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$40 USD / hour
Flag of UA
lutsk city, ukraine
$40 USD / hour
It's currently 12:07 AM here
Joined March 21, 2020
0 Recommendations

Nazarii V.

@vnazar1985

annual-level-four.svgpreferred-freelancer-v2.svgverified.svg
5.0 (5 reviews)
5.4
5.4
$40 USD / hour
Flag of UA
lutsk city, ukraine
$40 USD / hour
100%
Jobs Completed
100%
On Budget
100%
On Time
N/A
Repeat Hire Rate

Software / Hardware / R@D professional

He is an experienced developer of integrated IT and innovation solutions. 18 years of development experience. Experience in programming: - Delphi, Rad studio - C, C ++ - C # - Java - T-SQL - MSSQL - ... Electronics Development: - Altium designer - Multi Sim NI - STM32 - STM8 - AVR - ... Design development: - SolidWorks - SolidCAM - ...
Freelancer C Programmers Ukraine

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Portfolio Items

Development of an algorithm for identification and subpixel positioning of geometry in the image. The main requires the speed of work, exceeding the performance of industrial solutions (the share of ms.). Calculation of indicators of these positions, formation of the list with a rating. OpenCV, C # and other field-related technologies and innovative vector analysis algorithms were used for the development.
The algorithm finds all possible options and allows you to accurately determine the position, rotation, scale, and extension of the model.
The algorithm is resistant to not closed, damaged, fuzzy, geometry.
Geometric identification and positioning
Development of an algorithm for identification and subpixel positioning of geometry in the image. The main requires the speed of work, exceeding the performance of industrial solutions (the share of ms.). Calculation of indicators of these positions, formation of the list with a rating. OpenCV, C # and other field-related technologies and innovative vector analysis algorithms were used for the development.
The algorithm finds all possible options and allows you to accurately determine the position, rotation, scale, and extension of the model.
The algorithm is resistant to not closed, damaged, fuzzy, geometry.
Geometric identification and positioning
Development of an algorithm for identification and subpixel positioning of geometry in the image. The main requires the speed of work, exceeding the performance of industrial solutions (the share of ms.). Calculation of indicators of these positions, formation of the list with a rating. OpenCV, C # and other field-related technologies and innovative vector analysis algorithms were used for the development.
The algorithm finds all possible options and allows you to accurately determine the position, rotation, scale, and extension of the model.
The algorithm is resistant to not closed, damaged, fuzzy, geometry.
Geometric identification and positioning
Development of an algorithm for identification and subpixel positioning of geometry in the image. The main requires the speed of work, exceeding the performance of industrial solutions (the share of ms.). Calculation of indicators of these positions, formation of the list with a rating. OpenCV, C # and other field-related technologies and innovative vector analysis algorithms were used for the development.
The algorithm finds all possible options and allows you to accurately determine the position, rotation, scale, and extension of the model.
The algorithm is resistant to not closed, damaged, fuzzy, geometry.
Geometric identification and positioning
Development of an algorithm for identification and subpixel positioning of geometry in the image. The main requires the speed of work, exceeding the performance of industrial solutions (the share of ms.). Calculation of indicators of these positions, formation of the list with a rating. OpenCV, C # and other field-related technologies and innovative vector analysis algorithms were used for the development.
The algorithm finds all possible options and allows you to accurately determine the position, rotation, scale, and extension of the model.
The algorithm is resistant to not closed, damaged, fuzzy, geometry.
Geometric identification and positioning
Development of an algorithm for identification and subpixel positioning of geometry in the image. The main requires the speed of work, exceeding the performance of industrial solutions (the share of ms.). Calculation of indicators of these positions, formation of the list with a rating. OpenCV, C # and other field-related technologies and innovative vector analysis algorithms were used for the development.
The algorithm finds all possible options and allows you to accurately determine the position, rotation, scale, and extension of the model.
The algorithm is resistant to not closed, damaged, fuzzy, geometry.
Geometric identification and positioning
Development of an algorithm for identification and subpixel positioning of geometry in the image. The main requires the speed of work, exceeding the performance of industrial solutions (the share of ms.). Calculation of indicators of these positions, formation of the list with a rating. OpenCV, C # and other field-related technologies and innovative vector analysis algorithms were used for the development.
The algorithm finds all possible options and allows you to accurately determine the position, rotation, scale, and extension of the model.
The algorithm is resistant to not closed, damaged, fuzzy, geometry.
Geometric identification and positioning
Development of an algorithm for identification and subpixel positioning of geometry in the image. The main requires the speed of work, exceeding the performance of industrial solutions (the share of ms.). Calculation of indicators of these positions, formation of the list with a rating. OpenCV, C # and other field-related technologies and innovative vector analysis algorithms were used for the development.
The algorithm finds all possible options and allows you to accurately determine the position, rotation, scale, and extension of the model.
The algorithm is resistant to not closed, damaged, fuzzy, geometry.
Geometric identification and positioning
Assistance in the development of algorithms and analysis of astronomical data for astrophysics. Code optimization, performance improvement, creation of new methods of mathematical analysis, creation of creaks of automatic analysis of many millions of images, processing of statistics. In fact, this is a very precise parameterization of the shape and other characteristics of galaxies based on data from telescopes.
There were technologies and skills: Linux (CentOS, Bash, C programming, FFT, Higher Mathematics, ...)
All work took place at the level of data from telescopes and analytics. Therefore, the images as such were not considered.
Parameterization of galaxies
Assistance in the development of algorithms and analysis of astronomical data for astrophysics. Code optimization, performance improvement, creation of new methods of mathematical analysis, creation of creaks of automatic analysis of many millions of images, processing of statistics. In fact, this is a very precise parameterization of the shape and other characteristics of galaxies based on data from telescopes.
There were technologies and skills: Linux (CentOS, Bash, C programming, FFT, Higher Mathematics, ...)
All work took place at the level of data from telescopes and analytics. Therefore, the images as such were not considered.
Parameterization of galaxies
Assistance in the development of algorithms and analysis of astronomical data for astrophysics. Code optimization, performance improvement, creation of new methods of mathematical analysis, creation of creaks of automatic analysis of many millions of images, processing of statistics. In fact, this is a very precise parameterization of the shape and other characteristics of galaxies based on data from telescopes.
There were technologies and skills: Linux (CentOS, Bash, C programming, FFT, Higher Mathematics, ...)
All work took place at the level of data from telescopes and analytics. Therefore, the images as such were not considered.
Parameterization of galaxies
Assistance in the development of algorithms and analysis of astronomical data for astrophysics. Code optimization, performance improvement, creation of new methods of mathematical analysis, creation of creaks of automatic analysis of many millions of images, processing of statistics. In fact, this is a very precise parameterization of the shape and other characteristics of galaxies based on data from telescopes.
There were technologies and skills: Linux (CentOS, Bash, C programming, FFT, Higher Mathematics, ...)
All work took place at the level of data from telescopes and analytics. Therefore, the images as such were not considered.
Parameterization of galaxies
Assistance in the development of algorithms and analysis of astronomical data for astrophysics. Code optimization, performance improvement, creation of new methods of mathematical analysis, creation of creaks of automatic analysis of many millions of images, processing of statistics. In fact, this is a very precise parameterization of the shape and other characteristics of galaxies based on data from telescopes.
There were technologies and skills: Linux (CentOS, Bash, C programming, FFT, Higher Mathematics, ...)
All work took place at the level of data from telescopes and analytics. Therefore, the images as such were not considered.
Parameterization of galaxies
Assistance in the development of algorithms and analysis of astronomical data for astrophysics. Code optimization, performance improvement, creation of new methods of mathematical analysis, creation of creaks of automatic analysis of many millions of images, processing of statistics. In fact, this is a very precise parameterization of the shape and other characteristics of galaxies based on data from telescopes.
There were technologies and skills: Linux (CentOS, Bash, C programming, FFT, Higher Mathematics, ...)
All work took place at the level of data from telescopes and analytics. Therefore, the images as such were not considered.
Parameterization of galaxies
Assistance in the development of algorithms and analysis of astronomical data for astrophysics. Code optimization, performance improvement, creation of new methods of mathematical analysis, creation of creaks of automatic analysis of many millions of images, processing of statistics. In fact, this is a very precise parameterization of the shape and other characteristics of galaxies based on data from telescopes.
There were technologies and skills: Linux (CentOS, Bash, C programming, FFT, Higher Mathematics, ...)
All work took place at the level of data from telescopes and analytics. Therefore, the images as such were not considered.
Parameterization of galaxies
Creating a program for inter-format conversion of radiometric images. Reverse engineering because these formats are closed. Opening and saving in DJI, FLIR, and other formats. Correction, filtering, and other mathematical transformations over data obtained from thermal imagers.
Possibility of automated and batch image processing.
Radiometric image converter.
Creating a program for inter-format conversion of radiometric images. Reverse engineering because these formats are closed. Opening and saving in DJI, FLIR, and other formats. Correction, filtering, and other mathematical transformations over data obtained from thermal imagers.
Possibility of automated and batch image processing.
Radiometric image converter.
Creating a program for inter-format conversion of radiometric images. Reverse engineering because these formats are closed. Opening and saving in DJI, FLIR, and other formats. Correction, filtering, and other mathematical transformations over data obtained from thermal imagers.
Possibility of automated and batch image processing.
Radiometric image converter.
Creating a program for inter-format conversion of radiometric images. Reverse engineering because these formats are closed. Opening and saving in DJI, FLIR, and other formats. Correction, filtering, and other mathematical transformations over data obtained from thermal imagers.
Possibility of automated and batch image processing.
Radiometric image converter.
Creating a program for inter-format conversion of radiometric images. Reverse engineering because these formats are closed. Opening and saving in DJI, FLIR, and other formats. Correction, filtering, and other mathematical transformations over data obtained from thermal imagers.
Possibility of automated and batch image processing.
Radiometric image converter.
Development of assembly and adjustment of diagnostic laboratory equipment.
A combination of technologies of technical vision, lasers, optics, electronics is used.
Details are limited to NDA.

Main participation in the project.
Laboratory equipment.
Development of assembly and adjustment of diagnostic laboratory equipment.
A combination of technologies of technical vision, lasers, optics, electronics is used.
Details are limited to NDA.

Main participation in the project.
Laboratory equipment.
System of technical vision for the analysis of efficiency and productivity of work of a powder painting line.
The development includes both hardware components and a program for analyzing and collecting statistics.
Modern computer vision algorithms are used. Allows you to assess the efficiency of use of space, color, speed, complexity of parts.

Completely own development.
Technical vision powder painting line.
System of technical vision for the analysis of efficiency and productivity of work of a powder painting line.
The development includes both hardware components and a program for analyzing and collecting statistics.
Modern computer vision algorithms are used. Allows you to assess the efficiency of use of space, color, speed, complexity of parts.

Completely own development.
Technical vision powder painting line.
System of technical vision for the analysis of efficiency and productivity of work of a powder painting line.
The development includes both hardware components and a program for analyzing and collecting statistics.
Modern computer vision algorithms are used. Allows you to assess the efficiency of use of space, color, speed, complexity of parts.

Completely own development.
Technical vision powder painting line.
System of technical vision for the analysis of efficiency and productivity of work of a powder painting line.
The development includes both hardware components and a program for analyzing and collecting statistics.
Modern computer vision algorithms are used. Allows you to assess the efficiency of use of space, color, speed, complexity of parts.

Completely own development.
Technical vision powder painting line.
System of technical vision for the analysis of efficiency and productivity of work of a powder painting line.
The development includes both hardware components and a program for analyzing and collecting statistics.
Modern computer vision algorithms are used. Allows you to assess the efficiency of use of space, color, speed, complexity of parts.

Completely own development.
Technical vision powder painting line.
System of technical vision for the analysis of efficiency and productivity of work of a powder painting line.
The development includes both hardware components and a program for analyzing and collecting statistics.
Modern computer vision algorithms are used. Allows you to assess the efficiency of use of space, color, speed, complexity of parts.

Completely own development.
Technical vision powder painting line.
System of technical vision for the analysis of efficiency and productivity of work of a powder painting line.
The development includes both hardware components and a program for analyzing and collecting statistics.
Modern computer vision algorithms are used. Allows you to assess the efficiency of use of space, color, speed, complexity of parts.

Completely own development.
Technical vision powder painting line.
Extremely large and complex system of comprehensive analysis of production capacity.
The main task is to collect, analyze and display the results of the factory, plant, shop.
Carries out constant collection of technical parameters of equipment operation with the subsequent storage of this information for the analysis.
Can work with almost any type of hardware controllers and PLCs that are installed there.
Easily combines and processes information from several plants at the same time, and several hundred units of equipment.
In addition to the results of the analysis forms the indicators of use such as: OEE, efficiency, productivity, reliability, involvement, ...
Allows the company's management to assess their production capacity and find bottlenecks in their business.
BigData technologies, technical vision, communication, various programming environments, and operating platforms are used for work.

Completely own development.
Manufacturing Data Collection
Extremely large and complex system of comprehensive analysis of production capacity.
The main task is to collect, analyze and display the results of the factory, plant, shop.
Carries out constant collection of technical parameters of equipment operation with the subsequent storage of this information for the analysis.
Can work with almost any type of hardware controllers and PLCs that are installed there.
Easily combines and processes information from several plants at the same time, and several hundred units of equipment.
In addition to the results of the analysis forms the indicators of use such as: OEE, efficiency, productivity, reliability, involvement, ...
Allows the company's management to assess their production capacity and find bottlenecks in their business.
BigData technologies, technical vision, communication, various programming environments, and operating platforms are used for work.

Completely own development.
Manufacturing Data Collection
Extremely large and complex system of comprehensive analysis of production capacity.
The main task is to collect, analyze and display the results of the factory, plant, shop.
Carries out constant collection of technical parameters of equipment operation with the subsequent storage of this information for the analysis.
Can work with almost any type of hardware controllers and PLCs that are installed there.
Easily combines and processes information from several plants at the same time, and several hundred units of equipment.
In addition to the results of the analysis forms the indicators of use such as: OEE, efficiency, productivity, reliability, involvement, ...
Allows the company's management to assess their production capacity and find bottlenecks in their business.
BigData technologies, technical vision, communication, various programming environments, and operating platforms are used for work.

Completely own development.
Manufacturing Data Collection
Extremely large and complex system of comprehensive analysis of production capacity.
The main task is to collect, analyze and display the results of the factory, plant, shop.
Carries out constant collection of technical parameters of equipment operation with the subsequent storage of this information for the analysis.
Can work with almost any type of hardware controllers and PLCs that are installed there.
Easily combines and processes information from several plants at the same time, and several hundred units of equipment.
In addition to the results of the analysis forms the indicators of use such as: OEE, efficiency, productivity, reliability, involvement, ...
Allows the company's management to assess their production capacity and find bottlenecks in their business.
BigData technologies, technical vision, communication, various programming environments, and operating platforms are used for work.

Completely own development.
Manufacturing Data Collection
Extremely large and complex system of comprehensive analysis of production capacity.
The main task is to collect, analyze and display the results of the factory, plant, shop.
Carries out constant collection of technical parameters of equipment operation with the subsequent storage of this information for the analysis.
Can work with almost any type of hardware controllers and PLCs that are installed there.
Easily combines and processes information from several plants at the same time, and several hundred units of equipment.
In addition to the results of the analysis forms the indicators of use such as: OEE, efficiency, productivity, reliability, involvement, ...
Allows the company's management to assess their production capacity and find bottlenecks in their business.
BigData technologies, technical vision, communication, various programming environments, and operating platforms are used for work.

Completely own development.
Manufacturing Data Collection
Extremely large and complex system of comprehensive analysis of production capacity.
The main task is to collect, analyze and display the results of the factory, plant, shop.
Carries out constant collection of technical parameters of equipment operation with the subsequent storage of this information for the analysis.
Can work with almost any type of hardware controllers and PLCs that are installed there.
Easily combines and processes information from several plants at the same time, and several hundred units of equipment.
In addition to the results of the analysis forms the indicators of use such as: OEE, efficiency, productivity, reliability, involvement, ...
Allows the company's management to assess their production capacity and find bottlenecks in their business.
BigData technologies, technical vision, communication, various programming environments, and operating platforms are used for work.

Completely own development.
Manufacturing Data Collection

Reviews

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Showing 1 - 5 out of 5 reviews
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5.0
£1,600.00 GBP
Highly skilled, with great communication, Nazarii produced outstanding results within the anticipated timeframe. Nazarii had a good depth of knowledge and was able to apply his wide skill set to meet our complex, ongoing and constantly changing requirements.
.NET Software Architecture Imaging Image Processing
User Avatar
Flag of GB Tim M. @timmammatt
5 months ago
5.0
$600.00 USD
Super quick delivery, great expertise, highly professional freelancer. 5+ stars!
C Programming JavaScript Algorithm Cartography & Maps C++ Programming
User Avatar
Flag of US Evgeny M. @netfoxgroup
9 months ago
5.0
$750.00 USD
Yes, I would like to recommend him and work again if there new project.
C Programming Java C++ Programming
Y
Flag of KR Yoon C. @YOON2020
10 months ago
5.0
$100.00 USD
Great work. We would like to work together in the future project too.
C Programming
S
Flag of JP Sachiko N. @snos7744
11 months ago
5.0
€1,400.00 EUR
Perfect communication, he has perfectly understand our main goal with this project. Will work again with him soon, for sure.
PHP .NET C# Programming Software Architecture C++ Programming
N
Flag of ES Iciar B. @needbeskar
2 years ago

Experience

Own business

Own business
Dec 2020 - Present
I run my own business in the field of IT and technology.

R&D team leader

Innovations company
Aug 2019 - Dec 2020 (1 year, 4 months)
Work as a leader of the R&D group. Development of electronics. Means of communication, software. Development of innovative solutions in the field of retail. Development of other scientific instruments and systems. Comprehensive development of systems where all my directions are combined. Project management.

Industrial engineering

Engineering company
Sep 2015 - Aug 2019 (3 years, 11 months)
Engineering, development of industrial equipment, development and adjustment of industrial production lines, programming of PLCs, robots, control systems. Development of technical vision systems. Development of a centralized system for monitoring and analyzing production at the plant. Development of innovative solutions in the field of electronics, mass information gathering, telecommunications, microprocessors, RFID.

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Certifications

c-sharp-prog-1.png C# Programming 1 97% c-prog-1.png C Programming 1 95% SQL_2.png SQL 2 90% cplusplus_1.png C++ 1 90% sql-server-1.png SQL Server 1 87%

Top Skills

C Programming 3 C++ Programming 3 C# Programming 1 Industrial Design CAD/CAM

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