Nanoscale Video Lectures
Stanford University | Physics | Submitted on May 6th, 2009
Course Overview, Imaging Introduction, Introduction to Atomic Force Microscopy, Mechanics of AFM Cantilevers, Introduction to STM, Theory of Scanning Tunneling Microscopy, Scanning Potentiometry, Scanning Gate Microscopy, Basics of Scanning Near-field Optical Microscopy
Principles of Programming Languages
IITM | Computer Science | Submitted on May 6th, 2009
Introduction to programming languages, Syntax, Grammars, Ambiguity, Semantics, PL0 : Expressions, Syntactic Classes, Transition Systems,Binding, environments etc...
Advanced Chemistry Video Lessons
Rob Lederer | Chemistry | Submitted on April 18th, 2009
Virology
UC San Diego | Bio Sciences | Submitted on April 7th, 2009
Optimizing C code for Performance on TMS320C6000 DSPs
Texas Instruments | Signals & Systems | Submitted on December 9th, 2008
Electromagnetics and Applications
MIT OCW | Physics | Submitted on December 9th, 2008
It presents a great deal of information right from the basics of Electromagnetics such as Maxwells equations to its applications in new generation technologies such as wireless communications, computer peripherals to microwave communications, radar, and antennas.
Principles of Digital Communications
MIT OCW | Signals & Systems | Submitted on December 9th, 2008
This course discuses about sampling theorem, AWGN channels, and focuses mainly on the coding techniques linear block codes, Reed-Muller codes, finite fields, Reed-Solomon and BCH codes, binary linear convolutional codes, and the Viterbi algorithm. The advanced coding techniques also included which are trellis codes; codes on graphs; the sum-product and min-sum algorithms; the BCJR algorithm; turbo codes, LDPC codes and RA codes and many more.
Digital Signal Processing
UC Berkeley | Signals & Systems | Submitted on December 9th, 2008
This course explores all about digital signals. Foussed mainly on Transforms such as DFS, DFT, FFT, Z-transform, various convolution techniques, realization and implementation of FIR and IIR filters and many more.
Structure and Interpretation of Systems and Signals
UC Berkeley | Signals & Systems | Submitted on December 9th, 2008
Topics Covered: Signals and Systems, Determinism, Composition, Linearity, Responses and Hybrid Systems. Frequency Domain, Response and Filtering etc....