https://journal.binadarma.ac.id/index.php/jurnaltekno/issue/feed 2024-03-13T08:44:58+07:00 Christofora Desi Kusmindari desi_christofora@binadarma.ac.id Open Journal Systems <p>Journal-TEKNO is organized and managed by DRPM Universitas Binadarma. Journal-TEKNO is an open access journal that is provided for researchers, lecturers, and students who will publish research results in the field of civil engineering, elektrical engeeering and industrial engineering.&nbsp;Journal -TEKNO is a scientific article journal that is the result of ideas, great and original thoughts about the latest research and technological developments covering the fields of civil engineering, elektrical engineeering and industrial engineering which is summarized in one publisher. Journal-TEKNO became one of the means for researchers to publish their great works published two times in one year, namely in <strong>April and October.&nbsp;Journal TEKNO&nbsp; </strong>has e-ISSN : 2655-8416 and <strong>p-ISSN :<a href="issn.cgi?daftar&amp;1180426334&amp;1&amp;&amp;"> 1907-5243</a></strong></p> <p><strong>&nbsp;</strong></p> <p>&nbsp;</p> <p>&nbsp;</p> https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2127 2024-01-04T15:04:21+07:00 Endah Fitriani endahfitriani@binadarma.ac.id Mas Ade Mandala masademandala@gmail.com

<p><em>With ADS-B technology, it is the aircraft that continuously broadcasts data to the receiver system at the airport. Previously, all airports used radar, which worked the opposite way to the ADS-B technology, namely the radar at the airport which detects airplanes. One of the problems in the development of ADS-B technology is how to monitor and monitor aircraft with equipment technology that can be purchased in Indonesia at low prices, considering that ADS-B equipment in Indonesia is generally purchased abroad at very expensive prices. Therefore, the author will design an ADS-B Receiver Antenna which is designed with an aircraft transponder broadcast frequency of 1090 Mhz and adds a Low Noise Amplifier to reduce noise and maximize the 1090 Mhz frequency reception range. The ADS-B antenna design can receive a reply frequency of 1090 Mhz from the aircraft's transponder and change the received data to then provide information about the aircraft's target using the Virtual Radar application Display on a PC. In addition, this design can also display 1090 MHz Frequency and Antenna Temperature on a 16x2 LCD (light crystal display) using Arduino Uno and IC LM35.</em></p>

2024-01-04T15:04:20+07:00 ##submission.copyrightStatement## https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2626 2024-01-17T11:32:14+07:00 Madon . mmadon482@gmail.com Nina Paramytha nina_paramitha@binadarma.ac.id Renilaili Renilaili renilaili@binadarma.ac.id

<p>Lebah Trigona SP atau yang biasa dikenal masyarakat dengan sebutan lebah klanceng merupakan salah satu lebah penghisap nektar dari bunga-bunga. Lebah jenis ini merupakan spesies primitif yang menghasilkan jumlah madu paling sedikit dari jenis lainnya. Alat suction tool madu klanceng sebagai alat bantu untuk proses pemanenan madu klanceng, dengan menggunakan pompa 12 Volt DC untuk menghisap madu trigona sp dari sarangnya, lalu memberikan alarm jika botol penampungan madu sudah terisi penuh, maka di pasang sensor ultrasonik hc-sr04&nbsp; untuk meneteksi madu dengan jarak baca sensor yang telah di tentukan pada penampungan sehingga madu yang di panen tidak tumpah atau tidak terbuang sia-sia. Alat penyedot madu ini berfungsi juga untuk menggurangi kerugian ketika melakukan pemanenan yang kurang intensif secara prosedur saat melakukan panen dari sarang lebah madu trigona sp.</p> <p><strong>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; </strong></p>

2024-01-13T12:38:51+07:00 ##submission.copyrightStatement## https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2625 2024-01-13T14:13:05+07:00 JENIO MULIA SYAH jeniomulian@gmail.com Tamsir Ariyadi tamsirariyadi@binadarma.ac.id

<p>Pesatnya pertumbuhan populasi manusia di Indonesia, meningkatnya kebutuhan pangan, dan tekanan terhadap sumber daya alam mendorong manusia untuk mencari solusi inovatif dalam memenuhi kebutuhan pangan secara berkelanjutan. Salah satu pendekatan yang mendapat perhatian adalah menggabungkan budidaya ikan dan budidaya tanaman. Ada beberapa aspek parameter yang harus diperhatikan dalam sistem budidaya ini antara lain, suhu air menggunakan sensor DS18B20, nilai nutrisi terlarut dalam air yang dikontrol oleh sensor TDS (<em>Total Dissolved Solids</em>), pengendalian stok pakan menggunakan sensor Ultrasonik (HC-SR04) dan pemberian pakan otomatis diatur menggunakan RTC (<em>Real Time Clock</em>). Dalam hal ini penambahan teknologi mikrokontroler memegang peranan penting dalam otomatisasi sistem ini. Mikrokontroler memungkinkan pengaturan dan pemantauan yang akurat. Kondisi ini akan ditampilkan pada layar LCD.</p>

2024-01-13T14:11:27+07:00 ##submission.copyrightStatement## https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2632 2024-01-17T11:28:13+07:00 Ahsanul Akbar ahsanulakbar99@gmail.com ReniLaili Renilaili renilaili@binadarma.ac.id

<p>CV Karya Jaya Palembang is a Pavling Block Factory which operates in the building sector as well as a distributor selling products such as Bricks, Roof Tiles, Concrete, Pillars, Chess, etc. distributors who sell products such as bricks, tiles, concrete, poles, dams, etc. Material vendors are currently experiencing inventory problems. Insufficient stock and does not meet buyers' desires. Therefore, material inventory planning is needed to determine optimal inventory levels. Forecasting calculation methods, EOQ, safety stock, reorder point, and total inventory cost (TIC) are used in this research. The amount of raw material purchases calculated using the EOQ method is 4567% of the optimal amount of raw material purchases. The company has not yet determined the amount of safety stock, but based on the EOQ method, the amount of safety stock that the company will hand over is 309.56 kg. And when the raw material inventory reaches 41,746.19kg, you need to order again.</p>

2024-01-17T11:21:20+07:00 ##submission.copyrightStatement## https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2308 2024-01-17T11:46:02+07:00 Putri Indah Sary putriindah300885@gmail.com Nurly Gofar nurly_gofar@binadarna.ac.id

<p>This paper presents results of saturated and unsaturated stability analysis of slope failures along jalan Simpang Sugih Waras – Batas Kota Baturaja. Most slopes failures occurred after a heavy rainfall; thus, rainfall infiltration is identified as the cause of the failures.&nbsp; Four locations were selected for this study. Soil samples were collected and tested in laboratory. The results indicate that the slope was made of clay with low plasticity.&nbsp; In the absence of the exact time of failure, IDF curve was used to identify the critical rainfall. In this case 19mm/hr rainfall for 6 hr was selected from 10-year-return-period IDF curve developed based on 20 year of rainfall data from nearby rainfall station. Seep analyses were carried out on the four slopes to obtain the seepage induced by rainfall infiltration and change of pore water pressure. Slope stability analyses were performed at selected times during and after rainfall application. The results of slope stability analysis show that the critical condition for slope was at the end of rainfall.&nbsp; Among the four slopes analyzed in his study, slope height has the most influence on the slope stability.</p>

2024-01-17T11:46:02+07:00 ##submission.copyrightStatement## https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2719 2024-01-17T12:38:59+07:00 Jenny Suwa Muda jennysuwa@gmail.com Firdaus firdaus firdaus.dr@binadarma.ac.id

<p>The rest of the coffee harvest or coffee grounds are often not widely used by the community, even though the rest of the coffee harvest can still be used for various purposes, one of which is as a substitute for cement where coffee is a ponzolan material because it contains silica such as cement. The large number of leftover coffee harvests and the ease of obtaining these waste materials in large quantities allow it to be used as an alternative material to substitute cement. The purpose of this study was to determine the optimal temperature substitution of coffee grounds ash in cement against the compressive strength of Mortar with a temperature ratio of 400⁰C, 500⁰C and 600⁰C and to find out what the optimal composition of coffee grounds ash substitution with the ratio of the test object as much as 3 ratios 10%, 15% and 20% with a comparison of 3 specimens each at the age of testing for compressive strength of 7, 14, 21 and 28 days. Based on the test results of ages 7, 14, 21 and 28 days at a temperature of 400⁰C, 500⁰C and 600⁰C, the optimum value of the best combustion temperature is at 400⁰C and the best substitution mixture composition variation is 10% of coffee grounds ash mixture.</p>

2024-01-17T00:00:00+07:00 ##submission.copyrightStatement## https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2865 2024-01-24T09:22:53+07:00 Rida Zuraida rzuraida@binus.ac.id Tota Pirdo Kasih tkasih@binus.edu

<p>Penelitian ini dilatarbelakangi dari pengamatan awal pada postur kerja pemeras sari kedelai di salah satu pabrik tahu Bandungan, Kabupaten Semarang yang masih dilakukan secara manual.&nbsp; Tujuan penelitian adalah menganalisis risiko postur kerja karyawan saat memeras sari kedelai di pabrik tahu Bandungan – Semarang yang masih dilakukan secara manual, dan merancang usulan perbaikan proses untuk mengurangi risiko yang terjadi.&nbsp; Melalui melakukan pengamatan langsung dan pengaplikasian metoda REBA untuk penilaian risikonya, diperoleh skor REBA = 10 atau dikategorikan sebagai berisiko tinggi. Alat bantu selanjutnya dirancang untuk memperbaiki postur membungkuk, pengerahan tenaga saat memeras, dan posisi tangan. Penilaian risiko postur kerja saat menggunakan alat bantu yang telah menunjukkan skor REBA sebesar 5 untuk posisi awal penggunaan alat dan posisi akhirnya. Sehingga dapat dikatakan risiko telah menurun dari tinggi menjadi sedang. Namun perlu dikembangkan rancangan agar posisi tangan dan leher dapat lebih nyaman bagi pekerja.</p>

2024-01-24T09:22:39+07:00 ##submission.copyrightStatement## https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2755 2024-03-13T08:41:18+07:00 Eko Nurmianto nurmi@ie.its.ac.id Kresno Sulasmono sulasmono@gmail.com Fikri Nurfauzan Nurmianto fikrinurfauzan0309@gmail.com Gilang Samudra Trikurniawan gssamudraa@gmail.com

<p>This study explores the implementation of ergonomics principles and the Analytical Hierarchy Process (AHP) as interventions to enhance the safety of motorcycle sidecar designs. Recognizing the critical role of ergonomics in optimizing human-machine interactions, the research investigates how ergonomic considerations can be integrated into the design process to mitigate safety risks associated with motorcycle sidecars. Additionally, the AHP methodology is employed to systematically prioritize and evaluate various design elements, incorporating expert opinions and stakeholder preferences. The research methodology involves a comprehensive analysis of existing sidecar designs, ergonomic assessments, and the development of a structured AHP framework. Through the integration of these two approaches, the study aims to identify and prioritize key safety parameters, such as stability, visibility, and rider comfort. Practical implications of the interventions are explored, considering both rider and passenger perspectives, with a focus on minimizing the potential for accidents and injuries. The findings of this research contribute valuable insights into the application of ergonomics and AHP in motorcycle sidecar design, offering a systematic and holistic approach to enhance safety. The outcomes have the potential to inform future design practices, industry standards, and regulatory guidelines, ultimately fostering the development of safer and more user-friendly motorcycle sidecars.</p>

2024-03-13T08:41:18+07:00 ##submission.copyrightStatement## https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2680 2024-03-13T08:44:58+07:00 naufal nurfauzan suryana 21172014P@student.binadarma.ac.id Timur Dali Purwanto timur.dali.purwanto@binadarma.ac.id

<p>Tanah longsor merupakan salah satu bencana alam yang sering terjadi di daerah pegunungan, perbukitan, lereng yang curam, maupun tebing, serta pada permukaan tanah miring. Bukan hanya menjadi momok yang menakutkan bagi masyarakat karena dampaknya yang dapat merugikan secara moril maupun materil, tanah longsor juga menjadi salah satu bencana yang menakutkan bagi industri yang berada di kaki gunung maupun di lereng perbukitan seperti Pembangkit Listrik Tenaga Panas Bumi. Berdasarkan peristiwa tersebut adanya alat pemantau kemiringan dan pergeseran tanah sangatlah dibutuhkan guna mencegah maupun meminimalisir kerugian akibat tanah longsor tersebut. Dengan menggunakan beberapa sensor seperti, sensor rotary encoder yang digunakan untuk mendeteksi pergerakan tanah secara horizontal, sensor Barometer BMP180 untuk mendeteksi pergerakan tanah secara vertikal, serta sensor Gyroscope GPU6050 untuk mendeteksi kemiringan tanah. Setelah terjadi pergerakan pada tanah dirasakan oleh sensor-sensor tersebut kontroller pada sensor tersebut akan mengirimkan data yang didapat ke LCD dan menuju ke rangkaian lain sebagai penerima melalaui perantara LoRA dengan menggunakan sinyal radio untuk kemudian disebar kebeberapa orang yang bertanggung jawab dengan menggunakan IOT berupa telegram. Pada rangkaian penerima ini terjadi proses pemilahan data yang diterima, dimana ketika data yang diterima melebihi ambang batas yang telah ditentukan maka akan langsung mengirimkan pesan yang berbunyi “AWAS RAWAN LONGSOR” sekaligus membunyikan buzzer yang terdapat pada rangkaian tersebut.</p>

2024-03-13T08:34:09+07:00 ##submission.copyrightStatement## https://journal.binadarma.ac.id/index.php/jurnaltekno/article/view/2679 2024-03-13T08:26:08+07:00 m jaya kurniawan 21172013P@student.binadarma.ac.id Sulaiman Sulaiman sulaiman@binadarma.ac.id

<p>Ikan gurame sudah sangat sulit kita temukan di alam liar seperti sungai dan rawa hal ini diakibatkan oleh rusaknya habitat alam yang telah dicemar serta di rusak oleh oknum -oknum tidak bertanggung jawab. Para pembudidaya ikan gurame merupakan salah satu solusi untuk mencegah kepunahan dari ikan gurame. Akan tetapi Dalam budidaya ikan Gurame masyarakat seringkali menghadapi masalah, seperti halnya perawatan kolam , pemberian pakan , serta kondisi air yang harus selalu dilakukan pemantauan secara berkala untuk pertumbuhan ikan gurame yang baik, serta mencegah kematian dari ikan ini. Pada penelitian ini kita menggunakan sistem IOT untuk menghadapi masalah-masalah yang dihadapi masyarakat dalam melakukan budidaya ikan gurame. Dengan menggunakan LCD dan aplikasi Smart Kolam kita dapat melihat parameter Ph , suhu air kolam , level air kolam , keadaan kotor atau tidak nya kolam, serta jam dan tanggal berjalan. Nilai pH kita menggunakan sensor pH meter , kepekatan air menggunakan sensor turbidity , suhu air dibaca oleh sensor DS18B20, level air kolam dibaca sensor ultrasonic, tanggal dan jam dibaca oleh RTC. Dan kita dapat melakukan pengurasan dan pengisian air kolam menggunakan aplikasi smart kolam. Fokus penelitian penelitian ini adalah bagaimana cara merancang Sistem Monitoring Kualitas Air dan Otomatisasi Budidaya Ikan Gurame Berbasis IoT (Internet Of Things).</p>

2024-03-13T08:26:07+07:00 ##submission.copyrightStatement##