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UCSB

ECE 130A Signal Analysis and Processing (F08, F09, F10, F11)

Analysis of continuous time linear systems in the time and frequency domains. Superposition and convolution. Bilateral and unilateral Laplace transforms. Fourier series and Fourier transforms. Filtering, modulation, and feedback.
ECE 130A course website on GauchoSpace.

 

ECE 278B Principles of Biological Microscopy (W10, W11, W12)

An introduction to the working principles of common and emerging bio-microscopy techniques from a signal processing perspective. (Formerly ECE 594Q)
ECE 278B course website on GauchoSpace.

 

ECE 258B Multirate Digital Signal Processing (aka Wavelets; S10, S11, S12)

Multirate digital filter theory, polyphase decomposition, decimator and interpolator design, efficient Implementations, orthogonal transforms, wavelet transform in L2 and l2, analysis and synthesis filter banks, quadrature mirror filter banks, subband decomposition, applications to imaging, noise reduction, sparse representations and compressive sensing.
ECE 258B course website on GauchoSpace.

 

ECE 148 Applications of Signal Analysis and Processing (Spring 2008)

A sequence of engineering applications of signal analysis and processing techniques; in communications, image processing, analog and digital filter design, signal detection and parameter estimation, holography and tomography, Fourier optics, and microwave and acoustic sensing.

 

ECE 594Q Computational Bio-Microscopy (Winter 2008, Winter 2009)

An introduction to the working principles of common and emerging bio-microscopy techniques from a signal processing perspective. Starting in 2010, this course was assigned a permanent number, and has been renamed: ECE 278B Principles of Biological Microscopy.


Caltech

Bi 227 Methods in Modern Microscopy

(with Scott Fraser, Fall 2007) Practical aspects of widefield and confocal microscopy: image acquisition, processing, and analysis.


Summer schools

IPAM Workshop: Heart Modeling: Image Acquisition, Segmentation, Modeling and Analysis

M. Liebling, "Imaging the Developing Embryonic Heart: Combining Fast Confocal Microscopes with Four-Dimensional Reconstruction Techniques," IPAM workshop, Heart Modeling: Image Acquisition, Segmentation, Modeling and Analysis, University of California, Los Angeles, CA, USA, February 6-10, 2006.

 

EMBO World Practical Course: "Imaging in 3-D and the F-techniques: FRET, FCS, FLIM and FRAP,"

17-29 June 2007, Singapore, SG
Practical Module: "Rapid Line-Scanning Confocal Microscopy for in vivo Hemodynamics Imaging " Research Presentation: "Dynamic 4D Imaging and Analysis of the Developing Embryonic Heart"

 

INSERM Summer School Workshop: Dynamic and functional imaging of live cells: from the detection of single molecules to the visualization of tissues

M. Liebling, S. E. Fraser, "New Developments in Fast Confocal Microscopy Applied to Biological Systems, " in Atelier INSERM N° 161, La Londe-les-Maures, France, June 30-July 2, 2005

Other Tutorials

ImarisXT Quickstart Tutorial

A short, step-by-step tutorial on how to write Matlab scripts that interact with ImarisXT.