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Input

book: Create a structured PDF document with headings, chapters, etc.
webpage: Specifies that the HTML sources are unstructured (plain web pages.) A page break is inserted between each file or URL in the output.
continuous: Specifies that the HTML sources are unstructured (plain web pages.) No page breaks are inserted between each file or URL in the output.
Title of the document for the front page.
Extract the first heading of the document and use it as title. If checked the title field has no effect.
The title image or HTML page. These file has to be an attachments!
Specify document version to be displayed on the title page.
Intellectual property owner of this document.
Copyright notice for this document.
Information about who and when modified the document are applied at the end.

Output

Specifies the output format.
Grayscale document  Title page
Compression :   JPEG big images 

Page

 
User defined page size 
Choose one of the predefined standard sizes or select user defined.
Specifies the page size using a standard name or in points (no suffix or ##x##pt), inches (##x##in), centimeters (##x##cm), or millimeters (##x##mm).
Set the target browser width in pixels (400-1200). This determines the page scaling of images.
   2-Sided   Landscape
   
   
   
Specifies the margin size using points (no suffix or ##x##pt), inches (##x##in), centimeters (##x##cm), or millimeters (##x##mm). Keep empty for default value.
Left
Middle
Right
Sets the page header to use on body pages.
Left
Middle
Right
Sets the page footer to use on body pages.

Contents

Sets the number of levels in the table-of-contents. Empty for unlimited levels.
   Numbered headings Check to number all of the headings in the document.
Sets the title for the table-of-contents. Empty for default title.
Left
Middle
Right
Sets the page header to use on table-of-contents pages.
Left
Middle
Right
Sets the page footer to use on table-of-contents pages.

Colors

Enter the HTML color for the body (background).
Enter the image file for the body (background). These file has to be an attachments!
Enter the HTML color for the text.
Sets the color of links.
Enables generation of links in PDF files.

Fonts

Set the default size of text.
Set the spacing between lines of text.
Choose the default typeface (font) of text.
Choose the default typeface (font) of headings.
Set the size of header and footer text.
Choose the font for header and footer text.
Change the encoding of the text in document.
Check to embed font in the output file.

PDF

Controls the initial viewing mode for the document.
Document: Displays only the docuemnt pages.
Outline: Display the table-of-contents outline as well as the document pages.
Full-screen: Displays pages on the whole screen; this mode is used primarily for presentations.
Controls the initial layout of document pages on the screen.
Single: Displays a single page at a time.
One column: Displays a single column of pages at a time.
Two column left/right: Display two columns of pages at a time; the first page is displayed in the left or right column as selected.
Choose the initial page that will be shown.

Security

Check to number all of the headings in the document.
 Print   Modify
 Copy   Annotate
Specifies the document permissions.
Specifies the user password to restrict viewing permissions on this PDF document. Empty for no encryption.
Specifies the owner password to control who can change document permissions etc. If this field is left blank, a random 32-character password is generated so that no one can change the document.

Expert

Specify language to use for date and time format.
Shrink code blocks on page.
Show line numbers for code blocks.
Make spaces visable by dots (·) instead of white spaces.
Make line breaks visable by a extra character (¶) at the end.
Enable this feature if you searching for problems or intent to report a bug report

About

Version 2.4.2 (MoinMoin 1.9.9)


MoinMoin - Generate PDF document using HTMLDOC

This action script generate PDF documents from a Wiki site using
the HTMLDOC (http://www.htmldoc.org) software packages which has
to be preinstalled first.

Copy this script in your's MoinMoin action script plugin directory.

Thanks goes to Pascal Bauermeister who initiated the implementaion.
Lot of things changes since then but the idear using HTMLDOC is the
main concept of this implementation.

Please visit the homepage for further informations:
http://moinmo.in/ActionMarket/PdfAction

@copyright: (C) 2006 Pascal Bauermeister
@copyright: (C) 2006-2010 Raphael Bossek <raphael.bossek@solutions4linux.de>
@license: GNU GPL, see COPYING for details

       

location: Projects / TFG-MEDICAL-IMAGE-ASSISTANT

TFG Medical Image Assistant

STATUS: OPEN

TFG FitSM

Application of deep learning in medical images analysis.

Objective

Implement and deploy an application... for medical images. The goal is to get a virtual assistant for medical images.

Responsible

@IFCA: Lara Lloret <lloret@ifca.unican.es>

@Alumna: Carmen Garcia Bermejo <cgb60@alumnos.unican.es>

Requirements

Duration

TFG will be presented by January 2019 at latest

Documentation

What is Deep Learning?

It is a set of algorithms of machine learning that tries to model high-level abstractions in data using architectures composed of multiple non-linear transformations. To sum up, it is a way of learning an optimal representation for given samples in many phases. This representation that is done in layers, is learned through models (neural networks).

So... How it works?

DICOM Images

It is possible to check some medical images in the following links, in order to be used as the training of the convolutional neural network. More detailed in https://grid.ifca.es/wiki/Projects/DeepMedical/.

These are DICOM archives. That is, Digital Imaging and Communications in Medicine. DICOM it is used both as a communications protocol and a file format, so it can keep medical information with the patient's information, in one file.

Project Tracking

Tracking of the project. How will it be done. Add subsections as needed

Meetings

6-Nov-2017 meeting to check progress

- python course started

- wiki TFG started

- deep learning intro (Master Data Science)

13-Nov-2017 meeting to check progress

- finished deep learning intro

- starting phyton learning (using a classifier program of numbers in Jupyter)

20-Nov-2017 meeting to check progress

- Classifier of cat and dogs

4-Dic-2017 meeting to check progress

- Starting Standford course of CNN

11-Dic-2017 meeting to check progress

- Piano and guitar classifier

18-Dic-2017 meeting to check progress

- Piano and guitar classifier

Papers found

About the used of deep learning in '''chest''' medical images analysis:

Application of deep learning in other medical images analysis:

Using Convolution neural network in other applications:

Standford classes

CS231n Lecture 1: Introduction and Historical Context

A brief history of computer vision, from the eyes evolution that takes millions of years to nowdays. Just taking a picture from a 10 MPX camera, has a potencial combination of pixels to form a picture in that is bigger than the number of atoms in the Universe.

CS321 overview, focused on image classification using CNN, which is a type of deep learning architecture.

The importance of data, that is the driving force for a high capacity model to enable the end-to-end trainning to help avoid overfitting.

https://www.youtube.com/watch?v=2uiulzZxmGg

CS231n Lecture 2: Data-driven approach, kNN, Linear Classification 1

Image classification and some of its challenges: illumination, deformation... Data-driven approach:

1- Collect a dataset of images and labels.

2- Use machine learning to train an image classifier

3- Evaluate the classifier

K-Nearest Neighbour Classifier (it finds the k nearest images, for eg: a five nearest neighbour will give us the five most similar images in the training data).

Linear Classification.

https://www.youtube.com/watch?v=8inugqHkfvE

CS231n Lecture 3: Linear Classification 2, Optimization

Loss function.

Multiclass SVM loss (given an example (xi,yi) where xi is the image and where yi is the (integer) label, and using the shorthand for the scores vector: s=f(xi, W))).

Weight regularization: R(W)

Optimization

In summary:

- Numerical gradient: approximate, slow, easy to write. - Analytic gradient: exact, fast, error-prone

Gradient descent

https://www.youtube.com/watch?v=qlLChbHhbg4

CS231n Lecture 4: Backpropagation, Neural Networks 1

https://www.youtube.com/watch?v=i94OvYb6noo