Electrical Engineer • Software Engineer

Adrian Felipe Nogueira Batista

Adrian Felipe Nogueira Batista

About

  1. 01

    Industrial Automation

    Started in automation, working directly with industrial control and instrumentation.

  2. 02

    Electrical Engineering

    Built a formal engineering foundation — power systems, instrumentation, and technical rigor.

  3. 03

    Software Development

    Moved into software to solve engineering problems that manual processes couldn't scale.

  4. 04

    Engineering Software

    Now builds software specifically for engineering and industrial workflows.

Engineering Portfolio

Software Engineering

Internal Process Automation Tool

Confidential internal application developed at Hitachi Energy to automate an engineering workflow. Implementation details are not publishable under company policy.

Web Application

Engineering Data Integration Tool

Confidential internal tool built to integrate and expose engineering data across teams at Hitachi Energy. Specific implementation details cannot be shared publicly.

Internal Tool

Electrical Engineering

Instrumentation & Automation Support Tool

Confidential software supporting instrumentation and automation processes in an industrial environment. Developed under company NDA; details are not publishable.

Instrumentation

Embedded & Control Systems Contribution

Confidential contribution to embedded and control system integration for industrial equipment. Specific project details are confidential.

Embedded Systems

Research

Undergraduate Thesis

See Publications & Studies for the full academic record.

Academic

Open Source

GitHub Repositories

Public repositories and personal projects.

GitHub

Publications & Studies

Academic

Undergraduate thesis, deposited in the UNESP institutional repository.

"Diagnóstico de faltas incipientes em transformadores de potência baseado na análise de gases dissolvidos no óleo isolante empregando redes neurais artificiais"

The dissolved gasses analysis in transformer's oil is a methodology used in present days to diagnostic faults in power transformers. This work's objective is to use artificial neural networks to create an alternative method of dissolved gasses analysis in transformer's oil with technical standard IEC 60599 as base. Thereby, it is proposed to analyze the data obtained with several types of network training methods to verify which method and which network configuration has better efficiency with the expected results. In that way, it was possible to achieve a 91% efficiency, indicating that the used method has potential to be used in dissolved gasses analysis in power transformers.

View thesis repository

Technologies

Programming

  • Python
  • PHP
  • C#
  • JavaScript

Frameworks

  • Django
  • Laravel
  • React
  • .NET

Database

  • SQL Server
  • MySQL

Engineering

  • Electrical Engineering
  • Industrial Automation
  • Engineering Software
  • Creo Toolkit

Infrastructure

  • Linux
  • Virtualization
  • Deployment

Experience

  1. IFSP Industrial Automation Jan 2014 – Jan 2015

    Technical course in Industrial Automation — foundational training in industrial control systems and automation.

  2. UNESP Electrical Engineering Jan 2016 – Jan 2021

    Bachelor's degree in Electrical and Electronics Engineering.

  3. Hitachi Energy Engineering Internship Feb 2021 – Sep 2022

    Contributed to engineering projects in the transformer service department — assisted in developing and testing engineering solutions, and supported technical documentation.

  4. Hitachi Energy Mid-level Software Developer Sep 2022 – Dec 2024

    Designed and developed web and desktop applications (PHP/Laravel, C#/.NET, Python/Django) with React.js interfaces, and managed SQL Server/MySQL databases to support engineering operations.

  5. Hitachi Energy Senior Software Development Analyst Aug 2024 – Present

    Designs and implements software solutions for engineering processes, including Creo Toolkit applications that improve the power transformer design workflow, alongside web/desktop applications used by hundreds of users across the organization.

Philosophy

I believe the best engineering solutions emerge when software and engineering work together. My goal is to create tools that automate technical processes, simplify complex workflows and allow engineers to focus on solving real problems.