Areas Aleksandar Stojimirovic is Knowledgeable in:
C/C++
GUI design
Control Systems and Algorithms
Artificial Intelligence
Neural Networks
Fuzzy Logics
Genetic Algorithms
Finite Element Method
Fluid flaw and Heta transfer
Techniques Aleksandar Stojimirovic Uses:
- C/C++
- Modern Programming Techniques (data structures, algorithm complexity, algorithms)
- Standard Control Theory (linear systems)
- Artificial Intelligence Methods (Expert systems, Neural Networks, Fuzzy Logic, Genetic Algorithms, etc.)
- Process Modeling and Simulation Approaches (lumped parameter modeling, process identification, finite element method).
Aleksandar Stojimirovic's Problem Solving Skills:
- Artificial Intelligence (Neural Networks, Fuzzy Logic, Genetic Algorithms, Expert Systems)
- Systems Modeling (lumped parameter modeling, identification, finite element modeling)
- C/C++
- Data structures and algorithms
- Control Systems Theory (linear control systems, state space model, stability, frequency analysis, root locus,...)
- wxWidgets C++ GUI
- Embedded system design (Microchip microcontrollers)
Aleksandar Stojimirovic's Problem Solving Experience:
- C++ wxWidgets based GUI interface and SCADA Software for control of industrial furnaces.
C++ wxWidgets based GUI interface and SCADA software for fault detection in industrial furnaces.
C++ wxWidgets based GUI interface and software for industrial furnace pit simulator.
MATLAB based GUI interface and SCADA software for fault detection in industrial furnaces. - - Design of industrial furnaces models, PID regulators, genetic algorithm based regulators, and large scale neural network stochastic PID like regulator in MATLAB.
- Design and modification of process identification algorithms in MATLAB.
- Design of expert system for decision support in fault detection systems. - - C++ implementation of designed industrial furnace models, PID regulators, genetic algorithm, neural networks.
- C++ implementation of process identification algorithms.
- C++ implementation of expert system for decision support in fault detection systems.