Embedded Systems Engineer with less than a year in IoT & Embedded Systems
AI is analyzing your overall score…
Identifying your key strengths…
Evaluating your skill match against the job requirements…
Assessing your cultural and operational fit
Motivated and detail-oriented Electrical and Electronics Engineering (EEE) undergraduate with a strong foundation in automation and electrical vehicle systems. Experienced with Python for data analysis and IoT-based robotics applications. Actively pursuing hands-on experience through workshops and internships. Eager to contribute technical and analytical skills in a dynamic engineering environment.
Sai ganapathi Engineering college, vizag
B.TECH · EEE
August 1, 2022 – June 30, 2025
Dadi institute of engineering&technology
POLYTECHNIC · EEE
August 1, 2018 – June 30, 2021
ZPHS school, byalapudi
SSC 10th
June 1, 2018 – May 31, 2018
Unknown
Electric Vehicle Intern
October 1, 2025 – March 1, 2026
India
Unknown
Embedded systems and IOT Intern
June 1, 2025 – October 1, 2025
India
APEPDCL
33/11KV SUBSTATION
January 1, 2025 – March 1, 2025
India
DESIGN AND ANALYSIS OF WIND DIESEL HYBRID SYSTEM
January 1, 2025 – June 1, 2025
The automatic reactive power control of isolated wind-diesel hybrid power systems having a permanent-magnet induction generator for a wind energy conversion system and a synchronous generator set. A wind turbine's blades during a single rotation can produce roughly 1-4kw-hrs of electricity depending on the turbine's size, wind conditions, and efficiency. To minimize the gap between reactive power generation and demand, a variable source of reactive power is used such as a STATCOM. STATCOM is a control reactive power source. The dynamic performance of the hybrid system with and without change in input wind power 1% step increase in reactive power.
Cultural Fit Analysis
The candidate's profile shows a strong academic background in Electrical and Electronics Engineering with a clear objective towards automation and electrical vehicle systems. The internships in Embedded Systems and IoT, Electric Vehicles, and a substation, along with an academic project on wind-diesel hybrid systems, demonstrate a breadth of interest within electrical engineering and a proactive approach to gaining practical experience. This diversity of exposure, particularly in emerging fields like EV and IoT, suggests adaptability and a willingness to learn new technologies. The target role of 'Embedded Systems Engineer' aligns well with the 'Embedded systems and IOT Intern' experience and listed technical skills like microcontrollers and C/Python programming. The candidate appears to be a good fit for a dynamic engineering environment focused on hands-on development.
Soft Skills & Operational Fit
The candidate lists teamwork, problem-solving, time management, creativity, and attention to detail as soft skills. The internship descriptions suggest some collaboration and practical application of these skills, particularly in the 'Embedded systems and IOT Intern' role where they 'collaborated with the team of three'. However, without specific examples or further context, the depth of these soft skills cannot be fully assessed. The candidate's objective indicates a motivated and detail-oriented individual eager to contribute.