MOCAST 2025 will be held in TU Dresden.
14th International Conference on Modern Circuits and Systems Technologies (MOCAST)
on Electronics and Communications
11-13 June 2025, Dresden, Germany
Submission Deadline: 15 February 2025
The conference proceedings are expected to be included in the IEEE Xplore Digital Library.
Important dates
Paper submission deadline: 15 February 2025
Notification of papers acceptance: 10 April 2025
Publication ready final version due: 28 April 2025
Author Registration deadline: 28 April 2025
Conference Days:
The International Conference on Modern Circuits and Systems Technologies (MOCAST) aims to bring together leading academic and industrial scientists and researchers to exchange and share their knowledge and experiences about all aspects of Circuits and Systems. It also provides a forum for exchanging ideas, discussing research results, and presenting practical applications in the areas of modeling, design, simulation, synthesis and implementation of Circuits and Systems. It provides an interdisciplinary and multidisciplinary forum for researchers, engineers and educators to present and discuss the most recent innovations, trends, and concerns, practical challenges encountered and the solutions adopted in these fields.
Indicative topics of interest
Analog/RF and Mixed Signal Circuits
OpAmps, filters; Nonlinear circuits; Voltage and current references; HV circuits; Nonlinear analog circuits; Digitally assisted analog circuits. RF/IF building blocks like LNAs, mixers, power amplifiers, IF amplifiers; Power detectors; Subsystems for RF, mm-wave and THz design with focus on novel design techniques, Modulators/demodulators; VCOs; PLLs; DLLs; Frequency synthesizers; Frequency dividers; Integrated passive components, A/D and D/A converters.
Digital Circuits
Techniques for energy efficient and high performance digital circuits; VLSI circuits and Systems; I/O and inter-chip communication; Reconfigurable digital circuit; Security and encryption circuits; Clocking; Arithmetic building blocks; Memories; Microprocessors; DSPs; Memory interfacing; Bus interfacing; Many core and multirate ICs; 3D integration, embedded design, FPGAs, Circuit modeling, Device modeling, Memristive circuits, Unconventional computing, Approximate computing, Nonlinear and chaotic circuits.
Nonlinear Circuits and Systems
Nonlinear circuit’s theory; Chaotic models and attractors; Novel computation algorithms for studying nonlinear circuits; Nonlinear circuit simulation; Modelling of chaotic phenomena with nonlinear circuits; Bifurcation and chaos in nonlinear circuits; Time-delayed chaotic systems; Control of oscillations and chaos; Chaotic synchronization; Estimation of chaos in signals; Chaotic optoelectronics; Chaotic secure communication systems; Chaos and multi-channel communication; Chaotic cryptosystems; Chaotic neural networks; Chaotic power electronics; Memristors and memristive systems; Fractional order circuits and systems; Applications of nonlinear circuits and systems.
Systems and Applications
VLSI Systems, System on Chip (SoC), CAD tools, Embedded systems, System architectures, System modeling, Image processing and Multimedia systems, Control systems, Mechatronics and Robotics, Neural networks and Fuzzy systems, Nonlinear and Chaotic systems, Bioengineering systems.
Artificial Intelligence, Machine learning and their Applications
Emerging Technologies and Devices
Device and Circuit Modeling
Transistor current models, parasitic capacitance models, timing models, power consumption models, noise models, Cell models, memristor models
High Performance Embedded Systems
Sensors and Systems
Sensor Interfacing, Instrumentation, Biomedical Circuits and Healthcare Systems, Low Noise Circuits, EMI Immune Design, Autocalibration Techniques, Wearable Electronics, Autonomous Sensors Systems
Communication systems
Wireless communication systems, Microwave and wireless technologies, Antennas, Propagation, indoor/outdoor links, Scattering and measurements, Electromagnetic Compatibility (EMC), MICs/MMICs, Optical communications, Remote sensing applications, Bioeffects, RF exposures, and Medical Application, Receivers/transmitters/
Network Systems
Wireless and mobile networks, Mesh, ad hoc, and sensor networks, Vehicular ad hoc networks and intelligent transportation systems, Mobile applications, system software and algorithms - Technologies for Future Internet, Network protocols and architectures, Network management, Autonomous and self-organized networks, Machine-to-machine networking, Cloud computing and networking, Software-defined networking and network function virtualization, Content distribution networks, Mobile Internet applications, Security, trust, and privacy challenges User-centric networking, Social networking, crowdsourcing, cloud services, E-services and smart cities, Green networking, Energy efficient MAC and transmission protocols for ultra low-power radios.
Power Electronics and Management
High Power Circuits, Power Convertors, Power Optimization Techniques, Power Delivery Networks, Power Switches, High Voltage Circuits and Systems, Power Management for High Voltage Applications, Power Amplifiers, Energy transducers; Power regulators; DC-DC converters; Energy-scavenging circuits; LDOs Boost-buck-converters; LED drivers; Sequencers and supervisors; Green electronics.
Imagers, MEMS, Medical & Displays.
Sensor subsystems and interfaces; Accelerometers; Temperature sensing; Imaging and smart imaging chips; AMOLED; MEMs subsystems; RF MEMs; Implantable electronic ICs; Bio-medical imagers; Bio-MEMs integratedsystems; Lab-on-chip; Organic LED and liquid-crystal-display interface circuits; Flat panel and projection displays.
Radiation Front Ends (Nuclear and Space Application).
Data Acquisition and Analysis Circuits and Systems , Trigger and Front-End Systems, Detectors Architecture and Instrumentation, Radiation/ Semiconductor Detectors: Tracking, Imaging, and Spectroscopy, Measurements and Monitoring Techniques, Radiation Hardness, Radiation Damage Effects on Electronic Systems.
Education in Circuits, Systems and Communications.