Article Per Year (5 Year)
p-Index From 2019 - 2024
1.116
P-Index
This Author published in this journals
All Journal Orbith : Majalah Ilmiah Pengembangan Rekayasa dan Sosial Journal of Applied Information, Communication and Technology (JAICT) Community Development Journal: Jurnal Pengabdian Masyarakat Jurnal Saintekom : Sains, Teknologi, Komputer dan Manajemen Prosiding Seminar Nasional Rekayasa Teknologi Industri dan Informasi ReTII
Sri Kusumastuti
Politeknik Negeri Semarang
Aerospace Engineering Humanities Automotive Engineering Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Earth & Planetary Sciences Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Industrial & Manufacturing Engineering Library & Information Science Materials Science & Nanotechnology Mechanical Engineering Physics Public Health Transportation

Published : 7 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 7 Documents
Search

 1 
RANCANG BANGUN ALAT PENGKONDISI KOLAM BUDIDAYA IKAN Kusumastuti, Sri
Orbith Vol 13, No 3 (2017): November 2017
Publisher : Orbith

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

Abstract

Proses pembudidayaan ikan agar mendapatkan hasil ikan yang berkualitas perlu diperhatikan beberapa hal seperti : pemberian pakan, suhu air dan pH air kolam. Ikan untuk mendapatkan nutrisi yang cukup perlu diberikan pakan yang rutin dan tepat waktu, suhu dan pH air harus dijaga normal. Penelitian yang akan dilakukan bertujuan merancang dan membuat alat untuk memberi pakan ikan secara otomatis sesuai waktu yang ditentukan, mengukur suhu dan mengkondisikan suhu air kolam, dan memantau PH air kolam dengan kontrol menggunakan Smart Relay. Wadah pakan ikan dibuka dengan gerakan motor, pembatas gerakan motor digunakan limit switch. Sensor suhu menggunakan thermostat, hasil pengukuran ditampilkan di seven segmen. Jika hasil pengukuran suhu dibawah normal, heater memanaskan air kolam, dan ketika hasil pengukuran suhu diatas normal peltier, kipas, watercooling block dan pompa air bekerjasama menurunkan suhu air kolam. Kondisi pH air diindikasikan dengan lampu, Jika pH air kolam dibawah normal, lampumerah berkedip dan jika pH air kolam diatas normal, lampu kuning berkedip.Kata kunci: Pakan ikan, Suhu air, PH air, Smart Relay  
Touchless Electronic Device Control Design Sri Kusumastuti
JAICT Vol 7, No 1 (2022)
Publisher : Politeknik Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32497/jaict.v7i1.3147

Abstract

Transmission of COVID-19 occurs between humans through droplets or splashes of body fluids containing SARS-CoV-2 particles. If a COVID-19 patient does not cover his mouth and nose when coughing or sneezing, the patient will emit droplets containing the virus. Droplets can stick to the patient's hands and surrounding items. Anyone can get the virus when shaking hands or touching items that have the virus and contracting the virus if they touch their eyes, nose, or mouth without washing their hands first. In public places such as schools, offices, and hospitals, many pieces of equipment are controlled using the help/touch of a hand. The use of equipment in public places by many vulnerable people is the cause of the rapid spread of infectious diseases. The research that will be carried out is to design and manufacture tools to control equipment without touching hands to prevent the spread of infectious diseases. The controlled equipment consists of water faucets, lights, fans, and curtains. The lights, fans, and water faucets are controlled using palm movements with the max distance from the Smart IR Switch being 11 cm. If there is palm movement within the working range of the Smart Switch IR, the solenoid valve, lights and fans will change from their previous conditions. If the initial condition is 'off' it will change to 'on' or vice versa. The curtain is controlled using palm movements with the max distance to the GP2Y0A21YK0F IR sensor being 10 cm. If there is palm movement within the working range of the GP2Y0A21YK0F IR sensor then the curtain will change from its previous condition. If the initial condition of the closed curtain changes to open or vice versa.
CONTROL AND MONITOR OF PRODUCT FILLING AUTOMATION SYSTEM IN PLC-BASED PACKAGING USING HMI OMRON NB7W-TW00B Sri Kusumastuti
JAICT Vol 7, No 2 (2022)
Publisher : Politeknik Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32497/jaict.v7i2.3937

Abstract

This study aims to design and create an automation system for filling products into packaging. PLC CP1E-N30DR-A system can be controlled and monitored via Omron NB7W-TW00B HMI. HMI programming using NB-Designer software. The product used is a steel ball. The number of steel balls is set via HMI.  The HMI screen display consists of inputs: Push Button Start, Push Button Stop, input the number of products in the packaging, packaging sensor, and steel ball sensor; outputs: conveyor and counter display. The test results show that HMI could provide variations in the number of products in the packaging. The present value counter can be displayed on the HMI. The control and monitor automation system of filling the product in the packaging worked well.  
Kontrol Infus Pasien Sri Kusumastuti; Sindung Hadwi Widi Sasono
Retii 2020: Prosiding Seminar Nasional ReTII ke-15
Publisher : Institut Teknologi Nasional Yogyakarta

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

Abstract

Pemasangan infus bertujuan membantu pemenuhan kebutuhan cairan melalui pembuluh darah vena bagi pasien. Ketika cairan habis tenaga medis akan mengunci akses dari selang menuju ke pembuluh darah, agar tekanan tekanan hidrostatik cairan dalam kantung infus sama besarnya dengan tekanan di pembuluh darah sehingga tidak ada yang masuk maupun keluar dari pembuluh darah. Keterlambatan tenaga medis dalam penggantian kantung infus dapat memberikan dampak negatif terhadap pasien. Penelitian yang dilakukan merancang dan membangun alat kontrol infus pasien . Sistem terdiri dari dua bagian yaitu transmitter pada kamar pasien dan 2 receiver ditempatkan di ruang tenaga medis dan kamar pasien. Sensor proximity capasitive digunakan untuk mendeteksi keberadaan cairan di kantung infus, Smart Relay Zelio SR1BD121JD sebagai kontrol alat , bell wireless frekuensi 433 MHz sebagai modul komunikasi nirkabel. Efisiensi dari alat kontrol yang dibuat adalah ketika sensor mendeteksi cairan di kantung infus hampir habis motor akan mengaktifkan penjepit selang infus untuk menutup aliran cairan infus dan memberi peringatan berupa bell di ruang tenaga medis dan pasien sebagai perintah untuk menggantikan kantung infus. Hasil dari pengujian menunjukkan bahwa secara fungsional alat ini dapat bekerja dengan baik, alat mampu melakukan pemantauan keberadaan cairan infus dan sebagai peringatan jika infus membutuhkan pergantian. Hasil pengujian pada rangkaian sensor proximity capasitive saat mendeteksi cairan infus diperoleh tegangan keluaran 12V, dan saat tidak mendeteksi keberadaan cairan infus tegangan keluaran 0V. Jangkauan maksimal dari transmisi bell wireless 300 meter.
Smart Helmet As Driving Safety Sri Kusumastuti; Sindung Hadwi Widi Sasono
JAICT Vol 8, No 1 (2023)
Publisher : Politeknik Negeri Semarang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32497/jaict.v8i1.4302

Abstract

One of the common causes of accidents is physiological factors such as drowsiness. A helmet is a device used to reduce the risk of head injury when an accident occurs while driving. Helmets placed on motorbikes often experience theft to the detriment of the helmet owner. A helmet was created to reduce the risk of an accident, warn motorists when they are drowsy, and provide a warning when a helmet is stolen. The method begins with designing devices, preparing devices, testing, repairing, and adjusting devices. The main components used are Arduino Nano and Arduino Pro Mini. The input components are a pulse sensor, MPU6050 sensor, touch switch, NRF24L01 receiver, rope clip, on/off push button, and limit switch. The output components are one channel relay, NRF24L01 transmitter, and speakers. From the results of testing the device, the helmet will be connected to the motorbike if appropriately used, the speaker will send a rest notification if the rider is drowsy, and the helmet alarm will sound loud when someone wants to steal the helmet.
Kontrol Suhu dan Pakan Burayak Ikan Cupang Menggunakan PLC Zelio Sr3b261bd dan NodeMCU ESP8266 Sri Kusumastuti; Suryono Suryono; Adi Wisaksono; Supriyati Supriyati; Vinda Setya Kartika
Jurnal Saintekom : Sains, Teknologi, Komputer dan Manajemen Vol 13 No 1 (2023): Maret 2023
Publisher : STMIK Palangkaraya

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33020/saintekom.v13i1.348

Abstract

In the transition from the dry season to the rainy season, betta fish breeders are particularly affected. Betta fish cubs are prone to death. Betta fish fry are betta fish children after 1 to 7 days. The feedstock of betta fish cubs, namely water fleas, is greatly reduced due to overflowing water. Unstable temperature attacks the body resistance of betta fish cubs. This study designed and made a conditioning device for the growth of betta fish fry using PLC Zelio SR3B261BD and NodeMCU ESP8266.  Features of the tool consist of making artemia feed, distributing artemia feed, telling breeders to mix feed, controlling, and monitoring the temperature of the pond water. The results of the study showed that the device can work to hatch artemia eggs, distribute artemia to fry, notify farmers via telegram to mix feed, monitor the temperature, and maintain the temperature of the pond water in the range of 24?C - 27?C. The difference with previous fish farming research, this research adds a feature of making betta fish feed through the process of hatching artemia eggs.
PELATIHAN PERAKITAN ROBOT LINE FOLLOWER DIGITAL UNTUK SISWA SEKOLAH ALAM NURUL FURQON REMBANG Raditya Artha Rochmanto; Aminuddin Rizal; Roni Apriantoro; Ilham Sayekti; Sri Kusumastuti; Septiantar Tebe Nursaputro; Muhamad Cahyo Ardi Prabowo; Eri Eli Lavindi; Vinda Setya Kartika
Community Development Journal : Jurnal Pengabdian Masyarakat Vol. 4 No. 2 (2023): Volume 4 Nomor 2 Tahun 2023
Publisher : Universitas Pahlawan Tuanku Tambusai

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

Abstract

Industri 4.0 telah diperkenalkan sejak tahun 2011 di Jerman dan sudah mengalami banyak perkembangan dan telah diterapkan di berbagai penjuru dunia, tidak terkecuali di Indonesia. Berkembangnya industri 4.0 tentu saja perlu didukung dengan perkembangan ilmu pengetahuan lain pendukungnya salah satunya autonomous robot. Pada industri 4.0, robot sendiri memiliki peran penting untuk menjalankan proses otomasi di industri. Salah satu kunci keberhasilan revolusi industri 4.0 bergantung pada kemampuan sekolah dan perguruan tinggi dalam memberikan ilmu robotika pada siswa didiknya. Salah satu jenis robot yang dapat digunakan sebagai pembelajaran robotika pada siswa adalah robot line follower digital. Sekolah Alam Nurul Furqon sebagai salah satu lembaga pendidikan di Kabupaten Rembang tentu saja tidak ingin tertinggal mengikuti perkembangan teknologi robot untuk meningkatkan kualitas anak didiknya. Oleh karena itu, Tim dosen Polines memberikan solusi dengan memberikan pelatihan perakitan robot line follower digital pada siswa Sekolah Alam Nurul Furqon. Penggunaan robot line follower digital terbukti dapat menjadi media interaktif yang tepat untuk memperkenalkan robot dan meningkatkan keterampilan yang dibutuhkan untuk dapat membuat robot. Berdasarkan hasil dari kegiatan menunjukkan tim dari Politeknik dapat membantu pengelola dan guru Sekolah Alam Nurul Furqon dalam menyelesaikan masalah kurangnya pengetahuan mengenai robot dan keterampilan dalam pembuatan robot sehingga siswa Sekolah Alam Nurul Furqon dapat mengikuti perkembangan teknologi di era industri 4.0.
Co-Authors Adi Wisaksono Aminuddin Rizal Eri Eli Lavindi Ilham Sayekti Muhamad Cahyo Ardi Prabowo Raditya Artha Rochmanto Roni Apriantoro Septiantar Tebe Nursaputro Sindung Hadwi Widi Sasono Supriyati Supriyati Suryono Suryono Vinda Setya Kartika