Presentation is loading. Please wait.

Presentation is loading. Please wait.

Hadamard Transform Imaging Paul Holcomb Tasha Nalywajko Melissa Walden.

Published byRussell Francis Modified over 8 years ago

Similar presentations

Presentation on theme: "Hadamard Transform Imaging Paul Holcomb Tasha Nalywajko Melissa Walden."— Presentation transcript:

1 Hadamard Transform Imaging Paul Holcomb Tasha Nalywajko Melissa Walden

2 Problem Definition Current 3D spectral imaging systems are relatively slow and possess low resolution Hadamard multiplexing greatly enhances signal to noise ratio, thus enhancing resolution Use of a digital micro-mirror device makes implementation of the Hadamard transform very fast

3 Hypothesis Implementation of the Hadamard transform in a spectral imaging system by using a digital micro- mirror device will decrease the amount of time necessary to acquire an image and increase the spatial and spectral resolution of the image. Faster, more accurate spectral imaging will allow for better differentiation of tissue during brain tumor resectioning and increase survival rates.

4 3D Spectral Imaging Techniques - Scanning Wavelength Scanning http://www.cri-inc.com/instruments/data/pdf/American%20Laboratory%202000.pdf Line Scanning http://www.lightforminc.com/Technology/ANIMATION/animation.html

5 3D Spectral Imaging Techniques - Multiplexing Fourier Transform http://scienceworld.wolfram.com/physics/FourierTransformSpectrometer.html Wuttig and Riesenburg, “Sensitive Hadamard Transform Imaging Spectrometer with a simple MEMS” Hadamard Transform

6 Benefits of Hadamard Multiplexing Decreased image acquisition time vs. scanning techniques Increased signal to noise ratio  √n for Hadamard matrix  (√n)/2 for S matrix Wuttig and Riesenburg, “Sensitive Hadamard Transform Imaging Spectrometer”

7 What do we want? Focus a 25 mm square into a 10 mm square Bounce the square with specific pixels at specific angles (apply Hadamard matrix) Compress the light in one direction  line Separate the line by wavelength Goal: Capture the spectrum of the line

8 Stage 1 – Compress image

9 Digital Micro-Mirror Device http://www.ostl.ece.uvic.ca/IMAGES/emiod.png

10 Stage 2 – Compress into a line

11 Drawn to scale…

12 Stage 1

13 Construction

14 Lens System with Testing Lens

15 Testing of Stage 1

16 Testing with Square Source

17 Why is this important? 71% mortality rate for diagnosed brain tumors Correlation between complete resectioning of tumors and improved prognosis Complete resectioning requires knowing the location of the tumor, especially tumor margins Imaging in a clinical setting should be fast

18 Future Directions Finish construction and testing by mid- January Implement 2 leg system (Full Hadamard) Miniaturization Thanks from Group 10!

Download ppt "Hadamard Transform Imaging Paul Holcomb Tasha Nalywajko Melissa Walden."

Similar presentations

Astronomy Notes to Accompany the Text

Astronomy Notes to Accompany the Text
Time-of-flight measurement of ion energy Tim Freegarde Dipartimento di Fisica Università di Trento Italy.

Time-of-flight measurement of ion energy Tim Freegarde Dipartimento di Fisica Università di Trento Italy.
Mobile Phone-Based Detection of Neonatal Jaundice Oral Presentation #1 MobileMed Enterprises Christina Baker Giselle Fontela Pierce Jones Brendan Lynch.

Mobile Phone-Based Detection of Neonatal Jaundice Oral Presentation #1 MobileMed Enterprises Christina Baker Giselle Fontela Pierce Jones Brendan Lynch.
Digital Image Processing

Digital Image Processing
CS-MUVI Video compressive sensing for spatial multiplexing cameras Aswin Sankaranarayanan, Christoph Studer, Richard G. Baraniuk Rice University.

CS-MUVI Video compressive sensing for spatial multiplexing cameras Aswin Sankaranarayanan, Christoph Studer, Richard G. Baraniuk Rice University.
RAD 350 Chapter 17Digital Rad Tech. Spatial Resolution – ability to distinguish small items in close proximity with near the same atomic mass density Spatial.

RAD 350 Chapter 17Digital Rad Tech. Spatial Resolution – ability to distinguish small items in close proximity with near the same atomic mass density Spatial.
Spectrometer Sam Valerio. Shows spectral distribution of a light source in the form of a graph. This specific one in the Imaging Science Center is called.

Spectrometer Sam Valerio. Shows spectral distribution of a light source in the form of a graph. This specific one in the Imaging Science Center is called.
INTERFEROMETER TO MEASURE DISPERSION Michelson Interferometer response.

INTERFEROMETER TO MEASURE DISPERSION Michelson Interferometer response.
Motivation Spectroscopy is most important analysis tool in all natural sciences Astrophysics, chemical/material sciences, biomedicine, geophysics,… Industry.

Motivation Spectroscopy is most important analysis tool in all natural sciences Astrophysics, chemical/material sciences, biomedicine, geophysics,… Industry.
Topics spatial encoding - part 2. Slice Selection  z y x 0 imaging plane    z gradient.

Topics spatial encoding - part 2. Slice Selection  z y x 0 imaging plane    z gradient.
POSTER TEMPLATE BY: www.PosterPresentations.com Image Processing in Spectral Domain Optical Coherence Tomography (SD-OCT) Vasilios Morikis 1,2, Dan DeLahunta.

POSTER TEMPLATE BY: Image Processing in Spectral Domain Optical Coherence Tomography (SD-OCT) Vasilios Morikis 1,2, Dan DeLahunta.
ECE 472/572 - Digital Image Processing Lecture 5 - Image Enhancement - Frequency Domain Filters 09/13/11.

ECE 472/572 - Digital Image Processing Lecture 5 - Image Enhancement - Frequency Domain Filters 09/13/11.
Digital Image Processing: Revision

Digital Image Processing: Revision
3. Introduction to Digital Image Analysis

3. Introduction to Digital Image Analysis
Lecture 13 The frequency Domain (1)

Lecture 13 The frequency Domain (1)
Digital Images The nature and acquisition of a digital image.

Digital Images The nature and acquisition of a digital image.
1 Basics of Digital Imaging Digital Image Capture and Display Kevin L. Lorick, Ph.D. FDA, CDRH, OIVD, DIHD.

1 Basics of Digital Imaging Digital Image Capture and Display Kevin L. Lorick, Ph.D. FDA, CDRH, OIVD, DIHD.
HDTV (High Definition Television). HDTV History Early 1980’s: –Japan created analog HDTV Mid-1980s: –US, trying to stay competitive, decided to go digital.

HDTV (High Definition Television). HDTV History Early 1980’s: –Japan created analog HDTV Mid-1980s: –US, trying to stay competitive, decided to go digital.
UVP BioImaging Systems Solutions for the Science of Life Digital CCD Cameras 101.

UVP BioImaging Systems Solutions for the Science of Life Digital CCD Cameras 101.
How the Camera Works ( both film and digital )

How the Camera Works ( both film and digital )

Similar presentations

Ads by Google