About the Journal

MAYFEB Journal of Electrical and Computer Engineering is a peer-reviewed, open-access journal that publishes original research articles, review articles, and case studies in all areas of Electrical and Computer Engineering which deals with work-processes, optimization methods, and risk management tools in such projects.

The topics and disciplines that MAYFEB Journal of Electrical and Computer Engineering covers include but are not limited to:

  • Computer Science and Artificial Intelligence cover resources that focus on research and techniques to create machines that attempt to efficiently reason, problem-solve, use knowledge representation, and perform analysis of contradictory or ambiguous information. This category includes resources on artificial intelligence technologies such as expert systems, fuzzy systems, natural language processing, speech recognition, pattern recognition, computer vision, decision-support systems, knowledge bases, and neural networks.  
  • Computer Science and Cybernetics include resources that focus on the control and information flows within and between artificial (machine) and biological systems. Resources in this category draw from the fields of artificial intelligence, automatic control, and robotics.         
  • Computer Science, Hardware and Architecture cover resources on the physical components of a computer system: main and logic boards, internal buses and interfaces, static and dynamic memory, storage devices and storage media, power supplies, input and output devices, networking interfaces, and networking hardware such as routers and bridges. Resources in this category also cover the architecture of computing devices, such as SPARC, RISC, and CISC designs, as well as scalable, parallel, and multi-processor computing architectures.
  • Computer Science and Information Systems cover resources that focus on the acquisition, processing, storage, management, and dissemination of electronic information that can be read by humans, machines, or both. This category also includes resources for telecommunications systems and discipline-specific subjects such as medical informatics, chemical information processing systems, geographical information systems, and some library science. 
  • Computer Science and Interdisciplinary Applications include resources concerned with the application of computer technology and methodology to other disciplines, such as information management, engineering, biology, medicine, environmental studies, geosciences, arts and humanities, agriculture, chemistry, and physics.     
  • Computer Science and Software Engineering include resources that are concerned with the programs, routines, and symbolic languages that control the functioning of the hardware and direct its operation. Also covered in this category are computer graphics, digital signal processing, and programming languages.  
  • Computer Science, Theory, and Methods includes resources that emphasize experimental computer processing methods or programming techniques such as parallel computing, distributed computing, logic programming, object-oriented programming, high-speed computing, and supercomputing.

 

  • Computer engineering, the design and control of computing devices with the application of electrical systems.
    • Software engineering: the application of a systematic, disciplined, quantifiable approach to the development, operation, and maintenance of software, and the study of these approaches; that is, the application of engineering and computer science to software.
    • Hardware engineering: designing, developing, and testing various computer equipment. Can range from circuit boards and microprocessors to routers.
    • Network engineering: designing, deploying, and maintaining computer networks, such as corporate networks or the Internet.
  • Electronic engineering, the design of circuits that use the electromagnetic properties of electrical components such as resistors, capacitors, inductors, diodes, and transistors to achieve a particular functionality.
    • Control engineering focuses on the modeling of dynamic systems and the design of controllers using electrical circuits, digital signal processors, and microcontrollers
    • Telecommunications engineering
  • Optical engineering, the design of instruments and systems that utilize the properties of electromagnetic radiation.  
  • Power engineering, the generation, transmission, and distribution of electricity, and the design of devices such as transformers, electric generators, electric motors, high voltage engineering, and power electronics.   
 
  • Access Control
  • Adaptive Control Systems
  • Automation
  • Control Engineering Computing
  • Control System Analysis
  • Control System Synthesis
  • Control Systems
  • Control Theory and Applications
  • Controllers
  • Feedback Control
  • Fuzzy Control
  • Industrial Applications Control
  • Intelligent Control
  • Manufacturing Systems and Automation
  • Monitoring
  • Navigation, Guidance, and Control
  • Nonlinear Control Systems
  • Process Control
  • Production Control
  • Quality Control
  • Robotics and Applications