DSA Faculty
API
← к списку преподавателей

Иванов Илья Александрович

Московский институт электроники и математики им. А.Н. Тихонова

Профиль на hse.ru ↗ тел.: +7 (495) 772-95-90 | 15166 | +7 (926) 383-07-40
Публикаций
88
Языков
1
Наград
10
Конференций
0
Профиль Публикации (88) Курсы (13)

Профессиональные интересы

диагностиканадежность47.14.00 Проектирование и конструирование электронных приборов и радиоэлектронной аппаратуры

Должности

  • ДоцентМосковский институт электроники и математики им. А.Н. Тихонова, Департамент электронной инженерии
  • Ведущий научный сотрудникМосковский институт электроники и математики им. А.Н. Тихонова, Департамент электронной инженерии
  • Академический руководитель образовательной программыИнтернет вещей и киберфизические системы

Био

  • · Начал работать в НИУ ВШЭ в 2012 году.
  • · Научно-педагогический стаж: 13 лет.

Образование

  • 2011 · Кандидат наук: МИЭМ, специальность 05.13.12 «Системы автоматизации проектирования», тема диссертации: Метод автоматизированного проектирования контролепригодных электронных средств
  • 2008 · Магистратура: Московский государственный институт электроники и математики, факультет: Информатики и телекоммуникаций, специальность «Проектирование и технология электронных средств», квалификация «Магистр техники и технологий»
  • 2004 · Бакалавриат: Московский государственный институт электроники и математики, специальность «Проектирование и технология электронных средств»

Опыт работы

  • · Автор более 50 научных публикаций и 6 РИД.
  • · Участник проектов в рамках программ РФФИ.
  • · Опыт работы на инженерных и руководящих должностях.
  • · 2012: С года инженер, далее старший преподаватель и доцент НИУ ВШЭ

Награды и поощрения

  • · Благодарность проректора НИУ ВШЭ (ноябрь 2025)
  • · Благодарность проректора НИУ ВШЭ (октябрь 2024)
  • · Почетная грамота Московского института электроники и математики (февраль 2021)
  • · Благодарность МИЭМ НИУ ВШЭ (май 2018)
  • · Надбавка за академическую работу (2017–2018, 2016–2017, 2015–2016, 2014–2015)
  • · Надбавка за публикацию в журнале из Списка А (и приравненном к нему научном издании) (2025–2026)
  • · Лучший преподаватель — 2024–2025, 2024, 2017–2020
  • · Группа высокого профессионального потенциала (кадровый резерв НИУ ВШЭ)Категория "Новые преподаватели" (2013–2014)
  • · Лучший академический руководитель в номинации «Прием иностранных студентов» — 2024–2025
  • · Лучший академический руководитель в номинации «Цифровые навыки студентов» — 2024–2025

Гранты и проекты

  • · на соискание учёной степени кандидата наук

Идентификаторы исследователя

Публикации (88)

Welcome to the 2020 Moscow Workshop on Electronic and Networking Technologies

2020 · CHAPTER · en

MWENT is IEEE-sponsored workshop whose objective is to bring together scientific researchers, engineers, students, technical managers and others from both industry and academia to present and discuss papers. The meeting was established with the support of the IEEE Russia Section to address networking from both fundamental viewpoints as well as system-level perspectives. The Workshop is forum for long-term innovation and original approaches to telecommunications and electron devices problems. We also have outstanding technical topics on many important aspects of network systems – waveform design, channel modeling, performance bounds, multi-user techniques, interference issues, wideband antennas and applications in communications. Internet becomes the hot topic in these days, and we were watching that mobile communication and Internet have revolutionized our way of living as well as working. As we are used to such conveniences, it needs more bandwidth, and more spectrum requirements. The ever increasing demands are challenging to the ingenuity of the microwave and control engineers. This biennial meeting is for all engineers and researchers who work or are interested in future developments of MWENT topics of interest. Distinguished delegates and renowned experts will be participating and delivering keynote addresses and lecturers in the emerging areas. Different levels and characters of presentations are accepted: presentation of research and scientific results, new ideas, valuable conclusions from experience, and state of the art. A special invitation goes to our industrial community to exhibit their latest products, inform us about their services and participate in the conference with papers. We also encourage you to plan ahead and take advantage of the wonderful opportunity to meet and exchange ideas with the largest gathering of experts. The technical program spans most of the key areas in wireless communications and electron devices. As is evident from just those categories alone, the exciting technical program will almost assuredly provide some topics of interest for all attendees. Many papers were received as a result of the open call. In keeping with the goal at MWENT to become one of the highest quality conferences in Moscow, the acceptance rate was less than 70 %. The final Program and Proceedings contains 160 papers, selected from submitted manuscripts through a rigorous review process. Our Scientific Program Committee worked with many reviewers worldwide to select papers for the program. The Organizing Committee extends thanks to the authors and reviewers. Your participation and interest are appreciated. Just as new technologies are not developed in a single laboratory at an identifiable moment in time, new conferences are not successful if they exist only once. Evolving technologies require continuous meetings to provide the interested community an opportunity to maintain the dialog. The participants of MWENT and Tomsk Chapter both recognize this. Therefore, we decided to organize a next event in 2022.

DOI ↗ PDF ↗

Разработка программно-аппаратного комплекса оценки безотказности радиоэлектронной аппаратуры в рамках лабораторного стенда

2020 · CHAPTER · ru

Данная работа посвящена разработке лабораторного стенда с описанием структуры и принципа работы, позволяющего производить расчет надежности, в частности безотказности, радиоэлектронной аппаратуры, который может быть использован так же в обучающих целях. Основные проблемы, с которыми сталкиваются разработчики при работе с надежностью радиоэлектронной аппаратуры – это достоверность и точность расчетов, причем данные расчеты необходимо проводить за малые промежутки времени.

PDF ↗

Development of Methods for Identifying Factors Affecting the Electronic Tools Reliability in the Design

2019 · CHAPTER · en

In order to assess the level of electronic means reliability, it is necessary to have a methodology for analyzing the results of calculating its reliability indicators, such as the probability of failure-free operation or mean time between failures, which allows to evaluate which of the parameters most strongly affects the final value of the failure rate of electronic component particular type. As a result of analyzing the reliability of electronic mean all-levels components, the engineer should obtain the values of the reliability indicators, the boundary values of the controlled parameters, and also give recommendations on certain changes necessary to improve the reliability, thereby implementing the reliability management methodology. This technique, in contrast to the already known ones, will allow analyzing the calculated values of the indicators and using the relative sensitivity function to determine the contribution made by specific parameters: temperature, element ratings, their operating voltage, current, power, tolerance level, while previously contribution was estimated by the numerical value of a separate correction factor. Application of the developed methodology for analyzing the results of calculating the reliability of electronic means allows to specify the recommendations for changing parameters in order to improve the reliability of the elements that make up the product in question.

DOI ↗ PDF ↗

The complex of automated control of secondary power supplies parameters

2018 · CHAPTER · en

The present work describes the step-by-step development of an automated control and measuring system that monitors the electrical and thermal parameters of pulsed secondary power supplies (SPS) for laptops. The main guidance documents are considered, according to which the design of impulse SPS laptops is carried out. It is revealed that the existing methods for controlling the parameters of pulsed SPS laptops take into account only electrical, however, the thermal parameters make a significant contribution to the result of numerical values of electrical parameters. In this regard, an improved method for controlling both electrical and thermal parameters of pulsed secondary power supplies is proposed. The structure of the automated control and measuring system as a whole, as well as the structure of the multifunctional hardware platform with all its components are developed.

DOI ↗ PDF ↗

Analysis of remote power management systems for server equipment

2018 · CHAPTER · en

The paper reviews different types of devices and systems, which are used for power management of the server equipment. The investigation has identified shortcomings of the hand control. The paper has stated main tasks for development of nonvolatile system for the power management and monitoring of power consumption

PDF ↗

Electrical control of secondary power sources with considering thermal conditions

2017 · CHAPTER · en

The article presents the results of modeling of thermal transient in the secondary power source of the laptop to determine the time for the mode. Justified reducing waiting time between operations of the electric control to change modes.

PDF ↗

Analysis of the physical foundations of the build quality of the diagnosis structures based on electronic means of recording and analyzing the parameters of electromagnetic radiation mechanical contact connections

2017 · ARTICLE · en

The paper presents the results of research that can be put into the development and research of non-contact rapid method for assessing the quality of the assembly and installation of EM designs. To achieve the objectives, studied the behavior of the mechanical connection of the contact pairs, namely the definition of the contribution of R,L,C parameters contact joints in the modulation level and the spectral composition of the electromagnetic radiation mechanical contact pair

DOI ↗ PDF ↗

Повышение показателей ремонтопригодности источников вторичного электропитания

2017 · CHAPTER · ru

В настоящей работе рассмотрена проблема снижения времени восстановления электронных средств в целом. Выявлено, что ключевую роль при оценке данного параметра является время поиска неисправности. Предложено решение данной проблемы, путем применения средств автоматизации при контроле параметров источников вторичного электропитания.

PDF ↗

The Design Procedure of Specified Operating Life of Fiber-Optic Cables

2016 · ARTICLE · en

In the paper was solved the task of prediction of fiber cable operating life for automating of design study of reliability of optical-fiber transmission system. The paper offers generation method of mathematical models of complex coefficients, which brings out from the input models failure rates the coefficients, which considers the effects of regimes and conditions of usage of fiber cables on the durability indices. The developed procedure does not require carrying out the experimental investigations and tests, based on the using of standardized models of failure rates and durability characteristics of fiber cables. Herewith for the prescribed modes and terms of usage of fiber cables automatically detected the right process of degradation, which determines values of operating life. In contrast to the prediction technique of equipment operating life on the base of the probabilistic-physical failure patterns, the offered method operates with the dates, which are stated in the standard-technical documentation on the fiber cables, and allows to increase forecast precision of the operating life in comparison with the methods, which is recommended in the branch standards. In the paper were developed software, which implements offered mathematical tool, by which were solved real-world forecasting problem of the operating live of the cable type ОК-ПН-01-5-60.

DOI ↗ PDF ↗

Оценка уточненного ресурса оптических кабелей с учетом условий эксплуатации

2016 · ARTICLE · ru

В работе проведено исследование по уточнению оценки значений гамма-процентного ресурса оптических кабелей в зависимости от различных условий применений (группы аппаратуры, температура и др.) и параметров (длина кабеля и др.). Также в работе предложена методика по уточнению оценки значений гамма-процентного ресурса оптических кабелей. Приведены графики зависимости, наглядно демонстрирующие необходимость проведения подобных расчетов при проектировании волоконно-оптических систем передачи информации

PDF ↗

Курсы (13)