About The Modern Wireless Networks Group
The Modern Wireless Networks Group (MoWiNG) is supervised by Dr. Abhishek K. Gupta . He is an Assistant Professor in the Department of Electrical Engineering at Indian Institute of Technology Kanpur. This group aims at analyzing and designing modern wireless networks including unconventional communication paradigms such as molecular communication and VLC networks. He received his B.Tech.- M.Tech. dual degree in Electrical Engineering from IIT Kanpur in 2010 and PhD degree in the Department of Electrical and Computer Engineering at the University of Texas at Austin in 2016. His research interests include wireless communication, stochastic geometry and numerical methods. He was recipient of GE-FS Leadership Award by General Electric (GE) Foundation and Institute of International Education in 2009 and IITK Academic Excellence Award for four consecutive years. He is author of the books MATLAB by Examples (Finch, 2010) and Numerical Methods in MATLAB (Springer Apress, 2014). Previously he was working as Sr. Standards Engineer at Samsung Reseach America in Dallas, TX. In past, he has worked in Applied Microelectronics Circuit Corporation (Pune), Futurewei Technologies (NJ) and Nokia Networks (IL).
Welcome
Research Focus
Wireless Communication
Stochastic Geometry
Analysis and modeling of cellular systems
mmWave and 5G networks
Web Applications and Information Systems
Research Topics
Modern Communication Systems including 5G and mmWave networks
About
As the fourth generation of mobile standards is reaching its limits, the researchers and industries together have started focusing on the next generation standard. 5G systems are expected to provide very high data rates and have low latency. One of the proposed features of 5G is leveraging the large available bands at the mmWave frequencies. We analyze mmWave systems and various issues related to them such as characterizing mmWave channel, modeling and evaluating the system performance and making the communication work at mmWave. There are many other interesting features/problems related to modern networks such as internet of things (IoT), coordination techniques in sub 6GHz networks, renewable energy based device networks, which our group aims to analyze.
Relevant Publications
J. G. Andrews, T. Bai, M. N. Kulkarni, A. Alkhateeb, A. K. Gupta,R. W. Heath Jr, ''Modeling and analyzing millimeter wave cellular systems,'' IEEE Trans. Commun. , 65(1), pp 403-430, Jan. 2017. (Details, Link, PDF)
A. K. Gupta, J. G. Andrews and R. W. Heath Jr, ''On the feasibility of sharing spectrum licenses in mmWave cellular systems,'' IEEE Trans. Commun. , 64(9), pp 3981-3995, Sept. 2016. (Details, Link, PDF)
A. K. Gupta, J. G. Andrews and R. W. Heath Jr, ''Macro-diversity in cellular networks with random blockages,'' IEEE Trans. Wireless Commun. , 17(2), pp 996-1010, Feb. 2018. (Details, Link, PDF)
Reena Sahu, Kanchan Chaurasia and A. K. Gupta, ''SINR and Rate Coverage of Broadcast Networks using Stochastic Geometry'', in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020. DOI: 10.1109/SPCOM50965.2020.9179521. (Details, Link, PDF , Presentation , Video )
Modeling and Analysis of Modern Cellular System using Stochastic Geometry
About
The field of stochastic geometry provides many random spatial models and relevant tools to characterize most wireless communication systems. Due to increasing heterogeneity in cellular infrastructure and irregularity in base station (BS) locations, random spatial models are proposed to model the inherent randomness in such networks. Modeling the BS locations as a Poisson Point Process (PPP) further lends tractability and allows to compute simple expressions for important distributions such as distribution of distance of the serving BS and sum interference from all BSs, and key metrics, such as SINR coverage and rate. The field of stochastic geometry is attracting growing interest.
In past research, We have used stochastic geometry tools extensively to analyze multi-antenna HetNets, 3D network deployments, network densification with multi-slope path-loss models, mmWave networks, spectrum license sharing in mmWave and self-localizing sensors. We should emphasize that stochastic geometry is not merely a tool to analyze wireless systems. In addition to its promising applications, there are many interesting research directions in developing stochastic geometry tools, e.g. finding the condition for percolation in random graphs constructed on point processes, analysis of repulsive and other non-PPP point processes, and modeling of correlated point processes including PPPs. Our group is interested in both aspects: application of stochastic geometry in wireless systems, and properties of random point processes.
Relevant Publications
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A. K. Gupta, H. Dhillon, S. Vishwanath and J. G. Andrews, ''Downlink multi-antenna heterogeneous cellular network with load balancing,'' IEEE Trans. Commun. , 62(11), pp 4052-67, Nov. 2014. (Details, Link, PDF)
A. K. Gupta, X. Zhang and J. G. Andrews, ''Potential throughput in 3D ultradense cellular networks'', in Proc. ASILOMAR, Pacific Grove, USA, Nov. 2015. (Details, Link, PDF )
J. G. Andrews, X. Zhang, G. D. Durgin and A. K. Gupta, ''Are we approaching the fundamental limits of wireless network densification?,'' IEEE Commun. Mag. , 54(10), pp 84-90, Oct. 2016. (Details, Link, PDF)
A. K. Gupta, J. G. Andrews and R. W. Heath Jr, ''On the feasibility of sharing spectrum licenses in mmWave cellular systems,'' IEEE Trans. Commun. , 64(9), pp 3981-3995, Sept. 2016. (Details, Link, PDF)
A. K. Gupta, S. Barik and H. Vikalo, ''Distributed self localization of sensors with Poisson deployment using extended Kalman filter'', in Proc. IEEE WCNC, New Orleans, USA, May. 2016. (Details, Link, PDF )
K. Pandey , Harpreet S Dhillon and A. K. Gupta, ''On the Contact and Nearest-Neighbor Distance Distributions for the n Dimensional Matern Cluster Process,'' IEEE Wireless Commun. Lett. , 9(3), pp 394-397, Mar. 2020. DOI: 10.1109/LWC.2019.2957221. (Details, Link, PDF)
K. Pandey, and A. K. Gupta, ''Coverage Improvement of Wireless Sensor Networks via Spatial Profile Information'', in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020. DOI: 10.1109/SPCOM50965.2020.9179613. (Details, Link, PDF , Video )
Molecular Programming and Communication
About
In simple terms, molecular programming refers to programming with molecules where each operation is performed in the form of chemical reaction. It involves the specification of structures, circuits, and behaviors both within living and non-living systems-systems in which computing and decision-making will be carried out by chemical processes themselves. Like the logical gates in conventional computer programming, basic building blocks of molecular programming are chemical reaction networks (CRNs). In recent years, there has been huge interest in understanding CRNs to perform basic operations and assemble them to build complex systems. Closely related to molecular programming, the field of molecular communication involves studying communication between bio-receivers via molecules including modulation techniques and optimizing channel. Our group focuses on applying knowledge of the conventional communication theory to molecular communication.
Relevant Publications
Nithin V Sabu, Neeraj Varshney and A. K. Gupta, ''On Hybrid MoSK-CSK Modulation based Molecular Communication: Error Rate Performance Analysis using Stochastic Geometry'', in Proc. SpaSWiN, WiOpt, Avignon, France, June 2019. DOI: 10.23919/WiOPT47501.2019.9144119. (Details, Link, PDF )
Nithin V S , and A. K. Gupta, ''Analysis of Diffusion Based Molecular Communication with Multiple Transmitters having Individual Random Information Bits,'' IEEE Trans. Molecular, Biological and Multi-Scale Communications, 5(3), , Dec. 2019. DOI: 10.1109/TMBMC.2020.2986719. (Details, Link, PDF)
Nithin V S , and A. K. Gupta, ''Analysis of Diffusion Based Molecular Communication System with Multiple Transmitters'', in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020. DOI: 10.1109/SPCOM50965.2020.9179506. (Details, Link, PDF , Video )
Nithin V S , N. Varsney and A. K. Gupta, ''3-D Diffusive Molecular Communication with Two Fully-Absorbing Receivers: Hitting Probability and Performance Analysis,'' IEEE Trans. Molecular, Biological and Multi-Scale Communications, 6(3), pp 244-249 , Dec 2020. DOI: 10.1109/TMBMC.2020.3031414. (Details, Link, PDF)
Nithin V S , and A. K. Gupta, ''Detection Probability in a Molecular Communication via Diffusion System with Multiple Fully Absorbing Receivers,'' IEEE Communication Letters, 24(12), pp 2824-2828 , Dec 2020. DOI: 10.1109/LCOMM.2020.3017243. (Details, Link, PDF)
Performance of Visible Light Communcication Networks
About
Visible light communication is an attractive option to mitigate the problem of spectrum scarcity as demand for data services explode. One can achieve higher capacity, and more secure communication using VLC. It allows significant power savings as visible light sources can serve the dual role of communications as well as room illumination. We present a stochastic geometry based framework to analyze the performance of a downlink indoor VLC network at a typical arbitrarily located user in the room and may not necessarily be at the center. It is in general difficult to compute the distribution of the distance of the serving base-station (BS) from the user when the BSs process is non-stationary. We give a technique based on Campbell-Mecke theorem, which does not require this distribution computation. This technique is valid for SINR threshold greater than 1 which is typically the case. We then derive the SINR and rate coverage probability for a typical user. We present a model to include the impact of wall reflections and extend the analysis to study the performance in the presence of wall reflections. We provide some numerical results showing the impact of user’s location and reflections. We observe that users location significantly affect the performance of the network. In the presence of reflections, corner users are affected more due to increased non line-of-sight interference. We also showed that reflections can be an important factor while computing performance for corner and edge users.
Relevant Publications
Spectrum Sharing in mmWave Networks
About
In the conventional cellular licensing, commercial operators buy exclusive licenses which give each of them exclusive and complete control over a band of spectrum. Due to highly directional communication and high penetration losses, the mmWave communication causes less interference to neighboring BSs compared to sub-6 GHz frequencies. Therefore, the conventional exclusive licensing is not efficient for mmWave and spectrum sharing is a definite way to go for mmWave systems. There are two main ways to share the spectrum: (i) to share the spectrum without any coordination among the operators, or (ii) to implement some type of sensing or coordination to avoid transmission conflicts. Currently, there is no regulatory framework for cellular services in the mmWave bands. Therefore, these different types of sharing mechanisms should be evaluated in advance to understand what licensing schemes should be used in mmWave networks to maximize spectrum utilization.
We modeled multi-operator mmWave cellular networks with uncoordinated (or unrestricted) spectrum license sharing using superposition of multiple independent PPPs. The considered setup was general enough to allow any arbitrary group granularity for infrastructure access and license sharing. We computed performance metrics in terms of SINR and rate coverage of this system. By comparing the exclusive licensing with license sharing, we showed that sharing increases the per-user median rate. We also showed that there is a trade-off between median and edge rate and sharing licenses may result in lower edge rates in some scenarios.
An operator may be ready to share its spectrum, but it may still want to distinguish itself as the primary owner of a spectrum to achieve a certain level of quality of service. Therefore, it is intuitive to have a licensing scheme where the owner of the spectrum has higher control of the spectrum and it can impose some restrictions on the other operators it lends the spectrum to. One important thing while imposing such restrictions on the secondary operators is that too high coordination requirements can eat away the gains from spectrum sharing. Therefore, there must be a certain limit on how much coordination is required from the secondary operators. One practical solution is to allow some static coordination based on large scale channel statistics which does not require continuous sensing of the spectrum. We analyzed such an mmWave system with static coordination where the secondary operator has a restriction on the maximum interference it can cause to the owner operator and showed that both operators benefit from this type of secondary licensing.
Relevant Publications
Modelling Random Blockages in Cellular Networks
About
Signal propagation at mmWave frequencies suffers from various issues such as higher atmospheric absorption and sensitivity to blockages due to reduced diffraction and penetration. Also, blockages present in the channel severely impact the performance of mmWave systems. This necessitates the separate modeling of line-of-sight (LOS) and non-LOS (NLOS) links for mmWave systems. Random shape theory can be used to model the effect of blocking in cellular systems where buildings are modeled as random shapes including lines, rectangles or circles. However, the prior work has mainly focused on the analysis of single serving link or analysis assuming independent blocking among links.
Macro-diversity where a user is simultaneously connected with multiple mmWave BSs can be used to increase LOS probability of serving links, thus boosting the system performance. In this case, it is very important to understand how correlation among blocking events occurring in multiple serving links impacts the diversity gain. We analyzed the correlation among the blocking events occurring in links from different BSs to a single user. We modeled the blockage process using a line-Boolean model and BS locations as a PPP. We, then, computed the joint probability of multiple serving links to be blocked and then derived the probability of at least one serving link to be LOS, termed system reliability.
Relevant Publications
Drone Communications: Modeling and Analysis
About
A drone (UAV) network consists of multiple drones spread over a space and communicating directly with each other. Drones can be deployed to provide instant network to a disaster affected area where radio networks are damaged. Drone networks can also be used to help cellular networks to provide coverage when good connection to any macro cell is not available. There are various challenges in implementing a real world drone network. We are working in different aspects such as modeling and anslysis of drone networks.
Publications
Books
[B01][2022] J. G. Andrews, A. K. Gupta, Ahmad AlAmmouri, Harpreet S Dhillon, ''An Introduction to Cellular Network Analysis using Stochastic Geometry,'' (Publisher: Morgan and Claypool (Springer)). March. 2022. (Details, Link, PDF)
[B02][2015] A. K. Gupta, ''Numerical Method using MATLAB,'' (Publisher: Apress (Springer)). Dec. 2015. (Details, Link, PDF)
[B03][2010] A. K. Gupta, ''MATLAB By Examples,'' (Publisher: Finch, India). Mar. 2010. (Details, Link, PDF)
Book Chapter
[BC01][2021] Shuchi Tripathi, Nithin V S , A. K. Gupta and Harpreet S Dhillon, ''Millimeter-wave and Terahertz Spectrum for 6G Wireless,'' in 6G Mobile Wireless Networks, (Publisher: Springer). 2021. (Details, Link, PDF)
[BC02][2020] A. K. Gupta, Nithin V S and Harpreet S Dhillon, ''Fundamentals of Network Densification,'' in 5G and Beyond: Fundamentals and Standards, (Publisher: Springer). 2020. DOI: 10.1007/978-3-030-58197-8. (Details, Link, PDF)
[BC03][2020] A. K. Gupta, and A. Banerjee, ''Spectrum above Radio Bands,'' in Spectrum Sharing: The Next Frontier in Wireless Networks, (Publisher: Wiley). June 2020. DOI: 10.1002/9781119551539.ch5. (Details, Link, PDF)
[BC04][2012] A. K. Gupta, and Shaun A Forth, ''An AD-Enabled Optimization Toolbox in LabVIEW,'' in Lecture Notes in Recent Advances In Algorithmic Differentiation, (Publisher: Springer). June 2012. (Details, Link, PDF)
Submitted
[J01][2023] Shuchi Tripathi, Abhishek K. Gupta, SaiDhiraj Amuru, ''On the Coverage of Cognitive mmWave Networks with Directional Sensing and Communications,'' ArXiv: 2306.01652, , , June 2023. (Details, Link, PDF)
[J02][2023] Vikrant Malik, Gourab Ghatak, A. K. Gupta, Sanket S. Kalamkar, ''On the Deployment of Reconfigurable Intelligent Surfaces in the Presence of Blockages,'' ArXiv: 2303.07311, , , March 2023. (Details, Link, PDF)
[J03][2023] K. Pandey, A. K. Gupta, Harpreet S Dhillon, Kanaka R Perumalla, ''Properties of A Random Bipartite Geometric Associator Graph Inspired by Vehicular Networks,'' Entropy, , , April 2023. (Details, Link, PDF)
[J04][2022] K. Pandey, K R Perumalla, A. K. Gupta, Harpreet S Dhillon, '' Load distribution in the typical and zero cells in a PLP-PPP vehicular communication network.,'' , , , June 2022. (Details, Link, PDF)
[J05][2022] Nithin V S , A. K. Gupta, N. Varhney, A. Jindal, ''Investigation of approximation accuracy in the hitting probability in a 3-D molecular communication system with multiple fully absorbing receivers.,'' , , , May 2022. (Details, Link, PDF)
[J06][2021] A. K. Gupta, ''On the Distribution of Various Voronoi Association Cells in Cellular Networks,'' , , , Feb. 2021. (Details, Link, PDF)
[J07][2021] Shuchi Tripathi and A. K. Gupta, ''Measurement Efforts at mmWave Indoor and Outdoor environments,'' , , , Jan. 2021. (Details, Link, PDF)
[J08][2020] A. K. Gupta, ''Coverage in Asymmetric HetNets with User-Access Restrictions,'' , , , Aug. 2020. (Details, Link, PDF)
[J09][2016] J. G. Andrews, A. K. Gupta and H. S. Dhillon, ''A primer on cellular network analysis using stochastic geometry,'' ArXiv: 1604.03183, , , April 2016. (Details, Link, PDF)
Journal Publications
[J01][2024] Shuchi Tripathi, Abhishek K. Gupta, SaiDhiraj Amuru, ''On the Coverage of Cognitive mmWave Networks with Directional Sensing and Communications,'' IEEE Transcations on Wireless Communications, Early Access, , June 2024. DOI: 10.1109/TWC.2024.3410382. (Details, Link, PDF)
[J02][2024] Nithin V S and A. K. Gupta, ''On the Target Detection Performance of a Molecular Communication Network with Multiple Mobile Nanomachines ,'' IEEE Transcations on NanoBioscience, 23(3), 524-536 , July 2024. DOI: 10.1109/TNB.2024.3399188. (Details, Link, PDF)
[J03][2023] K. Pandey, K R Perumalla, A. K. Gupta, Harpreet S Dhillon, ''Fundamentals of Vehicular Communication Networks with Vehicle Platoons,'' IEEE Transcations on Wireless Communications, 22(12), 8634-49 , December 2023. DOI: 10.1109/TWC.2023.3264662. (Details, Link, PDF)
[J04][2023] K. Pandey, A. K. Gupta, Harpreet S Dhillon and K R Perumalla, ''Properties of a Random Bipartite Geometric Associator Graph Inspired by Vehicular Networks,'' Entropy, 25,12, 1619 , Dec 2023 2023. DOI: 10.3390/e25121619. (Details, Link, PDF)
[J05][2023] Nithin V S , A. K. Gupta, N Varsney and A Jindal, ''Channel Characterization and Performance of a 3-D Molecular Communication System with Multiple Fully-Absorbing Receivers,'' IEEE Transactions on Communications, 71 (2), pp. 714-727, Feb. 2023. DOI: 10.1109/TCOMM.2022.3228920. (Details, Link, PDF)
[J06][2022] Afaq A Lone, A. K. Gupta, Harpreet S Dhillon, Somya Sharma, ''Coverage and Rate in MIMO Cellular Networks with Location-Aware Transmission Rank Selection,'' IEEE Wireless Communication Letters, 11(10), pp. 2026-2030, Oct. 2022. DOI: 10.1109/LWC.2022.3191137. (Details, Link, PDF)
[J07][2022] Saurabh Kumar Gupta, Vikrant Malik, A. K. Gupta and J. G. Andrews, ''Impact of Blocking Correlation on the Performance of mmWave Cellular Networks,'' IEEE Transactions on Communications, 70(7), pp. 4925-4939, July 2022. DOI: 10.1109/TCOMM.2022.3176345. (Details, Link, PDF)
[J08][2022] Kanchan Chaurasia, Reena Sahu, Shuchi Tripathi and A. K. Gupta, ''Coverage Analysis of Broadcast Networks with Users Having Heterogeneous Content/Advertisement Preferences,'' IEEE Transactions on Communications, 70(3), pp. 2057-2071, March 2022. DOI: 10.1109/TCOMM.2021.3131692. (Details, Link, PDF)
[J09][2021] Nithin V S , N. Varsney and A. K. Gupta, ''On the Performance of the Primary and Secondary Links in a 3-D Underlay Cognitive Molecular Communication,'' IEEE Trans. Communications, 69(12), pp. 8028-8041 , Dec. 2021. DOI: 10.1109/TCOMM.2021.3112557. (Details, Link, PDF)
[J10][2021] A. K. Gupta, Reena Sahu, Kanchan Chaurasia and Shuchi Tripathi, ''On the Analysis of a Cellular Network with Macro-diversity using Stochastic Geometry,'' IEEE Communication Letters, 25(10), pp. 3244-3248 , July. 2021. DOI: 10.1109/LCOMM.2021.3098384. (Details, Link, PDF)
[J11][2021] K. Pandey and A. K. Gupta, ''kth Distance Distributions for Generalized Gauss-Poisson Process in Rn,'' Statistics and Probability Letters, 172,pp 109048 , May 2021. DOI: 10.1016/j.spl.2021.109048. (Details, Link, PDF)
[J12][2021] Deepak Singh Kalhan, A. S. Bedi, A. Koppel, K. Rajawat, H. Hassani, A. K. Gupta, and A. Banerjee, ''Dynamic Online Learning via Frank-Wolfe Algorithm,'' IEEE Transactions on Signal Processing, 69 pp 932-947, Jan 2021. DOI: 10.1109/TSP.2021.3051871. (Details, Link, PDF)
[J13][2021] K. Pandey and A. K. Gupta, ''kth Distance Distributions of n-Dimensional Matern Cluster Process,'' IEEE Communication Letters, 25(3), pp 769 - 773, March 2021. DOI: 10.1109/LCOMM.2020.3041435. (Details, Link, PDF)
[J14][2020] Nithin V S , N. Varsney and A. K. Gupta, ''3-D Diffusive Molecular Communication with Two Fully-Absorbing Receivers: Hitting Probability and Performance Analysis,'' IEEE Trans. Molecular, Biological and Multi-Scale Communications, 6(3), pp 244-249 , Dec 2020. DOI: 10.1109/TMBMC.2020.3031414. (Details, Link, PDF)
[J15][2020] Nithin V S , and A. K. Gupta, ''Detection Probability in a Molecular Communication via Diffusion System with Multiple Fully Absorbing Receivers,'' IEEE Communication Letters, 24(12), pp 2824-2828 , Dec 2020. DOI: 10.1109/LCOMM.2020.3017243. (Details, Link, PDF)
[J16][2019] Nithin V S , and A. K. Gupta, ''Analysis of Diffusion Based Molecular Communication with Multiple Transmitters having Individual Random Information Bits,'' IEEE Trans. Molecular, Biological and Multi-Scale Communications, 5(3), , Dec. 2019. DOI: 10.1109/TMBMC.2020.2986719. (Details, Link, PDF)
[J17][2020] K. Pandey , Harpreet S Dhillon and A. K. Gupta, ''On the Contact and Nearest-Neighbor Distance Distributions for the n Dimensional Matern Cluster Process,'' IEEE Wireless Commun. Lett. , 9(3), pp 394-397, Mar. 2020. DOI: 10.1109/LWC.2019.2957221. (Details, Link, PDF)
[J18][2019] A. K. Gupta and J. G. Andrews, ''Comments on 'Coverage Analysis of Multiuser Visible Light Communication Networks','' IEEE Trans. Wireless Commun. , 18(9), pp 4605-4606, Sept. 2019. DOI: 10.1109/TWC.2019.2919022. (Details, Link, PDF)
[J19][2018] R. Jurdi, A. K. Gupta, J. G. Andrews and R. W. Heath Jr, ''Modeling infrastructure sharing in mmWave networks with shared spectrum licenses,'' IEEE Trans. Cognitive Commun. Networking , 4(2), pp 328-343, June 2018. (Details, Link, PDF)
[J20][2018] A. K. Gupta, J. G. Andrews and R. W. Heath Jr, ''Macro-diversity in cellular networks with random blockages,'' IEEE Trans. Wireless Commun. , 17(2), pp 996-1010, Feb. 2018. (Details, Link, PDF)
[J21][2017] J. G. Andrews, T. Bai, M. N. Kulkarni, A. Alkhateeb, A. K. Gupta,R. W. Heath Jr, ''Modeling and analyzing millimeter wave cellular systems,'' IEEE Trans. Commun. , 65(1), pp 403-430, Jan. 2017. (Details, Link, PDF)
[J22][2016] A. K. Gupta, A. Alkhateeb, J. G. Andrews and R. W. Heath Jr, ''Gains of restricted secondary licensing in millimeter wave cellular systems,'' IEEE J. Sel. Areas Commun. , 34(11), pp 2935-2950, Nov. 2016. (Details, Link, PDF)
[J23][2016] J. G. Andrews, X. Zhang, G. D. Durgin and A. K. Gupta, ''Are we approaching the fundamental limits of wireless network densification?,'' IEEE Commun. Mag. , 54(10), pp 84-90, Oct. 2016. (Details, Link, PDF)
[J24][2016] A. K. Gupta, J. G. Andrews and R. W. Heath Jr, ''On the feasibility of sharing spectrum licenses in mmWave cellular systems,'' IEEE Trans. Commun. , 64(9), pp 3981-3995, Sept. 2016. (Details, Link, PDF)
[J25][2015] A. K. Gupta, Xinchen Zhang, J. G. Andrews, ''SINR and Throughput scaling in ultradense urban cellular networks,'' IEEE Wireless Commun. Lett. , 4(6), pp 605-608, Dec. 2015. (Details, Link, PDF)
[J26][2015] S. Kalamkar, A. K. Gupta and A. Banerjee, ''Impact of Antenna Correlation on Optimum Improved Energy Detection in Cognitive Radio,'' IEICE Trans. Commun. , E98B(8), pp 1609-99, Aug. 2015. (Details, Link, PDF)
[J27][2014] A. K. Gupta, H. Dhillon, S. Vishwanath and J. G. Andrews, ''Downlink multi-antenna heterogeneous cellular network with load balancing,'' IEEE Trans. Commun. , 62(11), pp 4052-67, Nov. 2014. (Details, Link, PDF)
Conference Publications
[C01][2023] Saurabh Kumar Gupta, A. K. Gupta, ''Characterizing Acceptance in Post-Selection One-Shot Quantum Hypothesis Testing'', in Proc. IEEE International Symposium on Information Theory (ISIT), Taipei, Taiwan, June 2023. (Details, Link, PDF )
[C02][2023] K. Pandey, A. K. Gupta and K R Perumalla, , ''Vehicular Communication Networks with Platooned Vehicles: Modeling and Analysis'', in Proc. IEEE ICC, Rome Italy, May 2023. (Details, Link, PDF )
[C03][2023] K. Pandey, Aman Pandey, A. K. Gupta and Harpreet S Dhillon, '' Coverage Analysis of a THz Cellular Network in the Presence of Scatterers'', in Proc. IEEE ICC, Rome Italy, May 2023. (Details, Link, PDF )
[C04][2023] Rangesh P. K. Pandey, A. K. Gupta, ''On the Performance of Communication in a Vehicular Network with Platooned Traffic'', in Proc. National Conference on Communications (NCC), Guwahati, India, Feb 2023. DOI: 10.1109/NCC56989.2023.10068039. (Details, Link, PDF )
[C05][2022] Lakshay Tyagi, A. K. Gupta and Nithin V S , ''Analysis of A Molecular Ad Hoc Network with Passive Receivers'', in Proc. ACM International Conference on Nanoscale Computing and Communication Nanocom 2022 (Accepted, Not presented), Barcelona, Spain, Oct 2022. (Details, Link, PDF )
[C06][2022] Nithin V S and A. K. Gupta, ''On the Target Detection Performance of a Molecular Communication Network with Multiple Mobile Nanomachines'', in Proc. ACM International Conference on Nanoscale Computing and Communication Nanocom 2022 (Accepted, Not presented), Barcelona, Spain, Oct 2022. (Details, Link, PDF )
[C07][2022] Sagnik Bhattacharya and A. K. Gupta, ''Deep Learning for THz Channel Estimation and Beamforming Prediction via Sub-6GHz Channel'', in Proc. SPCOM 2022, IISc Bangalore, July 2022. DOI: 10.1109/SPCOM55316.2022.9840844. (Details, Link, PDF )
[C08][2022] A. K. Gupta and Nithin V S , ''Diversity Combining in a Single-Input-Multiple-Output Molecular Communication System'', in Proc. NCC (Invited Talk), IIT Bombay, May 2022. DOI: 10.1109/NCC55593.2022.9806762. (Details, Link, PDF , Video )
[C09][2022] Nithin V S , A. K. Gupta, Neeraj Varshney, Anshuman Jindal, ''Impact of Multiple Fully-Absorbing Receivers in Molecular Communications'', in Proc. IEEE ICC Workshop- 6G-eHealth-Sec, Seoul South Korea, May 2022. (Details, Link, PDF , Video )
[C10][2021] Shuchi Tripathi, A. K. Gupta and SaiDhiraj Amuru, ''Coverage Analysis of Cognitive mmWave Networks with Directional Sensing'', in Proc. ASILOMAR, Pacific Grove, CA, USA, Nov. 2021. DOI: 10.1109/IEEECONF53345.2021.9723246. (Details, Link, PDF , Video )
[C11][2021] Gourab Ghatak, Vikrant Malik, Sanket S. Kalamkar, and A. K. Gupta, ''Where to Deploy Reconfigurable Intelligent Surfaces in the Presence of Blockages?'', in Proc. IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC), Helsinki, Finland, Sept. 2021. DOI: 10.1109/PIMRC50174.2021.9569657. (Details, Link, PDF , Video )
[C12][2021] Reena Sahu, Kanchan Chaurasia, and A. K. Gupta, ''On the Coverage of Broadcast Networks with Multiple Transmitters and Heterogeneous Users'', in Proc. IEEE ICC Workshop (Emerging6G-Com), Montreal Canada, June 2021. DOI: 10.1109/ICCWorkshops50388.2021.9473841. (Details, Link, PDF , Video )
[C13][2020] Nitish Vikas Deshpande, Sandeep K Routray, A. K. Gupta, ''Spectral Efficiency in Poisson Cluster Based HetNets with Users-Basestations Correlation'', in Proc. IEEE ANTS, Delhi, India, Dec. 2020. DOI: 10.1109/ANTS50601.2020.9342826. (Details, Link, PDF , Video )
[C14][2020] Saurabh Kumar Gupta and A. K. Gupta, ''Does Blockage Correlation Matter in the Performance of mmWave Cellular Networks'', in Proc. GLOBECOM, Taipei, Taiwan, Dec. 2020. DOI: 10.1109/GLOBECOM42002.2020.9322413. (Details, Link, PDF , Video )
[C15][2020] A. K. Gupta, K. Pandey and Harpreet S Dhillon, ''Stochastic Geometry for Sensing Environment Processes with a Known Spatio-Temporal Profile'', in Proc. ASILOMAR, Pacific Grove, CA, USA, Nov. 2020. DOI: 10.1109/IEEECONF51394.2020.9443503. (Details, Link, PDF , Video )
[C16][2020] Reena Sahu, Kanchan Chaurasia and A. K. Gupta, ''SINR and Rate Coverage of Broadcast Networks using Stochastic Geometry'', in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020. DOI: 10.1109/SPCOM50965.2020.9179521. (Details, Link, PDF , Presentation , Video )
[C17][2020] K. Pandey, and A. K. Gupta, ''Coverage Improvement of Wireless Sensor Networks via Spatial Profile Information'', in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020. DOI: 10.1109/SPCOM50965.2020.9179613. (Details, Link, PDF , Video )
[C18][2020] Nithin V S , and A. K. Gupta, ''Analysis of Diffusion Based Molecular Communication System with Multiple Transmitters'', in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020. DOI: 10.1109/SPCOM50965.2020.9179506. (Details, Link, PDF , Video )
[C19][2020] Deepak Singh Kalhan, A. S. Bedi, Alec Koppel, K. Rajawat, A. K. Gupta, A. Banerjee, ''Projection Free Dynamic Online Learning'', in Proc. IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), Barcelona , Spain, May 2020. (Details, Link, PDF )
[C20][2020] K. Pandey, and A. K. Gupta, ''On the Coverage Performance of Boolean-Poisson Cluster Models for Wireless Sensor Networks'', in Proc. IEEE WCNC, Seoul, South Korea, April 2020. DOI: 10.1109/WCNC45663.2020.9120471. (Details, Link, PDF )
[C21][2019] A. K. Gupta and A. Banerjee, ''Modeling and Analysis of Heterogeneous Traffic Networks with Anarchists and Socialist Traffic'', in Proc. Proc. IEEE ANTS, Goa, India, Dec. 2019. DOI: 10.1109/ANTS47819.2019.9117908. (Details, Link, PDF , Presentation )
[C22][2019] Shuchi Tripathi, Amol Pidurkar, A. K. Gupta and Pradip Sircar, ''System-Level Performance Analysis of DOA Estimation in Cellular Networks using Stochastic Geometry'', in Proc. Proc. IEEE ANTS, Goa, India, Dec. 2019. DOI: 10.1109/ANTS47819.2019.9118085. (Details, Link, PDF , Presentation )
[C23][2019] Nithin V Sabu, Neeraj Varshney and A. K. Gupta, ''On Hybrid MoSK-CSK Modulation based Molecular Communication: Error Rate Performance Analysis using Stochastic Geometry'', in Proc. SpaSWiN, WiOpt, Avignon, France, June 2019. DOI: 10.23919/WiOPT47501.2019.9144119. (Details, Link, PDF )
[C24][2019] K. Pandey and A. K. Gupta, ''On Detection of Critical Events in a Finite Forest using Randomly Deployed Wireless Sensors'', in Proc. SpaSWiN, WiOpt, Avignon, France, June 2019. DOI: 10.23919/WiOPT47501.2019.9144113. (Details, Link, PDF )
[C25][2018] K. Pandey and A. K. Gupta, ''Modeling and Analysis of Wildfire Detection using Wireless Sensor Network with Poisson Deployment'', in Proc. Proc. IEEE ANTS, Indore, India, Dec. 2018. (Details, Link, PDF , Presentation )
[C26][2018] Anant Chopra, Deepak Singh Kalhan, A. S. Bedi, A. K. Gupta and K. Rajawat, ''On Socially Optimal Traffic Flow in the Presence of Random Users'', in Proc. Proc. IEEE ANTS, Indore, India, Dec. 2018. (Details, Link, PDF , Presentation )
[C27][2018] A. K. Gupta, A. Banerjee, K. Pathak, and S. Srivastava, ''On Association and Bandwidth Allocation for Hybrid RF/VLC Systems'', in Proc. Proc. IEEE ANTS, Indore, India, Dec. 2018. (Details, Link, PDF )
[C28][2018] A. K. Gupta, and A. Banerjee, ''On the spatial performance of users in indoor VLC networks with multiple reflections'', in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2018. (Details, Link, PDF , Presentation )
[C29][2018] A. K. Gupta, J. G. Andrews and R. W. Heath Jr, ''Impact of correlation between link blockages on macro-diversity gains in mmWave networks'', in Proc. IEEE ICC Workshop WDN-5G, Kansas Ciry, MO, USA, May 2018. (Details, Link, PDF )
[C30][2018] R. Jurdi, A. K. Gupta, J. G. Andrews and R. W. Heath Jr, ''A Model for infrastructure sharing in mmWave cellular networks'', in Proc. IEEE ICC, Kansas Ciry, MO, USA, May 2018. (Details, Link, PDF )
[C31][2016] A. K. Gupta, A. Alkhateeb, J. G. Andrews, and R. W. Heath Jr, ''Restricted secondary licensing for mmWave cellular: How much gain can be obtained?'', in Proc. GLOBECOM, Washington DC, Dec. 2016. (Details, Link, PDF )
[C32][2016] A. K. Gupta, M. N. Kulkarni, E. Visotsky, F. W. Vook, A.Ghosh, J. G. Andrews,R. W. Heath Jr, ''Rate analysis and feasibility of dynamic TDD in 5G cellular systems'', in Proc. IEEE ICC, Malaysia, May. 2016. (Details, Link, PDF )
[C33][2016] A. K. Gupta, J. G. Andrews, and R. W. Heath Jr, ''Can operators simply share millimeter wave spectrum licenses?'', in Proc. Information Theory and Application, San Diego, USA, Feb. 2016. (Details, Link, PDF )
[C34][2015] A. K. Gupta, X. Zhang and J. G. Andrews, ''Potential throughput in 3D ultradense cellular networks'', in Proc. ASILOMAR, Pacific Grove, USA, Nov. 2015. (Details, Link, PDF )
[C35][2016] A. K. Gupta, S. Barik and H. Vikalo, ''Distributed self localization of sensors with Poisson deployment using extended Kalman filter'', in Proc. IEEE WCNC, New Orleans, USA, May. 2016. (Details, Link, PDF )
[C36][2014] A. K. Gupta, Harpreet S. Dhillon, Sriram Vishwanath, and J. G. Andrews, ''Downlink coverage probability in MIMO HetNets with flexible cell selection'', in Proc. IEEE GLOBECOM, Austin, USA, Dec. 2014. (Details, Link, PDF )
[C37][2013] S. Kalamkar, A. Banerjee, and A. K. Gupta, ''SNR Wall for generalized energy detection under noise uncertainty in cognitive radio'', in Proc. APC, , May. 2013. (Details, Link, PDF )
[C38][2012] A. K. Gupta, and Shaun A Forth, ''An AD-Enabled Optimization Toolbox in LabVIEW'', in Proc. International Conference on Automatic Differentiation-AD2012 (also published in Lecture Notes in Recent Advances In Algorithmic Differentiation), Fort Collins (CO), USA, June 2012. (Details, Link, PDF , Presentation )
[C39][2011] R. Ganti and A. K. Gupta, ''Development of ANN River Flow Model using Particle Swarm Optimization'', in Proc. National Conference on Hydraulics and Water Resources-2011 (also published in Journal of Indian Society for Hydraulics (ISH)), Surat, India, Dec. 2011. (Details, Link, PDF )
[C40][2008] A. Gupta, A. K. Gupta, C. Bocaniala, and V. Sastry, ''Avoidance of Threat Zone by UAV for Automated Navigation'', in Proc. IEEE INDICON, Kanpur, India, Dec. 2008. (Details, Link, PDF )
[C41][2008] A. K. Gupta and A. Agrahari, ''LVAD package: Implementation of forward mode automatic differentiation in LabVIEW using operator overloading'', in Proc. National Instrument VI Mantra, Online, Oct. 2008. (Details, Link, PDF )
Research Group
Faculty
 | Prof. Abhishek Gupta: The Modern Wireless Networks Group is supervised by Dr. Abhishek K. Gupta. He is an Assistant Professor in the Department of Electrical Engineering at Indian Institute of Technology Kanpur. This group aims at analyzing and designing modern wireless networks to build high mobilty systems. He received his B.Tech.- M.Tech. dual degree in Electrical Engineering from IIT Kanpur in 2010 and PhD degree in the Department of Electrical and Computer Engineering at the University of Texas at Austin in 2016. His research interests include wireless communication, stochastic geometry and numerical methods. He was recipient of GE-FS Leadership Award by General Electric (GE) Foundation and Institute of International Education in 2009 and IITK Academic Excellence Award for four consecutive years. He is author of the books MATLAB by Examples (Finch, 2010) and Numerical Methods in MATLAB (Springer Apress, 2014). Previously he was working as Sr. Standards Engineer at Samsung Reseach America in Dallas, TX. In past, he has worked in Applied Microelectronics Circuit Corporation (Pune), Futurewei Technologies (NJ) and Nokia Networks (IL). |
Group Photo
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Previous Group Photos
Group, April 2022
Group, Dec 2019
Group, Sep 2019
Group May 2018
Current Students
PhD Students
Kaushlendra Kumar Pandey: Kaushlendra is pursuing his PhD under specialization of Signal Processing and Communication. His interest area lies in wireless communication and sensor network. He worked as assistant professor in Lovely Professional University, Jalandhar (Punjab) and Jaypee University of Information Technology Solan (HP). Presently he is working as Assistant Professor in Central Institute of Technology Kokrajhar (Assam).
Kaushlendra Kumar Pandey did his B-Tech in Electronics and Communication from Gautam Budh Technical University Lucknow and M-Tech in wireless communication and computing from IIIT-Allahabad.
Papers:
[J01]
K. Pandey, K R Perumalla, A. K. Gupta, Harpreet S Dhillon, ''Fundamentals of Vehicular Communication Networks with Vehicle Platoons,'' IEEE Transcations on Wireless Communications, 22(12), 8634-49 , December 2023 (Link)
[J02]
K. Pandey, A. K. Gupta, Harpreet S Dhillon and K R Perumalla, ''Properties of a Random Bipartite Geometric Associator Graph Inspired by Vehicular Networks,'' Entropy, 25,12, 1619 , Dec 2023 2023 (Link)
[J03]
K. Pandey and A. K. Gupta, ''kth Distance Distributions for Generalized Gauss-Poisson Process in Rn,'' Statistics and Probability Letters, 172,pp 109048 , May 2021 (Link)
[J04]
K. Pandey and A. K. Gupta, ''kth Distance Distributions of n-Dimensional Matern Cluster Process,'' IEEE Communication Letters, 25(3), pp 769 - 773, March 2021 (Link)
[J05]
K. Pandey , Harpreet S Dhillon and A. K. Gupta, ''On the Contact and Nearest-Neighbor Distance Distributions for the n Dimensional Matern Cluster Process,'' IEEE Wireless Commun. Lett. , 9(3), pp 394-397, Mar. 2020 (Link)
[C06]
K. Pandey, A. K. Gupta and K R Perumalla, , ''Vehicular Communication Networks with Platooned Vehicles: Modeling and Analysis,'' in Proc. IEEE ICC, Rome Italy, May 2023 (Link)
[C07]
K. Pandey, Aman Pandey, A. K. Gupta and Harpreet S Dhillon, '' Coverage Analysis of a THz Cellular Network in the Presence of Scatterers,'' in Proc. IEEE ICC, Rome Italy, May 2023 (Link)
[C08]
Rangesh P. K. Pandey, A. K. Gupta, ''On the Performance of Communication in a Vehicular Network with Platooned Traffic,'' in Proc. National Conference on Communications (NCC), Guwahati, India, Feb 2023 (Link)
[C09]
A. K. Gupta, K. Pandey and Harpreet S Dhillon, ''Stochastic Geometry for Sensing Environment Processes with a Known Spatio-Temporal Profile,'' in Proc. ASILOMAR, Pacific Grove, CA, USA, Nov. 2020 (Link)
[C10]
K. Pandey, and A. K. Gupta, ''Coverage Improvement of Wireless Sensor Networks via Spatial Profile Information,'' in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020 (Link)
[C11]
K. Pandey, and A. K. Gupta, ''On the Coverage Performance of Boolean-Poisson Cluster Models for Wireless Sensor Networks,'' in Proc. IEEE WCNC, Seoul, South Korea, April 2020 (Link)
[C12]
K. Pandey and A. K. Gupta, ''On Detection of Critical Events in a Finite Forest using Randomly Deployed Wireless Sensors,'' in Proc. SpaSWiN, WiOpt, Avignon, France, June 2019 (Link)
[C13]
K. Pandey and A. K. Gupta, ''Modeling and Analysis of Wildfire Detection using Wireless Sensor Network with Poisson Deployment,'' in Proc. Proc. IEEE ANTS, Indore, India, Dec. 2018 (Link)
Shuchi Tripathi: Shuchi is pursuing Ph.D. in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. She is working in the domain of modern wireless communications under the guidance of Dr. Abhishek Kr. Gupta. She received her M.Tech degree in 2012 and B.Tech degree in 2010 from J.K. Institute of Applied Physics and Technology, University of Allahabad.
Papers:
[J01]
Shuchi Tripathi, Abhishek K. Gupta, SaiDhiraj Amuru, ''On the Coverage of Cognitive mmWave Networks with Directional Sensing
and Communications,'' IEEE Transcations on Wireless Communications, Early Access, , June 2024 (Link)
[J02]
Kanchan Chaurasia, Reena Sahu, Shuchi Tripathi and A. K. Gupta, ''Coverage Analysis of Broadcast Networks with Users Having Heterogeneous Content/Advertisement Preferences,'' IEEE Transactions on Communications, 70(3), pp. 2057-2071, March 2022 (Link)
[J03]
A. K. Gupta, Reena Sahu, Kanchan Chaurasia and Shuchi Tripathi, ''On the Analysis of a Cellular Network with Macro-diversity using Stochastic Geometry,'' IEEE Communication Letters, 25(10), pp. 3244-3248 , July. 2021 (Link)
[C04]
Shuchi Tripathi, A. K. Gupta and SaiDhiraj Amuru, ''Coverage Analysis of Cognitive mmWave Networks with Directional Sensing,'' in Proc. ASILOMAR, Pacific Grove, CA, USA, Nov. 2021 (Link)
[C05]
Shuchi Tripathi, Amol Pidurkar, A. K. Gupta and Pradip Sircar, ''System-Level Performance Analysis of DOA Estimation in Cellular Networks using Stochastic Geometry,'' in Proc. Proc. IEEE ANTS, Goa, India, Dec. 2019 (Link)
[L06]
Shuchi Tripathi, Nithin V S , A. K. Gupta and Harpreet S Dhillon, ''Millimeter-wave and
Terahertz Spectrum for 6G Wireless,'' in 6G Mobile Wireless Networks, Springer. 2021 (Link)
Saurabh Kumar Gupta: Saurabh Kumar Gupta is a pursuing Ph.D. in Department of electrical engineering at IIT Kanpur. His primary interest lies in Wireless Sensor Network and Application of Stochastic Geometry in Wireless Communication. He is received his BTech and MTech degrees from IIT Kanpur in 2018. In his master's thesis, he worked on SINR performance analysis of mmWave 5G network under correlated blockages
Papers:
[J01]
Saurabh Kumar Gupta, Vikrant Malik, A. K. Gupta and J. G. Andrews, ''Impact of Blocking Correlation on the Performance of mmWave Cellular Networks,'' IEEE Transactions on Communications, 70(7), pp. 4925-4939, July 2022 (Link)
[C02]
Saurabh Kumar Gupta, A. K. Gupta, ''Characterizing Acceptance in Post-Selection One-Shot Quantum Hypothesis Testing,'' in Proc. IEEE International Symposium on Information Theory (ISIT), Taipei, Taiwan, June 2023 (Link)
[C03]
Saurabh Kumar Gupta and A. K. Gupta, ''Does Blockage Correlation Matter in the Performance of mmWave Cellular Networks,'' in Proc. GLOBECOM, Taipei, Taiwan, Dec. 2020 (Link)
M.Tech. Students
Anshuman Jindal: Anshuman is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. She is working in the domain of Molecular Communication and Stochastic geometry under the guidance of Dr. Abhishek Gupta. He received his B.Tech degree in Electronics and Communication from Punjab Engineering college, Chandigarh.
Abhinav Kumar: Abhinav is pursuing MSR in Signal Processing, Communication and Networks in the department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Tera Hz Communication in the perspective of stochastic geometry under the guidence of Dr. Abhishek Gupta. He has recieved my B.Tech degree in Electronics and Communication from IET-Institute of Engineering and Technology, Bareilly.
Satya Prayojini:
Dandu Pavan Kumar:
M. Aravind:
Sai Krishna Charitha:
Keshav Nair:
Previous Students/Group Alumni
PhD Students
Nithin V Sabu: Nithin completed his Ph.D in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Molecular communication and Stochastic geometry under the guidance of Dr. Abhishek K. Gupta. He received his B. Tech in ECE from Sree Buddha College of Engineering, University of Kerala in the year 2013. He received his M. Tech in Communication systems from TKM College of Engineering, University of Kerala in the year 2016.
Degree: PhD, Title: Modeling and Analysis of Diffusion-Limited Molecular Communication Systems with Multiple Transmitters and Absorbing Receivers. 2017-2022.
Received Outstanding PhD Thesis Award.
Current Affiliation: PostDoctral researcher at Michigan State University
Papers:
[J01]
Nithin V S and A. K. Gupta, ''On the Target Detection Performance of a Molecular Communication Network with Multiple Mobile Nanomachines
,'' IEEE Transcations on NanoBioscience, 23(3), 524-536 , July 2024 (Link)
[J02]
Nithin V S , A. K. Gupta, N Varsney and A Jindal, ''Channel Characterization and Performance of a 3-D Molecular Communication System with Multiple Fully-Absorbing Receivers,'' IEEE Transactions on Communications, 71 (2), pp. 714-727, Feb. 2023 (Link)
[J03]
Nithin V S , N. Varsney and A. K. Gupta, ''On the Performance of the Primary and Secondary Links in a 3-D Underlay Cognitive Molecular Communication,'' IEEE Trans. Communications, 69(12), pp. 8028-8041 , Dec. 2021 (Link)
[J04]
Nithin V S , N. Varsney and A. K. Gupta, ''3-D Diffusive Molecular Communication with Two Fully-Absorbing Receivers:
Hitting Probability and Performance Analysis,'' IEEE Trans. Molecular, Biological and Multi-Scale Communications, 6(3), pp 244-249 , Dec 2020 (Link)
[J05]
Nithin V S , and A. K. Gupta, ''Detection Probability in a Molecular Communication via Diffusion System with Multiple Fully Absorbing Receivers,'' IEEE Communication Letters, 24(12), pp 2824-2828 , Dec 2020 (Link)
[J06]
Nithin V S , and A. K. Gupta, ''Analysis of Diffusion Based Molecular Communication with
Multiple Transmitters having Individual Random Information Bits,'' IEEE Trans. Molecular, Biological and Multi-Scale Communications, 5(3), , Dec. 2019 (Link)
[C07]
Lakshay Tyagi, A. K. Gupta and Nithin V S , ''Analysis of A Molecular Ad Hoc Network with Passive Receivers,'' in Proc. ACM International Conference on Nanoscale Computing and Communication Nanocom 2022 (Accepted, Not presented), Barcelona, Spain, Oct 2022 (Link)
[C08]
Nithin V S and A. K. Gupta, ''On the Target Detection Performance of a Molecular Communication Network with Multiple Mobile Nanomachines,'' in Proc. ACM International Conference on Nanoscale Computing and Communication Nanocom 2022 (Accepted, Not presented), Barcelona, Spain, Oct 2022 (Link)
[C09]
A. K. Gupta and Nithin V S , ''Diversity Combining in a Single-Input-Multiple-Output Molecular Communication System,'' in Proc. NCC (Invited Talk), IIT Bombay, May 2022 (Link)
[C10]
Nithin V S , A. K. Gupta, Neeraj Varshney, Anshuman Jindal, ''Impact of Multiple Fully-Absorbing Receivers in Molecular Communications,'' in Proc. IEEE ICC Workshop- 6G-eHealth-Sec, Seoul South Korea, May 2022 (Link)
[C11]
Nithin V S , and A. K. Gupta, ''Analysis of Diffusion Based Molecular Communication System with Multiple Transmitters,'' in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020 (Link)
[C12]
Nithin V Sabu, Neeraj Varshney and A. K. Gupta, ''On Hybrid MoSK-CSK Modulation based Molecular Communication: Error Rate Performance Analysis using Stochastic Geometry,'' in Proc. SpaSWiN, WiOpt, Avignon, France, June 2019 (Link)
[L13]
Shuchi Tripathi, Nithin V S , A. K. Gupta and Harpreet S Dhillon, ''Millimeter-wave and
Terahertz Spectrum for 6G Wireless,'' in 6G Mobile Wireless Networks, Springer. 2021 (Link)
[L14]
A. K. Gupta, Nithin V S and Harpreet S Dhillon, ''Fundamentals of Network Densification,'' in 5G and Beyond: Fundamentals and Standards, Springer. 2020 (Link)
MTech Students
Satvik Jain: Satvik Jain is a BT-MT dual student in the department of Electrical Engineering at IIT Kanpur. He is primarily interested in Stochastic Geometry and Wireless networks.
Degree: MTech/MSR, Thesis Title: Sensing Spatio-Temporal Environmental Variables via CPS Agents Moving over Region Formed by Network of Lines. 2022-2023
Current Affiliation: Rakuten Mobiles, Japan.
Wasif Jawad Hussain: Wasif Jawad Hussain is pursuing BT-MT Dual Degree in Department of Electrical Engineering at IIT Kanpur.
Degree: MTech/MSR, Thesis Title: Performance of Cyber-Physical Agents with Discrete Trajectories for Sensing Environmental Variable with Known Spatio-Temporal Profile. 2022-2023.
Received Dr Vijay K Varma Talent Award .
Current Affiliation: PhD at Virginia Tech, USA
Aritra Roy: Aritra Roy is a BT-MT dual student in the department of Electrical Engineering at IIT Kanpur. He is primarily interested in Stochastic Geometry and Wireless networks.
Degree: MTech/MSR, Thesis Title: COVERAGE ANALYSIS OF HYBRID MMWAVE THZ NETWORKS. 2022-2023
Current Affiliation: Research Associate, MWNG Group
Rangesh P.:
Degree: MTech/MSR, Thesis Title: On the Communication Performance in a Vehicular Network with Platooned Traffic. 2022-2023
Current Affiliation: Qualcomm
Papers:
[C01]
Rangesh P. K. Pandey, A. K. Gupta, ''On the Performance of Communication in a Vehicular Network with Platooned Traffic,'' in Proc. National Conference on Communications (NCC), Guwahati, India, Feb 2023 (Link)
Aman Pandey: Aman is pursuing M.Tech in Signal Processing, Communications and Networks in the department of Electrical Engineering in Indian Institute of Technology Kanpur. He is working in the domain of Terahertz communication in the perspective of stochastic geometry under the guidance of Dr. Abhishek Gupta. He received his B.Tech degree in Electronics and Communications Engineering from J.C. Bose University of Science & Technology, YMCA, Faridabad ,Haryana in the year 2019.
Degree: MTech/MSR, Thesis Title: Coverage of THz networks 2021-2022
Current Affiliation: Qualcomm
Papers:
[C01]
K. Pandey, Aman Pandey, A. K. Gupta and Harpreet S Dhillon, '' Coverage Analysis of a THz Cellular Network in the Presence of Scatterers,'' in Proc. IEEE ICC, Rome Italy, May 2023 (Link)
Afaq A Lone: Afaq is pursuing MS(R) in Signal Processing and Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Wireless Communication Networks Analysis under the guidance of Dr. Abhishek K. Gupta. He received his B.Tech in ECE from the National Institute of Technology Srinagar, J&K in the year 2019.
Degree: MTech/MSR, Thesis Title: Coverage Analysis in MIMO Cellular Networks with Location Aware Transmission Rank Selection 2020-2021
Current Affiliation: Qualcomm
Papers:
[J01]
Afaq A Lone, A. K. Gupta, Harpreet S Dhillon, Somya Sharma, ''Coverage and Rate in MIMO Cellular Networks with Location-Aware Transmission Rank Selection,'' IEEE Wireless Communication Letters, 11(10), pp. 2026-2030, Oct. 2022 (Link)
Kanak Raju Perumalla: Raju is pursuing M.Tech in Signal Processing, Communications and Networks in the department of Electrical Engineering in Indian Institute of Technology Kanpur. He is working domain of vehicular communication in the perspective of stochastic geometry under the guidance of Dr. Abhishek Gupta. He received his B.Tech degree in Electronics and Communications Engineering from Rajiv Gandhi University of Knowledge Technologies, IIIT- RK Valley, Andhra Pradesh in the year 2019.
Degree: MTech/MSR, Thesis Title: The Load Distribution on a Typical Base Station in a Vehicular Communication Network with Vehicle Platoons
2020-2021.
Received Dr Vijay K Varma Talent Award .
Current Affiliation: Qualcomm
Papers:
[J01]
K. Pandey, K R Perumalla, A. K. Gupta, Harpreet S Dhillon, ''Fundamentals of Vehicular Communication Networks with Vehicle Platoons,'' IEEE Transcations on Wireless Communications, 22(12), 8634-49 , December 2023 (Link)
[J02]
K. Pandey, A. K. Gupta, Harpreet S Dhillon and K R Perumalla, ''Properties of a Random Bipartite Geometric Associator Graph Inspired by Vehicular Networks,'' Entropy, 25,12, 1619 , Dec 2023 2023 (Link)
[C03]
K. Pandey, A. K. Gupta and K R Perumalla, , ''Vehicular Communication Networks with Platooned Vehicles: Modeling and Analysis,'' in Proc. IEEE ICC, Rome Italy, May 2023 (Link)
Anand Kumar: Anand is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Drone communication and Stochastic geometry under the guidance of Dr. Abhishek K. Gupta. He received his B.Tech degree in Electronics and Communication from Uttar Pradesh Technical University Lucknow in 2018.
Degree: MTech/MSR, Thesis Title: Analysis of a UAV Assisted Cellular Network 2019-2020
Current Affiliation: Qualcomm
Himanshu Gautam: Himanshu is pursuing MTech on Simulation of 5G channel for simulator software, based on TS 38.900 and TS 38.901 by 3GPP. He received his B.Tech from RKGIT, Ghaziabad with majors in ECE. He received his schooling from St. Anthony Senior Secondary school, Fatehgarh. His Interests lie in Wireless communication, Machine Learning , VLSI baseband wireless hardware design, VLC.
Degree: MTech/MSR, Thesis Title: Mean SINR And Rate In a Downlink Visible Light Communication System 2019-2020
Current Affiliation
Yuvraj Aghvane: Yuvraj is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Modern Wireless Communication under the guidance of Dr. Abhishek Gupta. He received B.E. degree in Electronics and Telecommunication from Savitribai Phule Pune university in 2017.
Degree: MTech/MSR, Thesis Title: Scheduling and Performance Calculations for In-house System Level Simulator 2019-2020
Current Affiliation:Qualcomm
Himanshu: Himanshu is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Modern Wireless Communication under the guidance of Dr. Abhishek Gupta. He received his B.Tech degree in Electronics and Communication from National Institute of technology Kurukshetra.
Degree: MTech/MSR, Thesis Title: Implementation of MIMO and Feedback for In-house System Level Simulator 2019-2020
Current Affiliation: Qualcomm
Reena Sahu: Reena is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. she is working in the domain of coverage probability of Broadcast system under the guidance of Dr. Abhishek K. Gupta. she received her B. Tech in ECE from Chhatrapati Shivaji Institute of Technology ,Durg ,Chhattisgarh.
Degree: MTech/MSR, Thesis Title: Scheduling in Broadcast networks: Modeling and Analysis 2019-2020
Current Affiliation:Qualcomm
Papers:
[J01]
Kanchan Chaurasia, Reena Sahu, Shuchi Tripathi and A. K. Gupta, ''Coverage Analysis of Broadcast Networks with Users Having Heterogeneous Content/Advertisement Preferences,'' IEEE Transactions on Communications, 70(3), pp. 2057-2071, March 2022 (Link)
[J02]
A. K. Gupta, Reena Sahu, Kanchan Chaurasia and Shuchi Tripathi, ''On the Analysis of a Cellular Network with Macro-diversity using Stochastic Geometry,'' IEEE Communication Letters, 25(10), pp. 3244-3248 , July. 2021 (Link)
[C03]
Reena Sahu, Kanchan Chaurasia, and A. K. Gupta, ''On the Coverage of Broadcast Networks with Multiple Transmitters and Heterogeneous Users,'' in Proc. IEEE ICC Workshop (Emerging6G-Com), Montreal Canada, June 2021 (Link)
[C04]
Reena Sahu, Kanchan Chaurasia and A. K. Gupta, ''SINR and Rate Coverage of Broadcast Networks using Stochastic Geometry,'' in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020 (Link)
Kanchan Chaurasia: Kanchan is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. she is working in the domain of Coverage Analysis of Broadcast system under the guidance of Dr. Abhishek K. Gupta. she received her B. Tech in ECE from Muzaffarpur Institute of Technology ,Muzaffarpur, Bihar in 2017.
Degree: MTech/MSR, Thesis Title: Coverage Analysis of a Broadcast Network using Stochastic Geometry 2019-2020
Current Affiliation
Papers:
[J01]
Kanchan Chaurasia, Reena Sahu, Shuchi Tripathi and A. K. Gupta, ''Coverage Analysis of Broadcast Networks with Users Having Heterogeneous Content/Advertisement Preferences,'' IEEE Transactions on Communications, 70(3), pp. 2057-2071, March 2022 (Link)
[J02]
A. K. Gupta, Reena Sahu, Kanchan Chaurasia and Shuchi Tripathi, ''On the Analysis of a Cellular Network with Macro-diversity using Stochastic Geometry,'' IEEE Communication Letters, 25(10), pp. 3244-3248 , July. 2021 (Link)
[C03]
Reena Sahu, Kanchan Chaurasia, and A. K. Gupta, ''On the Coverage of Broadcast Networks with Multiple Transmitters and Heterogeneous Users,'' in Proc. IEEE ICC Workshop (Emerging6G-Com), Montreal Canada, June 2021 (Link)
[C04]
Reena Sahu, Kanchan Chaurasia and A. K. Gupta, ''SINR and Rate Coverage of Broadcast Networks using Stochastic Geometry,'' in Proc. International Conference on Signal Processing and Communications (SPCOM), Bangalore , India, July 2020 (Link)
Somya Sharma: Somya is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. She is working in the domain of Modeling and Analysis of Modern Cellular System using Stochastic Geometry under the guidance of Dr. Abhishek Gupta. She received B.Tech degree in Electronics and Communication from UIET, Chhatrapati Shahu ji Maharaj University, Kanpur in 2017.
Degree: MTech/MSR, Thesis Title: Coverage Analysis of a Multi-stream MIMO Network with ZFBF at Receivers 2019-2020
Current Affiliation
Papers:
[J01]
Afaq A Lone, A. K. Gupta, Harpreet S Dhillon, Somya Sharma, ''Coverage and Rate in MIMO Cellular Networks with Location-Aware Transmission Rank Selection,'' IEEE Wireless Communication Letters, 11(10), pp. 2026-2030, Oct. 2022 (Link)
Ashna Kumari Banka: Ashna is pursuing M. Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. She is working in the domain of modern wireless communications under the guidance of Dr. Abhishek Gupta. She received her B.Tech degree from Muzaffarpur Institute of Technology in 2016.
Degree: MTech/MSR, Thesis Title: Study on Blockage Correlation in Cellular Network, 2017-2019
Current Affiliation:
Saurabh Kumar Gupta: Saurabh Kumar Gupta is a BT-MT Dual Degree student in Department of electrical engineering at IIT Kanpur. His primary interest lies in Wireless Sensor Network and Application of Stochastic Geometry in Wireless Communication. He is currently working under the guidance of Prof. Abhishek Gupta on SINR performance analysis of mmWave 5G network and power performance analysis of a network deployed for wireless communication. In past, he has worked under the guidance of Prof. Rajesh Hegde, IIT Kanpur on localization in wireless sensor network.
Degree: MTech/MSR, Thesis Title: Impact of blockage correlation on the coverage probability in mmWave Cellular Networks 2017-2019
Current Affiliation: PhD Candidate at IIT Kanpur.
Papers:
[J01]
Saurabh Kumar Gupta, Vikrant Malik, A. K. Gupta and J. G. Andrews, ''Impact of Blocking Correlation on the Performance of mmWave Cellular Networks,'' IEEE Transactions on Communications, 70(7), pp. 4925-4939, July 2022 (Link)
[C02]
Saurabh Kumar Gupta, A. K. Gupta, ''Characterizing Acceptance in Post-Selection One-Shot Quantum Hypothesis Testing,'' in Proc. IEEE International Symposium on Information Theory (ISIT), Taipei, Taiwan, June 2023 (Link)
[C03]
Saurabh Kumar Gupta and A. K. Gupta, ''Does Blockage Correlation Matter in the Performance of mmWave Cellular Networks,'' in Proc. GLOBECOM, Taipei, Taiwan, Dec. 2020 (Link)
Deepak Singh Kalhan: Deepak received his B.Tech. degree in Electronics & Communication Engineering (ECE) from Rajiv Gandhi Technological University, Bhopal. Presently, he is pursuing M.tech in Signal Processing, Communication,
and Networks in the Department of Electrical Engineering jointly under the supervision of Dr. Abhishek K. Gupta & Dr. Adrish Banerjee at Indian Institute of Technology Kanpur, Uttar Pradesh, India.
Degree: MTech/MSR, Thesis Title: Online Learning Using Frank-Wolfe Method 2017-2019
Current Affiliation: PhD Candidate at University of Waterloo, Canada.
Papers:
[J01]
Deepak Singh Kalhan, A. S. Bedi, A. Koppel, K. Rajawat, H. Hassani, A. K. Gupta, and A. Banerjee, ''Dynamic Online Learning via Frank-Wolfe Algorithm,'' IEEE Transactions on Signal Processing, 69 pp 932-947, Jan 2021 (Link)
[C02]
Deepak Singh Kalhan, A. S. Bedi, Alec Koppel, K. Rajawat, A. K. Gupta, A. Banerjee, ''Projection Free Dynamic Online Learning,'' in Proc. IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), Barcelona , Spain, May 2020 (Link)
[C03]
Anant Chopra, Deepak Singh Kalhan, A. S. Bedi, A. K. Gupta and K. Rajawat, ''On Socially Optimal Traffic Flow in the Presence of Random Users,'' in Proc. Proc. IEEE ANTS, Indore, India, Dec. 2018 (Link)
Rakesh Kumar Gandhi: Rakesh is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Modern Wireless Communication under the guidance of Dr. Abhishek Gupta. He received B.Tech degree in Electronics and Telecommunication from C.V. Raman College of Engineering, Bhubaneswar.
Degree: MTech/MSR, Thesis Title: System level simulator for Cellular systems, 2017-2019
Current Affiliation: Qualcomm
Amol Pidurkar: Amol Pidurkar is pursuing M. Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Modern Wireless Communications under the guidance of Dr. Pradip Sircar and Dr. Abhishek Gupta. He received his B. Tech degree in Electronics and Telecommunication from Shree Guru Gobind Singhji Institute of Engineering and Technology Nanded in 2015.
Degree: MTech/MSR, Thesis Title: Performance Analysis of MUSIC algorithm for cellular networks, 2017-2018
Papers:
[C01]
Shuchi Tripathi, Amol Pidurkar, A. K. Gupta and Pradip Sircar, ''System-Level Performance Analysis of DOA Estimation in Cellular Networks using Stochastic Geometry,'' in Proc. Proc. IEEE ANTS, Goa, India, Dec. 2019 (Link)
Umesh K. Gupta: Umesh is pursuing M. Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of modern wireless communications under the guidance of Prof. Pradeep Sircar and Dr. Abhishek Gupta. He received his B.Tech degree from J.K. Institute of Applied Physics and Technology, University of Allahabad.
Degree: MTech/MSR, Thesis Title: Error Analysis of Direction of Arrival Estimation Using MUSIC for Single Source Scenario, 2017-2018
Current Affiliation: Jio.
Deepak Sharma: Deepak Sharma is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of 'Index Management' in a Peer to Peer VoIP Networks under the guidance of Dr. Y N Singh and Dr. Abhishek K. Gupta. He received his B-Tech degree in ECE from Punjab Technical University in 2004.
Degree: MTech/MSR, Thesis Title: Implementation of Communication Manager and Index Management Modules for VoIP Telephony System, 2017-2018
Raja Vijit: Raja Vijit is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Overlay Management for Peers in a Peer to Peer Network based VoIP Telephony System under the guidance of Dr. Y N Singh and Dr. Abhishek K. Gupta. He received his BTech in IT and Telecommunication degree from JNU in the year 2005. He has an on hand experience of handling and maintaining communications at the managerial level.
Degree: MTech/MSR, Thesis Title: Identity Server and Secure VoIP Telephony, 2017-2018
Niladri Roy: Niladri Roy is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Identity Management for Peers in a Peer to Peer Network based VoIP Telephony System under the guidance of Dr. Y N Singh and Dr. Abhishek K. Gupta. He received his BTech degree from Kurukshetra University in 2004.
Degree: MTech/MSR, Thesis Title: Development and implementation of chord tapestry hybrid routing module for VOIP telephony system, 2017-2018
Piyush Tiwari: Piyush Tiwari is pursuing M.Tech in Signal Processing, Communication and Networks in the Department of Electrical Engineering, Indian Institute of Technology Kanpur. He is working in the domain of Routing Management in a Peer to Peer Network based VoIP Telephony System under the guidance of Dr. Y N Singh and Dr. Abhishek K. Gupta. He has done his B.Tech (Telecommunication and IT) from Jawaharlal Nehru University. He has worked as a communication manager for 9 years before joining the M.Tech program.
Degree: MTech/MSR, Thesis Title: Overlay management for VOIP telephony system, 2017-2018
UG Students
Vikrant Malik: Vikrant Malik is Final year B.Tech. student in the department of Electrical Engineering from IIT Kanpur. His research interests include, wireless com- munication and information and coding thoery. He will be joining California institute of Technology, USA for his PhD in 2022 Fall.
Degree: BTech, Project: mmWave and RIS 2018
Papers:
[J01]
Saurabh Kumar Gupta, Vikrant Malik, A. K. Gupta and J. G. Andrews, ''Impact of Blocking Correlation on the Performance of mmWave Cellular Networks,'' IEEE Transactions on Communications, 70(7), pp. 4925-4939, July 2022 (Link)
[C02]
Gourab Ghatak, Vikrant Malik, Sanket S. Kalamkar, and A. K. Gupta, ''Where to Deploy Reconfigurable Intelligent Surfaces in the Presence of Blockages?,'' in Proc. IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC), Helsinki, Finland, Sept. 2021 (Link)
Anant Chopra: Anant is an incoming graduate student at the Department of Electrical & Computer Engineering at Carnegie Mellon University in Pittsburgh, USA. He is currently working as a Platform Hardware Engineer at Intel Corporation in Bangalore, India where he focuses on signal and power integrity compliance for reference and validation platforms. His current research interests are high-speed wireline communication and state-of-the-art memory communication protocols. Anant received his Bachelor of Technology degree from IIT Kanpur in 2020.
Degree: BTech, Project: Traffic assignment under random noise 2018
Papers:
[C01]
Anant Chopra, Deepak Singh Kalhan, A. S. Bedi, A. K. Gupta and K. Rajawat, ''On Socially Optimal Traffic Flow in the Presence of Random Users,'' in Proc. Proc. IEEE ANTS, Indore, India, Dec. 2018 (Link)