Difference between revisions of "MSc: Advanced Statistics"

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=== Prerequisite subjects ===
 
=== Prerequisite subjects ===
  +
* Excellent knowledge of probability and statistics.
* CSE329 - Empirical Methods
 
   
 
=== Prerequisite topics ===
 
=== Prerequisite topics ===
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! Grade !! Range !! Description of performance
 
! Grade !! Range !! Description of performance
 
|-
 
|-
| A. Excellent || 90-100 || -
+
| A. Excellent || 85-100 || -
 
|-
 
|-
| B. Good || 75-89 || -
+
| B. Good || 70-84 || -
 
|-
 
|-
| C. Satisfactory || 51-74 || -
+
| C. Satisfactory || 50-69 || -
 
|-
 
|-
| D. Poor || 0-50 || -
+
| D. Poor || 0-49 || -
 
|}
 
|}
   
 
=== Minimum Requirements For Passing The Course ===
 
=== Minimum Requirements For Passing The Course ===
   
There are four requirements for passing this course:
+
There are two requirements for passing this course:.
# You must attend all labs.
+
# You must have at least 50% on the Final Exam.
# You must submit all lab reports.
+
# You must have at least 50% of the overall grade.
# You must have at least 51% on the Final Exam.
 
# You must have at least 51% of the overall grade.
 
   
 
=== Course activities and grading breakdown ===
 
=== Course activities and grading breakdown ===
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! Activity Type !! Percentage of the overall course grade
 
! Activity Type !! Percentage of the overall course grade
 
|-
 
|-
| Quiz during each lecture (weekly evaluations) || 15
+
| Quiz/Assignment during each lecture (weekly evaluations) || 20
 
|-
 
|-
| Labs classes (weekly evaluations) || 15
+
| Labs classes (weekly evaluations) || 20
 
|-
 
|-
 
| Midterm || 20
 
| Midterm || 20
 
|-
 
|-
| Final exam || 50
+
| Final exam || 40
 
|}
 
|}
  +
  +
  +
=== Plagiarism Rules ===
  +
  +
* If a student submits a solution to a weekly assignment/quiz and/or lab that is identical to the one submitted from another student, then both students will obtain the maximum points for this task but with the negative sign.
   
 
=== Recommendations for students on how to succeed in the course ===
 
=== Recommendations for students on how to succeed in the course ===
 
* Watch the video lecture and read the lecture notes before coming to the onsite lectures and to the labs.
 
* Watch the video lecture and read the lecture notes before coming to the onsite lectures and to the labs.
* Attend the onsite lectures
+
* Attend the onsite lectures and questions related to parts of the material that you find unclear.
  +
* Submit solutions to the weekly quizzes.
* Ask questions and provide answers to the questions during the onsite lectures.
 
* Attend all of the labs and submit all of the lab reports.
+
* Submit the weekly lab reports.
 
* Prepare seriously for the midterm exam.
 
* Prepare seriously for the midterm exam.
 
* Prepare seriously for the final exam.
 
* Prepare seriously for the final exam.
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= Teaching Methodology: Methods, techniques, & activities =
 
= Teaching Methodology: Methods, techniques, & activities =
 
== Activities and Teaching Methods ==
 
   
 
== Formative Assessment and Course Activities ==
 
== Formative Assessment and Course Activities ==
   
 
=== Ongoing performance assessment ===
 
=== Ongoing performance assessment ===
The performance will be assessed via weekly questions and weekly labs
+
The performance will be assessed via weekly quizzes and weekly labs.
   
 
=== Final assessment ===
 
=== Final assessment ===
   
The final assessment is in a written form. You mast have at least 51% on the final exam to pass the course.
+
The final assessment is in a written form. You mast have at least 50% on the final exam to pass the course.
   
 
=== The retake exam ===
 
=== The retake exam ===
The retake of the exam will be in oral form.
+
The retake of the exam will be in a written form.

Latest revision as of 12:12, 22 January 2024

Advanced Statistics

  • Course name: Advanced Statistics
  • Code discipline: DS-03
  • Subject area:

Short Description

This course in advanced statistics with a view toward applications in data sciences. It is intended for masters students who are looking to expand their knowledge of theoretical methods used in modern research in data sciences. The course presents some of the key probabilistic methods and results that may form an essential mathematical toolbox for a data scientist. This course places particular emphasis on random vectors, random matrices, and random projections. It teaches basic theoretical skills for the analysis of these objects, which include concentration inequalities, covering and packing arguments, decoupling and symmetrization tricks, chaining and comparison techniques for stochastic processes, combinatorial reasoning based on the VC dimension, and a lot more. This course integrates theory with applications for covariance estimation, semidefinite programming, networks, elements of statistical learning, error correcting codes, clustering, matrix completion, dimension reduction, sparse signal recovery, sparse regression, and more.

Prerequisites

Prerequisite subjects

  • Excellent knowledge of probability and statistics.

Prerequisite topics

Course Topics

Course Sections and Topics
Section Topics within the section
Concentration of sums of independent random variables
  1. Hoeffding’s inequality
  2. Chernoff ’s inequality
  3. Sub-gaussian distributions
  4. Sub-exponential distributions
Random vectors in high dimensions
  1. Concentration of the norm
  2. Covariance matrices and principal component analysis
Random matrices
  1. Nets, covering numbers and packing numbers
  2. Covariance estimation and clustering

Intended Learning Outcomes (ILOs)

What is the main purpose of this course?

The main purpose of this course is to present the fundamentals of high-dimensional statistics with applications to data science. The course presents some of the key probabilistic methods and results that may form an essential mathematical toolbox for a data scientist. This course places particular emphasis on random vectors, random matrices, and random projections. This course integrates theory with applications for covariance estimation, semidefinite programming, networks, elements of statistical learning, error correcting codes, clustering, matrix completion, dimension reduction, sparse signal recovery, sparse regression, and more.

ILOs defined at three levels

Level 1: What concepts should a student know/remember/explain?

By the end of the course, the students should be able to ...

  • Explain the difference between low-dimensional and high-dimensional data
  • Explain concentration inequalities and their application
  • Remember the main statistical properties of high-dimensional vectors and matrices

Level 2: What basic practical skills should a student be able to perform?

By the end of the course, the students should be able to ...

  • Perform basic Monte Carlo computations, such as Monte Carlo integration
  • Obtain simple but accurate bounds of complex statistical metrics
  • Apply the median of means estimator
  • Investigate simple statistics of social networks
  • Exploit the thin-shell phenomenon when analysing data
  • Apply data clustering and dimension reduction

Level 3: What complex comprehensive skills should a student be able to apply in real-life scenarios?

By the end of the course, the students should be able to ...

  • To understand the problems related to statistical analysis of data.
  • To apply theoretical statistics in real-life via computer simulations and thereby confirm or reject the correctness of the theoretical concepts.
  • To identify the correct statistical methods that needs to be applied to data in order to solve the given tasks in real-life.
  • To be able to generate and run experiments on random data samples.

Grading

Course grading range

Grade Range Description of performance
A. Excellent 85-100 -
B. Good 70-84 -
C. Satisfactory 50-69 -
D. Poor 0-49 -

Minimum Requirements For Passing The Course

There are two requirements for passing this course:.

  1. You must have at least 50% on the Final Exam.
  2. You must have at least 50% of the overall grade.

Course activities and grading breakdown

Activity Type Percentage of the overall course grade
Quiz/Assignment during each lecture (weekly evaluations) 20
Labs classes (weekly evaluations) 20
Midterm 20
Final exam 40


Plagiarism Rules

  • If a student submits a solution to a weekly assignment/quiz and/or lab that is identical to the one submitted from another student, then both students will obtain the maximum points for this task but with the negative sign.

Recommendations for students on how to succeed in the course

  • Watch the video lecture and read the lecture notes before coming to the onsite lectures and to the labs.
  • Attend the onsite lectures and questions related to parts of the material that you find unclear.
  • Submit solutions to the weekly quizzes.
  • Submit the weekly lab reports.
  • Prepare seriously for the midterm exam.
  • Prepare seriously for the final exam.

Resources, literature and reference materials

Open access resources

  • The lecture notes and the video lectures provided via Moodle are sufficient for passing this course with grade A.

Software and tools used within the course

  • You can use any software by your choice to perform the lab tasks.

Teaching Methodology: Methods, techniques, & activities

Formative Assessment and Course Activities

Ongoing performance assessment

The performance will be assessed via weekly quizzes and weekly labs.

Final assessment

The final assessment is in a written form. You mast have at least 50% on the final exam to pass the course.

The retake exam

The retake of the exam will be in a written form.