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Call for Papers

The Conference aims to provide an active platform for research scientists, engineers, and practitioners throughout the world to present their latest research findings, ideas, and applications in the fields of interest which fall under the scope of CHANDICON 2026. Papers (upto 6 pages in pdf format) presented in the Conference, duly accepted after peer review, will be eligible for submission for further consideration of publishing in the IEEE Xplore, subject to maintenance of quality, and post-conference scrutiny of response of Conference Organizers to Technical Program of Questionnaire (TPQ) on the Conference.

Technical Tracks

Track 1: Power System Operation, Monitoring and Control

Track 2: Power Electronics Applications and Drives

Track 3: Renewable Energy Integration and Control

Track 4: Smart Grids Planning, Operation and Analysis

Track 5: Artificial Intelligence and Data Science

Track 6: Computer Networks & IoT

Track 7: Next-Generation Computing and Applications

Track 8: Security & Privacy

Track 9: Communication & Signal Processing

Track 10: RF/Microwave/Terahertz Technologies

Track 11: Semiconductor Devices

Track 12: VLSI & Embedded Systems

Track 13: Nanotechnology Materials and Devices

Track 14: Quantum Technologies

Track Details

Following are the selected sub-topics (not limited to) under different tracks:

Track 1: Power System Operation, Monitoring and Control

  • Optimal operation of power systems
  • Power system dynamics and stability
  • Load and generation forecasting
  • Flexibility requirements and resource adequacy
  • Power system security and reliability
  • Energy management systems
  • Fault monitoring and predictive maintenance
  • Synchrophasor measurements and wide-area monitoring systems
  • Power grid infrastructure planning and operation under deregulated conditions

Track 2: Power Electronics Applications and Drives

  • Converter topologies, modeling, and control
  • Power quality analysis and mitigation
  • Electric machines and drives
  • Electric vehicles (EVs) and charging infrastructure
  • Power converter topologies for EV applications
  • Power electronics and motor control for EVs
  • Wireless charging, G2V and V2G applications
  • Energy storage management systems
  • Condition monitoring of power processing equipment
  • HVDC and FACTS technologies

Track 3: Renewable Energy Integration and Control

  • Green energy generation technologies
  • Power electronics-based interfaces and control strategies
  • Microgrid management and control
  • Operation of distributed energy resources
  • Planning towards a decarbonized grid
  • Renewable energy grid connectivity requirements and practices in India
  • Seamless microgrid transition from grid-connected to standalone modes
  • Technology developments in green hydrogen energy
  • AI-based techniques for converter control
  • Real-time and hardware-in-the-loop (HIL) simulation of power converters
  • Low-inertia power systems
  • Operation planning with distributed generation
  • Energy storage systems (batteries, pumped hydro, flywheels, hydrogen)
  • Renewable energy-powered electrolysers
  • Black start capability of renewable power plants

Track 4: Smart Grids Planning, Operation and Analysis

  • Methods and tools for smart grid planning and operation
  • Advanced load and renewable forecasting, state estimation
  • Grid congestion management under uncertainty
  • Transient stability analysis of low-inertia power systems
  • AI and ML for optimized integration of renewable energy sources
  • AI, machine learning, data science, and IoT for energy applications
  • Hybrid AC/DC grids
  • Distribution and transmission system coordination
  • Intelligent protection and control strategies
  • ICT and cybersecurity for smart grids
  • Regulatory frameworks and policies
  • Demand response, flexibility, and demand-side management
  • Local energy communities, prosumers, aggregators, and microgrids

Track 5: Artificial Intelligence and Data Science

  • Data mining techniques
  • Big data analytics
  • Explainable artificial intelligence
  • Data visualization and visual analytics
  • Statistical inference and modeling
  • Machine learning algorithms
  • Deep learning architectures
  • Generative adversarial networks
  • Medical image analysis and processing

Track 6: Computer Networks & IoT

  • Next-generation networks
  • Communication and network protocols
  • Modulation and coding techniques
  • Simulation results, proof-of-concepts, testbeds, and trials
  • Advanced wireless communication and networking
  • Green IoT: sustainable design and technologies
  • Devices, product development, and application domains
  • Industrial IoT systems
  • Wireless sensor networks and security
  • Ultra-low power technologies and embedded architectures for IoT devices
  • Internet of robotic things
  • Ad Hoc Networks

Track 7: Next-Generation Computing and Applications

  • Quantum computing
  • Edge and fog computing
  • High-performance computing
  • Blockchain and decentralized computing
  • Cloud computing technologies
  • Human–computer interaction
  • Quantum machine learning
  • Augmented and virtual reality
  • Computational intelligence
  • Bioinformatics and computational biology
  • Neuromorphic computing

Track 8: Security & Privacy

  • Botnet detection and mitigation
  • Network security protocols
  • Cybersecurity threat intelligence
  • Secure cloud computing
  • Biometric and multi-factor authentication
  • Secure software engineering practices
  • Privacy-enhancing technologies in emerging applications
  • Cryptography and cryptanalysis
  • Privacy-preserving computing
  • Intrusion detection and prevention systems
  • Machine learning and AI security and privacy
  • Cybersecurity and cyber warfare
  • Human–computer interaction and security
  • Usable security and privacy
  • Security and privacy in emerging technologies (Blockchain, IoT)
  • Security and privacy law and policy
  • Security and privacy education and awareness

Track 9: Communication & Signal Processing

  • Wireless communication systems
  • Mobile networking, 5G and beyond
  • Cognitive radio networks
  • Software-defined networking
  • Information theory
  • Communication hardware design
  • Multimedia communication systems
  • Quantum communication and network optimization
  • Digital signal processing
  • Image enhancement, restoration, and compression
  • Biomedical signal processing
  • Remote sensing and speech processing
  • Multimedia and sparse signal processing
  • Real-time signal and image processing
  • Nonlinear signal processing
  • Audio and speech signal processing

Track 10: RF/Microwave/Terahertz Technologies

  • Electromagnetic theory and computational techniques
  • Frequency selective surfaces, metamaterials, metasurfaces, and absorbers
  • Microwave, millimeter-wave, and terahertz antennas
  • Planar, ultra-wideband, phased array, and dielectric resonator antennas
  • Radar, SAR, and microwave imaging
  • High-power microwave devices
  • Novel waveguides and waveguide phenomena
  • RF sensors and testing techniques
  • Reconfigurable, wearable, conformal, adaptive, and smart antennas
  • Microwave, millimeter-wave, and terahertz systems

Track 11: Semiconductor Devices

  • Nanoelectronic devices
  • Semiconductor processes and fabrication tools
  • Process integration, control, and device reliability
  • AI/ML for process enhancement
  • Semiconductor manufacturing and yield enhancement
  • Flexible devices for wearable applications
  • Materials for flexible electronics
  • Advanced memory technologies and devices
  • Sensors, packaging, and interconnects

Track 12: VLSI & Embedded Systems

  • Analog, mixed-signal, and RF circuits
  • Emerging computing and post-CMOS technologies
  • Power and energy management
  • Testing, verification, and reliability
  • Silicon and III–V photonic integrated circuits
  • VLSI processors and signal processing architectures
  • Reconfigurable and FPGA-based designs
  • Multi-core embedded systems
  • Operating systems for embedded platforms
  • Power- and thermal-aware design
  • Fault tolerance and hardware security
  • Sensor-based systems and applications

Track 13: Nanotechnology Materials and Devices

  • Physics and modeling of semiconductor materials and devices
  • Nanostructures and two-dimensional materials
  • Nanotubes, nanowires, quantum dots, and low-dimensional materials
  • MEMS and NEMS
  • Nano-optics, nanophotonics, and nano-optoelectronics
  • Spintronics and magnetic nanodevices
  • Nanometrology and characterization
  • Nanopackaging and nanomagnetics

Track 14: Quantum Technologies

  • Quantum computing and architectures
  • Quantum communication and cryptography
  • Quantum sensing and metrology
  • Quantum algorithms and applications
  • Quantum materials and devices

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