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INDONESIA
Indonesian Journal of Innovation Studies
Published by Universitas Muhammadiyah Sidoarjo
ISSN : -     EISSN : 25989936     DOI : https://doi.org/10.21070/ijins.v17i
Core Subject : Science, Education, Social, Engineering,
Computer Science & IT Education Engineering Law, Crime, Criminology & Criminal Justice
Indonesian Journal of Innovation Studies (IJINS) is a peer-reviewed journal published by Universitas Muhammadiyah Sidoarjo four times a year. This journal provides immediate open access to its content on the principle that making research freely available to the public supports a greater global exchange of knowledge.This journal aims is to provide a place for academics and practitioners to publish original research and review articles. The articles basically contains any topics concerning new innovation on all aspects. IJINS is available in online version. Language used in this journal is Indonesia or English.
Arjuna Subject : Umum - Umum
Articles 981 Documents
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Moral Value Internalization Through Satria Sejati Silat Extracurricular: Internalisasi Nilai Akhlaqul Karimah Melalui Ekstrakurikuler Silat Satria Sejati sandra hidayat; Suhirman Suhirman; Ali Akbar jono
Indonesian Journal of Innovation Studies Vol. 27 No. 2 (2026): April
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v27i2.1711

Abstract

General Background: Moral education plays a crucial role in shaping individual character, particularly among youth within Islamic educational environments. Specific Background: Rumah Tahfidz Bakti Ilaahi Bengkulu integrates moral education through extracurricular Satria Sejati silat as part of character formation efforts. Knowledge Gap: However, limited studies examine structured processes and contextual factors of akhlaqul karimah internalization within silat-based extracurricular activities in tahfidz institutions. Aims: This study aims to analyze the internalization process of moral values and identify supporting and inhibiting factors in Satria Sejati silat activities. Results: The findings reveal six core moral values, including morals toward Allah, the Prophet, parents, self, society, and the environment. The internalization occurs through three stages: introduction and understanding, acceptance, and internalization, implemented via habituation, role modeling, and conditioning. Supporting factors include a supportive environment, integrated teaching methods, and adequate facilities, while limited extracurricular time and diverse student backgrounds act as constraints. Novelty: This study highlights a structured integration of Islamic moral values within silat extracurricular practices in a tahfidz setting. Implications: The findings suggest that silat extracurricular activities can function as a systematic medium for moral education, contributing to character formation through integrated religious and physical training approaches. Highlights• Six moral domains identified within silat-based character education• Three-stage internalization model applied in tahfidz environment• Supporting and constraining factors mapped in extracurricular implementation KeywordsMoral Value Internalization; Islamic Moral Education; Satria Sejati Silat; Extracurricular Learning; Character Formation      
IoT Monitoring System for Ornamental Fish Water Quality Control: Sistem Pemantauan IoT untuk Pengendalian Kualitas Air Ikan Hias Muhammad Firhand Setiaky; Shazana Dhiya Ayuni; Dwi Hadidjaja Rasjid Saputra; Syamsudduha Syahrorini
Indonesian Journal of Innovation Studies Vol. 26 No. 3 (2025): July
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i3.2057

Abstract

General Background Ornamental fish cultivation requires consistent environmental control to maintain optimal health and productivity. Specific Background Key parameters such as temperature, total dissolved solids, and water flow significantly determine the success of fish grooming processes. Knowledge Gap Manual monitoring is often inconsistent due to user limitations, leading to suboptimal environmental conditions and reduced fish quality. Aims This study aims to design and implement an Internet of Things-based monitoring system to observe water quality and automate feeding processes in real time. Results The system integrates ESP8266, temperature sensors, TDS sensors, and water flow sensors, transmitting data to a spreadsheet platform. Experimental results show stable temperature at 31°C and TDS at 158 ppm, while water flow varies depending on filter conditions and pump capacity. Novelty The integration of real-time monitoring with automated feeding and filtration analysis provides a practical solution for continuous fish care. Implications This system supports efficient water quality management, reduces manual workload, and enables data-driven decision-making for improving ornamental fish cultivation outcomes. Keywords: IoT Monitoring, Water Quality, Ornamental Fish, ESP8266, Sensor System Key Findings Highlights Real-time sensing ensures stable aquatic conditions across multiple parameters Automated feeding mechanism operates accurately using time-based control Filtration performance can be evaluated through flow rate variation patterns
IoT Safe Security System Using Voice Command and GPS Tracking: Sistem Keamanan IoT yang Aman Menggunakan Perintah Suara dan Pelacakan GPS Dwi Arifianto; Syamsudduha Syahrorini
Indonesian Journal of Innovation Studies Vol. 26 No. 3 (2025): July
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i3.2058

Abstract

General Background Theft remains a significant security issue, requiring improved protection systems for valuable assets. Specific Background Conventional safe security methods, including mechanical locks and password systems, present limitations in usability and vulnerability to unauthorized access. Knowledge Gap Existing systems lack integrated solutions that combine voice-based control and real-time location monitoring within a single IoT framework. Aims This study aims to design and develop a safe security system using Google Voice Assistant and GPS tracking integrated with IoT technology. Results The system utilizes an ESP32 microcontroller, solenoid door lock, and Neo-6M GPS module, enabling voice-controlled access and real-time location monitoring via the Blynk application. Testing shows successful operation with voice command delays around 1–3 seconds and effective monitoring over distances ranging from 1 to 18 km. Network performance improvements were observed, with signal range increasing from 2 meters to 3 meters. Novelty The integration of Google Voice Assistant with IoT-based GPS tracking provides a unified approach for access control and location monitoring. Implications This system offers practical support for remote security management and contributes to the development of smart security technologies. Keywords: IoT Security, Safe System, Voice Command, GPS Tracking, ESP32 Key Findings Highlights Voice-based access control operates with consistent response timing Location monitoring supports long-distance tracking via mobile devices Network optimization shows measurable improvement in signal range
IoT Phase Loss Monitoring System for Low Voltage Panels: Sistem Pemantauan Kehilangan Fase IoT untuk Panel Tegangan Rendah Ananda Putra Suwarno; Syamsudduha Syahrorini Arifianto; Jamaaludin Suwarno
Indonesian Journal of Innovation Studies Vol. 26 No. 3 (2025): July
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i3.2059

Abstract

General Background Electrical distribution systems require reliable monitoring to prevent damage and service disruption caused by voltage anomalies. Specific Background Phase loss in low-voltage connection panels can lead to equipment damage and delayed handling due to conventional reporting systems. Knowledge Gap Existing complaint systems relying on SMS technology are inefficient and lack real-time monitoring capabilities. Aims This study aims to design and develop an Internet of Things-based phase loss monitoring and complaint system for low-voltage panels. Results The system utilizes NodeMCU ESP32, PZEM-004T sensors, GPS modules, and Telegram integration to monitor voltage conditions and send real-time notifications. Testing shows accurate voltage readings with an average accuracy of 98% and data transmission delay of 1.54 seconds. The system successfully detects abnormal voltage conditions below 220V, above 240V, and zero voltage while providing location information. Novelty The integration of real-time monitoring, automatic notification, and location tracking in a single IoT system provides a comprehensive solution for electrical disturbance handling. Implications This system supports faster response by technicians and improves operational efficiency in managing electrical distribution disturbances. Keywords: IoT Monitoring, Phase Loss, Low Voltage Panel, ESP32, PZEM-004T Key Findings Highlights Voltage anomaly detection operates with high measurement precision Notification delivery shows consistent low latency performance Location tracking enables rapid identification of disturbance points
Android Based Agricultural E Commerce Application for Farmer Transactions: Aplikasi E-Commerce Pertanian Berbasis Android untuk Transaksi Petani Daffa Fauzanrio Iswinarko; Dr. Hindarto S.Kom., M.T; Ade Eviyanti, S.Kom., M.kom; Azmuri Wahyu Azinar, ST., M.comp
Indonesian Journal of Innovation Studies Vol. 26 No. 3 (2025): July
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i3.2060

Abstract

General Background The advancement of mobile technology has enabled digital solutions to support economic activities, including agricultural product distribution. Specific Background Farmers often face challenges such as limited market access and dependency on intermediaries, which reduce their profit margins. Knowledge Gap Existing systems do not fully provide a direct and accessible platform for farmers to connect with consumers through mobile applications. Aims This study aims to design and develop an Android-based e-commerce application to facilitate agricultural product transactions between farmers and consumers. Results The system is developed using a prototype model and incorporates features such as product listing, transaction management, and user interaction interfaces supported by UML modeling including use case, activity, and class diagrams. The application enables users to access product information and perform transactions efficiently. Novelty The integration of mobile-based e-commerce with direct farmer-to-consumer interaction provides a practical solution to reduce dependency on intermediaries. Implications This system supports improved accessibility in agricultural markets and offers a digital platform for more efficient transaction processes. Keywords: Android Application, E Commerce, Agricultural Products, Mobile System, UML Modeling Key Findings Highlights Mobile platform supports direct interaction between producers and buyers System design follows structured modeling using multiple UML diagrams Transaction features allow efficient product access and ordering processes
IoT-Based Semi Automatic Water Control for Bucket Catfish Farming: Sistem Pengendalian Air Semi-Otomatis Berbasis IoT untuk Budidaya Ikan Lele dalam Bak A’rasy Fahruddin; Adi Irawan
Indonesian Journal of Innovation Studies Vol. 26 No. 3 (2025): July
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i3.2061

Abstract

General Background Catfish cultivation is a major freshwater aquaculture activity widely practiced in Indonesia, particularly in urban areas with limited land availability. Specific Background The bucket-based aquaculture system (budidamber) provides a compact solution, yet requires frequent water quality monitoring and maintenance. Knowledge Gap Manual water control often leads to delayed maintenance due to farmers’ time constraints, reducing water quality and affecting fish survival. Aims This study aims to design and implement a semi-automatic IoT-based system for monitoring and controlling water quality in bucket catfish cultivation. Results The system utilizes ESP32, temperature sensor DS18B20, ultrasonic sensor, and Telegram-based control, achieving an average water temperature of 28.9°C within the acceptable standard range and enabling automated water drainage with an average delay of 11 seconds and deviation of 4%. Novelty The integration of real-time monitoring, automated drainage scheduling, and remote control via Telegram provides a practical semi-automatic solution for small-scale aquaculture. Implications This system supports efficient time management for farmers and improves water quality control, contributing to sustainable small-scale aquaculture practices in limited-space environments. Keywords: Internet of Things, Budidamber, Water Quality Monitoring, ESP32, Aquaculture System Key Findings Highlights Remote monitoring system maintains stable water conditions within standard limits Automated drainage operates with minor delay under real conditions Integrated messaging control simplifies operational management for farmers
Real Time CO Gas Monitoring System Using ESP8266 and Telegram: Sistem Pemantauan Gas CO Secara Real-Time Menggunakan ESP8266 dan Telegram Rony Setiawan; Izza Anshory
Indonesian Journal of Innovation Studies Vol. 26 No. 3 (2025): July
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i3.2062

Abstract

General Background Carbon monoxide (CO) is a toxic gas that cannot be detected by human senses and poses significant health risks in indoor environments. Specific Background Increasing air pollution and limited awareness highlight the need for real-time monitoring systems capable of detecting hazardous gas concentrations. Knowledge Gap Previous monitoring systems were limited by the lack of IoT integration and real-time notification features for users. Aims This study aims to design and implement an IoT-based monitoring system for detecting CO gas levels using ESP8266 integrated with Telegram notifications. Results The system utilizes an MQ-7 sensor to measure CO concentration and successfully transmits data to users, showing stable readings between 10.54 PPM and 20.24 PPM, with automatic alerts triggered when levels exceed 20 PPM, activating buzzer and fan responses. Novelty The integration of MQ-7 sensor, ESP8266, and Telegram enables real-time monitoring and automated alert mechanisms in a single system. Implications This system provides a practical solution for indoor air quality monitoring and supports early detection of hazardous gas exposure to reduce health risks. Keywords: Carbon Monoxide, Internet of Things, MQ-7 Sensor, ESP8266, Air Quality Monitoring Key Findings Highlights System detects hazardous gas threshold and triggers automated warning devices Data transmission to users occurs instantly through messaging platform Sensor readings remain stable under normal environmental conditions
Voice Controlled DC Motor System Using IoT Monitoring: Sistem Motor DC yang Dikendalikan Suara dengan Pemantauan IoT Imron Muhammad Triaji; Shazana Dhiya Ayuni
Indonesian Journal of Innovation Studies Vol. 26 No. 3 (2025): July
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i3.2063

Abstract

General Background DC motors are widely used in industrial and household applications requiring precise and flexible speed control. Specific Background Recent advancements in Internet of Things and voice recognition technologies enable more intuitive and remote-based control systems. Knowledge Gap Conventional DC motor control systems are generally limited to manual or application-based interfaces without integrated voice command features. Aims This study aims to design and implement a DC motor control system using voice commands integrated with IoT-based monitoring. Results The system utilizes a microcontroller, PWM method, and voice recognition module to control motor speed, where voice inputs are successfully translated into motor responses and monitored through an IoT platform. Novelty The integration of voice command control with IoT-based monitoring provides a more interactive and accessible approach for DC motor operation. Implications This system offers a practical solution for remote and user-friendly motor control, supporting the development of smart automation systems in various applications. Keywords: Voice Recognition, Internet of Things, DC Motor Control, PWM, Smart System Key Findings Highlights Voice commands are successfully converted into motor speed adjustments Monitoring system enables real time observation through network connectivity Integrated control approach simplifies user interaction with hardware systems
IoT Based Smart Door Lock With QR Code Access: Kunci Pintu Pintar Berbasis IoT dengan Akses Kode QR Irsyad Nafi Afriadi; Izza Anshory
Indonesian Journal of Innovation Studies Vol. 26 No. 3 (2025): July
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i3.2064

Abstract

General Background The development of digital technology has enabled more advanced and practical home security systems. Specific Background Smart door lock systems are increasingly used to replace conventional locks due to their flexibility and remote control capabilities. Knowledge Gap Existing systems often rely on single authentication methods and lack integrated control through mobile applications and IoT connectivity. Aims This study aims to design and implement a prototype smart door lock system using QR code authentication integrated with an IoT platform. Results The system utilizes NodeMCU ESP8266, relay modules, solenoid door lock, and Blynk application, showing successful operation with WiFi control at a distance of 9 meters with obstacles and 11 meters without obstacles, and an average response delay of 1.1 seconds. Novelty The integration of QR code authentication with Blynk-based IoT control provides a combined access and remote control mechanism within a single system. Implications This system offers a practical solution for improving home security with remote access and real-time control through mobile devices. Keywords: Smart Door Lock, Internet of Things, QR Code, NodeMCU ESP8266, Blynk Key Findings Highlights System operates reliably within limited wireless range conditions Command execution shows consistent response time under testing scenarios Integrated authentication and remote control functions operate in one platform
Hydraulic Press Machine Design for Straw Processing System: Desain Mesin Pres Hidraulik untuk Sistem Pengolahan Jerami Muhammad Rizal Ma’arif; A’rasy Fahruddin
Indonesian Journal of Innovation Studies Vol. 26 No. 3 (2025): July
Publisher : Universitas Muhammadiyah Sidoarjo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.21070/ijins.v26i3.2065

Abstract

This study presents the design and development of a hydraulic-based pressing machine for material processing applications. General Background: Hydraulic systems are widely utilized in industrial machinery due to their ability to generate high force with controlled motion. Specific Background: In agricultural and mechanical sectors, pressing processes require efficient and reliable equipment to improve material handling and productivity. Knowledge Gap: Existing systems often lack optimization in terms of design simplicity, operational efficiency, and adaptability for small-scale applications. Aims: This research aims to design and analyze a hydraulic press machine capable of improving pressing performance for processing materials such as straw. Results: The developed system demonstrates stable mechanical performance, adequate pressure distribution, and operational feasibility under testing conditions. Novelty: The proposed design integrates a simplified hydraulic mechanism with practical implementation considerations suitable for small-scale usage. Implications: The findings provide a reference for developing cost-effective hydraulic machinery in agricultural and industrial applications, supporting improved productivity and equipment accessibility. Keywords: Hydraulic System, Press Machine, Mechanical Design, Straw Processing, Industrial Equipment Key Findings Highlights Hydraulic mechanism shows stable force generation during operation Prototype supports consistent material compaction process Design suitable for small-scale industrial implementation

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