Table of Contents


  • Food Engineering 1

Study on Crispness Properties of Dry Food by Mechanical Testing in Multi-specimen Basis

Development of Mini Compression Test Device for Food Testing Application

  • Food Engineering 2

Study on the relationship between Dry Food Taste and its Mechanical Properties

Development of Mini Compression Test Machine

  • Analysis the Influence of Deformation Temperature, Recovery Temperature, Infill Density, Printing Speed, and Thickness on 4D Printed PLA Structures

  • Investigation of Mechanical Properties and Behavior of 3D Printed Object


  • Development of Autonomous Mobile Robot for Indoor UV Disinfection (Fuzzy Logic)

  • Development of Autonomous Mobile Robot for Indoor UV Disinfection (CNN)

  • Product Development for Transportation Safety Application

Foldable Helmet Development

Child Safety Seat for Motorcycle

  • Development of Massage Chair Prototype Using Cardboard Material

  • Ambidextrous Chair for Left-handed Students

  • Design and Fabrication of A 3D Printing Prosthetic Device for Trans-phalangeal Amputation

  • Product Development of Plastic Recycle for Industrial Application

Smart Plastic Bottle Recycle Machine (Vending Machine)

  • Product Development of Polymer Recycle for Manufacturing Process Application

Injection Machine

Extrusion Machine


  • Smart Manufacturing using Online Vibration Monitoring System Based on Wireless Sensor Networks (WSNs) in Machining Process

  • Additive Manufacturing of Honeycomb Structure to Support Industrial Revolution 4.0

  • Advanced Machining: Magnetic Abrasive Finishing (MAF) to Improve Surface Quality of Micro-milling Features

  • Science, Technology, Engineering, and Mathematics (STEM) Education support by Developing Electric Discharge Machining (EDM) Using Selenoid Actuator

  • Development of Electric Discharge Machining (EDM) using Current Sensor Module for Gap Controller


  • Work-related Musculoskeletal Disorders Evaluation in Manual Material Handling

  • Development of Three-Wheeled Vehicle Prototype for Heavy-duty Application

Development of Three-Wheeled Vehicle Prototype for Heavy-duty Application which Robust to Rollover

Dr. Djati and Dr. Farid collaborate with ITB (Institut Teknologi Bandung) to develop three-wheeled vehicle (trike) platform which robust to rollover. The prototype will be used as platform for heavy-duty electric trike (e-trike). The heavy-duty e-trike will be very useful in agriculture and even in military application. The research work involves mathematical modeling of the trike, development of control system to make the trike robust to rollover, and prototyping of the trike.

  • Rollover Stability Analysis and Layout Optimization of A Delta E-trike

  • Development of Urban Vehicle Prototype

  • Development of Computer Numerical Control (CNC) Batik Machine using Arduino

  • Developing Automatic Batik Process using Continuous Conveyor