Hi! I'm

Avicenna A
Chandramukti

I'm a dedicated Electrical Engineer focused on various software and hardware development.

@Ibnusin_a

Avicenna A Chandramukti

Photos

Latest Project

In Progress

BMS LTC6803G-4

Simple Battery Management System using IC LTC6803G-4 for precise cell monitoring and protection.

Completed

FPGA DE1-SoC

Series of projects using FPGA DE1-SoC and Quartus for digital design implementation.

Completed

Ansys Antenna Simulation

Simple Dipole Antenna Testing and Simulation using Ansys HFSS for far-field analysis.

Latest Paper

Completed

ECOLISTEN-PKM KC

Innovative Paper-Based Competition, University Level, Indonesia.

In Progress

IBRs on Cascading Failure Power System

Test the research in this paper in a simple power system with Monte Carlo simulation.

Completed

Smart UAV — PKM-GFT

Innovative Paper-Based Competition, University Level, Indonesia — smart city concept.

My Projects

BMS
In Progress

Design and Implementation of a 8-Cell Battery Management System Using LTC6803G-4

Team: Avicenna Arya Chandramukti & Fernandito Raditya

Advisor: Hideo Pratama

Professor: Prof Yao-Ching Hsieh

Tools: KiCAD

Year: 2026 – Present

Brief:

We developed a reliable Battery Management System (BMS) for small-scale energy storage, utilizing KiCAD for end-to-end hardware design. The system leverages the LTC6803G-4 IC to deliver precise SOC/SOH monitoring, thermal management, and advanced cell balancing. Additionally, it successfully interfaces with a microcontroller and a custom Visual Basic application to provide real-time data visualization and control.

GitHub
FPGA
Completed

FPGA DE1-SoC — Series of Digital Design Projects

Team: Avicenna Arya Chandramukti & Adhyaksa Afzaal Dhananjaya

Tools: Quartus, FPGA DE1-SoC

Year: 2025

Brief:

A series of digital design projects implemented on the FPGA DE1-SoC board using Intel Quartus. Projects cover logic design, memory management, and peripheral interfacing.

GitHub
Ansys
Completed

Introduction to Antenna Engineering: Dipole Antenna Simulation

Team: Avicenna Arya Chandramukti (Personal Project)

Advisor: Sarah

Professor: Prof Chow-Yen-Desmond Sim

Tools: Ansys HFSS

Year: 2025

Brief:

Designed and simulated a simple dipole antenna using Ansys software. The project includes far-field analysis, basic antenna tuning, and frequency variation studies to evaluate performance.

GitHub

My Papers

Load Flow
In Progress

Load Flow Analysis: The Impact of Inverter-Based Resources (IBRs) on Cascading Failures in Power Systems

Team: Avicenna Arya Chandramukti, Adhyaksa Afzaal Dhanajaya, Zuhri Muhammand Bahri

Professor: Prof M.A. Mohammed Manaz

Apps: VSCode (Python), MATLab

Year: 2025/2026

Brief:

This research is adapted from an IEEE-published study and scaled for a bachelor's-level project. The study highlights the critical challenges of integrating renewable energy such as wind turbines and IBRs into modern power systems, focusing on one of the most severe threats to grid stability: Cascading Failure. To investigate this, our research uses the standard IEEE 9-bus and 118-bus systems, integrated with various IBRSs. We successfully stimulated cascading failure scenarios using Monte Carlo simulations. Ultimately, the results of our modeling demonstrated strong similarities to the findings presented in the original IEEE paper, validation our approach and methodology.

UAV
Completed

Smart UAV System with Integrated Decentralized Photon Charged Activation — PKM-GFT IKN

Team: Avicenna A Chandramukti, M Harjuan, Candra Bima, Rasyad Afrizal

Year: 2025/2026

Brief:

We proposed a futuristic concept for the PKM-GFT (Program Kreativitas Mahasiswa – Gagasan Futuristik), a highly competitive, nationally reviewed university paper competition in Indonesia. Our paper introduces a Smart UAV system designed specifically for Ibu Kota Nusantara (IKN), Indonesian's newly developed utopian capital. The core innovation of this system is its "Decentralized Photonic Charge" technology, which utilize highly targeted lasers to wirelessly charge the drones in flight. Furthermore, the UAVs are fully integrated into the city's IoT infrastructure. We propose a network of multi-purpose smart poles that serves as physical docks, charging stations, and communication hubs. The primary objective of this UAV integrated system is to optimize smart city management by reducing ground traffic and providing immediate, automated aerial responses to city-wide emergencies.

PKM
Completed

PKM (Program Kreativitas Mahasiswa) — Innovative Paper-Based Competition

Team: Avicenna Arya Chandramukti, Alvaro, M Wildan Mustammil,

Year: 2025

Brief:

Innovative Paper-Based Competition at the University Level, Indonesia. A nationally recognized program fostering student creativity and applied research.

Document Open ↗