Jul 25, 2024
Name: Muhammad Naufal Aryaguna
Student ID: 40040620650013
Thesis Title: Design and Development of Early Drowsiness Detection Using MAX30102 Sensor in Electric Vehicles
Defense Date: July 24, 2024
On July 24, 2024, Muhammad Naufal Aryaguna, a student of the Industrial Electrical Engineering program, successfully conducted his thesis defense as part of the requirements to complete his studies. In his presentation, Naufal shared the results of his research, titled “Design and Development of Early Drowsiness Detection Using MAX30102 Sensor in Electric Vehicles.”
The aim of this research is to develop an early detection system for drowsiness specifically for use in electric vehicles, using the MAX30102 sensor. The device is designed to monitor the driver’s physical condition, particularly drowsiness levels, by measuring heart rate and oxygen saturation. This detection system is expected to help prevent accidents caused by driver fatigue while driving.
The thesis defense was attended by examiners and advisors who provided various feedback and constructive criticism on Naufal’s work. Through this defense, it is hoped that Naufal’s research findings can make a meaningful contribution to road safety, particularly for electric vehicles, and inspire further technological advancements in sensor-based innovations.
Jul 23, 2024
Name: Anas Dian Ekanto
Student ID: 40040620650034
Thesis Title: Prototype Simulation of the Automatic Sectionalizer (SSO) Work System as a Backup Protection Based on Arduino Uno
Date: July 23, 2024
This thesis introduces an innovative concept in the field of electrical protection systems using Arduino Uno technology. During the defense, Anas presented a prototype of an automatic sectionalizer system that serves as a backup protection mechanism, which has significant potential to enhance the efficiency and reliability of electrical power distribution.
Through this research, Anas demonstrated how simple technology like Arduino can be applied to solve challenges in electrical systems, particularly in maintenance and backup protection. The use of an automatic sectionalizer is expected to reduce system disturbances and improve the continuity of energy supply.
The thesis defense, which was conducted with great enthusiasm, marks an important milestone for Anas in contributing to the development of electrical technology in Indonesia.
Jul 9, 2024
Name: Diva Amartya Prameswari
Student ID: 40040620650039
Thesis Title: Simulation of Recloser Using Arduino Uno Microcontroller Based on Keypad as a Control Interface
Date: July 9, 2024
In the defense held in the Faculty of Engineering’s meeting room, Diva presented the results of her research, which aimed to develop a recloser system based on the Arduino Uno microcontroller. This system uses a keypad as an interface to optimize the function of the recloser in electrical distribution networks. A recloser is used to detect faults and disconnect the power supply with the goal of automatically restoring the system after minor faults.
During the presentation, Diva explained in detail the working principle of the system, from the main components used to the simulation process that had been conducted. The use of the Arduino Uno microcontroller as the core of the system allows for more flexible control and settings, while the keypad serves as an interface for user configuration.
The defense proceeded smoothly, with the examining professors providing various insightful questions and feedback to further develop the thesis. Diva is expected to continue refining her work to improve the quality of protection systems in electrical distribution networks.
Congratulations to Diva Amartya Prameswari for the successful defense of her thesis, and we hope her research can contribute to the advancement of technology in the field of electrical engineering.
May 28, 2024
From May 27th to 31st, 2024, a group of faculty members and administrative staff from the Electrical Engineering Vocational School and the Faculty of Engineering at Diponegoro University (Undip) participated in a training and certification program organized by the National Professional Certification Agency (BNSP) for Electrical Safety Experts.
The event, held at the Undip campus, was attended by more than twenty participants from various units within Undip. The training aimed to enhance understanding and skills in occupational health and safety, particularly in the context of electrical work.
The main speakers for the event were Mr. Nashruddin Anwar, ST, MT, and Mr. Sumanto, ST, MT, IPM, both experts in their respective fields. They delivered comprehensive presentations and provided valuable practical insights to the participants.
In his opening remarks, Mr. Nashruddin Anwar stated, “Occupational health and safety are crucial aspects of any electrical-related activity. Through this training and certification, it is hoped that participants will raise awareness of the importance of safety practices in their daily work.”
Mr. Sumanto added, “With this BNSP certification, participants are expected to be recognized for their competency in electrical safety, thereby making a greater contribution to maintaining safety standards in their respective work environments.”
Participants engaged enthusiastically and actively participated in discussions and hands-on activities conducted as part of the program. Upon completion of the training sessions and examinations, successful participants will receive certification as Electrical Safety Experts from BNSP, enhancing their professionalism in the field of occupational health and safety.
It is hoped that this training and certification program will serve as a starting point in improving safety standards within the Undip community and will have a positive impact on industries and society at large.
May 1, 2024
Semarang, April 27, 2024 – Diponegoro University hosted a workshop titled “Optimizing Management and Administration of Teaching Factory (TEFA)” as part of the Competitive Fund Program for the Industrial Electrical Engineering Study Program. The event took place over two days, from April 26 to 27, 2024.
The workshop aimed to enhance understanding and skills in the management and administration of Teaching Factories, a crucial aspect of vocational education that connects theory with direct industry practice. The main speakers for this event were Dr. Dadang Kurnia, an expert in educational management, and Prof. Dr. Mochamad Bruri Triyono, M. Pd., who specializes in vocational program management.
Over the course of two days, workshop participants from various backgrounds, including lecturers, administrative staff, and industry practitioners, were invited to delve into key concepts in TEFA management and administration. Dr. Dadang Kurnia discussed the latest strategies in vocational education management, while Prof. Dr. Mochamad Bruri Triyono, M. Pd., focused on human resource management and curriculum management relevant to industry needs.
“This workshop serves as a platform for stakeholders in vocational education to exchange information and experiences in effectively managing TEFA,” stated Dr. Dadang Kurnia in his opening remarks.
In addition to presentation sessions and discussions, the workshop also provided space for participants to collaborate in designing better TEFA development strategies, in line with current and future industry demands.
“With the increasing complexity of industries, the role of TEFA in preparing graduates ready for work is crucial. Through this workshop, it is hoped that we can strengthen the synergy between vocational education and the industrial world,” added Prof. Dr. Mochamad Bruri Triyono, M. Pd.
This workshop is expected to be a significant initial step in strengthening the role of Diponegoro University’s TEFA in supporting the development of high-quality and competitive human resources in the industrial sector.
Recent Comments