Article Per Year (5 Year)
p-Index From 2021 - 2026
0.444
P-Index
This Author published in this journals
All Journal ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika Fountain of Informatics Journal CHIPSET (Journal on Computer Hardware, Signal Processing, Embedded System and Networking)
PRAMAWAHYUDI, PRAMAWAHYUDI
Unknown Affiliation
Computer Science & IT Electrical & Electronics Engineering Engineering

Published : 3 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 3 Documents
Search

 1 
Performance Analysis of First Hop Redundancy Protocols on Computer Networks Based in Star Topology Ridwan, Ahmad; Syahputra, Ramdhani; Pramawahyudi, Pramawahyudi
Fountain of Informatics Journal Vol. 8 No. 2 (2023): November
Publisher : Universitas Darussalam Gontor

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

Abstract

Abstract Minimizing the cost of network service failures requires several additional network devices that can take over the function of the leading network if the device fails. The solution to improve network availability and reliability is using the First Hop Redundancy Protocol (FHRP). This research analyses the FHRP protocol experiment using the Hot Standby Router Protocol (HSRP), Virtual Router Redundancy Protocol (VRRP), and Gateway Load Balancing Protocol (GLBP) methods combined with the OSPF and EIGRP dynamic routing protocols, as well as the results of the investigation of implementing the backbone network in the form of a star topology based on the performance of the FHRP protocol management with the test parameters delay, packet loss, throughput. According to the test results conducted by combining the FHRP protocol with EIGRP and OSPF routing, the VRRP method combined with EIGRP routing provides better output parameters than other methods, such as the difference in delay between VRRP and HSRP is 0.16 ms, 0.18 ms with GLBP with a combination of EIGRP routing. While in OSPF routing, the delay difference between VRRP and HSRP is 0.22 ms and 0.24 ms in GLBP. For packet loss testing parameters, when the primary network route is disconnected, there is an increase in packet loss of 1.01% for VRRP, 3.05% for HSRP with a combination of EIGRP routing, and 0.2% for VRRP, 0.4% for HSRP with a combination of OSPF routing. Kata kunci: FHRRP, Routing, EIGRP, OSPF, Parameter   Abstrak Meminimalkan biaya kegagalan layanan jaringan membutuhkan beberapa perangkat jaringan tambahan yang dapat mengambil alih fungsi jaringan utama jika perangkat tersebut gagal. Solusi untuk meningkatkan ketersediaan dan keandalan jaringan adalah dengan menggunakan First Hop Redundancy Protocol (FHRP). Penelitian ini menganalisa percobaan protokol FHRP dengan menggunakan metode Hot Standby Router Protocol (HSRP), Virtual Router Redundancy Protocol (VRRP), dan Gateway Load Balancing Protocol (GLBP) yang digabungkan dengan protokol routing dinamis OSPF dan EIGRP, serta hasil investigasi implementasi jaringan backbone berbentuk topologi star berdasarkan performa manajemen protokol FHRP dengan parameter uji delay, packet loss, throughput. Berdasarkan hasil pengujian yang dilakukan dengan mengkombinasikan protokol FHRP dengan routing EIGRP dan OSPF, metode VRRP yang dikombinasikan dengan routing EIGRP memberikan parameter output yang lebih baik dibandingkan metode lainnya, seperti selisih delay antara VRRP dengan HSRP sebesar 0.16 ms, 0.18 ms dengan GLBP dengan kombinasi routing EIGRP. Sedangkan pada routing OSPF, selisih delay antara VRRP dan HSRP adalah 0.22 ms dan 0.24 ms pada GLBP. Untuk parameter pengujian packet loss, ketika rute jaringan utama terputus, terjadi peningkatan packet loss sebesar 1.01% untuk VRRP, 3.05% untuk HSRP dengan kombinasi routing EIGRP, dan 0.2% untuk VRRP, 0.4% untuk HSRP dengan kombinasi routing OSPF. Keywords: FHRRP, Routing, EIGRP, OSPF, Parameter
Evaluasi Kinerja First Hop Redundancy Protocols untuk Topologi Star di Routing EIGRP PRAMAWAHYUDI, PRAMAWAHYUDI; SYAHPUTRA, RAMDHANI; RIDWAN, AHMAD
ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika Vol 8, No 3: Published September 2020
Publisher : Institut Teknologi Nasional, Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26760/elkomika.v8i3.627

Abstract

ABSTRAKDalam perancangan jaringan, yang terpenting adalah faktor ketersediaan, mengurangi kegagalan, dan mengatasi beban lalu lintas yang besar. Penelitian ini bertujuan mengimplementasikan dan mengevaluasi sistem First Hop Redundancy Protocol (FHRP) pada jaringan topologi star dengan menggunakan routing EIGRP. Hasil dari pengujian kinerja rata-rata delay menunjukkan selisih antara router master dan backup pada protokol Virtual Router Redundancy Protocol (VRRP) lebih baik yaitu hanya 0,003 detik, sedangkan pada protokol Gateway Load Balancing Protocol (GLBP) 0,076 detik dan protokol Hot Standby Router Protocol (HSRP) 0,075 detik. Pada pengujian rata-rata packet loss protokol GLBP menunjukkan selisih yang cukup besar antara router master dan backup yaitu 12,07 %, sedangkan pada protokol VRRP 0,07 % dan protokol HSRP 5,06 %. Namun pada hasil pengujian rata-rata throughtput protokol HSRP lebih stabil yaitu 0,60 Kbps pada router master dan 0,90 Kbps pada router backup, sedangkan protokol VRRP paling tidak stabil karena mengalami kenaikan yang signifikan yaitu 0,458 Kbps pada router master dan 1,11 Kbps pada router backup.Kata kunci: FHRP, VRRP, GLBP, HSRP, Routing, EIGRP, Protokol ABSTRACTThere are several important considerations in designing a network, including availability, minimizing failure, and handling high traffic data. The current research aims to implement and evaluate the First Hop Redundancy Protocol (FHRP) system on star topology networks using EIGRP routing. The result shows the average performance difference of the master and the backup router in Virtual Router Redundancy Protocol (VRRP) protocol is 0,003 second, while in Gateway Load Balancing Protocol (GLBP) protocol is 0,076 second, and Hot Standby Router Protocol (HSRP) protocol is 0,075 second. The test in GLBP protocol shows a significant difference in packet loss between master and backup router about 12,07%, while in VRRP protocol is 0,07%, and HSRP protocol is 5,06%. The average throughput in HSRP protocol is stable with 0,60 Kbps in the master router and 0,90 in the backup router, while in VRRP protocol is not stable with 0,458 Kbps in the master router and 1,11 Kbps in the backup router. Keywords: FHRP, VRRP, GLBP, HSRP, Routing, EIGRP, Protocol
Sistem Pemantauan Kehadiran Piket di Sekretariat Berbasis Algoritma Haversine Zizilah Kaoy, Muhammad Herbi; Suwandi, Rifki; Pramawahyudi, Pramawahyudi
CHIPSET Vol. 6 No. 02 (2025): Journal on Computer Hardware, Signal Processing, Embedded System and Networkin
Publisher : Universitas Andalas

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.25077/chipset.6.02.124-134.2025

Abstract

The lack of discipline in carrying out duty shifts at the student organization secretariat within the Faculty of Information Technology at Andalas University has become a serious issue, characterized by attendance manipulation and absenteeism among members. This problem negatively impacts the operational quality and reputation of the organization. Previous studies on attendance monitoring systems have utilized various technologies, such as RFID and biometric systems, which, while effective in reducing absenteeism, often face challenges in terms of cost, implementation complexity, and manipulation prevention. In response to these limitations, this study developed an attendance monitoring system based on the Haversine Algorithm, utilizing QR code technology for recording attendance and the Haversine Algorithm for monitoring the location of members during their shifts. Testing results indicated that the system achieved 100% accuracy in attendance recording and was able to monitor locations with an average error of 4.657 meters. Compared to previous systems, this approach offers a more cost-effective, easily implementable solution with enhanced transparency and reduced manipulation risk. Additionally, the system provides rapid and transparent attendance reports, with an average response time of 0.1 seconds. In conclusion, the system effectively enhances discipline and reduces attendance manipulation, making it a viable option for improving the management of student organizations.
Co-Authors Ahmad Ridwan Rifki Suwandi, Rifki Syahputra, Ramdhani Zizilah Kaoy, Muhammad Herbi