cover
Contact Name
Ismail Arifin
Contact Email
journalsmartbengkulu@gmail.com
Phone
+628562911777
Journal Mail Official
journalsmartbengkulu@gmail.com
Editorial Address
Jalan Kalimantan RT 004 RW 001 Kelurahan Kampung Kelawi, Kecamatan Sungai Serut, Kota Bengkulu, Provinsi Bengkulu
Location
Kota bengkulu,
Bengkulu
INDONESIA
SMART : Jurnal Teknologi Informasi dan Komputer
Published by Gayaku Publisher
ISSN : -     EISSN : 29636388     DOI : https://doi.org/10.58222/sj.v1i1.818
SMART Jurnal Teknologi Informasi dan Komputer or SMART Journal of Information Technology and Computer Science is published by Gayaku Publisher. SMART publishes research papers in the fields of Information Technology and Computer Science. SMART is committed to publishing high quality articles in Indonesian and English that can serve as key references for researchers in the fields of Information Technology and Computer Science. The scope of this journal encompasses to study of Computer Science, Information Technology, Digital Media, Information System, Knowledge Management, System Management, Data Mining, Internet Of Things IOT, Artificial Intelligence AI, Robotic, Computer Networks, Cyber Security. The scope of SMART Journal of Information Technology and Computer Science is as follows: Domain Specific Frameworks and Applications IT Management dan IT Governance eGovernment eHealthcare, eLearning, eManufacturing, eCommerce ERP dan Supply Chain Management Business Process Management Smart Systems Smart City Smart Cloud Technology Smart Appliances and Wearable Computing Devices Robotic Systems Smart Sensor Networks Information Infrastructure for Smart Living Spaces Intelligent Transportation Systems Models, Methods and Techniques Conceptual Modeling, Languages and design Software Engineering Information centric Networking Human Computer Interaction Media, Game and Mobile Technologies Data Mining Information Retrievel Information Security Image Processing and Pattern Recognition Remote Sensing Natural Language Processing
Articles 47 Documents
Image Optimization of Ancient Arabic Manuscripts with a Combination of Image Enhancement and Sharpening S. Widihasaniputri, Hanifatus; Tjahjo Saputro, Wahju; Chirzah, Dewi
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 4 No. 1 (2025): January-June 2025
Publisher : Gayaku Publisher

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

Abstract

Ancient manuscripts are rare collections owned by every nation in theworld. The contents of a written text or document often also provideinformation on aspects of the nation's culture of the community concerned.Various efforts have been made to conserve these cultural objects, such asdigitizing manuscripts into digital images. This study aims to improve theimage of the ancient Arabic script using image enhancement and sharpeningmethods. The image enhancement used in this study is the gamma methodand the log transformation method combined using the sharpening method.The results showed that the sharpening method could improve the legibilityof an ancient manuscript.
Literature Review: Utilization of Technology and Computerization in Smart Homes Arifin, Ismail; Dwi Cahya, Deni
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 1 No. 1 (2022): January-June
Publisher : Gayaku Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58222/sj.v1i1.1687

Abstract

The development of information technology and the Internet of Things (IoT) has brought significant changes to smart home systems. This article presents a literature review of five studies from accredited national and international journals that discuss the application of technology to smart homes between 2017 and 2022. The main focus includes system architecture, inter-device communication, automation, security, and energy efficiency. Based on the review results, the application of IoT technology and artificial intelligence (AI) plays a significant role in realizing smart homes that are efficient and adaptable to occupant needs. The main challenges lie in data security, system interoperability, and implementation costs. This study is expected to serve as a reference for researchers and practitioners in developing smart home innovations that are safer, energy-efficient, and user-friendly.
Implementation of a Finite State Machine for Character Animation Transitions in Unity-Based 3D Games Fairul Filza, Muhammad; Zaid Rahman, Ahmad; Cipta Laksmita, Nadea; Haryoko; Adoni Saputra, Jedidta
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 4 No. 2 July - December 2025
Publisher : Gayaku Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58222/sj.v4i2.1808

Abstract

A responsive character animation system with smooth transitions is a crucial factor in creating a high-quality and immersive gameplay experience. A common issue that frequently arises is animation that appears rigid or unnatural when a character switches from one action to another. This study aims to implement a Finite State Machine (FSM) to manage player character animation transitions in the game Legacy of the Sunstone. The method employed is a Hierarchical Finite State Machine (HFSM) with Moore Machine characteristics, in which the output in the form of animation is determined by the currently active state at a given time. The implementation was carried out using the Unity Engine and applied the State Pattern to establish a structured, modular, and maintainable code architecture. The CrossFadeInFixedTime technique was utilized to achieve smooth animation blending between states with configurable transition durations. The developed FSM system consists of two main categories: Locomotion states, including Idle, Movement, Jump, Falling, and Crouch, and Combat states, including Aim, Melee, and Takedown. System testing can be conducted using Black Box Testing through an iterative approach across 13 test scenarios that cover all functional requirements of the system.
Internet of Things Integration for Land Management and Agricultural Production Parwito Parwito; Edi Susilo
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 1 No. 2 (2022): July-December
Publisher : Gayaku Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58222/xmqavr71

Abstract

The rapid development of digital technology has ushered in the era of Agriculture 4.0, where the Internet of Things (IoT) serves as the primary backbone for optimizing agricultural processes. This article explores the integration of IoT for land management and agricultural production, focusing on research and publications from 2017 to 2022. By implementing various sensors, connectivity layers, and data analysis platforms, IoT enables real-time monitoring of environmental parameters, leading to precision agriculture. The results indicate that IoT integration can increase crop yields by up to 40% while reducing water and nutrient waste by 25-30%. Furthermore, this study discusses the technical architecture, implementation challenges in Indonesia, and the economic benefits of smart farming. The comprehensive analysis aims to provide a strategic framework for stakeholders to adopt IoT solutions in enhancing national food security.
Utilization of Sensors and IoT in Smart Agriculture: A Systematic Literature Review (2017–2022) Parwito Parwito; Edi Susilo; Andreani Kinata; Susi Handayani
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 1 No. 2 (2022): July-December
Publisher : Gayaku Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58222/h2s5qg97

Abstract

The global agricultural landscape is undergoing a paradigm shift toward "Agriculture 4.0," where data-driven decisions replace traditional intuition. This transformation is underpinned by the integration of sensor technology and the Internet of Things (IoT). This article presents a comprehensive systematic literature review (SLR) of research published between 2017 and 2022, focusing on the technical nuances of sensors, network architectures, and their socio-economic impacts. By analyzing over 20 key publications, the study identifies a transition from resistive to capacitive sensing technologies and the dominance of LPWAN protocols in large-scale farming. The findings highlight that IoT integration leads to a 30-40% increase in productivity and a significant reduction in resource waste. This review provides a strategic roadmap for implementing smart farming solutions, emphasizing the need for infrastructure development and digital literacy in developing economies like Indonesia..
Evaluation of Web-Based Outpatient Registration InformationSystem at Hospital X Ismail Arifin
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 4 No. 1 (2025): January-June
Publisher : Gayaku Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58222/dbh4c939

Abstract

The web-based outpatient registration information system is a critical component of hospital service management whose effectiveness directly affects patient waiting times and service quality. This study evaluates the web-based outpatient registration information system at Hospital X using a combination of the End User Computing Satisfaction (EUCS) model and the Human-Organization-Technology Fit (HOT-Fit) model. The research employs a descriptive quantitative method with a cross-sectional design. The research subjects consisted of 87 respondents comprising registration officers, medical staff, and outpatient patients selected using purposive sampling. Data were collected through structured questionnaires distributed online and analyzed using Structural Equation Modeling-Partial Least Squares (SEM-PLS). The results show that the information quality dimension has the highest satisfaction score (3.82/5.00), while the ease of use dimension received the lowest score (3.41/5.00). HOT-Fit analysis reveals that Technology factors have the greatest positive influence on net benefit with a path coefficient of 0.412 (p<0.001). Overall, the system received a satisfaction level of 74.3% (Good category) according to the EUCS model. The novelty of this research lies in the combined application of the EUCS and HOT-Fit evaluation models to obtain a more comprehensive and multi-dimensional picture of the system's effectiveness, which has rarely been applied simultaneously in the context of hospital registration system evaluation in Indonesia.
Application of IoT for Plant Monitoring and Irrigation Automation Parwito
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 4 No. 1 (2025): January-June
Publisher : Gayaku Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58222/dt2x0r90

Abstract

The inefficiency of conventional irrigation systems causes water waste and suboptimal plant growth, particularly in smallholder farming contexts in Indonesia. This study implements an IoT-based plant monitoring and irrigation automation system using the ESP32 microcontroller integrated with soil moisture sensors, LDR light sensors, DHT11 temperature/humidity sensors, and an ultrasonic water level sensor. The system transmits data via the Wi-Fi protocol to the Firebase Realtime Database cloud platform and is displayed through an Android mobile application with automated push notification alerts. The research method used is Research and Development (R&D) with a prototyping approach, tested on tomato plants in a greenhouse for 12 weeks. Results show the system achieves a data transmission success rate of 97.3%, average sensor reading latency of 1.8 seconds, and soil moisture measurement accuracy of 96.1% compared to a standard tensiometer. Irrigation automation reduces water usage by 31.4% while increasing plant growth rate by 27.6% compared to manual irrigation. The system's novelty lies in the adaptive threshold mechanism that automatically adjusts optimal soil moisture parameters based on plant growth phase, without requiring manual reconfiguration by the user.
Digitalisasi Pertanian Presisi: Tinjauan Literatur pada Teknologi Sensor, Monitoring, dan Otomasi Parwito Parwito; Ismail Arifin
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 1 No. 2 (2022): July-December
Publisher : Gayaku Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58222/fp2ann81

Abstract

Precision agriculture is a modern approach that leverages digital technologies to enhance efficiency, productivity, and sustainability in crop cultivation. Advances in sensor technologies, monitoring systems, and automation have enabled real-time data collection, land condition analysis, and precise input management. The background of this study stems from the increasing demand for more efficient and climate-adaptive agricultural practices, while reducing excessive resource use. The objective of this study is to review recent literature on the implementation of sensor technologies, monitoring systems, and automation in the digitalization of precision agriculture. The method employed is a systematic literature review, analyzing scientific publications, peer-reviewed articles, and technical reports from recent years to identify trends, applications, and challenges faced in precision agriculture practices. The review findings indicate that soil and crop sensors, IoT-based monitoring systems, and automation devices such as smart irrigation and crop-monitoring drones significantly enhance the accuracy of agricultural decision-making. These technologies support efficient nutrient management, pest control, and irrigation, while enabling more precise yield predictions. However, technology adoption still faces challenges such as high implementation costs, limited digital infrastructure, and the need for technical skills among farmers. In conclusion, the digitalization of precision agriculture through the integration of sensors, monitoring, and automation offers substantial potential to improve agricultural production efficiency. Adaptive implementation strategies and technical training support are key to successful technology adoption in the field.
Challenges of Implementing Integrated SIMRS at ABC Hospital, Bengkulu City Ahmad Ridho Firmansyah
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 4 No. 1 (2025): January-June
Publisher : Gayaku Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58222/2a4bf319

Abstract

Hospital Management Information Systems (SIMRS) are a key component in improving the quality of health services and hospital operational efficiency. However, the implementation process is often faced with complex multidimensional challenges. This study aims to identify and analyze the challenges in the implementation of integrated SIMRS at RS ABC Kota Bengkulu using a mixed-method approach. The novelty of this research lies in the development of a Hospital IS Implementation Challenge Framework (HIICF) that integrates four dimensions of challenges — technological, human resources, organizational, and regulatory — into a comprehensive measurement instrument adapted to the context of Type C hospitals in Indonesia. Data were collected through in-depth interviews with 18 key informants, questionnaires distributed to 127 SIMRS users, and document analysis. Findings reveal that the most dominant challenge is the human resources dimension (mean 3.89/5.00), particularly staff digital competence and resistance to change, followed by technological infrastructure (3.74/5.00), organizational management (3.51/5.00), and regulatory compliance (3.12/5.00). The HIICF framework developed is validated with a Cronbach's Alpha value of 0.874, indicating high reliability. This research contributes to evidence-based guidance for SIMRS implementation in Type C hospitals across Indonesia.
Evaluation of Electronic MedicalRecords (SIMPUS) at ABC XYZ Community Health Center Using the EUCS Method Berkah Putri Lefesi
SMART : Jurnal Teknologi Informasi dan Komputer Vol. 4 No. 2 (2025): July - December
Publisher : Gayaku Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58222/hbcwm208

Abstract

The  Health  Center  Information  System  (SIMPUS)  as  an  electronic  medical record platform is a key instrument in realizing the digitalization of primary health  services  in  Indonesia.  However,  implementation   without  proper evaluation risks resulting in systems that do not meet user needs. This study evaluates user satisfaction with the electronic medical records (SIMPUS) at Puskesmas   ABC,   XYZ   Regency,   YYY   Province   using   the   End   User Computing Satisfaction (EUCS) method. The research employs a descriptive quantitative approach  with a cross-sectional design. Respondents consisted of  52  health   workers   who  actively  use  SIMPUS,  selected  using  total sampling.  Data  were  collected  through  a  structured  questionnaire  adapted from  the  EUCS  instrument  covering  five  dimensions:  Content,  Accuracy, Format,  Ease  of  Use,  and  Timeliness.  Validity  and  reliability  tests  were conducted  before  data  collection.  Data  analysis  used  descriptive  statistics and  gap  analysis  between  expectations  and  perceptions.  Results  show  an overall  user  satisfaction  index  of  72.6%  (Good  category).  The  highest satisfaction was found in the Accuracy dimension (75.8%) and the lowest in the  Ease  of  Use  dimension  (67.4%).  Gap  analysis  reveals  the  largest negative gap in Ease of Use (gap score: −0.74), indicating that system ease of use is the most critical aspect requiring improvement. The novelty of this research  lies  in  the  application  of  gap  analysis  between  user  expectations and  actualperceptions  as  an  enrichment  of  the  standard  EUCS  method, providing    deeper    diagnostic    information    for    system    improvement recommendations  that  are  more  targeted  and  actionable  specifically  for SIMPUS in the Puskesmas context.