Difference between revisions of "Workshops/BCH2024 2017"

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==Preparation==
 
==Preparation==
  
You need to acquire the basics over the Christmas breaks through a series of tutorials and preparatory reading.
+
You need to acquire the basics over the Christmas break through a series of tutorials and preparatory reading.
  
(Details and links to be announced)
+
{{task|1 =
  
 
* Work through the [[R_tutorial|'''Introductory R Tutorial]] – this includes installation of '''R''', RStudio and git.
 
* Work through the [[R_tutorial|'''Introductory R Tutorial]] – this includes installation of '''R''', RStudio and git.
 
* Read '''[[Netiquette]]''' for the course mailing list.
 
* Read '''[[Netiquette]]''' for the course mailing list.
 
* Read [http://adv-r.had.co.nz/Reproducibility.html "How to write a reproducible example"] and [http://stackoverflow.com/questions/5963269/how-to-make-a-great-r-reproducible-example "How to make a great R reproducible example"].
 
* Read [http://adv-r.had.co.nz/Reproducibility.html "How to write a reproducible example"] and [http://stackoverflow.com/questions/5963269/how-to-make-a-great-r-reproducible-example "How to make a great R reproducible example"].
* (Some introductory tutorials to bioinformatics still to be posted)
+
* In RStudio, create a '''New Project''', cloned from a GitHub repository. The repository URL is <code><nowiki>https://github.com/hyginn/R_Exercise-Bioinformatics</nowiki></code>. Create this in the same way as you created the <code>R_Exercises-BasicSetup</code> project for the [[R_tutorial#Git_Version_control|'''R'''-tutorial]]. The scripts in that project are loosely interleaved with the introductory tutorials to bioinformatics below. I will post the scripts as I develop them and let you know when you can ''pull'' updated versions.
 +
* Work through the following introductory tutorials to bioinformatics (to be updated):
 +
** [[Bioinformatics_Introduction_Data|'''Data''']]
 +
** ''Sequence'' <!-- [[Bioinformatics_Introduction_Sequence|'''Sequence''']] -->
 +
** ''Structure'' <!-- [[Bioinformatics_Introduction_Structure|'''Structure''']] -->
 +
** ''Phylogeny'' <!-- [[Bioinformatics_Introduction_Phylogeny|'''Phylogeny''']] -->
 +
** ''Function'' <!-- [[Bioinformatics_Introduction_Function|'''Function''']] -->
 +
 
 +
}}
  
  
 
{{Vspace}}
 
{{Vspace}}
 
  
 
==Notes==
 
==Notes==

Revision as of 16:16, 30 December 2016

BCH2024 - Biological Data Analysis with R


 

This is a new course module and information on this page is currently under development. If you have questions please contact me.

boris.steipe@utoronto.ca



The Course

BCH2024 - Biological Data Analysis with R is a module in the Focussed Topics offerings of the Department of Biochemistry. It is an intensive, short-course with a focus on practical data analysis. We will meet in six sessions:


Thursday, January 12 2017 – Data
(reading data, subsetting, filtering; designing data models)
Friday, January 13 2017 – Feature extraction
(descriptive statistics; dimension reduction)
Monday, January 16 2017 - Modeling
(linear and non-linear regression; correlation)
Thursday, January 19 2017 – Graphs and Networks
(graph representations; graph metrics)
Friday, January 20 2017 – Clustering and Classification
(hierarchical and partition clustering; cluster quality metrics)
Monday, January 23 2017 – Machine Learning
(common approaches; cross-validation)


 

Each class meeting will have substantial, required pre-reading and will be complemented with extensive assignments.


 

General

The amount and density of material requires a very significant time comment.

  • Do not take this course if you can't devote time over the Christmas break to go through a series of introductory tutorials.
  • Do not take this course if you can't dedicate the full two weeks from January 13 to 23 to it. You need to free your calendar from conferences, lab-presentations, committee meetings and the like.
  • Do not take this course if you can't be present for all six class sessions. We are on a tight schedule for evaluations and there will be no make-up opportunities.

Please realize that all available course spots are booked and there is a waiting list. Do not block space that will prevent others from taking the course if you have any doubt that you will take this course in it's entirety.

I repeat: do not enrol in this course if there is any chance you will drop it. This is going to be a hard course with a heavy workload. Be fair to others.


Coordinator

Boris Steipe


 



 

Dates & Times

Winter term 2017, M R F 17:00 to 19:00.

First class meeting: Thursday, January 12.


 

Location

TBD


 

Prerequisites

Suitable for students without prior programming experience, however you must be willing to put in the time to learn the R programming language within the course.

You must have access to the Internet via your own computer, preferably set up to work through a wireless connection. If at all possible, get a Linux or Mac OSX computer.


 

Grading and Activities

 
Activity Weight
5 in-class quizzes 50 marks (5 x 10)
Four hand-in tasks 40 marks
Participation 10 marks
Total 100 marks


 
  • Quizzes will relate to previous weeks' assignments and current weeks' pre-reading.
  • Hand-in tasks will cover exploratory perspectives of the material; contents to be jointly decided in class.
  • Participation means active, well-prepared contributions to discussions in-class and on the mailing list.


 

Preparation

You need to acquire the basics over the Christmas break through a series of tutorials and preparatory reading.

Task:

  • Work through the Introductory R Tutorial – this includes installation of R, RStudio and git.
  • Read Netiquette for the course mailing list.
  • Read "How to write a reproducible example" and "How to make a great R reproducible example".
  • In RStudio, create a New Project, cloned from a GitHub repository. The repository URL is https://github.com/hyginn/R_Exercise-Bioinformatics. Create this in the same way as you created the R_Exercises-BasicSetup project for the R-tutorial. The scripts in that project are loosely interleaved with the introductory tutorials to bioinformatics below. I will post the scripts as I develop them and let you know when you can pull updated versions.
  • Work through the following introductory tutorials to bioinformatics (to be updated):
    • Data
    • Sequence
    • Structure
    • Phylogeny
    • Function


 

Notes