Technische Informatica: Theorie & Algoritmiek
Het is voor een academisch geschoolde informaticus van belang te weten wat de onderliggende theorieën van de informatica zijn. Deze komen aan bod in de vakken Logica, Automaten en Talen, Algoritmiek, Berekenbaarheidstheorie en Complexiteitstheorie. Bij deze vakken leer je op een meer fundamentele manier tegen problemen aan te kijken en maak je kennis met slimme oplossingsmethoden, algoritmen genaamd.
In het vak Berekenbaarheidstheorie maakt je kennis met de beperkingen van de informatica. We
Course 4: Culture for Understanding
A course designed to help teachers reach all students and to depend upon diverse cultures as a source of strength for curriculum and for classroom development.
Conducting Historical Research: The Case of "Oriental Cairo"
This course guides you through a variety of virtual research projects centered on Douglas Sladen's "Oriental Cairo: City of the 'Arabian Nights'" (1911). It is an introduction to some standard research techniques used by historians as well to using library resources.
Signals and Systems
This course deals with signals, systems, and transforms, from their theoretical mathematical foundations to practical implementation in circuits and computer algorithms. At the conclusion of ELEC 301, you should have a deep understanding of the mathematics and practical issues of signals in continuous and discrete time, linear time invariant systems, convolution, and Fourier transforms.
Naive Room Response Deconvolution
ELEC 301 project by William Howison, Chris Lamontagne, Bryce Luna, and David Newell. Given the output of a system and the system characteristics we can determine the input. We will determine the system characteristics of two rooms by playing an (approximate) impulse and recording the impulse response, and then we will play music into the same rooms and record the output. Using MATLAB we will deconvolve the output with the system response to determine a rough approximation of the input.
Microcontroller and Embedded Systems Laboratory
Basic introduction to microcontroller-based embedded systems development. Includes structured laboratory exercises in the following areas: assembly programming, C language programming, peripheral interfacing, interrupt management, structured programming, task scheduling, simple digital signal processing (DSP), and other related topics. This course assumes no prerequisites and is primarily intended for first and second year engineering students.
Xilinx University Program: Professor Workshop
Xilinx University Program: Professor Workshop
Digital Signal Processing Laboratory (ECE 420)
Development of real-time digital signal processing (DSP) systems using a DSP microprocessor; several structured laboratory exercises, such as sampling and digital filtering, followed by an extensive DSP project of the student's choice.
Digital Filter Structures and Quantization Error Analysis
Practical implementations of digital filters introduce errors due to finite-precision data and arithmetic. Many different structures, both for FIR and IIR filters, offer different trade-offs between computational complexity, memory use, precision, and error. Approximating the errors as additive noise provides fairly accurate estimates of the resulting quantization noise levels, which can be used both to predict the performance of a chosen implementation and to determine the precision needed to m
Digital Filter Design
An electrical engineering course on digital filter design.
Demo for Dummies
This course is designed for dummies to illustrate how even they can add new knowledge and distribute it world wide.
Control Systems Laboratory
This course introduces students to fundamental control systems theory with emphasis on design and implementation. These labs focus on technical implementation issues of classical control theory in the frequency domain and modern control theory in the state-space. Design and implementation for this course is done using National Instruments LabVIEW software and hardware for control and Educational Control Products (ECP) hardware for the plants.
Connexions Tutorial and Reference (Japanese version)
Connexions Tutorial and Reference in Japanese.
Concept Development Studies in Chemistry
"Concept Development Studies in Chemistry" is an on-line textbook for an Introductory General Chemistry course. Each module develops a central concept in Chemistry from experimental observations and inductive reasoning. This approach complements an interactive or active learning teaching approach.
Computational Sciences Lecture Series at UW-Madison
The goal of the Computational Sciences Lecture Series (CSLS) is to bring together researchers from mathematics (pure and applied), computer science, physics, and engineering to promote cross-fertilization between these fields and to establish computational science as an active research discipline at UW-Madison. The CSLS will consist of several half-day meetings during each year, each meeting consisting of three lectures by distinguished researchers, grouped around a common theme.
CNXML Tutorial
A brief tutorial on CNXML - an XML language by Connexions
Bios 533 Bioinformatics
Computer laboratory modules for the Introduction to Bioinformatics course. This course is designed for the beginning graduate student or advanced undergraduate in the biosciences. The goal is to introduce the student to various biologically relevant databases, methods to effectively search the databases, and an overall view of the various aspects of computational biology.
Bioinformatics- UH course
This is an introduction to the bioinformatics website provided by the National Center for Biotechnology Information (NCBI). It includes an overview of the basic mission of NCBI and an introduction to the most commonly used biological databases available on the website and the tools for viewing and analyzing the data.
Audio Localization
This course has been created as an introduction to audio localization, and how beamforming can be applied in a real-time environment.
Array Signal Processing
This is our ELEC 301 Project for the Fall 2004 semester. We implemented a uniform linear array of six microphones. We then sampled the data and analyzed it in LabVIEW in order to listen in one direction. We also explored listening for a particular frequency and its direction.
