Electrical Engineering
Signal Theory and Processing
Prof. Jean-Luc Zolésio (Year 1 - Lectures: 12 hours; Required Sections 12 hours)
Mathematical representation and classification of deterministic continuous-time signals.
Representations of analogue, linear and invariant systems; relations between these various representations.
Random stationary continuous and ergodic signals.
Design of a signal acquisition system.
Discrete and deterministic signals and systems. Stochastic processes.
Spectral analysis of continuous-time signals; discrete Fourier transform and smoothing windows.
Estimation of the correlation function and spectral power density.
Digital filtering: design and synthesis.
Information Technology and Computer Science - Algorithms
Prof. Guillaume Mainbourg (Year 1 - Lectures: 24 hours; Required Sections: 24 hours)
General computer architecture.
Compilers. Language theory automata and grammars.
Operating systems.
Networks.
Files and databases.
Data and process modeling.
Management of Business Information Systems.
Algorithms.
Programming Languages
Prof. Boussad Mammeri (Years 1 and 2 - Required Sections: 15 hours)
C Language. Normalized syntax rules in writing C modules. Implementation of data structures and algorithms. Linking of several modules and design of private libraries. UNIX files and processes in a network environment.
FORTRAN. Specific problems of scientific programming (comparison of FORTRAN-77, Fortran 90 and C). Developing applications with Numerical Analysis Libraries (NaG). Particular emphasis is placed on conformity to the standard condition of complete portability.
Control Systems
Prof. Jean-Christophe Culioli (Year 1 - Lectures: 12 hours; Required Sections: 12 hours)
Introduction to automatic control (mainly for linear systems).
PID regulators, input-output description of systems, state space description of systems, linear regulators, observers, stability. Introduction to optimal control: dynamic programming and Pontryagin maximum principle.
Electronics
Prof. Philippe Garderet (Year 2 - Lectures: 12 hours; Required Sections: 12 hours)
Micro electronics, semi-conductor components, integrated circuit technologies, p-n junctions, diodes, bipolar transistors, field effect transistors, MOS transistors, analog integrated circuits, operational amplifiers, logical integrated circuits, sequential and combinatory circuits, memories, applied specific integrated circuits, computer aided design, planar technologies, industrial aspects.
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