi, “Design and analysis of a multi-layer cladding large-mode-area optical fibre,” Journal of Optics A, 10 (2008) 015303. Download
79. Ajeet Kumar, Vipul Rastogi and Kin Seng Chiang, “Leaky optical waveguide for high power applications,” Applied Physics B, vol. 85, pp. 11-16, 2006. Download

 

• Referee of the Optical Society of America (OSA's) flagship Journals - Applied Optics, Optics Letters and Journal of Lightwave Technology (Joint publication of IEEE/OSA)

• Postdoctoral fellowship by Korean Government in 2010

• Research Associateship by Council for Scientific and Industrial Research(CSIR)-2009 

• Young Scientist Award by Uttarakhand Government in 2008

• Senior Research Fellowship by Council for Scientific and Industrial Research(CSIR) 

• IITR –MHRD (Institute) Fellowship IIT Roorkee

• University Gold Medal in Mathematics 

• Uttar Pradesh Government National Scholarship Holder

International                                                      "TUN-IND Bilateral Project" 

PI: Dr. Ajeet Kumar, Co-PI: Prof. R. K. Sinha (Indian Side), PI: Dr. Rim Cherif, Co-PI: Dr. Mourad ZGHAL (Tunisian Side)

Title: Design, modeling and characterization of highly nonlinear fibers  for all-optical high bit-rate networks

Funding Agency: Department of Science and Technology (DST), Govt. of India, Ministry of Higher Education and Scientific Research of the Republic of Tunisia              

Amount and Time Period: Rs. 13.5 Lakh for 3 years (2013-2016) duration

National                                                 "Young Scientist Fast Track Project"

Title: Specialty Large-Mode-Area Rectangular Waveguides and Fibers for High Power Applications

Funding Agency: Department of Science and Technology (DST), Govt. of India

Amount and Time Period: Rs. 24.5 Lakh for 3 years duration (2013-2017).

 

 

NIDHI Prayas Scheme (iCreate Incubation Centre)

Faculty advisor: Dr. Ajeet Kumar

Students team:  Mr. Nishant Singh Rana and Mr. Rudrev Dave

Mr. Nishnat Singh Rana and Mr. Rudrev Dave has been selected for support under the NIDHI Prayas Scheme of the Department of Science and Technology (DST), Government of India (March 2017) at iCreate. The team is working towards making an indigenous MULTI UTILITY SINGLE PLATFORM UNMANNED AERIAL PLATFORM and will be working on prototype development. The team will be working in Gujarat for 18 months with a funding of Rs. 10 lakhs. 

 

Spark-Up Idea (iCreate Incubation Centre)

Faculty advisor: Dr. Ajeet Kumar

Students team:  Mr. Nishant Singh Rana and Mr. Rudrev Dave

Mr. Nishnat Singh Rana and Mr. Rudrev Dave have been selected for “Multi Utility Single Platform Unmanned Aerial System” funding from iCreate (International Centre for Entrepreneurship and Technology) under Spark-Up Idea Fund Program at iCreate.

 

Team DTU-AUV

Faculty advisor: Dr. Ajeet Kumar (Till 2024)

Students team leader:  Mr. Subham Sharma

For detailed information please visit the official webpage of Team DTU-AUV