Presented byMd. Bashir Uddin Roll: 1215502 Dept. of BME KUET, Khulna-9203 1 A signal is defined as a fluctuating quantity or impulse whose variations represent information. The amplitude or frequency of voltage, current, electric field strength, light, and sound can be varied as signals representing information. A signal can be simply defined as a function that conveys information. Signals are represented mathematically as functions of one or more independent variables. Examples: voltage, current, electric field strength, light, sound, etc. 2 Biomedical signals means the bio-signals which are generated in biological systems only. Biomedical signals are observations of physiological activities of organisms, ranging from gene and protein sequences, to neural and cardiac rhythms, to tissue and organ images. Examples of biomedical signals: ECG (Electrocardiogram) signal, EEG (Electroencephalogram) signal, etc. Biomedical signals are electrical or magnetic signals generated by some biological activity in the human body. Human body is composed of living tissues that can be considered as a power station. Action of living tissues in terms of bioelectric potentials generate multiple electric signals from two internal sources-muscles and nerves system. Bioelectric Signal Bioacoustics Signal Biomechanical Signal Biochemical Signal Bio-magnetic Signal Bio- optical signal The electrical signals which we can measure mainly on the surface of the body is known as bioelectric signal. It is generated by muscle cells and nerve cells. Basic source is the cell membrane potential. Examples: ECG, EEG, EMG, EOG The Electrocardiogram (ECG) represents the electrical activity of the heart. It is characterized by a number of waves P, QRS, T related to the heart activity. Another wave, called U wave is also present but its importance is not yet identified. Fig.: A simple model of ECG. Fig.: EEG signal originating from the brain The Electroencephalogram (EEG) is a recording of electrical activity originating from the brain. It is recorded on the surface of the scalp using electrodes, thus the signal is retrievable non-invasively. Signal varies in terms of amplitude and frequency Normal frequency range: 0.5Hz to50 Hz. Electromyography (EMG) is a technique for evaluating and recording the electrical activity produced by skeletal muscles. EMG is performed using an instrument called an electromyograph, to produce a record called an electromyogram. An electromyograph detects the electrical potential generated by muscle cells when these cells are electrically or neurologically activated. Generated by biomedical phenomenon in the body; e.g. – flow of blood in the heart through valves, Flow of air through the airways in lungs etc Generated by all types of motion, displacement signals, Pressures and flow signals; e.g. – movement of chest wall in accordance with respiratory. Extremely weak magnetic fields are produced by various organs such as the brain, heart, lungs. The measurement of these signals provides information which is not available in other types of bio signals such bioelectric signals. Example: Magnetoencephalograh signal from the brain. These signals are generated as result of optical functions of the biological system. For example blood oxygenation may be estimated by measuring the transmitted /back scattered light from a tissue at different wavelengths . ENG: Electroneurogram - Signals from nerves EMG: Electromyogram- Signals from muscles ECG: Electrocardiogram- Signals from Heart ERG: Electroretinogram- Signals from retina of an eye EOG: Electrooculogram- Signals from cornea and retina of an eye EEG: Electroencephalogram- Signals from brain MEG: Magneto encephalogram- Signals from brain using magnetic field USG: Ultra sonogram- Imaging from ultra sound reflection from the internal organs of the body Diagnosis of diseases Patient monitoring Biomedical research