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n/a Nurussa’adah
Departemen Teknik Elektro, Universitas Brawijaya
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RANCANG BANGUN SISTEM INTERNET OF THINGS DAN PREDIKSI KADAR AIR MI KERING BERBASIS ARTIFICIAL INTELLIGENCE PADA MESIN DEHIDRATOR UNTUK PENGERINGAN MI SEHAT Moh Fahri Ferdiansyah; Raden Arief Setyawan; n/a Nurussa’adah
Jurnal Mahasiswa TEUB Vol. 10 No. 4 (2022)
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Mi Sehat is one of the output products of the Mie Serdadu UKM. Different from instant noodles in general, which use preservatives, Mie Sehat owned by Mie Serdadu UKM prioritizes consumer health, so it uses organic ingredients and no preservatives. In order to maintain the quality and taste of noodles, it is necessary to use good and healthy preservation techniques for consumers. One way to keep noodles in good condition for a long time is to dry them. The long drying time and the lack of workers are separate problems for Mie Serdadu UKM. In this study, a remote control and monitoring system based on the internet of things was designed that was equipped with an artificial intelligence system to predict the moisture content of dry noodles in the healthy noodle dehydrator machine owned by the Mie Serdadu UKM. The design process uses Esp8266, Raspberry Pi, and PHP Webserver. The communication protocol used is HTTP. The test is intended to determine the time it takes Esp8266 to send and receive data using the HTTP communication protocol. In the artificial intelligence system, the prediction accuracy between th
RANCANG BANGUN SISTEM BUKA TUTUP PINTU AIR MINIATUR REGULATING WEIR BENDUNGAN MERANGIN BERBASIS MIKROKONTROLER ARDUINO DENGAN SENSOR WATER LEVEL Prasetyo Rizky Arfan Sodiq; Raden Arief Setyawan; n/a Nurussa’adah
Jurnal Mahasiswa TEUB Vol. 11 No. 1 (2023)
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A dam is a building used as a barrier to retaining river water flow to form a reservoir with water reserves. Some of the uses of dams include irrigation, power generation, and flood control facilities. Most dams also have a section called a water gate, which functions to remove unwanted water gradually or continuously. Dams have different water levels every time due to climate and rainfall, This will affect the water discharge in the dam. The water level in the dam can be utilized to produce potential energy which will later be used for electricity generation. The water flow also affects the productivity of the electrical power that can be generated. Therefore, this research will design an open-close regulating weir water gate of a Merangin Dam miniature using a water level sensor and an Arduino microcontroller. The test is carried out using three water level sensors, each water level sensor has three states so in this research there will be 27 states to openclose the water gate system. Based on the test results, the HY-SRF05 water level sensor has an error range of 0,02% to 21,72% where the measured water level has a higher error when the water level is lower. The test of the YF-S201water flow sensor obtained results where the water level in the dam affects the water flow in the penstock, the higher the water level of the miniature dam, the greater the water discharge in the penstock. Water flow sensor measurements obtained the highest water discharge value of 5,43 liters/minute with an error of 6,77% at a water level of 25 cm in the dam. The test results show that the system of opening and closing the regulating weir water gate can work with the desired conditions and results.Key Words: Dam, Regulating Weir, Water Gate
KONTROL KUALITAS AIR UNTUK BUDIDAYA IKAN LELE PADA SISTEM TANAM AQUAPONIK Yusuf Rangga Pratomo; n/a Nurussa’adah; Raden Arief Setyawan
Jurnal Mahasiswa TEUB Vol. 11 No. 1 (2023)
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The process of fish farming is a technical activity that requires certain knowledge and expertise, fish farming is also a type of business that is in great demand by the public because it has high profit margins. Aquaponics is a planting method in which plants grow in water. Now, due to the depletion of planting land, people use the method of cultivating fish in aquaponic systems. Often beginners in cultivation encounter problems during the cultivation process due to a lack of knowledge and technical level in handling the problems encountered such as the large number of dead fish and dry or rotten plants. These problems arise due to unsuitable environmental conditions for the growth and development of fish and plants. Therefore, certain control methods are needed so that environmental conditions will always be good for the growth and development of fish and plants or also called ideal cultivation conditions. Control methods will regulate water parameters such as pH, ammonia and temperature to be beneficial during the cultivation process. With the application of this method, ideal conditions will always be maintained, so that problems such as fish seeds that die easily, rotting plant roots, and dry plant leaves can be minimized or even not arise. Keyword: aquaponic, fish cultivation, control method, monitoring, water parameter.
SISTEM DETEKSI KEBOCORAN PIPA DAN MONITORING DEBIT AIR MENGGUNAKAN FLOWMETER BERBASIS INTERNET OF THINGS Moh. Wildan Ali Fikri; Raden Arief Setyawan; n/a Nurussa’adah
Jurnal Mahasiswa TEUB Vol. 11 No. 1 (2023)
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Water is a primary need for humans because of the fulfillment of survival. Water supply is a direct activity from PDAM to the community. Losses that often arise, namely leaks due to broken pipes or pipes that are not tight. leakage information is carried out by the public directly to the officer to check the pipe. Late repairs can result in wasted water. The development of technology in the 4.0 era has had a big impact on society. So, the researchers designed to create a pipe leak detection system and monitor water discharge using an internet of things-based flowsensor. This system uses 3 flowsensors. Flowsensor connected to NodeMCU. NodeMCU is connected to the thingspeak database via a Wi-Fi internet network. Readings by the flowsensor are received by NodeMCU then forwarded to Thingspeak to be displayed on the website page. This research was conducted with the hope of providing more accurate water discharge measurement results in detecting pipe leaks. Keyword: flowsensor, water flow, NodeMCU, leaks
RANCANG BANGUN SISTEM FILTRASI OTOMATIS SERTA MONITORING PH DAN SUHU AIR BERBASIS IOT UNTUK AKUARIUM IKAN CUPANG Bono Badar Nugraha; Ponco Siwindarto; n/a Nurussa’adah
Jurnal Mahasiswa TEUB Vol. 11 No. 2 (2023)
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Betta fish is one of the ornamental fish that is quite easy to maintain and is one type of ornamental fish that has high economic value and widely sold in the market. To maintain the quality of water in the betta fish aquarium is done by manually changing the water every few days. The life of ornamental fish in an aquarium is strongly influenced by how the water quality in the aquarium.Water quality can be defined by the value of several aspects such as acidity(pH) and temperature. The use of microcontrollers to perform automation and IoT that can be used to exchange information directly by relying on the use of the internet is a solution to the problem of fish owners. Therefore, this research designs an automatic filtration system as well as IoT-based pH and temperature monitoring for a betta fish aquarium using an Arduino Uno microcontroller, pH sensor, temperature sensor, water level sensor, water pump and NodeMCU. Tests are performed on each sensor and device required as well as testing the automation of the entire system. Based on the test results, the pH sensor has a range of differences in reading values against a pH meter of 0.58% to 1.41%, the DS18B20 temperature sensor has a range of differences in reading values against a digitalthermometer of 0.63% to 1.96% and, the HY-SRF05 water level sensor has a range of differences in reading values against a ruler of 1.38% to 6.10%. In testing the water pump using a relay, it can work according to the input given from the microcontroller. Sensor data transmission on smartphones via the internet with NodeMCU intermediaries shows the similarity of sensor readingdata values with smartphone displays. The test results show that the automatic filtration system and IoT-based pH and temperature monitoring for the betta fish aquarium can work as expected. Key words: Parrot fish, filtration, pH, temperature, IoT
SISTEM MONITORING PH DAN SUHU AIR MENGGUNAKAN APLIKASI BLYNK DI KOLAM BUDIDAYA IKAN KOI PROKLAMATOR BLITAR, JAWA TIMUR Irfan Zuhri; Hadi Suyono; n/a Nurussa’adah
Jurnal Mahasiswa TEUB Vol. 11 No. 3 (2023)
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The quality of pond water is very important for the successful cultivation of koi fish. The survival rate and growth of the fish are highly dependent on the water quality. If there are any changes in temperature or pH levels, the koi fish can become stressed and even die. The optimal temperature for the growth of koi fish is between 25°C - 30°C, while the optimal pH range is between 6.5 - 8.5. A monitoring system is used to measure the water quality of the koi fish using temperature and pH sensors, and the data is measured in real-time using the Internet of Things (IoT) to obtain good water quality and ideal temperature and pH values. With the Internet of Things (IoT), data can be sent and received quickly, taking about 0.5 seconds from the sender to the receiver, even if the distance is far as long as it is connected to the internet. This data is then sent to the Blynk server and can be displayed through the Blynk application on an Android device. If the water quality is not ideal, information will be sent to the koi fish cultivator's Android smartphone in the form of notifications on the Blynk server. Keywords: Water Quality, Koi Fish, Temperature, pH, Internet of Things (IoT) DAFTAR PUSTAKA[1] Firmansyah, Z. A. (2019). Monitoring Kualitas Air Kolam Pembenihan Ikan Koi Berbasis Internet of Things.[2] Korespondensi, Bersih, J., Tengah, K., Cibinong, K., Perikanan, D., Peternakan, D., Dwi Nugroho, B., Hardjomidjojo, H., Ma’mun Sarma, D., & Tengah, K. (2017). Strategi Pengembangan Usaha Budidaya Ikan Konsumsi Air Tawar dan Ikan Hias Air Tawar pada Kelompok Mitra Posikandu Kabupaten Bogor Business Expansion Strategies on Consumable Freshwater Fish and Decorative Fish Breeding in Kelompok Mitra Posikandu Bogor District (Vol. 12, Issue 2). http://journal.ipb.ac.id/index.php/jurnalmpi/[3] Ritonga, L. B., & Indah Sari, L. (n.d.). Pembenihan Ikan Koi (Cyprinus carpio) Secara Alami Di Mina Sumber Utama KoiFish Hatchery of Koi (Cyprinus carpio) In Mina Sumber Utama Koi. https://doi.org/10.15578/chanos.v20i2.1198 2[4] Saloh, A. Y., Aida, Y., & Zahida, F. (2005). Penambahan Tepung Cangkang Udang dalam Pakan Buatan Sebagai Penguat Warna Ikan Koi (Cyprinus carpio L.). X(1), 59–65.[5] Wantimpres. (2017, April 27). Potensi Perikanan Indonesia.
RANCANG BANGUN SISTEM PEMANTAUAN APLIKASI DAN KLASIFIKASI KONDISI MENGGUNAKAN METODE ANFIS UNTUK PASIEN STROKE RINGAN I Made Ananta Wiragunawan; n/a Nurussa’adah; Thareq Barasabha
Jurnal Mahasiswa TEUB Vol. 11 No. 3 (2023)
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Stroke is an acute clinical event of focal or global neurological disorders associated with cerebral circulation disorders. A stroke usually lasts more than 24 hours and can lead to death with no known cause. Stroke is a disease in which blood cannot flow to the brain to supply oxygen and nutrients and cannot get rid of waste products. This causes brain cells to rapidly die. The success of stroke treatment management is very dependent on time. The sooner the first aid is given, the better the clinical outcome will be. Through these problems, technology is needed that can monitor the condition of stroke patients on a regular basis. The technology needed is primarily able to monitor several risk factors for stroke, namely blood pressure, cholesterol, pulse, and blood sugar using Photoplethysmograph (PPG) sensors and provide education in reducing these risk factors. This innovation has tested the function of the tool by measuring blood pressure, cholesterol, pulse, and blood sugar levels using an innovative tool compared to the results of laboratory measurements. The results of the measurement of innovation tools with blood pressure measurement accuracy of 95,78%, total cholesterol measurement accuracy of 96,88%, and blood sugar level measurement accuracy of 96,49%. Result of the monitoring application supported by the ANFIS system, the results of the classification of user conditions were obtained with an accuracy rate of 95 % in testing five patients who had high risk factors for stroke. Keywords: Stroke, Photoplethysmograph, Monitoring Application, ANFIS, Therapy DAFTAR PUSTAKA[1] Setyopranoto, I., Bayuangga, H.F., Panggabean, A.S., Alifaningdyah, S., Lazuardi, L., Dewi, F.S.T., Malueka, R.G., 2019. Prevalence of stroke and associated risk factors in sleman district of Yogyakarta Special Region, Indonesia. Stroke Res. Treat. 2019. https://doi.org/10.1155/2019/2642458[2] Powers, W.J., Rabinstein, A.A., Ackerson, T., Adeoye, O.M., Bambakidis, N.C., Becker, K., Biller, J., Brown, M., Demaerschalk, B.M., Hoh, B., Jauch, E.C., Kidwell, C.S., LeslieMazwi, T.M., Ovbiagele, B., Scott, P.A., Sheth, K.N., Southerland, A.M., Summers, D. V., Tirschwell, D.L., 2018. 2018 Guidelines for the Early Management of Patients With Acute Ischemic Stroke: A Guideline for Healthcare Professionals From the American Heart Association/American Stroke Association, Stroke. https://doi.org/10.1161/STR.0000000000000158 [3] Kemenkes RI, 2018. Hasil Riset Kesehatan Dasar Tahun 2018. Kementrian Kesehat. RI 53, 1689–1699.[4] Salvadori, E., Papi, G., Insalata, G., Rinnoci, V., Donnini, I., Martini, M., Falsini, C., Hakiki, B., Romoli, A., Barbato, C., Polcaro, P., Casamorata, F., Macchi, C., Cecchi, F., Poggesi, A., 2021. Comparison between ischemic and hemorrhagic strokes in functionaloutcome at discharge from an intensive rehabilitation hospital. Diagnostics 11. https://doi.org/10.3390/diagnostics11010038[5] Umar, U., Amin, I., Elektro-Medis, T., Kesehatan, P., & Makassar, M. (2019). Monitoring Kadar Glukosa Darah NonInvasif Menggunakan Sensor Photoacoutic. In Celebes Health Journal (Vol. 1, Issue 2). http://journal.lldikti9.id/CPHJ/indexDOI:https://doi.org/
PERANCANGAN SISTEM DETEKSI DINI SEL ABNORMAL RONGGA MULUT DENGAN METODE FLUORESCENCE VISUALIZATION DILENGKAPI STERILISASI OZONE PLASMA Mochammad Rofi Sanjaya; n/a Nurussa’adah; Thareq Barasabha
Jurnal Mahasiswa TEUB Vol. 11 No. 3 (2023)
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The prevalence of oral cancer reached 14,197 cases from 2015 to 2020 in Indonesia. On the other hand, delay in cancer treatment can be fatal. However, there are less than 5 specialist dentists in some provinces, and even zero in West Papua. Therefore, screening by Public Health Center nurse needed to reduce oral cancer mortality rate. This scientific article aims to design, create, and test an early detection system for oral cancer based on IoT-integrated fluorescence imaging that is practical, functional, and clinically innovative. The method started in literature study, system design, fabrication, operational and clinical testing, and evaluation. System’s function examination is done by measuring HPL LED temperature, object temperature, and ozone plasmatemperature. A clinical trial was conducted on six subjects with linea alba, RAS, mucocele, ameloblastoma, leukoplakia, and behcet syndrome. Functional test resulted in the system components remains in 28,4˚C, the illuminated object temperature does not over 24,8˚C within 10 minutes, thus there is no heat side effects damaging components and things, and also the ozone temperature does not over 29,5˚C within 10 minutes. Clinical tests obtained 100% true negative results in all subjects. The oral cancer early detection system has been successfully made and tested. Functional tests show that the system has good durability, and clinical tests show true negatives in normal mucosa and non-malignant lesions. Keywords: teledentistry, screening, oral cancer, fluorescence visualization, ozone plasma DAFTAR PUSTAKA[1] S. D’souza and V. Addepalli, “Preventive measures in oral cancer: An overview,” Biomed. Pharmacother., vol. 107, no. May,pp. 72–80, 2018, doi: 10.1016/j.biopha.2018.07.114.[2] Kemenkes RI, “Data Tenaga Medis yang didayagunakan di Fasilitas Pelayanan Kesehatan (Fasyankes) di Indonesia,”bppsdmk, 2020. http://bppsdmk.kemkes.go.id/info_sdmk/info/index?rumpun=101 (accessed Feb. 13, 2022).[3] T. Morikawa et al., “Countermeasure and opportunistic screening systems for oral cancer,” Oral Oncol., vol. 112, no. March2020, p. 105047, 2021, doi: 10.1016/j.oraloncology.2020.105047.[4] N. Yamamoto et al., “Detection accuracy for epithelial dysplasia using an objective autofluorescence visualization method based on the luminance ratio,” Int. J. Oral Sci., vol. 9, no. 11, pp. 1–10, 2017, doi: 10.1038/ijos.2017.37.[5] M. Mascitti et al., “An overview on current non-invasive diagnostic devices in oral oncology,” Front. Physiol., vol. 9, no. OCT,pp. 1–8, 2018, doi: 10.3389/fphys.2018.01510.[6] A. Niveditha, R. Pandiselvam, V. A. Prasath, S. K. Singh, K. Gul, and A. Kothakota, “Application of cold plasma and ozonetechnology for decontamination of Escherichia coli in foods- a review,” Food Control, vol. 130, no. June, p. 108338, 2021,doi: 10.1016/j.foodcont.2021.108338.[7] M. Cicciù et al., “Early diagnosis on oral and potentially oral malignant lesions: A systematic review on the Velscope® fluorescence method,” Dent. J., vol. 7, no. 3, 2019, doi: 10.3390/dj7030093. [8] V. Taran et al., “Portable ozone sterilization device with mechanical and ultrasonic cleaning units for dentistry,” Rev. Sci. Instrum., vol. 91, no. 8, 2020, doi: 10.1063/1.5145279.[9] Ozone Solutions, “Ozone Effects on Bacteria, Viruses and Molds,” Ozone Solutions, 2021. https://ozonesolutions.com/blog/ozoneeffects-on-pathogens/ (accessed Oct. 20, 2022).[10] H. A. Adil, M. Yuwanati, A. Singh, S. Sawant, and H. R. Umarji, “Comparative study on the efficacy of Tissue Autofluorescence (Visually Enhanced Lesion Scope) and Toluidine Blue as a screening method in oral potentially malignant and malignant lesions,” J. Med. Sci., vol. 37, no. 3, pp. 91–96, 2017, doi: 10.4103/jmedsci.jmedsci_53_16.
SISTEM MONITORING TINGKAT KEKERUHAN AIR PADA FILTER DAN LAJU AIR POMPA MENGGUNAKAN APLIKASI BLYNK DI PROKLAMATOR KOI BLITAR, JAWA TIMUR Dio Tri Pamungkas; Hadi Suyono; n/a Nurussa’adah
Jurnal Mahasiswa TEUB Vol. 11 No. 3 (2023)
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Water quality is important for koi fish health and is affected by the condition of the filter pond. The filter pond filters dirty water and delivers clean water to the pond so the cleanliness of the filter pond can be seen from the turbidity level of the water. The water pump is used to circulate water and it is important to perform maintenance on the water pump so that there is no decrease in performance. A monitoring system is needed using turbidity sensors and water flow sensors, and can be accessed via Android smartphones using Blynk. Each sensor is tested to test the difference value with the measuring instrument on each sensor. The turbidity sensor gets an average difference value of 2.31% and the water flow sensor gets an average difference value of 0.61%. This means that the sensor can read each parameter well. In addition, testing for the difference value of data transmission and notification on LCD and Blynk. Data transmission gets a difference value of 0% which means that the data sent by ESP32 can be displayed on LCD and Blynk and has no delay. Keywords: Water Quality, Water Turbidity Level, Water Flow, ESP32, Blynk Daftar Pustaka[1] Almumtazah, N., Azizah, N., Putri, Y. L., & Novitasari, D. C. R. (2021). Prediksi Jumlah Mahasiswa Baru Menggunakan Metode Regresi Linier Sederhana. Jurnal Ilmiah Matematika Dan Terapan, 18(1), 31–40. https://doi.org/10.22487/2540766x.2021.v18.i1.15465[2] Babiuch, M., Foltynek, P., & Smutny, P. (2019, May 1). Using the ESP32 Microcontroller for Data Processing. Proceedings of the 2019 20th International Carpathian Control Conference, ICCC 2019. https://doi.org/10.1109/CarpathianCC.2019.8765944[3] Berlianti, R., & Fibriyanti. (2020). Perancangan Alat Pengontrolan Beban Listrik Satu Phasa Jarak Jauh Menggunakan Aplikasi Blynk Berbasis Arduino Mega. Sain, Energi Teknologi & Industri, 5, 17–26.[4] Febbiyana, W., Kurniawan, S., Isnen, M., & Anugrah, S. (2019). Pembuatan Alat Test dan Kalibrasi Flowmeter Solar pada Pabrik Pemanggangan Anoda PT INALUM. Jurnal Elektronika, Listrik Dan Teknologi Informasi Terapan, 2(1), 43–49. https://ojs.politeknikjambi.ac.id/elti[5] Trianggana, D. A. (2020). Peramalan Jumlah Siswa- Siswi Melalui Pendekatan Metode Regresi Linear. Jurnal Media Infotama, 16(2).[6] Yuliara, I. M. (2016). Regresi Linier Sederhana.[7] WANTIMPRES. (2017, April 27). Dewan Pertimbangan Presiden. Dipetik Mei 29, 2022, dari Potensi Perikanan Indonesia:https://wantimpres.go.id/id/potensiperikanan-indonesia/[8] Farm, A. K. (2019, Agustus 28). Perawatan Filter Kolam. DIpetik Agustus 4, 2022, dari Agro Koi Farm: https://www.agrokoifarm.com/perawatan-filter-kolam/[9] Putrawan, I. G. H., Rahardjo, P., & Agung, I. G. A. P. R. (2019). Sistem Monitoring Tingkat Kekeruhan Air dan Pemberi Pakan Otomatis pada Kolam Budidaya Ikan Koi Berbasis NodeMCU. Majalah Ilmiah Teknologi Elektro, 19(1), 1. https://doi.org/10.24843/mite.2020.v19i01.p01[10] Maharani, S. H., & Kholis, N. (2020). Studi Literatur: Pengaruh Pengunaan Sensor Gas Terhadap Presentase Nilai ErrorKarbonmonoksida (CO) dan Hidrokarbon (HC) Pada Prototipe Vehicle Gas Detector (VGD). Jurnal Teknik Elektro, 09, 569–578.
RANCANG BANGUN SOLAR TRACKING SYSTEM BERBASIS ESP UNTUK OPTIMALISASI PENYERAPAN ENERGI MATAHARI PADA SOLAR PANEL Mochammad Yusuf Habiburrahman; n/a Nurussa’adah; Akhmad Zainuri
Jurnal Mahasiswa TEUB Vol. 11 No. 3 (2023)
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Electricity is one of the main supporting factors for human life. Most of the sources of electrical energy in Indonesia are produced from fossil energy. This is what encourages the use of alternative energy because fossil fuels are non-renewable and are produced over a very long time. One alternative energy that has considerable potential in Indonesia is Solar Power Plants (PLTS).Effectiveness is one of the main factors in the problem, this is because the angle of the sun is always changing every time making the intensity level of the sun and the angle of inclination of the sun's light on the solar panels not maximum. For now, there is still a lot of static use of solar panels so they don't produce optimum power. Therefore, we need a system that can help solar panels always get the maximum intensity of sunlight and be perpendicular to the direction of sunlight. In this research, a system design is carried out using sensors and actuators and aims to help solar panels track the position of the sun, which is called a solar tracking system. Keywords: ESP, Solar panel, Tracking system REFERENSIHuang, Y.J., Kuo, T.C., Chen, C.Y., Chang, C.H., Wu, P.C., dan Wu, T.H. (2009). The Design and Implementation of a Solar Tracking Generating Power System, Engineering Letters, 17:4. EL_17_4_06, Advance Online Publication.Priatman, J. (2000). Perspektif Arsitektur Surya Di Indonesia, Dimensi Teknik Arsitektur, Universitas Kristen Petra, Surabaya.Magga, R., Mustofa, dan Arifin, Y. (2015). Desain Hybrid Panel Surya Tipe Monocrystalline Dan Thermal Kolektor Fluida Air. Jurnal IPTEK. 19(2):67–74Hikmawan, S.R. & Suprayitno, E.A. (2018). Rancang Bangun Lampu Penerangan Jalan Umum (PJU) Menggunakan Soar Panel Berbasis Android. ELINVO (Electronics, Informatics, and Vocational Education), 9-10.
Co-Authors Alfian Pramudika Sugiyanto Barasabha, Thareq Bono Badar Nugraha Dio Tri Pamungkas Hadi Suyono I Made Ananta Wiragunawan Irfan Zuhri Mochammad Rofi Sanjaya Mochammad Yusuf Habiburrahman Moh Fahri Ferdiansyah Moh. Wildan Ali Fikri Ponco Siwindarto Prasetyo Rizky Arfan Sodiq Raden Arief Setyawan Yusuf Rangga Pratomo Zainuri, Akhmad