Pub Date : 2023-03-31DOI: 10.57203/session.v1i02.2023.61-66
L. Hakim
Indonesia adalah salah satu negara dengan tingkat kejadian stunting tertinggi di Asia Tenggara. Salah satu yang masih menjadi kendala dalam pencegahan stunting adalah lambatnya pemantauan tumbuh kembang anak, terutama di wilayah pedesaan. Proses pencatatan pertumbuhan balita di Posyandu membutuhkan waktu yang lama karena masih bersifat manual dan kekurangan tenaga kesehatan. Untuk mengatasi masalah diatas, perlu dibangun sebuah timbangan otomatis yang terintegrasi sistem informasi untuk mencatat pertumbuhan balita dan menentukan status gizi balita. Data yang tersimpan di sistem infromasi tersebut dapat diekspor ke sistem e-PPGBM Kementerian Kesehatan, sehingga operator tidak lagi harus memasukkan data secara manual ke e-PPGBM. Untuk memudahkan bidan,pengukuran berat dan tinggi badan balita menggunakan perangkat IoT, sehingga bidan tidak perlu menulis manual. Proses entri data dari pengukuran oleh bidan ke aplikasi dapat dilakukan tanpa sinyal internet, proses sinkronisasi nantinya dapat dilakukan ketika bidan sudah berada di tempat yang terjangkau sinyal internet. Untuk mempercepat proses pengukuran, pada timbangan telah dilengkapi dengna sensor RFID yang bekerja pada frekuensi 125Khz. Para orang tua hanya perlu menempelkan kartu RFID pada timbangan dan kemudian meletakkan bayi diatas timbangan. Secara otomatis data akan masu ke sistem sesuai identitas balia. Hasil pengujian menunjukkan bahwa baik perangkat keras maupun aplikasi telah berjalan dengan baik. Untuk akurasi timbangan menunjukkan nilai 99.9% saat menerima beban 19.1 Kg. Akurasi akan meningkat disaat beban yang diberikan lebih ringan.
{"title":"Sistem Informasi Status Gizi Anak dan Timbangan Bayi Berbasis IoT Untuk Pendeteksian Stunting","authors":"L. Hakim","doi":"10.57203/session.v1i02.2023.61-66","DOIUrl":"https://doi.org/10.57203/session.v1i02.2023.61-66","url":null,"abstract":"Indonesia adalah salah satu negara dengan tingkat kejadian stunting tertinggi di Asia Tenggara. Salah satu yang masih menjadi kendala dalam pencegahan stunting adalah lambatnya pemantauan tumbuh kembang anak, terutama di wilayah pedesaan. Proses pencatatan pertumbuhan balita di Posyandu membutuhkan waktu yang lama karena masih bersifat manual dan kekurangan tenaga kesehatan. Untuk mengatasi masalah diatas, perlu dibangun sebuah timbangan otomatis yang terintegrasi sistem informasi untuk mencatat pertumbuhan balita dan menentukan status gizi balita. Data yang tersimpan di sistem infromasi tersebut dapat diekspor ke sistem e-PPGBM Kementerian Kesehatan, sehingga operator tidak lagi harus memasukkan data secara manual ke e-PPGBM. Untuk memudahkan bidan,pengukuran berat dan tinggi badan balita menggunakan perangkat IoT, sehingga bidan tidak perlu menulis manual. Proses entri data dari pengukuran oleh bidan ke aplikasi dapat dilakukan tanpa sinyal internet, proses sinkronisasi nantinya dapat dilakukan ketika bidan sudah berada di tempat yang terjangkau sinyal internet. Untuk mempercepat proses pengukuran, pada timbangan telah dilengkapi dengna sensor RFID yang bekerja pada frekuensi 125Khz. Para orang tua hanya perlu menempelkan kartu RFID pada timbangan dan kemudian meletakkan bayi diatas timbangan. Secara otomatis data akan masu ke sistem sesuai identitas balia. Hasil pengujian menunjukkan bahwa baik perangkat keras maupun aplikasi telah berjalan dengan baik. Untuk akurasi timbangan menunjukkan nilai 99.9% saat menerima beban 19.1 Kg. Akurasi akan meningkat disaat beban yang diberikan lebih ringan.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"1 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2023-03-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"114293415","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-03-30DOI: 10.57203/session.v1i02.2023.41-48
Afdan Syukron, Indria Trisni Puspita, I. Suryawan, Putri Elvina Eldayanti, Martasya Dwi Pramesty, Ni Wayan Rica Anjani, Ahmad Edo Pratama, Sri Mulya Ningsih, Avi Julia Rahma, Achmad Alfanosa Fahrezy, Alvin Sugiarto, Ni Nyoman Era Jumantini
Towards the New Era of Bali, the provincial government of Bali is moving to make Bali free from piles of garbage. Through Governor Regulation Number 47 of 2019 concerning Source-Based Waste Handling. Waste management is carried out from the smallest level of the adat village/village or kelurahan. Innovations in recording from waste banks which are still recorded manually are now being designed with a website-based application that can assist the management of TPS 3R. The method used to analyze community needs for digital innovation is carried out using a qualitative approach and the concept of design thinking. The stages in design thinking are empathize, define, ideate, prototype, and test. Based on the results of the analysis, it was concluded that the application that can be applied to assist TPS3R's performance in managing waste is in the recording and reporting section that is carried out in each village. Source-based waste management is expected that the community can independently manage and sort their waste, for recycled waste collected at the village waste bank. This digital innovation is called "Bali Peduli Lingkungan” or Bapeling. Bapeling is an application that is designed to function as an educational tool, to support the performance of TPS3R officers, to assist the Forestry and Environment Service government in tracking waste records that have been collected by TPS3R, as well as a buying and selling place that can improve the economy of the Balinese people. From the results of this analysis and design, it is hoped that at a later stage it can be implemented in the form of an appropriate website design and utilized directly by the community.
{"title":"Design Thinking: Metode Perancangan Aplikasi Bapeling Dalam Penanganan Sampah Berbasis Sumber Provinsi Bali","authors":"Afdan Syukron, Indria Trisni Puspita, I. Suryawan, Putri Elvina Eldayanti, Martasya Dwi Pramesty, Ni Wayan Rica Anjani, Ahmad Edo Pratama, Sri Mulya Ningsih, Avi Julia Rahma, Achmad Alfanosa Fahrezy, Alvin Sugiarto, Ni Nyoman Era Jumantini","doi":"10.57203/session.v1i02.2023.41-48","DOIUrl":"https://doi.org/10.57203/session.v1i02.2023.41-48","url":null,"abstract":"Towards the New Era of Bali, the provincial government of Bali is moving to make Bali free from piles of garbage. Through Governor Regulation Number 47 of 2019 concerning Source-Based Waste Handling. Waste management is carried out from the smallest level of the adat village/village or kelurahan. Innovations in recording from waste banks which are still recorded manually are now being designed with a website-based application that can assist the management of TPS 3R. The method used to analyze community needs for digital innovation is carried out using a qualitative approach and the concept of design thinking. The stages in design thinking are empathize, define, ideate, prototype, and test. Based on the results of the analysis, it was concluded that the application that can be applied to assist TPS3R's performance in managing waste is in the recording and reporting section that is carried out in each village. Source-based waste management is expected that the community can independently manage and sort their waste, for recycled waste collected at the village waste bank. This digital innovation is called \"Bali Peduli Lingkungan” or Bapeling. Bapeling is an application that is designed to function as an educational tool, to support the performance of TPS3R officers, to assist the Forestry and Environment Service government in tracking waste records that have been collected by TPS3R, as well as a buying and selling place that can improve the economy of the Balinese people. From the results of this analysis and design, it is hoped that at a later stage it can be implemented in the form of an appropriate website design and utilized directly by the community.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"12 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2023-03-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"130885239","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-03-30DOI: 10.57203/session.v1i02.2023.34-40
Ahmad Martin Yusa, Siti Nurhalimah, Arif Fahmi
Light intensity is an important factor to consider as best as possible to support plant fertility and health, especially in cayenne pepper plants. One of the innovations that can be applied to assist the management and maintenance of plants in Greenouse is agricultural technology based on the Internet of Things (IoT) or called smart sarming. In the use of Smart farming technology, the process of Monitoring crop needs is carried out by sensors and microcontrollers so that farmers can monitor all data in real time. This final project aims to describe the implementation of a light intensity Monitoring system in an IoT-based Greenhouse and produce a light intensity Monitoring tool in a Greenhouse using an LDR sensor so that farmers can know that the plants are getting an adequate supply of light. The smart farming system is designed using the MQTT (Message Queue Telemetry Transport) protocol as the center for transferring and receiving data from sensors to Monitoring applications. The stages of implementing system into the Greenhouse include: (1) installation of sensors and microcontrollers on the Prototype Greenhouse for cayenne pepper cultivation; (2) design and decision-making to be carried out by the system; (3) create web and android applications as a place for Monitoring data by end users. The results show that the light intensity Monitoring system in cayenne pepper cultivation is based on the Internet Of Things (IoT), include: first, the manufacture of a system Monitoring tool whose light intensity is carried out in 4 steps, namely determining the components, assembling of components into a series of Monitoring systems, programming toolkits and application software, and packaging step. And the second, the implementation of the light intensity Monitoring system in cayenne pepper cultivation includes the system trial stage which produces an average value of 2676 LUX or 62.43% on sensor readings 12 times over a period of 3 minutes it is still at the optimal level for the growth of cayenne pepper plants with a minimum intensity value of 2528 or 50%. The output value calibration results on the Monitoring application with the LUX Meter application show the same and accurate value. So, it can be concluded that the IoT-based light intensity Monitoring system can run well and can be implemented for Greenhouse farming of cayenne pepper.
{"title":"Prototype Sistem Monitoring Intensitas Cahaya pada Budidaya Tanaman Cabai Rawit dengan Konsep Smart Farming Berbasis Internet Of Things (IOT)","authors":"Ahmad Martin Yusa, Siti Nurhalimah, Arif Fahmi","doi":"10.57203/session.v1i02.2023.34-40","DOIUrl":"https://doi.org/10.57203/session.v1i02.2023.34-40","url":null,"abstract":"Light intensity is an important factor to consider as best as possible to support plant fertility and health, especially in cayenne pepper plants. One of the innovations that can be applied to assist the management and maintenance of plants in Greenouse is agricultural technology based on the Internet of Things (IoT) or called smart sarming. In the use of Smart farming technology, the process of Monitoring crop needs is carried out by sensors and microcontrollers so that farmers can monitor all data in real time. This final project aims to describe the implementation of a light intensity Monitoring system in an IoT-based Greenhouse and produce a light intensity Monitoring tool in a Greenhouse using an LDR sensor so that farmers can know that the plants are getting an adequate supply of light. The smart farming system is designed using the MQTT (Message Queue Telemetry Transport) protocol as the center for transferring and receiving data from sensors to Monitoring applications. The stages of implementing system into the Greenhouse include: (1) installation of sensors and microcontrollers on the Prototype Greenhouse for cayenne pepper cultivation; (2) design and decision-making to be carried out by the system; (3) create web and android applications as a place for Monitoring data by end users. The results show that the light intensity Monitoring system in cayenne pepper cultivation is based on the Internet Of Things (IoT), include: first, the manufacture of a system Monitoring tool whose light intensity is carried out in 4 steps, namely determining the components, assembling of components into a series of Monitoring systems, programming toolkits and application software, and packaging step. And the second, the implementation of the light intensity Monitoring system in cayenne pepper cultivation includes the system trial stage which produces an average value of 2676 LUX or 62.43% on sensor readings 12 times over a period of 3 minutes it is still at the optimal level for the growth of cayenne pepper plants with a minimum intensity value of 2528 or 50%. The output value calibration results on the Monitoring application with the LUX Meter application show the same and accurate value. So, it can be concluded that the IoT-based light intensity Monitoring system can run well and can be implemented for Greenhouse farming of cayenne pepper.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"1 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2023-03-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"130978137","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-03-30DOI: 10.57203/session.v1i02.2023.55-60
Erik Ektrada, L. Hakim, Sepyan Purnama Kristanto
The growth in the number of vehicles in Indonesia has always increased from year to year. Based on data from the Central Statistics Agency, it shows that from 2018 to 2020 there has been an increase of around 5.62% (2018-2019) and 1.89% (2019-2020). This condition causes the condition of parking lots in every public facility to always be a concern considering the lack of availability of parking spaces accompanied by an increase in the number of vehicles. This causes, in some places, especially for areas such as malls, the parking area is always filled with vehicles. Finally, it caused several visitors to experience difficulties in parking the vehicle. In this study, developing an automatic parking system by detecting, tracking and counting vehicles in real time. The proposed detection system is based on YOLO and to carry out vehicle calculations using calculations by checking vehicles that have crossed a predetermined center line. The system performance results show that the detection results show performance with an accuracy percentage of 85% and the results of counting or object calculations with an accuracy of 77.55%.
{"title":"Sistem Tracking dan Counting Kendaraan Berbasis YOLO untuk Pemetaan Slot Parkir Kendaraan","authors":"Erik Ektrada, L. Hakim, Sepyan Purnama Kristanto","doi":"10.57203/session.v1i02.2023.55-60","DOIUrl":"https://doi.org/10.57203/session.v1i02.2023.55-60","url":null,"abstract":"The growth in the number of vehicles in Indonesia has always increased from year to year. Based on data from the Central Statistics Agency, it shows that from 2018 to 2020 there has been an increase of around 5.62% (2018-2019) and 1.89% (2019-2020). This condition causes the condition of parking lots in every public facility to always be a concern considering the lack of availability of parking spaces accompanied by an increase in the number of vehicles. This causes, in some places, especially for areas such as malls, the parking area is always filled with vehicles. Finally, it caused several visitors to experience difficulties in parking the vehicle. In this study, developing an automatic parking system by detecting, tracking and counting vehicles in real time. The proposed detection system is based on YOLO and to carry out vehicle calculations using calculations by checking vehicles that have crossed a predetermined center line. The system performance results show that the detection results show performance with an accuracy percentage of 85% and the results of counting or object calculations with an accuracy of 77.55%.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"103 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2023-03-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"114841266","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2023-03-30DOI: 10.57203/session.v1i02.2023.40-54
Siti Nurhalimah, Ahmad Martin Yusa, Arif Fahmi
The design of a Soil moisture monitoring system with the Smart Farming Concept for IoT-based Chili Cultivation is a system design tool used to monitor Soil moisture in cayenne pepper cultivation. The monitoring system can determine Soil moisture conditions by monitoring Soil moisture information using IoT-based Microcontroller technology so that farmers can monitor the growth of cayenne pepper plants without the need to come to the Greenhouse location to monitor. The design of this monitoring systemuses a Soil moisture sensor. Where the Soil moisture sensor works is to monitor in real-time the state of Soil moisture in a Greenhouse. The classification of Soil moisture on soil quality so that the growth of cayenne pepper plants does not experience problems for dry soil and 61% to 100% for wet soil. The optimal Soil moisture content for cayenne pepper plant growth is in the range of 60% to 70% moist. The program flow to create a Soil moisture monitoring system for IoT-based chili cultivation goes through 3 main stages, namely the initialization, setup, and loop stages so that it can produce a display on the Soil moisture monitoring system application in real time. The results of the design of a Soil moisture monitoring tool based on trials show the optimal Soil moisture value at an average humidity of 63.5% and automatic watering will be carried out by the system when the Soil moisture level decreases from 60% so that it can be concluded that the IoT- based Soil moisture monitoring system can work well.
{"title":"Rancang Bangun Sistem Monitoring KelembapanTanah dengan Konsep Smart Farming untuk Budidaya Tanaman Cabai Rawit Berbasis Internet of Things (IOT)","authors":"Siti Nurhalimah, Ahmad Martin Yusa, Arif Fahmi","doi":"10.57203/session.v1i02.2023.40-54","DOIUrl":"https://doi.org/10.57203/session.v1i02.2023.40-54","url":null,"abstract":"The design of a Soil moisture monitoring system with the Smart Farming Concept for IoT-based Chili Cultivation is a system design tool used to monitor Soil moisture in cayenne pepper cultivation. The monitoring system can determine Soil moisture conditions by monitoring Soil moisture information using IoT-based Microcontroller technology so that farmers can monitor the growth of cayenne pepper plants without the need to come to the Greenhouse location to monitor. The design of this monitoring systemuses a Soil moisture sensor. Where the Soil moisture sensor works is to monitor in real-time the state of Soil moisture in a Greenhouse. The classification of Soil moisture on soil quality so that the growth of cayenne pepper plants does not experience problems for dry soil and 61% to 100% for wet soil. The optimal Soil moisture content for cayenne pepper plant growth is in the range of 60% to 70% moist. The program flow to create a Soil moisture monitoring system for IoT-based chili cultivation goes through 3 main stages, namely the initialization, setup, and loop stages so that it can produce a display on the Soil moisture monitoring system application in real time. The results of the design of a Soil moisture monitoring tool based on trials show the optimal Soil moisture value at an average humidity of 63.5% and automatic watering will be carried out by the system when the Soil moisture level decreases from 60% so that it can be concluded that the IoT- based Soil moisture monitoring system can work well.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"2 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2023-03-30","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"131054838","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Website menyajikan informasi yang dapat terpublikasi dan menjadi konsumsi masyarakat sehingga masyarakat dapat memperoleh informasi lebih cepat dan informatif. Berkembangnya teknologi muncul berbagai kemudahan pengguna dalam memperoleh informasi lebih cepat melalui Chatbot. Pengujung website kampus Politeknik Masamy Internasional (POLMAIN) dapat membaca informasi pada masing-masing halaman website. Informasi yang disajikan pada website dirasa kurang lengkap dan informatif dalam mencari data atau informasi karena tidak memiliki fasilitas pencarian sehingga pengunjung harus membaca informasi satu per satu pada halaman website hingga pengunjung website mendapatkan informasi yang dibutuhkan. Permasalahan yang dihadapi adalah semakin hari jumlah pengguna yang ingin mengajukan pertanyaan dalam waktu bersamaan semakin banyak dan membutuhkan respon dengan cepat sehingga perancangan fitur chatbot ini diharapkan dapat membantu dalam mengatasi permasalahan tersebut untuk mempercepat pengguna mendapatkan informasi tentang kampus POLMAIN serta agar website kampus POLMIN lebih interaktif karena dapat melakukan tanya jawab untuk memberikan informasi. Chatbot pada website kampus POLMAIN ini dibangun menggunakan platform Eva.id. �Perancangan fitur chatbot website kampus POLMAIN ini memiliki beberapa tahap yaitu identifikasi masalah, identifikasi dataset melalui survei pertanyaan, pengumpulan data, membuat dataset, identifikasi spesifikasi perangkat kersa dan perangkat lunak, perancangan chatbot, implementasi chatbot dan ujicoba. Hasil survei pertanyaan dijadikan sebagai dataset knowledge base pertanyaan pada chatbot. Platform Eva.id membantu pembuatan fitur chatbot ini dimana penulis memasukkan dataset kedalam fitur knowledge based pada platform Eva.id. Knowledge based telah terbentuk, selanjutnya adalah tahap pengintegrasian chatbot ke website kampus POLMAIN dilakukan dengan menyalin script web widget dengan bahasa javascript di fitur channel dari platform Eva.id, selanjutnya script tersebut ditambahkan dalam script tampilan website POLMAIN. �Fitur chatbot ini memiliki dua(2) hak akses yaitu admin dan pengguna. Admin dapat mengelola pertanyaan, jawaban, keyword dan live chat. Pengguna dapat bertanya melalui bot atau melalui live chat dan menerima jawaban pertanyaan. Fitur chatbot pada website POLMAIN ini dapat membuat fungsi website sebagai pusat informasi yang lebih dinamis dan realtime tanpa harus membuka platform lain seperti aplikasi chatting Whatsapp karena memiliki fasilitas live chat sehingga lebih efisien dan mudah digunakan.
网站提供的信息可以出版,并成为人们的消费,这样人们就可以更快更信息。由于技术的进步,人们通过查伯特更快地获得信息。Politeknik international (POLMAIN)校园网站的后期可以阅读每个网站的信息。由于没有搜索设施,网站上提供的信息是不完整和信息的,因此访问者必须浏览网站页面上的信息,直到访问者获得所需的信息。面临的问题是用户越来越一天同时还在想问的问题越多,需要设计得如此之快,以致于反应chatbot功能有望协助解决这个问题为了加速用户获得POLMAIN校园信息和校园POLMIN更互动,因为可以做问答网站提供的信息。在这个波尔曼校园网站上的Chatbot是用Eva.id平台创建的。这个POLMAIN校园网站的“chatbot”功能设计有几个阶段,即通过问题调查、数据收集、数据收集、生成数据集、确定kersa和软件的规范、设计、chatbot的执行和测试。调查结果被认为是查伯特调查知识基础的问题。伊娃的平台。id帮助创建了这些聊天机器人特性,作者在Eva平台上输入了基于知识的信息。基于知识的知识已经建立,通过在Eva平台的渠道功能中复制web小部件脚本,将其整合到POLMAIN的网站上。id,下一个脚本将添加到脚本视图的POLMAIN网站。这些chatbot功能有两个(2)权限,即管理员和用户。管理员可以管理问题、回答、按键和实时聊天。用户可以通过机器人或直播聊天来提问并接受问题的答案。这个polline网站的chatbot功能可以使网站成为一个更动态和实时的信息中心,而不必打开其他平台,如Whatsapp聊天应用程序,因为它有一个实时聊天设施,使它更有效和更容易使用。
{"title":"Rancang Bangun Fitur Chatbot Pada Website Politeknik Masamy Internasional","authors":"Inggrid Yanuar Risca Pratiwi, Yahdi Ikhwan, Rifki Zainur Rahman","doi":"10.57203/session.v1i1.2022.22-27","DOIUrl":"https://doi.org/10.57203/session.v1i1.2022.22-27","url":null,"abstract":"Website menyajikan informasi yang dapat terpublikasi dan menjadi konsumsi masyarakat sehingga masyarakat dapat memperoleh informasi lebih cepat dan informatif. Berkembangnya teknologi muncul berbagai kemudahan pengguna dalam memperoleh informasi lebih cepat melalui Chatbot. Pengujung website kampus Politeknik Masamy Internasional (POLMAIN) dapat membaca informasi pada masing-masing halaman website. Informasi yang disajikan pada website dirasa kurang lengkap dan informatif dalam mencari data atau informasi karena tidak memiliki fasilitas pencarian sehingga pengunjung harus membaca informasi satu per satu pada halaman website hingga pengunjung website mendapatkan informasi yang dibutuhkan. Permasalahan yang dihadapi adalah semakin hari jumlah pengguna yang ingin mengajukan pertanyaan dalam waktu bersamaan semakin banyak dan membutuhkan respon dengan cepat sehingga perancangan fitur chatbot ini diharapkan dapat membantu dalam mengatasi permasalahan tersebut untuk mempercepat pengguna mendapatkan informasi tentang kampus POLMAIN serta agar website kampus POLMIN lebih interaktif karena dapat melakukan tanya jawab untuk memberikan informasi. Chatbot pada website kampus POLMAIN ini dibangun menggunakan platform Eva.id. \u0000Perancangan fitur chatbot website kampus POLMAIN ini memiliki beberapa tahap yaitu identifikasi masalah, identifikasi dataset melalui survei pertanyaan, pengumpulan data, membuat dataset, identifikasi spesifikasi perangkat kersa dan perangkat lunak, perancangan chatbot, implementasi chatbot dan ujicoba. Hasil survei pertanyaan dijadikan sebagai dataset knowledge base pertanyaan pada chatbot. Platform Eva.id membantu pembuatan fitur chatbot ini dimana penulis memasukkan dataset kedalam fitur knowledge based pada platform Eva.id. Knowledge based telah terbentuk, selanjutnya adalah tahap pengintegrasian chatbot ke website kampus POLMAIN dilakukan dengan menyalin script web widget dengan bahasa javascript di fitur channel dari platform Eva.id, selanjutnya script tersebut ditambahkan dalam script tampilan website POLMAIN. \u0000Fitur chatbot ini memiliki dua(2) hak akses yaitu admin dan pengguna. Admin dapat mengelola pertanyaan, jawaban, keyword dan live chat. Pengguna dapat bertanya melalui bot atau melalui live chat dan menerima jawaban pertanyaan. Fitur chatbot pada website POLMAIN ini dapat membuat fungsi website sebagai pusat informasi yang lebih dinamis dan realtime tanpa harus membuka platform lain seperti aplikasi chatting Whatsapp karena memiliki fasilitas live chat sehingga lebih efisien dan mudah digunakan.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"2 s3","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2022-09-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"120834964","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2022-09-04DOI: 10.57203/session.v1i1.2022.14-21
Tresna Maulana Fahrudin, Rangga Laksana Aryananda, Ellexia Leonie Gunawan, Valentino Belardo, Firsta Marcelia, Christina Halim
Tingkat kepuasan pelayanan pelanggan dapat ditinjau berdasarkan keluhan-keluhan pelanggan. Begitu besarnya potensi transaksi penjualan produk dengan pelanggan melalui e-commerce juga meningkatkan peluang terjadinya komplain atau keluhan pelanggan terkait kecacatan produk, keterlambatan produk, kualitas produk, dan lainnya. Keluhan pelanggan biasa disampaikan melalui ulasan-ulasan di media sosial berbentuk teks. Namun, data keluhan pelanggan saat ini semakin bervariasi dalam bentuk video. Oleh karena itu, penelitian ini mencoba untuk menganalisis video keluhan pelanggan menggunakan automatic speech recognition dan analisis polaritas sentimen. Hasil eksperimen menunjukkan bahwa telah ditemukan beberapa keluhan pelanggan pada video yang dianimasikan bertempat di restoran dan mini market. Nilai compound pada video keluhan pelanggan di restoran pada potongan video ke-7 sebesar -0.4747, potongan video ke-10 sebesar -0.8664, dan potongan video ke-11 sebesar -0.6801, sedangkan nilai compound pada video keluhan pelanggan di mini market pada potongan video ke-1 sebesar -0.1027, potongan video ke-2 sebesar -0.2023, dan potongan video ke-5 sebesar -0.5563. Nilai compound tersebut merepresentasikan keluhan pelanggan yang mengarah ke sentimen negatif.
{"title":"Analisis Video Keluhan Pelanggan Menggunakan Automatic Speech Recognition dan Analisis Polaritas Sentimen","authors":"Tresna Maulana Fahrudin, Rangga Laksana Aryananda, Ellexia Leonie Gunawan, Valentino Belardo, Firsta Marcelia, Christina Halim","doi":"10.57203/session.v1i1.2022.14-21","DOIUrl":"https://doi.org/10.57203/session.v1i1.2022.14-21","url":null,"abstract":"Tingkat kepuasan pelayanan pelanggan dapat ditinjau berdasarkan keluhan-keluhan pelanggan. Begitu besarnya potensi transaksi penjualan produk dengan pelanggan melalui e-commerce juga meningkatkan peluang terjadinya komplain atau keluhan pelanggan terkait kecacatan produk, keterlambatan produk, kualitas produk, dan lainnya. Keluhan pelanggan biasa disampaikan melalui ulasan-ulasan di media sosial berbentuk teks. Namun, data keluhan pelanggan saat ini semakin bervariasi dalam bentuk video. Oleh karena itu, penelitian ini mencoba untuk menganalisis video keluhan pelanggan menggunakan automatic speech recognition dan analisis polaritas sentimen. Hasil eksperimen menunjukkan bahwa telah ditemukan beberapa keluhan pelanggan pada video yang dianimasikan bertempat di restoran dan mini market. Nilai compound pada video keluhan pelanggan di restoran pada potongan video ke-7 sebesar -0.4747, potongan video ke-10 sebesar -0.8664, dan potongan video ke-11 sebesar -0.6801, sedangkan nilai compound pada video keluhan pelanggan di mini market pada potongan video ke-1 sebesar -0.1027, potongan video ke-2 sebesar -0.2023, dan potongan video ke-5 sebesar -0.5563. Nilai compound tersebut merepresentasikan keluhan pelanggan yang mengarah ke sentimen negatif.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"124 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2022-09-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"134159741","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2022-09-04DOI: 10.57203/session.v1i1.2022.1-8
Vennina Ananta
Perumdam Among Tirto Kota Batu is a public drinking water company located in Batu City, East Java which runs its business in the field of clean water distribution for the majority of the citizen of Batu City. Perumdam Among Tirto Kota Batu still runs it business manually and has not fully utilized the information system. The development of the information system is needed by the company to be able to increase its productivity. Therefore, it is necessary to analyze the software requirements for the development of information systems that will be used by Perumdam Among Tirto Kota Batu to running its business, especially by the back office. In this research, the results of software requirements analysis for Perumdam Among Tirto Kota Batu back office information system are compiled to Software Requirements Specification (SRS) document using SRS outline that standarized by ISO/IEC/IEEE 29148:2018. The research carried out resulted in seven SRS documents made for seven divisions in Customer Relation and Marketing Departement and also Engineering Departement, that is Customer Service and Water Meter Division, Equipment Service and SR Standardization Division, Information Technology Development and Marketing Division, Engineering Planning Division, Non Revenue Water and Supervision Division, Production, Transmition, and Laboratory Division, and Distribution Division. Each SRS document consist of five part that is Introduction, References, Requirements, Verification, and Appendices as standarize by ISO/IEC/IEEE 29148:2018.
Perumdam Among Tirto Kota Batu是一家位于东爪哇Batu市的公共饮用水公司,其业务是为Batu市的大多数公民提供清洁水。Perumdam Among Tirto Kota Batu仍然手动运行业务,没有充分利用信息系统。公司需要开发信息系统来提高生产力。因此,有必要分析Perumdam Among Tirto Kota Batu将用于运营其业务的信息系统开发的软件需求,特别是后台办公室。本研究使用ISO/IEC/IEEE 29148:2018标准化的软件需求规范(SRS)大纲,将Perumdam Among tito Kota Batu后台信息系统的软件需求分析结果汇编为软件需求规范(SRS)文档。研究结果为客户关系和市场部以及工程部的七个部门制定了七份SRS文件,即客户服务和水表部,设备服务和SR标准化部,信息技术开发和市场部,工程计划部,非收益水和监理部,生产,输电和实验室部以及配电网部。每份SRS文档由ISO/IEC/IEEE 29148:2018标准的引言、参考文献、要求、功能和附录五部分组成。
{"title":"Analisis Kebutuhan Perangkat Lunak Sistem Informasi Back Office","authors":"Vennina Ananta","doi":"10.57203/session.v1i1.2022.1-8","DOIUrl":"https://doi.org/10.57203/session.v1i1.2022.1-8","url":null,"abstract":"Perumdam Among Tirto Kota Batu is a public drinking water company located in Batu City, East Java which runs its business in the field of clean water distribution for the majority of the citizen of Batu City. Perumdam Among Tirto Kota Batu still runs it business manually and has not fully utilized the information system. The development of the information system is needed by the company to be able to increase its productivity. Therefore, it is necessary to analyze the software requirements for the development of information systems that will be used by Perumdam Among Tirto Kota Batu to running its business, especially by the back office. In this research, the results of software requirements analysis for Perumdam Among Tirto Kota Batu back office information system are compiled to Software Requirements Specification (SRS) document using SRS outline that standarized by ISO/IEC/IEEE 29148:2018. The research carried out resulted in seven SRS documents made for seven divisions in Customer Relation and Marketing Departement and also Engineering Departement, that is Customer Service and Water Meter Division, Equipment Service and SR Standardization Division, Information Technology Development and Marketing Division, Engineering Planning Division, Non Revenue Water and Supervision Division, Production, Transmition, and Laboratory Division, and Distribution Division. Each SRS document consist of five part that is Introduction, References, Requirements, Verification, and Appendices as standarize by ISO/IEC/IEEE 29148:2018.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"24 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2022-09-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"122542331","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2022-09-04DOI: 10.57203/session.v1i1.2022.28-33
Muhammad Fuad Al Haris, Alfin Hidayat, Subono Subono, Husnul Alfaini
Umbi Porang adalah umbi yang memiliki fungsi dan manfaat serta termasuk dalam tanaman obat. Pembudidayaan tanaman ini dinilai dapat meningkatkan perekonomian. Hal ini didasari dari nilai ekspor porang yang cukup tinggi di Indonesia. Petani porang umumnya bergabung dalam suatu kelompok, begitu pula di Banyuwangi, terdapat suatu Asosisasi petani porang yang mengelola dan mengarahkan para petani porang. Selain itu juga menyediakan suplai bibit porang. Ketua kelompok memiliki tugas untuk memimpin para petani porang tiap kecamatan. Pada Asosiasi ini, ketua kelompok petani porang merupakan anggota dari Badan Pusat Pertanian tiap kecamatan. Tingginya Potensi petani Porang di Banyuwangi, belum diimbangi dengan pengelolaan administrasi petani yang baik. Ketika masa panen tiba, kelompok tani akan mendata hasil panen porang ke tiap tiap petani yang direkap dalam bentuk buku rekapan. Selain itu tidak semua petani terdata dengan baik, banyak petani yang terlewat dari pendataan sehingga hasil rekap panen lebih kecil dari jumlah panen sebenarnya. Berdasarkan hasil observasi tersebut, Solusi yang diajukan untuk permasalahan tersebut adalah Sistem Administrasi Petani dan Informasi Lahan Tanaman Porang Terintegrasi Berbasis Web. Dalam pembangunanya, sistem ini mengunakan Rapid Application Development serta Bahasa pemograman PHP yang dikemas dalam Framework Laravel disertai dengan basisdata MySQL. Hasil pengujian pada sistem dilakukan dengan metode black box testing. Diperoleh kesimpulan bahwa sistem telah sesuai dengan yang diharapkan. Sedangkan pengujian dengan kuesioner menunjukkan bahwa tingkat kualitas sistem dalam presentase adalah 88% dengan kriteria Sangat Baik.
{"title":"Sistem Terintegrasi Administrasi dan Informasi Lahan Tanaman Porang","authors":"Muhammad Fuad Al Haris, Alfin Hidayat, Subono Subono, Husnul Alfaini","doi":"10.57203/session.v1i1.2022.28-33","DOIUrl":"https://doi.org/10.57203/session.v1i1.2022.28-33","url":null,"abstract":"Umbi Porang adalah umbi yang memiliki fungsi dan manfaat serta termasuk dalam tanaman obat. Pembudidayaan tanaman ini dinilai dapat meningkatkan perekonomian. Hal ini didasari dari nilai ekspor porang yang cukup tinggi di Indonesia. Petani porang umumnya bergabung dalam suatu kelompok, begitu pula di Banyuwangi, terdapat suatu Asosisasi petani porang yang mengelola dan mengarahkan para petani porang. Selain itu juga menyediakan suplai bibit porang. Ketua kelompok memiliki tugas untuk memimpin para petani porang tiap kecamatan. Pada Asosiasi ini, ketua kelompok petani porang merupakan anggota dari Badan Pusat Pertanian tiap kecamatan. Tingginya Potensi petani Porang di Banyuwangi, belum diimbangi dengan pengelolaan administrasi petani yang baik. Ketika masa panen tiba, kelompok tani akan mendata hasil panen porang ke tiap tiap petani yang direkap dalam bentuk buku rekapan. Selain itu tidak semua petani terdata dengan baik, banyak petani yang terlewat dari pendataan sehingga hasil rekap panen lebih kecil dari jumlah panen sebenarnya. Berdasarkan hasil observasi tersebut, Solusi yang diajukan untuk permasalahan tersebut adalah Sistem Administrasi Petani dan Informasi Lahan Tanaman Porang Terintegrasi Berbasis Web. Dalam pembangunanya, sistem ini mengunakan Rapid Application Development serta Bahasa pemograman PHP yang dikemas dalam Framework Laravel disertai dengan basisdata MySQL. Hasil pengujian pada sistem dilakukan dengan metode black box testing. Diperoleh kesimpulan bahwa sistem telah sesuai dengan yang diharapkan. Sedangkan pengujian dengan kuesioner menunjukkan bahwa tingkat kualitas sistem dalam presentase adalah 88% dengan kriteria Sangat Baik.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"58 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2022-09-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"123899001","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
Pub Date : 2022-09-04DOI: 10.57203/session.v1i1.2022.9-13
N. Fahmi, A. Riyanti
The Farming is a business that is growing very rapidly and has a high enough demand, especially raising poultry such as broilers. Poultry farming includes all processes of raising poultry for food purposes, namely broilers. Most Indonesian people, especially in the area of Sumatra Island, Riau Province in Bengkalis Regency, raising broiler chickens does not really pay attention to the conditions of temperature and humidity. So, that body growth is slower and health is less guaranteed. This results in chickens that are not producing meat as usual. From the problem above, in this paper proposed a system Smart Chicken Cage where can monitoring chicken cage using sensor temperature and humidity. The system generally consists of two sensors such as temperature LM35 and humidity DHT22. Arduino uno used as micro-controller to collect data chicken cage from sensor used. Raspberry Pi as gateway for the saving data temperature and humidity to database MySQL. Communication from Arduino to gateway used Wireless Sensor Network (WSN) with protocol Xbee 802.15.4 and to connect to cloud used Internet of Things (IoT) technology. Furthermore, all sensor data sensor will display to process and testing analysis. So, chicken farmer can be monitoring chicken cage use web-based application, Android Application.
{"title":"Monitoring Chicken Cage Based on Wireless Sensor Network and Internet of Things","authors":"N. Fahmi, A. Riyanti","doi":"10.57203/session.v1i1.2022.9-13","DOIUrl":"https://doi.org/10.57203/session.v1i1.2022.9-13","url":null,"abstract":"The Farming is a business that is growing very rapidly and has a high enough demand, especially raising poultry such as broilers. Poultry farming includes all processes of raising poultry for food purposes, namely broilers. Most Indonesian people, especially in the area of Sumatra Island, Riau Province in Bengkalis Regency, raising broiler chickens does not really pay attention to the conditions of temperature and humidity. So, that body growth is slower and health is less guaranteed. This results in chickens that are not producing meat as usual. From the problem above, in this paper proposed a system Smart Chicken Cage where can monitoring chicken cage using sensor temperature and humidity. The system generally consists of two sensors such as temperature LM35 and humidity DHT22. Arduino uno used as micro-controller to collect data chicken cage from sensor used. Raspberry Pi as gateway for the saving data temperature and humidity to database MySQL. Communication from Arduino to gateway used Wireless Sensor Network (WSN) with protocol Xbee 802.15.4 and to connect to cloud used Internet of Things (IoT) technology. Furthermore, all sensor data sensor will display to process and testing analysis. So, chicken farmer can be monitoring chicken cage use web-based application, Android Application.","PeriodicalId":258386,"journal":{"name":"Software Development, Digital Business Intelligence, and Computer Engineering","volume":"31 1","pages":"0"},"PeriodicalIF":0.0,"publicationDate":"2022-09-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":null,"resultStr":null,"platform":"Semanticscholar","paperid":"129721541","PeriodicalName":null,"FirstCategoryId":null,"ListUrlMain":null,"RegionNum":0,"RegionCategory":"","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":"","EPubDate":null,"PubModel":null,"JCR":null,"JCRName":null,"Score":null,"Total":0}
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