Balinese script writing, as one of Balinese cultural richness, is going to extinct because of its decreasing use. This research is one of the ways to preserve Balinese script writing using technological approach. Through collaboration between Computer Science and Balinese Language discipline, this research focused on the development of a Latin-to-Balinese script transliteration robotic system that was called LBtrans-Bot. LBtrans-Bot can be used as a learning system to give the transliteration knowledge as one aspect of Balinese script writing. In this research area, LBtrans-Bot was known as the first system that utilize Noto Sans Balinese font and was developed based on the identified seventeen kinds of special word. LBtrans-Bot consists of the transliterator web application, the transceiver console application, and the robotic arm with its GUI controller application. The transliterator used the Model-View-Controller architectural pattern, where each of them was implemented by using MySQL database (as the repository for the words belong to the seventeen kinds of special word), HTML, PHP, CSS, and Bootstrap (mostly for the User Interface responsive design), and JavaScript (mostly for the transliteration algorithm and as the controller between the Model and the View). <em>Dictionary</em> data structure was used in the transliterator memory as a place to hold data (words) from the Model. The transceiver used batch script and AutoIt script to receive and trasmit data from the transliterator to the GUI controller, which control the Balinese script writing of the robotic arm. The robotic arm with its GUI controller used open-source mDrawBot Arduino Robot Building platform. Through the experiment, LBtrans-Bot has been able to write the 34-pixel font size of the Noto Sans Balinese font from HTML 5 canvas that has been setup with additional 10-pixel length of the width and the height of the Balinese script writing area. Its transliterator gave the accuracy result up to 91% (138 of 151) testing cases of The Balinese Alphabet writing rules and examples document by Sudewa. This transliterator result outperformed the best result of the known existing transliterator based on Bali Simbar font, i.e. Transliterasi Aksara Bali, that only has accuracy up to 68% (103 of 151) cases of the same testing document. In the future work, LBtrans-Bot could be improved by: 1) Accommodating more complex Balinese script with trade off to the limited writing area of robotic system; 2) Enhancing its transliterator to accommodating the rules and/or examples from the testing document that recently cannot be handled or gave incorrect transliteration result; enriching the database consists of words belong to the seventeen kinds of special word; and implementing semantic relation transliteration.
MSMEs (Micro, Small and Medium Enterprises) in the village play an essential role in improving the welfare of business owners and consumers. MSMEs in the village meet the living needs of the villagers. Research is developing an IoT-based smart village transaction system using RFID and load cell modules. The research aims to simplify transactions in the village environment, which is unique to its agricultural and livestock businesses. The system was developed using a raspberry pi, the web server. RFID is used to record transactions made by villagers by scanning their resident cards. Load Cell records the number of transactions for products measured by weight, such as agricultural and livestock products. The system prioritizes user interaction by scanning the RFID card of the transaction actor, product representation, and product weight. The system is tested using black-box testing, producing valid results for hardware and software. System performance evaluation was carried out by comparing the performance of the raspberry pi 3 with 76,789% CPU, 47.67MB RAM, 54.69C heat, and raspberry pi zero with 82.679% CPU, 102.78MB RAM, and 49.78 heat. The system is also calibrated and compared to regular scales and produces a slight difference with the tested load, an average of 1,440 g. The electrical system was also tested and resulted in low average electricity consumption, namely a voltage reduction of 0.044v for the raspberry pi three and 0.022v for the raspberry pi zero, so that it is suitable to be applied portable and in rural areas with limited electricity.
Perkembangan perekonomian saat ini mengarah ke wujud usaha masyarakat. Hal ini bertujuan untuk mewujudkan perekonomian masyarakat yang mandiri. Salah satu contohnya adalah kelompok usaha tenun kain endek di daerah Badung utara tepatnya di Desa Getasan, Kecamatan Petang, Provinsi Bali. Usaha ini bernama Fortuna Sari yang memiliki lima belas pengerajin. Usaha kelompok Tenun ini berdiri semenjak Mei 2014. Pangsa pasar yang saat ini dimiliki berjualan di sekitar lokasi usaha dan dari luar desa yang merupakan relasi dari pengurus, seperti Dinas, Desa, organisasi dan perorangan. Media pemasaran saat ini belum memanfaatkan media pemasaran online seperti media sosial dan website yang dimiliki memiliki domain yang tidak mencerminkan produk. Selain itu proses pencatatan pendapatan dan pengeluaran dari usaha ini menggunakan masih buku tulis. Berdasarkan hal tersebut maka, pengabdian ini akan dilaksanakan dalam dua aspek, yaitu mengajarkan penggunaan media online secara maksimal dan mengajarkan untuk menggunakan aplikasi Excel untuk pencatatan pengeluaran dan pendapatan. Dalam pelatihan ini juga akan dibantu membuatkan video yang menjelaskan kualitas tenun yang diproduksi. Situasi yang mendukung pengabdian ini akan terlaksana adalah pengurus memiliki kemampuan menggunakan komputer dan media sosial. Target dari diadakannya pengabdian ini adalah kelompok usaha tenun dapat menggunakan media online secara maksimal, memiliki video yang menjelaskan kualitas kain yang menjadi ciri khas dan keunggulan produk, dapat menggunakan aplikasi Excel untuk mencatat pendapatan dan pengeluaran.
The integration of the Motor Vehicle Testing Service System in the regions with the application of the Electronic Test Pass (Bukti Lulus Uji elektronik /BLUe) from the Ministry of Transportation is carried out to improve the quality of motor vehicle testing services. The purpose of this application is to support real-time reporting of motor vehicle testing carried out by the Regions to the Center. This application is made partial, it only accepts test result data without an operational system for the testing process, because of that, motor vehicle testing application that is integrated with the application must be provided. This study aims to build a vehicle testing system that can manage test results automatically and is integrated with BLue. The results of this study are based on the implementation process for three months, the real-time integrated testing service system runs well, which is 94,4 %. the factors that affect the value of 5,6% are influenced by the existing infrastructure and manual payment processes. The calculation of the success of this implementation is determined based on the service target which previously reached 60 minutes per vehicle to 30 minutes, the efficiency of using paper is 66,6%.
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