Article Per Year (5 Year)
p-Index From 2021 - 2026
0
P-Index
This Author published in this journals
All Journal TEKTRIKA - Jurnal Penelitian dan Pengembangan Telekomunikasi, Kendali, Komputer, Elektrik, dan Elektronika Charity : Jurnal Pengabdian Masyarakat eProceedings of Engineering Jurnal INFOTEL Buletin Pos dan Telekomunikasi
Gustommy Bisono
Unknown Affiliation
Arts Humanities Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Electrical & Electronics Engineering Engineering Industrial & Manufacturing Engineering Social Sciences

Published : 15 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 15 Documents
Search

 1   2 
Perancangan Dan Analisis Sistem Pemantauan Pada Tetesan Infus Melalui Notifikasi Pada Line Bot. Adinda Ayu Herdianto; Rendy Munadi; Gustommy Bisono
eProceedings of Engineering Vol 6, No 2 (2019): Agustus 2019
Publisher : eProceedings of Engineering

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

Abstract

ABSTRAK Penelitian ini mengajukan suatu gagasan untuk medeteksi tetesan infus dengan sistem informasi melalui Line yang akan dikirim ke perawat yang berada di ruangan perawat maupun di ruangan lainnya, perawat dapat mengetahui lebih cepat kondisi cairan infus setiap pasien di ruangan perawatan. Dengan hasil pengujian performansi yang penulis uji, menghasilkan minimnya terjadi Packet Loss pada komunikasi antara Arduino dengan CloudMQTT Broker yaitu senilai 0,01%. Untuk menghitung performansi jaringan, penulis mendapatkan hasil rata-rata Delay sebesar 35,512 ms pada saat pengiriman 3 pengguna, Sementara untuk hasil pada pengiriman lebih dari 10 pengguna mendapatkan nilai 104,65 ms. Hasil rata-rata Throughput sebesar 15513,593 bps pada pengiriman dengan 3 pengguna. Sementara untuk hasil pengiriman lebih dari 10 pengguna mendapatkan nilai 4978,092 bps. Selain itu penulis, mengukur keandalan dan kesediaan alat dengan pengujian pengambilan data 30 kali setiap 15 menit dan secara acak, Dengan hasil pengujian keandalan pada sistem ini senilai 87% pada keandalan sistem mendeteksi pergerakan tetesan infus dan 83% pada pengiriman status infus pada user, sedangkan kesediaan alatmemiliki hasil 100%. Kata Kunci : Infus, NodeMCU, CloudMQTT, Heroku, Line ABSTRACT This study proposes an idea to detect infusion droplets with information systems through the Line that will be sent to nurses who are in the nurse's room as well as in other rooms, nurses can find out more quickly the infusion fluid conditions for each patient in the treatment room. With the results of the performance testing that the author tested, resulting in minimal occurrence of Packet Loss in communication between Arduino and CloudMQTT Brokers, which is worth 0.01 To calculate network performance, the authors get an average delay of 35,512 ms when sending 3 users, while for results on sending more than 10 users get a value of 104.65 ms. The average throughput of 15513,593 bps on delivery with 3 users. As for the results of sending more than 10 users get a value of 4978,092 bps. In addition, the authors measure the reliability and availability of tools by testing data retrieval 30 times every 15 minutes and randomly, with the results of reliability testing on this system worth 87% on the reliability of the system to detect infusion droplets and 83% on sending infusion status to the user, while the availability of tools has a 100% yield. Keywords : Infusion, NodeMCU, CloudMQTT, Heroku, Line
Design and Analysis of Trash Monitoring System Prototype Based On Internet of Things (IoT) Using MQTT Protocol Achmad Auliyaa Zulfikri; Doan Perdana; Gustommy Bisono
JURNAL INFOTEL Vol 10 No 3 (2018): August 2018
Publisher : LPPM INSTITUT TEKNOLOGI TELKOM PURWOKERTO

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20895/infotel.v10i3.381

Abstract

On this research, Internet of Things (IoT) as an advanced technology is used to monitor the height of trash from a trash can in order to give notification whether the height of trash is already reaching the maximum height limit or not. To support those needs, we used NodeMCU as a microcontroller, ultrasonic sensor, MQTT as IoT protocol, and Android to display the data. After we did the system performance test, we had the biggest result of end-to-end delay which was 2.06875 seconds when the packet delivery was set to 1000 ms with 3 active nodes and the smallest result of end-to-end delay which was 0.26055 seconds when the packet delivery was set to 100 ms with 1 active node. The biggest result of throughput was 597.17 Bytes/s when the packet delivery was set to 100 ms with 1 active node and the smallest result of throughput was 75.86 Bytes/s when the packet delivery was set to 1000 ms with 3 active nodes. The biggest result of availability and reliability was 99.905% when the packet delivery was set to 1000 ms and the smallest result was 99.833% when the packet delivery was set to 100 ms.
Performance Analysis and Automatic Prototype Aquaponic of System Design Based on Internet of Things (IoT) using MQTT Protocol Ratnasih Ratnasih; Doan Perdana; Yoseph Gustommy Bisono
JURNAL INFOTEL Vol 10 No 3 (2018): August 2018
Publisher : LPPM INSTITUT TEKNOLOGI TELKOM PURWOKERTO

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20895/infotel.v10i3.388

Abstract

The Aquaponic is a farming system which need attention because their system will mutually influence each other. Then using IoT technologies, can be made aquaponic that can automatically control and monitoring the aquaponic. The prototype using nodeMCU as a microcontroller, and for communication the system using MQTT protocol and android application as a user interface. The purpose of this research is to provide convenience for aquaponic user to be able to control remotely. In addition, this research aim is to analysis the QoS performance of the prototype. This research uses 2 scenario testing, there is with changing the distance between sensor nodes and access point, and testing the system in a normal state. Based on the results of the testing that has been done, the farther the distance range of the sensors node with access point then declining system performance. But in the normal state test, the median value of the mean delay was 0.10512s and the median value average throughput was 566 Bytes/s. In addition the median value also obtained the mean availability and realibility system that is 98.258% and 98.204%. Refers to the standard TIPHON (DTR/TIPHON-05001), the QoS performance of this system include excellent category.
Performance Analysis of the Differences Restricted Access Window (RAW) on IEEE 802.11ah Standard with Enhanced Distributed Channel Access (EDCA) Doan Perdana; Mulki Nurullah Perbawa; Yoseph Gustommy Bisono
JURNAL INFOTEL Vol 10 No 4 (2018): November 2018
Publisher : LPPM INSTITUT TEKNOLOGI TELKOM PURWOKERTO

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20895/infotel.v10i4.397

Abstract

IEEE 802.11 standard is a WLAN (Wireless LAN) standard that has been used in all over the world. IEEE 802.11ah is the newer technology that designed to supports Internet of Things (IoT) and Machine-to-machine Communication (M2M). IEEE 802.11ah has a feature called Restricted Access Window (RAW) that capable to reduce power usage and have satisfying Quality of Service (QoS). In this research, Enhanced Distributed Channel Access (EDCA) is also applied. Same as RAW, EDCA also be able to affect QoS by modified the MAC Layer in 802.11 standard. This research used 3 different scenarios for RAW parameters: Modifying the number of RAW Group, Modifying the number of RAW Slot, and Comparing 2 Datamode. The EDCA Parameters that used in this research were: Contention Window and Arbitrary inter-frame Spacing Number. The values that expected to be the output in this research are: Delay, Throughput, Packet Delivery Ratio, Availability, and Reliability. After the research has been simulated, the results are: First, the lowest of average delay was Ngroup = 1, the highest of PDR was Ngroup = Nsta/2, and the highest of Throughput was Ngroup = Nsta/2. Second, the lowest of average delay was RAW Slot = 6, the highest of PDR were RAW Slot = 3 and 4, and the highest of Throughput was RAW Slot = 4. Third, the lowest of average delay was Datamode 3,9 Mbps BW 2 MHz, the highest of PDR was Dat mode 3,9 Mbps BW 2 MHz, and the highest of Throughput was Datamode 3,9 Mbps BW 2 MHz. Reliability, Availability, and Energy Consumption also can be affected by modifying RAW parameters, in 802.11ah Energy Consumption can be reduced by increasing the number of RAW Stations and RAW Groups.
Implementasi dan Analisis Purwarupa Sistem Collision Avoidance pada Mobil Pintar Berbasis Jaringan Sensor Nirkabel [Implementation and Analysis Prototype of Collision Avoidance System in Smart Car Based on Wireless Sensor Network] Dwi Kresna Wijaya; Doan Perdana; Yoseph Gustommy Bisono
Buletin Pos dan Telekomunikasi Vol. 15 No. 2 (2017): December 2017
Publisher : Centre for Research and Development on Resources, Equipment, and Operations of Posts and I

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.17933/bpostel.2017.150201

Abstract

Accidents are the third highest cause of death in the world. Through the collision avoidance system applied to smart car, it is expected that accidents on the car can be avoided and the number of accidents can be reduced. This system applies the concept Wireless Sensor Network (WSN), the type of network that can pass through the process of sensing, transmitting data, and monitoring through internet connection. The design and implementation of collision avoidance prototype in this smart car works by means of the distance between the cars obtained from the Ultrasonic HC-SR04 sensor which then becomes the Arduino Uno input to regulate the speed of the car in order to avoid a collision. Communication between cars using Xbee S2 is connected to Raspberry Pi to connect to the web server. Information gained distance and speed of the car will occur on websites that can be accessed by the user. Maximum Xbee S2 test result are 89 meters. The delay value from the sensor to the monitoring system is 0.411 second, while the average throughput value is 641.73 bytes/s  *****Kecelakaan menjadi penyebab tertinggi ketiga kematian di dunia. Melaui sistem collision avoidance yang diterapkan pada mobil pintar, diharapkan agar kecelakaan pada mobil dapat terhindarkan dan angka kecelakaan dapat berkurang. Sistem ini menerapkan konsep Wireless Sensor Network (WSN), jenis jaringan yang dapat melalukan proses sensing, pengiriman data, serta monitoring melalui koneksi internet. Perancangan dan implementasi purwarupa collision avoidance pada mobil pintar ini bekerja dengan cara mendapatkan jarak antar mobil yang didapat dari sensor Ultrasonik HC-SR04 yang kemudian menjadi input Arduino untuk mengatur kecepatan optimal mobil agar tidak terjadi tabrakan. Komunikasi antar mobil menggunakan Xbee S2 yang dihubungkan ke Raspberry Pi untuk dikoneksikan ke web server. Informasi yang didapat berupa jarak dan kecepatan mobil akan ditampilkan pada website yang dapat diakses oleh pengguna. Hasil pengujian didapatkan jangkauan maksimal Xbee S2 adalah 89 meter. Nilai delay dari sensor hingga sistem monitoring didapatkan rata-rata 0,411 detik, sedangkan nilai throughput rata-rata adalah 641,73 bytes/s.
Co-Authors Achmad Auliyaa Zulfikri Achmad Auliyaa Zulkifri Adinda Ayu Herdianto Akhmad Hambali Bachtiar Hendro Assiddiq Dewi Rasni Putri Doan Perdana Dwi Kresna Wijaya Fidelis Surya Putranta Fidelis Surya Putranta Gendhis Azzukhruf Dynastuti Ilham Bayu Prabowo Intan Laily Muflikhah Jorjiana Aminatus M. Adnan Nur Adrika Mulki Nurullah Perbawa Perbawa, Mulki Nurullah Ratnasih Ratnasih Ratnasih _ RATNASIH, RATNASIH Rendy Munadi Wisma Dwi Kurnia Zulfikri, Achmad Auliyaa