The Asia Pacific International Conference on Emerging Engineering (APICEE) will be held in Swedish College of Engineering and Technology, Rahimyar Khan, Pakistan from 09-10 November, 2019. The purpose of the conference is to provide an international forum for cross-fertilization of ideas from academic researchers, practicing engineers and industry representatives in emerging engineering areas related to Electrical Engineering, Communication Engineering, Electronic Engineering, Computer Engineering, Software Engineering, Civil Engineering, Mechanical Engineering, Robotic, Control System, Embedded Systems and allied fields in general. The conference will include presentations of technical papers and keynotes talks on issues of contemporary significance in electrical systems, networks, signal processing, artificial intelligence, control theory, power engineering and other areas of Electrical Engineering, Communication Engineering, Electronic Engineering, Computer Engineering, Software Engineering, Civil Engineering, Mechanical Engineering, Robotic, Control System, Embedded Systems and related aspects of modern power systems. Important Dates Paper Submission Deadline: 15th March, 2019 Notification of Acceptance: 1st June 2019 Camera Ready version due: 15th July 2019 Symposium presentation: 9th – 10th November 2019 Main Streams And Tracks The scope of the conference includes, but is not limited to the following tracks: Electrical Power Engineering Electronics Engineering High Voltage Engineering 5G and Heterogeneous Networks IT, Computational and Avionics Communication Engineering Emerging Areas/ Smart Grids/Renewable Energy Resources Biomedical Engineering Robotics/Control/Embedded Systems Civil Engineering Mechanical Engineering Computer System Engineering Software Engineering 5G and Heterogeneous Networks: -. Massive MIMO Systems -. Radio Resource Management in Small Cell Networks -. Algorithms for Power Control -. Context Aware Communication -. Load Balancing in Heterogeneous Networks -. Hybrid Optical Wireless Networks -. Architectures for Cloud Radio Access Systems -. Beamforming for mmWave Communication -. Non-orthogonal Multiple Access Systems -. Coding for Next Generation Wireless Systems Efficient Spectrum Utilization and Cognitive Radio Networks: -. Spectrum Sensing -. Dynamic Spectral Access -. MIMO Cognitive Radios -. Channel Models for Efficient Spectrum Management -. Cross Layer Design Aspects -. Security and Privacy Issues -. Usage of TV White Space -. Compressed Sensing Based Spectral Access -. Game Theory for Cognitive Radio Networks -. Economic Aspects of Spectrum Sharing Communication Systems Security: -. Physical Layer Security -. Quantum Cryptography and Communications Applications -. Security Aspects of Social Networks -. Security in Wired and Optical Systems -. Access Control and Authorization -. Security for Big Data -. Security Aspects of Location Based Services -. Cloud and Distributed Applications Security -. Security for Cyber-Physical Systems -. Security Issues in Device to Device Communication Green Communications: -. Communication Technologies for Energy Efficient Civil Infrastructure -. Green Mobile Communications -. Energy Efficient Internet-of-Things -. Energy Efficient Heterogeneous Networks -. Energy Cognizant Self-Organized Networks -. Management of Energy Consumption -. Smart Cities -. Smart Sensing -. Green Cloud Computing -. Green Sensor Networks Power System & Power Electronics: -. Microgrid and Smart grids -. Power system modeling and simulation, -. Power system planning and operation -. Power quality and FACTS Technologies, -. Energy conversion techniques -. Modeling, Simulation and Control of power converters, -. Power converters for Renewable Energy Systems, -. Power semiconductor switches and soft switching, -. DC/DC converters -. AC/AC Converters -. DC/AC Inverters -. Power Electronic Devices (Si and Wide band-gap) and Applications -. Power Electronic Packaging and Integration -. Modeling, Simulation, and EMI -. Lighting Technologies and Applications -. Wireless Power Transfer -. Uncontrolled Rectifiers and AC/DC Converters -. Multilevel Power Converters -. Electric Machines, Actuators, and Sensors -. Motor Control and Drives -. Sensorless and Sensor-Reduction Control -. Renewable Energy and Distributed Generation Systems -. Smart/Micro Grid -. DC Distribution -. Power Quality (or Power Electronics for Utility Interface) -. Energy Storage and Management Systems -. Power Electronics for Transportation Electrification -. Reliability, Diagnosis, Prognosis, and Protection -. High Voltage DC Transmission -. Other Selected Topics in Power Electronics Instrumentation & Control: -. Adaptive/Robust systems and control, -. Aerospace / Flight Control and Surveillance systems, -. Biomedical instrumentation and control -. Emerging control theory and applications, -. Fractional order systems and control, Hybrid systems, -. Intelligent control and instrumentation, -. Robotics and automation, -. Sensors and instrumentation systems. -. PID controllers using FPGA Technology, -. FPGA-based instrumentation. Innovative Technologies and Services for Smart Cities: -. Enabling wireless and mobile technologies for smart cities, -. Intelligent infrastructure -. Smart healthcare and emergency management and Emergency Services, -. Smart buildings -. Smart data for social entrepreneurship and community engagement, -. Citizen engagement and smart governance -. Data privacy and security issues in smart cities, -. Smart city theory, modeling, and simulation -. Sensing and Internet of Things (IoT) for smart cities, -. Smart environment and policy development -. Open data and big data analytics, -. Application, deployment, test-bed, and experiences in smart cities -. Sensors and actuators, -. Energy flows, consumption, production and Energy management -. Digital city and smart growth, -. Cloud computing and network infrastructures to support smart cities -. Smart economy development, -. Smart city for special needs, -. Smart E-health systems -. Smart transportation and Pedestrian and bicyclist safety, -. Safety and security systems -. Advanced communication systems and approaches for smart cities, -. Connected Vehicle (CV) technologies Modern Trends in Electronic System, Control Applications: -. Design of Electronic System using Discrete Devices, -. Combinational Logic Design process -. Circuit optimization for the area or/and performance, -. Electronic design automation (EDA) -. Abstract modeling, -. Electronic system level design tools, -. Embedded electronic system design -. State-of-the-art integrated circuits design tools, -. Advanced Microsystems Packaging -. Adaptive controller design, -. RFIDs and Applications, -. Feedforward Adaptive Control, -. Feedback Adaptive Control -. Nonparametric Adaptive Controllers, -. Parametric Adaptive Controllers, -. Design of buck-boost controllers -. Sliding mode controller applications for DC-DC converters, -. Variable speed drive applications VLSI Design and Systems: -. Field-programmable and Reconfigurable Systems, -. System-on-a-Chip Design, -. Application-Specific Low Power, -. VLSI System Design, -. Test and Verification -. Mixed-Signal Design and Analysis -. Memory designs, -. High Speed Circuits, MEMS, FET, -. Algorithms for VLSI System Design Emerging Areas: -. Wireless Power Transfer -. Power Line Communications -. Smart Grids -. Mobile-Edge Computing -. Dynamic Network Virtualization -. E-Health -. Big Data -. Cyber-Security in Electrical Power Stations -. Molecular Communications -. Renewable Energy Sources for Communication and Power Systems
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