The Faculty of Mechanics and Mathematics of Lomonosov Moscow State University is pleased to announce the 1^{st} MSU International School on Applied Mathematics and Mechanics.

Aug 11 - Aug 18, 2019

10.00 – 18.00

Lomonosov

Moscow State University

Moscow State University

Sections

Algorithms of integrated

INS-GNSS navigation systems

[for specialists]

INS-GNSS navigation systems

[for specialists]

Algorithms of integrated

INS-GNSS navigation systems

[for pre-masters]

INS-GNSS navigation systems

[for pre-masters]

Mechanics of composite materials

[for pre-masters]

[for pre-masters]

Important dates

1 June 2019

Opening registration

3 July 2019

Closing registration

5 July 2019

Confirmation of participance

11-12 August 2019

Arrival

12 August 2019

Opening

12-16 August 2019

Summer school in mechanics

17 August 2019

Сultural program

17-18 August 2019

Departure

Heads of Summer school

Andrew A. Golovan

Head of section "Algorithms of INS-GNSS navigation systems"

Head of the Laboratory of Control and Navigation, Faculty of Mechanics and Mathematics, Lomonosov Moscow State University.

Doctor of science in mathematics and physics.

Fields of research:

— inertial navigation systems (INS),

— global navigation satellite systems (GNSS),

— integrated INS-GNSS systems,

— calibration problem in inertial navigation,

— INS alignment problem,

— airborne gravimetry.

Doctor of science in mathematics and physics.

Fields of research:

— inertial navigation systems (INS),

— global navigation satellite systems (GNSS),

— integrated INS-GNSS systems,

— calibration problem in inertial navigation,

— INS alignment problem,

— airborne gravimetry.

Sergey V. Sheshenin

Head of section "Mechanics of composite materials"

Professor of Department of Plasticity. Faculty of Mechanics and Mathematics, Lomonosov Moscow State University. Doctor of science in mathematics and physics.

Fields of research:

— mechanics of composite materials,

— nonlinear mechanics of composite materials and deformable solids,

— homogenization and asymptotic methods,

— theory of defining relations,

— tire mechanics.

Fields of research:

— mechanics of composite materials,

— nonlinear mechanics of composite materials and deformable solids,

— homogenization and asymptotic methods,

— theory of defining relations,

— tire mechanics.

Summer school Program

12-16 August 2019

Algorithms of INS-GNSS navigation systems

[for specialists]

[for specialists]

1)

Basics of inertial navigation.

2)

Introduction to the method of inertial navigation.

3)

Method of inertial navigation.

4)

The problem of strapdown inertial navigation system initial alignment.

5)

The problem of IMU calibration

6)

The problem of trajectory parameters simulation with simultaneous simulation ideal measurements of inertial sensors.

7)

INS error equations.

8)

Introduction to GNSS navigation.

9)

INS-GNSS integration problem.

10)

Application of estimation methods to INS-GNSS integration.

Basics of inertial navigation.

2)

Introduction to the method of inertial navigation.

3)

Method of inertial navigation.

4)

The problem of strapdown inertial navigation system initial alignment.

5)

The problem of IMU calibration

6)

The problem of trajectory parameters simulation with simultaneous simulation ideal measurements of inertial sensors.

7)

INS error equations.

8)

Introduction to GNSS navigation.

9)

INS-GNSS integration problem.

10)

Application of estimation methods to INS-GNSS integration.

Algorithms of INS-GNSS navigation systems

[for pre-masters]

[for pre-masters]

1)

Basics of inertial navigation.

2)

Introduction to the method of inertial navigation.

3)

Method of inertial navigation.

4)

The problem of strapdown inertial navigation system initial alignment.

5)

The problem of IMU calibration

6)

The problem of trajectory parameters simulation with simultaneous simulation ideal measurements of inertial sensors.

7)

INS error equations.

8)

Introduction to GNSS navigation.

9)

INS-GNSS integration problem.

Basics of inertial navigation.

2)

Introduction to the method of inertial navigation.

3)

Method of inertial navigation.

4)

The problem of strapdown inertial navigation system initial alignment.

5)

The problem of IMU calibration

6)

The problem of trajectory parameters simulation with simultaneous simulation ideal measurements of inertial sensors.

7)

INS error equations.

8)

Introduction to GNSS navigation.

9)

INS-GNSS integration problem.

Training for entrance exams to master programs

Mechanics of composite materials

[for pre-masters]

[for pre-masters]

1)

Introduction to Composites. Composites' Applications Overview. Composites in Engineering Structures and Nature. History of Development.

2)

Types of Composites. Effective Properties Definition. Spatial Averaging. Homogenization. Experimental Measuring.

3)

Effective Elastic Moduli. Voigt – Reiss Estimates and Inequalities. Mixture Formulas. Hashin Bounds for the Effective Elastic Moduli.

4)

Dispersed Composites. Eshelby Tensor. Most known Approximate Formulas for Elastic Effective Moduli.

5)

Long Fibre and Short Fibre Composites. Theories of Homogenization.

6)

Laminates. Classical Laminate Theory.

7)

Rubber-Cord Compostes. Effective Moduli.

8)

Visco-Elastic Properties of Rubber-Cord Composites.

9)

Effective Visco-Elastic Properties of Rubber-Cord Composites. Static and Oscillation Tests.

10)

Failure Theories. Delamination. Inter-Layer Failure Criteria.

Introduction to Composites. Composites' Applications Overview. Composites in Engineering Structures and Nature. History of Development.

2)

Types of Composites. Effective Properties Definition. Spatial Averaging. Homogenization. Experimental Measuring.

3)

Effective Elastic Moduli. Voigt – Reiss Estimates and Inequalities. Mixture Formulas. Hashin Bounds for the Effective Elastic Moduli.

4)

Dispersed Composites. Eshelby Tensor. Most known Approximate Formulas for Elastic Effective Moduli.

5)

Long Fibre and Short Fibre Composites. Theories of Homogenization.

6)

Laminates. Classical Laminate Theory.

7)

Rubber-Cord Compostes. Effective Moduli.

8)

Visco-Elastic Properties of Rubber-Cord Composites.

9)

Effective Visco-Elastic Properties of Rubber-Cord Composites. Static and Oscillation Tests.

10)

Failure Theories. Delamination. Inter-Layer Failure Criteria.

Training for entrance exams to master programs

Tuition fee

Includes lectures, seminars, practices, coffee breaks, cultural program.

Not including travel, accommodation, lunch, dinner.

Not including travel, accommodation, lunch, dinner.

Registration

To register for the Summer school fill in the registration form

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