cv
M. Strutinsky CV
Basics
| Name | Mikhail Strutinsky |
| Label | Fullstack developer, scientist |
| mikhail.strutinsky@gmail.com | |
| Phone | (912) 123-4567 |
| Url | https://inpicksys.github.io// |
| Summary | A German-born theoretical physicist, widely ranked among the greatest and most influential scientists of all time |
Work
-
2011.02 - 2015.12 Software Developer
Verint, Chernovtsi
EFM – (Enterprise Feedback Management) - enterprise survey and feedback response management solution for actively managing customer and employee feedback programs. Designed for business users, Verint EFM includes multichannel surveying for capturing customer input across web, telephone, email, and mobile channels. EFM is solution for creating surveys using built-in templates or the solution's flexible survey editor. Customers can deploy, access, and retrieve surveys on a range of mobile devices. There is opportunity to deploy surveys offline or by using the web app, SMS, or a self-service kiosk
- C#
- Asp.Net Web Forms
- AJAX
- JavaScript/Telerik Ajax
- HTML
- CSS
- Perforce
- TeamCity
- SQL
- MS SQL SERVER
- Telerik automation framework
-
2005.12 - 2011.01 Scientist & Researcher
Thermoelectricity Institute, Chernovtsi
Researching & investigation. Developing special program products, modeling. Worked on developing automobile thermoelectric generators, coolers & sensors. Investigated Inverse problems of mathematical physics. PhD In Physics, specialization - "Physics of devices of elements and systems Thesis work: "Inverse problems of thermoelectricity"
- Inverse Problems
- Physics of devices of elements and systems
- Thermoelectricity
- Comsol
- C#
Education
-
2007.09 - 2010.09 Chernovtsi, Ukraine
Associate's degree
Associate's degree, Ukraine National Academy, Chernovtsi
Material Science specialization. Designing thermoelectric devices: generators, coolers & sensors.
- Material Science
- Physics
- Engineer
-
2000.09 - 2005.07 Chernovtsi, Ukraine
Awards
- 1921.11.01
Nobel Prize in Physics
Royal Swedish Academy of Sciences
The Nobel Prizes are five separate prizes that, according to Alfred Nobel's will of 1895, are awarded to 'those who, during the preceding year, have conferred the greatest benefit to humankind.'
Certificates
 | Learn Multithreading and Parallel Programming in C# and .Net | |
| Udemy | 2025-04-19 |
| | The Complete French Course : Learn French - Beginners | |
| Udemy | 2025-02-26 |
| | Noob to App Store - iPhone Apps with Swift, SwiftUI & iOS 15 | |
| Udemy | 2025-02-19 |
| | WebRTC - Create Zoom Clone Video Group Call Application | |
| Udemy | 2024-09-101 |
| | React Native - The Practical Guide [2025] | |
| Udemy | 2024-05-04 |
| | Python for Computer Vision with OpenCV and Deep Learning | |
| Udemy | 2024-02-18 |
| | 100 Days of Code: The Complete Python Pro Bootcamp | |
| Udemy | 2023-10-11 |
| | AWS Serverless APIs & Apps - A Complete Introduction | |
| Udemy | 2023-10-02 |
| | AWS Serverless APIs & Apps - A Complete Introduction | |
| Udemy | 2023-10-02 |
 | Smart Materials: Microscale and Macroscale Approaches | |
| Coursera | 2023-09-26 |
| | Nanotechnology: A Maker’s Course | |
| Coursera | 2023-07-03 |
| | Learn Parallel Programming with C# and .NET | |
| Udemy | 2023-05-22 |
| | Introduction to Concurrency in C# - Async and Parallelism | |
| Udemy | 2023-05-22 |
| | How Things Work: An Introduction to Physics | |
| Coursera | 2023-05-16 |
| | Deploy and Run Apps with Docker, Kubernetes, Helm, Rancher | |
| Udemy | 2023-05-16 |
| | FFmpeg - The Complete Guide | |
| Udemy | 2022-04-27 |
| | iOS & Swift - The Complete iOS App Development Bootcamp | |
| Udemy | 2022-02-28 |
| | React - The Complete Guide 2025 (incl. Next.js, Redux) | |
| Udemy | 2022-01-06 |
| | Vue - The Complete Guide (incl. Router & Composition API) | |
| Udemy | 2021-04-16 |
 | Основы перечислительной комбинаторики | |
| Stepik | 2020-08-01 |
| | Material Behavior | |
| Coursera | 2020-03-19 |
| | Electron for Desktop Apps: The Complete Developer's Guide | |
| Udemy | 2020-02-05 |
| | Materials Science: 10 Things Every Engineer Should Know | |
| Coursera | 2019-12-08 |
| | Introduction to High-Throughput Materials Development | |
| Coursera | 2019-12-05 |
| | Materials Data Sciences and Informatics | |
| Coursera | 2019-02-09 |
| | Машинное обучение и анализ данных | |
| Coursera | 2019-01-01 |
| | Python for Everybody | |
| Coursera | 2018-10-05 |
| | Introduction to Thermodynamics: Transferring Energy from Here to There | |
| Coursera | 2017-04-10 |
Publications
-
2011.03.01 Inverse Problems of Thermoelectricity
Springer
Classical thermoelectricity is based on the use of the Seebeck and Thomson effects that occur in the near-contact areas between n- and p-type materials. A conceptually different approach to thermoelectric power converter design that is based on the law of thermoelectric induction of currents is also known. The efficiency of this approach has already been demonstrated by its first applications. More than 10 basically new types of thermoelements were discovered with properties that cannot be achieved by thermocouple power converters. Therefore, further development of this concept is of practical interest. This paper provides a classification and theory for solving the inverse problems of thermoelectricity that form the basis for devising new thermoelement types. Computer methods for their solution for anisotropic and inhomogeneous media are elaborated. Regularities related to thermoelectric current excitation in anisotropic and inhomogeneous media are established. The possibility of obtaining eddy currents of a particular configuration through control of the temperature field and material parameters for the creation of new thermo- element types is demonstrated for three-dimensional (3D) models of anisotropic and inhomogeneous media.
-
2010.03.20 Computer simulation of single-stage thermoelectric generator module
Journal of Thermoelectricity
Program for computer design of single-stage thermoelectric generator modules was elaborated with regard to temperature dependences of material parameters, thermal losses in ceramic and connecting plates, as well as electrical losses on the contacts and connections of thermoelements. The program allows a detailed optimization of module parameters to be made during its design phase, owing to which generator modules with improved parameters can be elaborated and produced.
-
2009.10.05 Компьютерные технологии в термоэлектричестве
Journal of Thermoelectricity
Анализируется современное состояние и перспективы использования методов компьютерного моделирования в термоэлектричестве. Дана классификация существующих компбютерных технологий, рассмотрены актуальные направления использования компьютерных технологий для создания и исследования термоэлектрических моделей.
Skills
| Computer development | |
| C#, .NET | |
| Asp.Net, Win Forms, WPF, Blazor | |
| AngularJS/Angular2+/Ngrx | |
| Docker/Kubernetes | |
| React js, React typescript | |
| Linux/MacOs/Windows | |
| Python/Django/Flask/data science frameworks | |
| AWS, Azure services | |
| SQL, MS SQL Server, Mysql | |
| MongoDb, DynamoDB, CosmosDB |
| Physics | |
| Thermoelectricity | |
| Physical Simulations | |
| Thermophysics |
Languages
| Russian | |
| Native speaker |
| Ukrainian | |
| Native speaker |
| English | |
| Fluent |
Interests
| Physics | |
| Quantum Mechanics | |
| Quantum Computing |
References
| Professor John Doe | |
| Lorem ipsum dolor sit amet, consectetur adipiscing elit. Aliquam condimentum, diam quis convallis euismod, arcu mi ullamcorper lorem, a vestibulum nunc magna at sem. Sed in risus ac felis varius blandit. D |
| Professor John Doe | |
| Lorem ipsum dolor sit amet, consectetur adipiscing elit. Aliquam condimentum, diam quis convallis euismod, arcu mi ullamcorper lorem, a vestibulum nunc magna at sem. Sed in risus ac felis varius blandit. D |
Projects
- 2018.01 - 2018.01
Quantum Computing
Quantum computing is the use of quantum-mechanical phenomena such as superposition and entanglement to perform computation. Computers that perform quantum computations are known as quantum computers.
- Quantum Teleportation
- Quantum Cryptography