Conference Location | Auckland, New Zealand |
Conference Date | 2019-12-12 |
Notification Date | 2019-09-27 |
Submission Deadline | 2019-07-30 |
Conference Website and Submission Link | http://www.icesee.org/ |
CCF Ranking | |
Core Ranking | |
Qualis Ranking |
Year | Submitted Papers | Accepted Papers | Accepted Percentage/Acceptance Rate |
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We are working hard to collect and update the acceptance rate details of the conferences for recent years. However, you can consider the above (if available) acceptance rates to predict the average chances of acceptance of your research paper at this conference.
Energy Science | • Hard-switching and soft-switching static converters |
• Advanced Buildings | • Inverter and Converter Technology |
• Advanced Energy Sources | • Matrix converters |
• Advanced Heat Pipe Technologies | • Modeling and simulation in power electronics |
• Advanced In-Space Propulsion & Power Concepts | • Multilevel converters |
• Advanced Lighting | • Nanometer-scale materials engineering |
• Advanced Thermal Control Technologies | • Optoelectronic photonic devices |
• Advanced Vehicle Technologies | • Power Converters Modelling |
• Advances in Additive Manufacturing | • Power electronics education/professional development |
• Advances in Solar Energy | • Power Electronics Components and Packaging |
• Advances in Space Propulsion | • Power electronics in traction and automotive |
• Advances in Urban Mobility | • Power Factor Correctors (PFC) |
• Alternative Transportation Fuels | • Power semiconductors, passive components and packaging technologies |
• Battery & Energy Storage | • Power Supplies |
• BioEnergy | • Simulation and Control |
• Clean Energy Project Financing | • Switch-mode power supplies and UPS |
• Community Solar | • Telecommunications power supplies |
• Department of Energy Building Efficiency R&D | • Soft switching converters |
• Early Stage & Growth Capital | Electrical Machines and Adjustable Speed Drives |
• Economic Development Incentives for Clean Tech Innovators | • Analysis and design of electrical machines |
• Emerging Smart Grid Technologies | • Control Theory and Applications |
• Emerging Smart Grid Technologies: a Case Study | • Electrical Machines |
• Enabling Technologies for Lunar Surface Science | • Electrical Vehicles |
• Energy Cybersecurity | • EMC related phenomena |
• Energy Policy | • Intelligent Systems and Approach |
• Far Term Space Transport and Environment Models and Theories | • Linear machines and drives |
• Future of the Electric Utility Industry: Challenges and Opportunities | • Machine Learning |
• High Capacity Heat Rejection Systems | • Maintenance and Fault Diagnosis |
• High Frequency Gravity Wave Detection | • Modelling and simulation |
• High Frequency Gravity Wave Generators | • Motor drives and motion control |
• Innovative Techniques in Fusion Energy | • Permanent magnet machines and drives |
• Innovative Techniques in Nuclear Energy | • Piezo and electrostatic actuators, |
• Lunar In Space Resource Utilization | • Reluctance machines and drives |
• Lunar Lander Technologies and Design | • Sensorless control |
• Manufacturing Energy Efficiency | • Visual Control |
• Medical Astrosociology | • AC and DC Machines and Drives, |
• Microgravity Thermophysics | Signal Processing |
• MicroGrids & Distributed Generation | • Adaptive Signal Processing |
• New Directions in Astrophysics/Particle Physics | • Array Processing |
• New Directions in Communications | • Audio, Speech and Language Processing |
• Nuclear Advanced Reactors | • Digital Filter Design & Implementation |
• Nuclear Energy: Achievements, Lessons Learned & Prospects | • Digital Signal Processing Algorithms |
• Offshore Wind | • Image Processing |
• Planetary Defense and Societal Protection | • Medical Signal Processing & Medical Imaging |
• Propulsion Analysis | • Signal Processing Theory |
• Reforming the Energy Vision (REV): in Context and in Action | • Video Processing |
• REV & Integrated Grid – Distribution Solutions | Communication Systems |
• REV & Integrated Grid – Transmission | • Antenna and Propagation |
• REV DEMOS | • Communication Theory and Information Theory |
• Role of Policy in Regional Energy Transitions | • Microwave Theory and Techniques |
• Sensors | • Modulation, Coding, and Channel Analysis |
• Smart Materials | • Networks Design, Network Protocols and Network Management |
• Smart Mobility & Connected Vehicles | • Optical Communications |
• Space faring societies | • Wireless/Mobile Communications & Technologies |
• Space policy and space law in a social context | Computers and Information Technology |
• Space Science and Technology Roadmaps | • Computer Architecture |
• Space societies/ the settlement of space environments | • Computational Biology and Bioinformatics |
• Technology transfers and spinoffs | • Knowledge and Data Engineering |
• The Future of Transmission | • Learning Technologies |
• The NYS Clean Energy Fund | • Multimedia Services and Technologies |
• The relationship between astrosociology and astrobiology | • Mobile Computing |
• Theories on High Frequency Gravity Waves | • Parallel/Distributed Computing and Grid Computing |
• Theories, Models and Concepts | • Pattern Analysis and Machine Intelligence |
• Thermal Control | • Software Engineering |
• Thermal Control for Lunar and Deep Missions | • Visualization and Computer Graphics |
Two Phase Thermal Control Systems | Circuits and Systems |
• Unconventional Physical Principles and Gravitational Models | • Analog Circuits |
• Water Energy Nexus | • Digital Circuits |
• Wind Energy | • Mixed Signal Circuits |
Power Generation, Transmission and Distribution: | • Nonlinear Circuits and Systems |
• Distribution System Planning and Reliability | • Sensing and Sensor Networks |
• Flexible AC Transmission Systems | • Filters and Data Conversion Circuits |
• Forecasting and Management | • RF and Wireless Circuits |
• Load Modelling | • Photonic and Optoelectronic Circuits |
• Maintenance and Operation | • Low Power Design and VLSI Physical Design |
• Modelling and Simulation | • Biomedical Circuits |
• Power Quality and Grounding | • Assembly and Packaging |
• Generation Systems | • Test and Reliability |
Renewable Energy Sources, Smartgrids Technologies & Applications | • Advanced Technologies (i.e. MEMS and Nano-electronic Devices) |
• Distributed and Co-Generation Systems | Electrical Power Systems |
• Energy Management and Environmental issues | • Power Engineering and Power Systems |
• Hybrid Power Systems | • Electromagnetic Compatibility |
• Hydro Power Plants | • Energy Conversion |
• Hydrogen Systems and Fuel Cell | • High Voltage Engineering and Insulation |
• Power Market and Power System Economics | • Power Delivery |
• Smart grid aplications and technologies | • Power Electronics |
• Smart grid for cyber and physical security systems | • Illumination |
• Smart grid for intelligent monitoring and outage management | Controls |
• Smart grid for plug-in vehicles and low-carbon transportation alternatives | • Control Theory and Applications |
• Smart grid in interdependent energy infrastructures | • Adaptive and Learning Control System |
• Solar Energy Systems, | • Fuzzy and Neural Control |
• Wind Energy Systems | • Mechatronics |
• Smart grid for distributed energy resources | • Manufacturing Control Systems and Applications |
Power Electronics, Systems and Applications | • Process Control Systems |
• Active Filters and Harmonics | • Robotics and Automation |
• Applications of power electronics in home appliance, industry and aerospace | High Voltage Engineering and Insulation Technology |
• Applications of power electronics | • Micro-electromechanical systems (MEMS) |
• Bearingless drive technologies | • Power integrated circuits (PIC) |
• Education and Training for Electrical Engineers | • Power engineering related technologies |
• Electric Drivers and Application | • Power System & Energy Engineering |
• Electronic Materials | • Power System Protection, Operation and Control |
• Electronics, Information&Control Systems | • Transmission & Distribution System and Apparatus |
• Emerging topologies | • Power System Stability |
• EMI and over-voltage protection | • Power System Modeling, Simulation and Analysis |
• FACTS Power quality issues, harmonic problems and solutions | • Electromagnetic Transients Programs (EMTP) |
ICESEE 2019: International Conference on Energy Science and Electrical Engineering submission deadline is 2019-07-30.
Note: It is generally recommended to submit your conference paper
on or before the submission deadline. Generally, conferences do not
encourage to submit the research paper after the deadline is over.
In rare scenarios, conferences extend their deadline. Decision about the
extension of the deadline is generally updated on the official conference webpage.
Notification date of ICESEE 2019: International Conference on Energy Science and Electrical Engineering is 2019-09-27.
Note: This is the date on which conference announces the result about acceptance or rejection of submitted papers. If your research paper is accepted, the conference will request you to submit the camera ready version of your research paper by the due date. Due date to submit the camera ready version of the paper is generally posted on the official web page of the conferences or notified to you via. email.
ICESEE 2019: International Conference on Energy Science and Electrical Engineering will start on 2019-12-12.
Note: This is the date on which the conference starts.
ICESEE 2019: International Conference on Energy Science and Electrical Engineering will be organized at Auckland, New Zealand. This is the place where the conference is organized and the research paper is to be presented.