Department of Computer Science & Engineering

Research Area



The Department of Computer Science & Engineering at MMMUT engages in a wide array of cutting-edge research domains, each comprising multiple specialized sub-areas.



In the domain of Cyber Forensics and Information Security, research focuses on digital evidence analysis, malware analysis, secure software engineering, incident response, data privacy, steganography, and intrusion detection systems.


Within Artificial Intelligence and Machine Learning, the department explores supervised and unsupervised learning, deep learning, reinforcement learning, natural language processing (NLP), explainable AI, fuzzy logic systems, and computer vision.


The Data Science and Big Data Analytics area includes work on data mining, predictive modeling, data visualization, stream processing, big data frameworks such as Hadoop and Spark, time series analysis, and statistical computing.

Research in Blockchain and distributed computing encompasses consensus algorithms, smart contracts, decentralized applications (DApps), cryptographic hashing, peer-to-peer networks, distributed ledger technologies (DLTs), and digital identity systems.


In the field of Quantum Computing, faculty and students explore quantum algorithms (like Shor’s and Grover’s), quantum cryptography, quantum machine learning, quantum gate models, error correction, and hybrid quantum-classical systems.


The Internet of Things (IoT) area includes topics such as sensor networks, embedded systems, industrial IoT, smart environments, edge and fog computing, IoT-specific communication protocols, and real-time data processing.


In Cloud and Edge Computing, research spans cloud service architectures (IaaS, PaaS, SaaS), virtualization, edge AI, load balancing, containerization technologies like Docker and Kubernetes, serverless computing, and cloud security.


The Computer Network and Communications domain addresses routing and switching technologies, software-defined networking (SDN), network protocols, simulation tools, quality of service (QoS), and mobile or mesh networking.


For Network Security and Cryptography, focus areas include symmetric and asymmetric encryption, public key infrastructure, secure communication protocols, cryptographic key exchange, blockchain security, and authentication mechanisms.


In Wireless Communications, research is conducted on next-generation technologies like 5G, mobile protocols, wireless sensor networks, MIMO and OFDM systems, spectrum management, cognitive radio, and energy-efficient transmission.


The Geo-spatial Intelligence domain covers geographic information systems (GIS), remote sensing, satellite image processing, spatial data mining, location-based services, digital twin systems, and smart urban planning tools.


Within High Performance Computing (HPC), the department explores parallel and distributed algorithms, cluster and grid computing, GPU-based programming (e.g., CUDA), performance optimization, scientific computing, and fault-tolerant systems.


The Augmented and Virtual Reality (AR/VR) area includes system design, immersive interfaces, 3D modeling and simulation, virtual training environments, gesture tracking, and mixed reality applications.


Finally, Theoretical Computer Science serves as the mathematical backbone of computing, with research in automata theory, formal languages, computational complexity, graph theory, algorithm design, logical foundations, and computability.


Recent News

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  • BCS-11 Unit-I and II
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  • BCS-28 Unit-II
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  • BCS-28 Unit-I
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  • BCS-15 Part-4
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  • BCS-15 Part-2
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  • BCS-15 Part-1
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  • BCS-13 Unit I and II
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  • BCS-27 Unit-I
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  • BCS-12 Unit I and II
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  • BCS-29 Unit-3.2
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  • BCS-29 Unit-3.1
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  • BCS-29 Unit-2.3
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  • BCS-29 Unit-2.2
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  • BCS-29 Unit-1.3
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  • BCS-29 Unit-1.2
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  • BCS-29 Unit-1.1
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