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Prediksi Volume Sampah TPAS Talangagung dengan Pendekatan Sistem Dinamik Adipraja, Philip Faster Eka; Islamiyah, Mufidatul
SMATIKA JURNAL Vol 6 No 02 (2016): Smatika Jurnal : STIKI Informatika Jurnal
Publisher : LPPM STIKI MALANG

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1348.807 KB)

Abstract

Volume sampah di tempat pembuangan akhir sampah (TPAS) Talangagung, Kepanjen, Kabupaten Malang terus mengalami peningkatan, hal ini terbukti dengan adanya peningkatan volume sampah sebanyak dua kali lipat pada tahun 2014-2015. Akan tetapi prediksi pada tahun 2015 sudah terlampau jauh, dimana prediksi hanya 131,03 m3 per hari dimana data menunjukkan angka 198.62 m3 per hari. Untuk mengetahui peningkatan volume sampah pada jangka panjang maka perlu dilakukan prediksi volume sampah pada TPAS Talangagung, prediksi volume sampah ini bisa dilakukan dengan metode simulasi yang menggunakan sistem dinamik. Hasil studi menunjukkan bahwa prediksi volume sampah yang dikirim ke TPAS Talangaguung meningkat lebih dari dua kali lipat pada tahun 2025 yang diprediksikan mencapai 162 ribu m3dan tahun 2035 diperkirakan mencapai 341 ribu m3 pertahun atau mencapai 1000 m3 perhari.
Desain dan Pengujian Alat Penghancur Sampah Organik Otomatis Berbasis Mikrokontroler Arduino Uno islamiyah, mufidatul; Kala’lembang, Adriani
JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) Vol 3, No 2 (2018): JOURNAL OF ELECTRICAL, ELECTRONICS, CONTROL, AND AUTOMOTIVE ENGINEERING (JEECAE
Publisher : Politeknik Negeri Madiun

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Abstract

Abstrak— Sampah organik merupakan jenis sampah yang seabgaian bersal berasal dari sisa tanaman, sayur mayur maupun buah- buahan, hewan atau kotoran hewan. Sampah ini mudah di uaraikan oleh jasad hidup khususnya mikroorganisme, secara umum  komponen yang paling banyak terdapat pada sampah adalah sisa tumbuhan hingga mencapai 80 - 90 % bahkan lebih. Untuk mengurangai sampah tersebut maka di desain alat pengancur sampah otomatis, perancangan alat ini menggunakan mikrokontroler, karena bahasa mikrokontroler sangat mudah dioperasikan dan sesuai dengan logika. Desain alat penhancur sampah otomatis ini di lengkapi dengan timer yang terdiri atas 10 detik, 20 detik dan 30 detik, selain timer juga terdapat speed minimum, medium dan maximum. Hasil pengujian menunjukan bahwa untuk sampah organik yang agak keras seperti kulit nanas menggunakan kombinasi medium – high dengan waktu rata- rata 29,5 detik, sedangkan untuk sampah organic yang lunak seperti sayur mayor menguunakan low medium dengan waktu rata- rata 18,6 detik.Kata kunci— sampah organik; mikrokontoler Arduino; timer; speed motor.
Penentuan Model Hubungan Kepadatan Penduduk dan Faktornya Menggunakan Metode Forward Selection Subekti, Puji; Islamiyah, Mufidatul
JMPM: Jurnal Matematika dan Pendidikan Matematika Vol 2, No 1: Maret - Agustus 2017
Publisher : Universitas Pesantren Tinggi Darul 'Ulum Jombang

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (576.808 KB) | DOI: 10.26594/jmpm.v2i1.826

Abstract

Kepadatan penduduk adalah perbandingan antara jumlah penduduk yang tinggal di wilayah tertentu dengan luas wilayahnya. Kota Blitar adalah salah satu Kota di Jawa Timur dengan kepadatan penduduk tinggi. Banyak faktor yang mempengaruhi kepadatan penduduk suatu daerah. Dalam penelitian ini menggunakan metode Forward Selection untuk menentukan model hubungan kepadatan penduduk Kota Blitar dan faktornya.Data sekunder yang digunakan adalah data jumlah penduduk datang, penduduk pindah, penduduk mati, penduduk lahir, dan luas wilayah.Hasil pengolahan data kepadatan penduduk dan faktor-faktor yang mempengaruhinya mengalami kasus multikolinieritas. Diperoleh model persamaan regresi yang terbaik yaitu
Rancang Bangun Aplikasi Sarana Prasarana Institut Asia Malang Andini, Titania Dwi; Subekti, Puji; Islamiyah, Mufidatul
POSITIF : Jurnal Sistem dan Teknologi Informasi Vol 7 No 1 (2021): Jurnal Positif Vol. 7 No.1
Publisher : P3M Politeknik Negeri Banjarmasin

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31961/positif.v7i1.1060

Abstract

Institut Asia Malang has several systems can support the operation of teaching and learning activities, including the infrastructure system. This system needs developed in addition to being an institutional requirement in organizing and administering infrastructure advice, but also a supporting assessment when BAN (National Accreditation Board) conducts an assessment. This assessment is very influential so it is hoped that with more points, the community's credibility to the Asia Institute of Malang will increase.. The method used to build an information system is the Waterfall method. It has 5 phases: Communication, Planning, Modeling, Construction and Deployment. This method is used in building the Information System for Facilities and Infrastructure of Asia Malang (SISAPRA) because it is, sequential in building software. This research also uses 7 stages. The SISAPRA can be accessed via the Web or mobile. The layout are responsive for both types of gadgets often used by userswe wish that this application can assist in managing administration and knowing the status and physical condition.
DESIGN of AUTOMATIC ORGANIC WASTE CRUSHER USING ARDUINO MICROCONTROLLER Islamiyah, Mufidatul; Kala'lembang, Adriani
JEEMECS (Journal of Electrical Engineering, Mechatronic and Computer Science) Vol 1, No 2 (2018): August 2018
Publisher : Merdeka Malang University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (549.182 KB) | DOI: 10.26905/jeemecs.v1i2.2377

Abstract

Organic waste is the residual daily activities of humans or natural processes in the form of solid or semi-solid in the form of organic or inorganic substances that are biodegradable or unraveled which are considered useless and disposed of in the environment. This organic waste can be used as fertilizer for plants if processed properly, therefore this waste can be used as fertilizer processing by destroying, so this study aims to create a tool that can destroy waste so that it is easy to process using an Arduino microcontroller, the design is done ranging from hardware to software. The way the device works is to detect the material to be destroyed, then the system will be active, the tool is designed a choice of time for the material to be destroyed so that the appliance will automatically die when the time expires and the choice of blade rotation speed from maximum, medium to minimum. From the experiments carried out the tool was able to destroy the material until smooth.DOI : https://doi.org/10.26905/jeemecs.v1i2.2377
SISTEM PROGRAM SMART GATE BERBASIS INDIKATOR SUHU DAN WASTAFEL OTOMATIS Islamiyah, Mufidatul; Arifin, Samsul; Anam, Rofiul
POSITIF : Jurnal Sistem dan Teknologi Informasi Vol 7 No 2 (2021): Positif : Jurnal Sistem dan Teknologi Informasi
Publisher : P3M Politeknik Negeri Banjarmasin

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31961/positif.v7i2.1238

Abstract

This study discusses the system to overcome the current problems, namely the lack of discipline in washing hands and checking body temperature before entering the building which is one of the important things in implementing health protocols during the covid-19 pandemic. Both of these things are still often violated and are things that are often underestimated by visitors and the lack of firmness by officers in responding to these violations. In this study, a tool is designed to be used to check temperature and wash hands automatically which later will be an indicator to open a gate or automatic portal as a path or entrance to a building/building which is expected to be able to help officers work to be more disciplined. visitors who do not apply the health protocols that have been determined and are also able to minimize direct physical contact that will be caused by the current conventional system so as to minimize the risk of transmission of covid19. This tool uses a temperature sensor gy906/mlx 90614 as a non-contact temperature sensor and uses ultrasonic as a temperature sensor. Object distance detection, and also uses a dc motor actuator as a driver to open or close the gate. In the testing of the tools that have been carried out, the results obtained that the automatic gate system is able to run well by being controlled by both indicators, namely the temperature sensor and automatic sink as the main input in the whole system.