Course Descriptions

Definition and classification of signals. Transformations of independent variable. Exponential and sinusoidal signals. Impulse and step functions. Basic system properties. Linear time-invariant (LTI) systems. Convolution sum. Convolution integral. Continuous-time (CT) Fourier series. Properties of CT Fourier series. Discrete-time (DT) Fourier series. Properties of DT Fourier series. CT Fourier transform for periodic signals. Properties of CT Fourier transform. DT Fourier transform. Properties of DT Fourier Transform. Time and Frequency characterization of signals and systems. Sampling theorem.

Hazard and risk concept. Chemical risk factors. Physical risk factors. Biological risk factors. Psychological risk factors. Ergonomic risk factors. Risk analysis and types. Industrial applications

Minimum 20 working days of summer practice on the general engineering applications at an health institution or industrial corporation related with the biomedical engineering. Delivering a report on the accumulated knowledge.

Electrostatic fields. Dielectric properties of materials. Stationary electric currents and static magnetic fields. Time-varying electromagnetic fields. Faraday's induction. Maxwell's equations. Time-harmonic electromagnetic waves. Uniform plane waves.

Analysis of linear control systems by differential equations and transfer function methods. Determination of transient and steady-state response of first order and second order systems. Solution of control systems using state-space methods. Stability of closed loop systems. Routh-Hurwitz stability criterion. Root-locus diagrams. System analysis in frequency domain. Bode and polar plots. Introduction to the design of linear control systems. Compensation techniques.

Introduction to statistics. Sample mean, median and standard deviation. Graphical plots. Probability. Multiplication rule. Permutation and combination. Conditional probability and Bayes’ rule. Random variables. Discrete and continuous probability distributions. Joint probability distributions. Mathematical expectation. Mean, variance, covariance and correlation coefficient of random variables. Some continuous and discrete probability distributions. Normal distribution. Fundamental sampling distributions. Sampling distribution of mean. Interval estimation of mean. Testing a statistical hypothesis. Simple linear regression and correlation.

Cardiac pacing; defibrillators, cardiovascular protheses and assist devices, neural assist devices, sensory and communication aids, physical therapy equipment; electrosurgical equipment, anesthesia equipment, ventilators and respiratory therapy equipment.

Application of analog, digital, and statistical techniques to the processing of biomedical signals. Sources, recording, analysis and processing of ECG, EEG, EMG, and evoked potentials. Filtering, detection and classification, spectrum and parameter estimation, and array signal processing.

General Elective-I

General Elective-II