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{{Box|Title=News and announcements|Content={{News}}<!--''[[News|more]]''-->}}
 
{{Box|Title=News and announcements|Content={{News}}<!--''[[News|more]]''-->}}
  
==Mathematical methods of forecasting, Fall 2022==  
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==My first scientific paper, Spring 2023==
This course delivers methods of model selection in machine learning and forecasting. The modeling data are videos, audios, encephalograms, fMRIs and another measurements in natural science. The models are linear, tensor, deep neural networks, and neural ODEs. The practical ''examples'' are brain-computer interfaces, weather forecasting and various spatial-time series forecasting. The ''lab works'' are organized as paper-with-code reports. [[Mathematical forecasting|See course page]]
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===Homework for week 1===
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At the bottom of the pages
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*[[Week 0|Week 0: Come in]]
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*[[Week 1|Week 1: Set the toolbox]]
  
==My first scientific paper, Spring 2023==
 
 
This course produces student research papers. It gathers research teams. Each team joins a student, a consultant, and an expert. The student is a project driver who wants to plunge into scientific research activities. The graduate student consultant conducts the research and helps the student. The expert, a professor, states the problem and enlightens the road to the goal. The projects start in February and end in May 2023, according to the [[Course schedule|schedule]].
 
This course produces student research papers. It gathers research teams. Each team joins a student, a consultant, and an expert. The student is a project driver who wants to plunge into scientific research activities. The graduate student consultant conducts the research and helps the student. The expert, a professor, states the problem and enlightens the road to the goal. The projects start in February and end in May 2023, according to the [[Course schedule|schedule]].
  
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* [http://bit.ly/M1_2019_674 Group 674, spring 2019]
 
* [http://bit.ly/M1_2019_674 Group 674, spring 2019]
 
* [http://bit.ly/M1_2019_694 Group 694, spring 2019]
 
* [http://bit.ly/M1_2019_694 Group 694, spring 2019]
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==Mathematical methods of forecasting, Fall 2022==
 +
This course delivers methods of model selection in machine learning and forecasting. The modeling data are videos, audios, encephalograms, fMRIs and another measurements in natural science. The models are linear, tensor, deep neural networks, and neural ODEs. The practical ''examples'' are brain-computer interfaces, weather forecasting and various spatial-time series forecasting. The ''lab works'' are organized as paper-with-code reports. [[Mathematical forecasting|See course page]]
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<!--*[http://bit.ly/m1p_file2discuss Upload a file to discussion]
 
<!--*[http://bit.ly/m1p_file2discuss Upload a file to discussion]

Revision as of 15:02, 9 February 2023

alt Maths&AI MIPT-UGA student workshop

 

News and announcements

Fall 2024 on September 14 — The Art of Scientific Research

Fall 2024 on September 13 — Functional Data Analysis

Before January 2025 — My fist scientific paper: Suggest your project here

Spring 2025 on February 6th — My fist scientific paper starts

See results of 2024 —  on GitHub

My first scientific paper, Spring 2023

Homework for week 1

At the bottom of the pages

This course produces student research papers. It gathers research teams. Each team joins a student, a consultant, and an expert. The student is a project driver who wants to plunge into scientific research activities. The graduate student consultant conducts the research and helps the student. The expert, a professor, states the problem and enlightens the road to the goal. The projects start in February and end in May 2023, according to the schedule.

Links


History

Mathematical methods of forecasting, Fall 2022

This course delivers methods of model selection in machine learning and forecasting. The modeling data are videos, audios, encephalograms, fMRIs and another measurements in natural science. The models are linear, tensor, deep neural networks, and neural ODEs. The practical examples are brain-computer interfaces, weather forecasting and various spatial-time series forecasting. The lab works are organized as paper-with-code reports. See course page