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All Journal Teknik Mesin "TEKNOLOGI" JOURNAL SCIENTIFIC OF MANDALIKA (JSM) Journal of Educational Analytics
SOEKARMAN
POLITEKNIK MUHAMMADIYAH MAKASSAR
Humanities Education Languange, Linguistic, Communication & Media Mechanical Engineering Other

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Authentic Assessment as a Solution to Enhance Deep Learning and Maintain Academic Integrity in Higher Education Vika Puji Cahyani; Fandi Ahmad; Soekarman Soekarman; Mohd Zulfakar Mohd Nawi
Journal of Educational Analytics Vol. 3 No. 3 (2024): August 2024
Publisher : PT FORMOSA CENDEKIA GLOBAL

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.55927/jeda.v3i3.12393

Abstract

Authentic assessment has become a major concern in higher education, especially in an effort to enhance deep learning and maintain academic integrity. This study aims to identify research trends related to authentic assessment and explain how authentic assessment design can promote deep learning while maintaining academic integrity in the digital era. This research uses a mixed method approach consisting of bibliometric analysis to identify research patterns related to the topic and narrative literature review to deeply analyse the themes and contributions of relevant research. The data that has been collected is then equipped with its attributes and analysed with VOSviewer software. The selected articles were then subjected to an in-depth analysis process on the content of the articles including the main theories used in authentic assessment, authentic assessment designs that support deep learning and the relationship between academic integrity. Based on the results of the study, it can be concluded that the research trends in the form of top 6 keywords related to authentic assessment are about authentic assessment (35), assessment (22), higher education (11), authenticity (6), academic integrity (5), assessment design (5), deep learning (4). This research offers practical recommendations for educators in designing authentic assessments that are relevant to the 21st century context.
Rancang Bangun Sistem Operasi Mode Cutting Monopolar pada Electrosurgery Unit Berbasis ESP 8266 Suwarmiyati; Soekarman
Journal Scientific of Mandalika (JSM) e-ISSN 2745-5955 | p-ISSN 2809-0543 Vol. 6 No. 1 (2025)
Publisher : Institut Penelitian dan Pengembangan Mandalika Indonesia (IP2MI)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.36312/10.36312/vol6iss1pp239-243

Abstract

Electrosurgery Unit (ESU) is widely used in the medical world for surgical procedures that require high accuracy with reduced bleeding. This study aims to design and implement a cutting mode on an ESU based on ESP 8266 with monopolar mode. The system is designed using an oscillator based on CMOS IC CD4069 which produces a high frequency in the range of 300–500 kHz. The test results show that the device is capable of working in three power settings: LOW mode (404 kHz, 8.0% error), MEDIUM mode (450 kHz, 9.0% error), and HIGH mode (500 kHz, 10% error), which provides flexibility according to surgical needs. The unique method applied is the integration between the ESP 8266 microcontroller for precision control and the use of potentiometers for dynamic frequency settings. Although the results show a high success rate, the limitation of the device lies in the focus of the system which only includes cutting mode without additional features such as coagulation or tissue burning. However, this device offers great potential for future development, including integration with IoT for remote monitoring and expansion of operation modes. With a simple yet innovative design, this device is expected to provide an efficient and safe solution for modern surgical needs.
Rancang Bangun Alat CES (Cranial Elektrotherapy Stimulator) dengan tampilan visualisasi LCD TFT Fuadah, Nur; Soekarman, Soekarman; Anwar, Badarudddin
Teknik Mesin "TEKNOLOGI" Vol 27, No 1 APR (2025): Jurnal Teknik Mesin TEKNOLOGI
Publisher : Universitas Negeri Makassar

Show Abstract | Download Original | Original Source | Check in Google Scholar

Abstract

Cranial Electrotherapy Stimulator (CES) merupakan alat terapi non-invasif yang digunakan untuk membantu mengatasi gangguan kecemasan, insomnia, dan depresi melalui stimulasi listrik ringan pada area kepala. Penelitian ini bertujuan untuk merancang dan membangun alat CES yang dilengkapi dengan tampilan visualisasi berbasis LCD TFT guna memberikan informasi real-time terkait parameter terapi seperti durasi, intensitas arus, dan status perangkat. Sistem ini dikendalikan oleh mikrokontroler yang mengatur output sinyal listrik sesuai dengan parameter yang ditentukan, serta menampilkan data operasional melalui antarmuka pengguna yang intuitif. Prototipe alat telah diuji dalam skala laboratorium untuk memastikan kestabilan sinyal, keamanan tegangan dan arus, serta kejelasan tampilan visual. Hasil pengujian menunjukkan bahwa alat CES yang dirancang mampu bekerja sesuai fungsi dengan tampilan informasi yang responsif dan mudah dipahami. Dengan integrasi visualisasi LCD TFT, perangkat ini diharapkan dapat meningkatkan kenyamanan dan kontrol pengguna selama sesi terapi
Co-Authors Anwar, Badarudddin Fandi Ahmad Mohd Zulfakar Mohd Nawi Nur Fuadah Suwarmiyati Vika Puji Cahyani