2 minute read
18EI3003 Programmable Devices for Industrial Automation 3:0:0 3
Respiratory System: Components of respiratory system – Respiratory Mechanism. Types of respiration - Oxygen and carbon dioxide transport and acid base regulation.
Module 4: Circulatory System (8 Hours)
Blood composition - functions of blood – functions of RBC.WBC types and their functions Blood groups – importance of blood groups – identification of blood groups. Blood vessels - Structure of heart – Properties of Cardiac muscle – Conducting system of heart -Cardiac cycle – ECG - Heart sound - Volume and pressure changes and regulation of heart rate –Coronary Circulation. Factors regulating Blood flow.
Module 5: Urinary and Special Sensory System (7 Hours)
Urinary system: Structure of Kidney and Nephron. Mechanism of Urine formation and acid base regulation – Urinary reflex – Homeostasis and blood pressure regulation by urinary system. Special senses: Eye and Ear.
Module 6: Nervous System (7 Hours)
Structure of a Neuron – Types of Neuron. Synapses and types. Conduction of action potential in neuron Brain – Divisions of brain lobes - Cortical localizations and functions - EEG. Spinal cord –Tracts of spinal cord - Reflex mechanism – Types of reflex, Autonomic nervous system and its functions.
Text Books:
1. Elaine.N. Marieb,“Essential of Human Anatomy and Physiology”, Eight edition, Pearson Education NewDelhi, 2007. 2. Gillian Pocock, Christopher D. Richards, "The Human Body- An introduction for Biomedical and Health Sciences", Oxford University Press, USA, 2009.
Reference Books:
1. William F. Ganong,"Review of Medical Physiology, 22nd edition, McGraw Hill New Delhi, 2005 2. Eldra Pearl Solomon."Introduction to Human Anatomy and Physiology", W.B.Saunders Company, 2003. 3. Arthur C. Guyton, "Text book of Medical Physiology", 11 th Edition, Elsevier Saunders, 2006 4. Khandpur. R. S., “Handbook of Biomedical Instrumentation”, Prentice Hall of India, New Delhi, 2003.
18EI3001 ADVANCED EMBEDDED SIGNAL PROCESSORS L 3 T 0 P 0 C 3 Course Objective:
1. To develop skills for understanding the requirements of the Real Time Digital Signal Processing Algorithms. 2. To develop skills to comprehend the Digital Signal Processor and FPGA Architectures. 3. To develop skills to implement the signal processing algorithms using the Digital Signal Processors and FPGA.
Course Outcome: At the end of this course, students will demonstrate the ability to
1. Recall the basic concepts of digital signal processing techniques. 2. Examine the Architectural features of Digital Signal Processors. 3. Understand the Architecture of TMS320C5x and the assembly language for Digital Signal Processing Algorithms. 4. Understand the Architecture of TMS320C54x and the VLIW Architecture of TMS320C6x. 5. Recall the basic concepts of FPGA. 6. Understand the implementation of Signal Processing Algorithms in FPGA.
Module 1: Overview Of Digital Signal Processing And Applications: (6 Hours)
Signals and their origin– Sampling theorem and discrete time system – Convolution – DSP in the sample and transform domain– Fast Fourier Transform – Digital Filters – Multi–rate Signal Processing.
Module 2: Introduction to Programmable DSP: (8 Hours)
Multiplier and Multiplier Accumulator – Modified Bus structures and Memory Access schemes in P –DSPs – Multiple Access Memory – Multi – ported Memory – VLIW Architecture–Pipelining –Special Addressing Modes in P – DSPs – On – Chip Peripherals Module 3: Architecture of TMS320C5x :( 8 Hours) Introduction – Bus Structure – Central Arithmetic Logic Unit – Auxiliary Register ALU – Parallel Logic Unit – Program controller – On
