Research Verticals of Interest:
Design of Intelligent Cyber physicals systems for application domains such as healthcare, transportation, agriculture, and smart city
Transportation: Designing models for first/last mile connectivity using shared rides to public transportation hubs. Models should also consider carbon footprint, societal status of commuters, and performance factors such as waiting time, detour, trip duration, etc.
Transportation: ICPS for designing ADAS solutions for two-wheeler drivers.
Designinng Models and Systems for Drone Swarms for defense applications and data collection/surveys for agriculture and transportation related usercases
5G-6G communication infrastructure for sensors and IoT based communication
Design of secure cyber physical systems design
Drone applications in agriculture, transportation, defence.
Large scale IoT data processing using Edge-Fog-Cloud computing models
Modeling and analysis of large-scale dynamic and temporal networks
clustering of nodes and edges based on similarity measures,
inference of network properties from statistical and trend-based information,
design and evaluation of delay-tolerant networks
Applications of Machine Learning in cyber physical systems
Ongoing research work:
Applications of reinforcement learning and deep learning in finance and cyber security.
Application of graph neural networks.
Applications of reinforcement learning and deep learning in wireless communication.
Physical layer security for intelligent reflecting surfaces based communication systems.
Artificial General Intelligence and Machine Learning for High Precision Positioning for 6G Networks
Energy Efficient and Reliable Solutions to Monitoring, Data Collection, and Security of Non Centralized Wireless Mesh Networks: Routing Protocols and Coding Scheme -
Resource Allocation in 6G Computer Networks using Router Enabled Edge Devices (REED)
ADAS design for two-wheeler drivers.
Modelling and Simulation of Last mile connectivity for accessing public transportation.
Please refer ignite.daiict.ac.in for information about our work in Intelligent Transportation Systems (ITS) domain
Drone based agriculture field surveillance
Dynamic graph matching algorithms for structural controllability
Key Publications
(ITS domain) Manish Chaturvedi and Sanjay Srivastava. ``Multi-modal design of an intelligent transportation system'', IEEE Transactions on Intelligent Transportation Systems, Vol 18 (8), 2017, pp. 2017-2027, DOI: 10.1109/TITS.2016.2631221
(ITS domain) Pruthvish Rajput and Manish Chaturvedi, "An Experimental Study on Road Condition Monitoring and Junction Analysis Using Bus Trajectory Data," in IEEE Transactions on Systems, Man, and Cybernetics: Systems, doi: 10.1109/TSMC.2025.3616438.
(ITS domain) Pruthvish Rajput, Manish Chaturvedi and Vivek Patel. ``Opportunistic sensing based detection of crowdedness in public transport buses'', Pervasive and Mobile Computing - Special Issue on Mobile & Social Sensing Elsevier, Vol 68, 2020, pp. 101246, DOI: 10.1016/j.pmcj.2020.101246.
(ITS domain) Manish Charturvedi and Sanjay Srivastava, Modelling and Analysis of Walk and Intelligent Feeder Service based Last Mile Connectivity to Metro Stations, 26th Intelligent Transportation Systems Conference (ITSC), IEEE, 2023, Venue:Bilbao, Spain. pp. 3437-3442, doi: 10.1109/ITSC57777.2023.10422361
(ITS domain) Pruthvish Rajput, Manish Chaturvedi and Vivek Patel. ``Road Condition Monitoring using Unsupervised Learning based Bus Trajectory Processing'', Multi modal transportation, Elsevier, Vol 1-3, 2022, pp. 100041, DOI: 10.1016/j.multra. 2022.100041.
All Publications:
Abhishek Jindal
Manish Chaturvedi
Manish Kumar
Sanjay Srivastava
Sunitha V
Abhishek Gupta