Tim Tyutyunin

San Jose, CA ***** • 754-***-****• ac9xw0@r.postjobfree.com

LinkedIn : https://www.linkedin.com/in/tim-tyutyunin Qualifications Profile

Solutions-oriented and highly motivated with ability to leverage strong training and experience while excelling as a QA Engineer. Readily match business objectives with available technologies to meet organizational goals. Extensive experience working in an Agile development environment. Strong knowledge of software QA methodologies, tools and processes Comprehensive understanding of the test cycles and processes. Strong analytical and trouble-shooting skills. Ability to handle high pressure situations and prioritize multiple projects. Hands-on experience working with web and mobile testing and building testing from scratch. Strong experience in Jira, MySQL Workbench, SQL queries. Attention to details. Quick learner, strong analytical and problem solving skills Strong work ethic and communication skills. Ability to adapt and willingness to learn new technology.

Core Technologies

Environments: Windows, Linux, MacOS

Tools: Jira workflow, TestRail, SDLC, HTML, CSS, DOM, Web, TCP/IP, DNS, MySQL, MathSoft, C++

Methodologie

s:

Agile

Education and Credentials

Bachelor of Science - automated control systems for aircraft. Siberian State Aerospace University, Krasnoyarsk, Russia

Experience Highlights

WWES, Santa Clara, CA

QA Engineer, 7/2019 – Present

Technologies: Jira, TestRail, MySQL, HTML, Selenium, Web element locators, SDLC. Validating and testing web applications. Finding bugs and writing clear bugs reports. Creating test scripts using bug tracking tool Jira. Functionality testing of all products through embedded testing.

Information Satellite Systems, Krasnoyarsk, Russia Engineer, 11/2003 – 11/2017

Technologies: Microsoft Word, Excel, Power Point, Outlook, Windows, macOS, Matlab and Simulink (MathSoft) software package, AutoCAD

Laboratory tests of the complex of an electromechanical system for rotating a solar battery. Development and coding C++ applications for removing and processing information from electronic sensors, issuing control commands.

Development of test equipment (project, specification, diagrams, operational documentation) for automation of testing instruments and devices of the spacecraft. Comprehensive tests of the power supply system of a spacecraft. Comparison (correlation) of the results of mathematical and laboratory (real mechanical) models.

Tests of precision mechanical drives using optoelectronic angle sensors.