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All Journal International Journal of Electrical and Computer Engineering TELKOMNIKA (Telecommunication Computing Electronics and Control) Jurnal EECCIS Journal of Environmental Engineering and Sustainable Technology Jurnal RESTI (Rekayasa Sistem dan Teknologi Informasi) Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Network Engineering Research Operation [NERO] Jurnal Teknik Mesin dan Mekatronika (Journal of Mechanical Engineering and Mechatronics)
Achmad Basuki
Faculty Of Computer Science, Universitas Brawijaya
Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Energy Engineering Environmental Science Materials Science & Nanotechnology Mechanical Engineering Transportation

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Analisis Perbandingan Routing Protocol OSPFv3 dan IS-IS pada IPv6 Jonathan Rovelano Huwae; Achmad Basuki; Sabriansyah Rizqika Akbar
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 6 No 7 (2022): Juli 2022
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

OSPFv3 and IS-IS routing protocols are routing protocols that are included in the type of link state routing protocol. In determining the best path, each routing protocol has different characteristics and algorithms. These differences will have an impact on how the work and results are different from the two routing protocols. This study used docker containers to simulate networks and implement routing protocols OSPFv3 and IS-IS with a hybrid topology. Both routing protocols will be implemented using IPv6 addressing. Testing will be carried out using 9 routers. The parameters to be used are the convergence time when the link is disconnected and the convergence time when the link reconnects. This study aims to determine the process of convergence when the link is broken and the process of convergence when the link is returned. This study showed that the OSPFv3 routing protocol has a faster convergence time than IS-IS in finding alternative paths when a link disconnection occurs. In 10 tests, OSPFv3 resulted in an average convergence time of 2046.55 ms compared to IS-IS whose average convergence time was 3686.74 ms. When linking back, the convergence value of IS-IS was faster with an average of 1843.08 ms compared to OSPFv3 with its average convergence time of 3891.16 ms.
Visualisasi Topologi Jaringan berdasarkan Data Routing Border Gateway Protocol Rizky Jelang Romadhondaru; Achmad Basuki
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 6 No 9 (2022): September 2022
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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The Internet is growing rapidly, communication between internet users is also increasing from time to time around the world. The Internet today is customized by thousands of autonomous systems (AS) that exchange information and communicate using the Border Routing Protocol (BGP) protocol. BGP is a standard gateway routing protocol that is used to introduce to the public outside the network by peering and exchanging network information between US. BGP introduces to other networks with peering to all connected AS and who have been registered in the list of AS numbers. BGP is also responsible for the routing of that occurs between axles and also has an important role in routing. Routing data information can be seen in the RIB or can be called a routing table. Routing information in BGP is so complex and has an extensive network, it is not possible to collect and view routing data one by one. The disadvantage if you look at the data as above is if the BGP has many peers in the US and outside the US in the network. To facilitate the monitoring and evaluation of the BGP Network, a service is needed to monitor and evaluate the network, namely the visualization of BGP routing data. With the aim of saving time, effort and cost in maintaining the BGP network. This final project focuses on the process of how the network topology Border Routing Protocol (BGP) get the service that is by visualization based on data routing Border Routing Protocol (BGP). The network topology is applied to Docker and configured with FRRouting. Visualization is applied to the web interface with Laravel, Tailwind CSS and d3.js. Testing of the visualization system is done by validating the data against the data routing Border Routing Protocol (BGP) with the results of visualization, error testing of the visualization system and testing the best path to the visualization system by changing the route on the routing protocol Border Routing Protocol (BGP). The results obtained visualization system works well in accordance with the function and based on data routing Border Routing Protocol (BGP).
Penerapan Platform Visualisasi dan Analisis Trafik Jaringan menggunakan Elastic Stack Shafira Aulia Indrarto; Achmad Basuki
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 6 No 9 (2022): September 2022
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Monitoring system is a system that aims to monitor activities on network devices. Monitoring is needed to monitor any problems that have the potential indication to disrupt the internet network. A method that can be used to monitor the network is to use the Elastic Stack. In this final project, Elastic Stack will be applied to monitor network traffic by providing a visualization of the existing network traffic data and then analyzing the traffic data. The main component of this system is a server in which the Elastic Stack components have been configured, there are Packetbeat, Elasticsearch and Kibana. The process for visualizing and analyzing network traffic begins with data collection, data transmission, data processing and data visualization on the dashboard. In the data collection process, the data used is sample data from network traffic at Brawijaya University which is obtained using TCPdump. Next, the sample data will be sent to Elasticsearch by Packetbeat to be stored in the database and indexed. The indexed data will be grouped then into certain fields to indicate what information is contained in the sample data. In these fields, visualizations in the form of pies, charts and graphs will be displayed on the Kibana Dashboard based on data stored.
Implementasi Platform Visualisasi dan Analisis Trafik Jaringan menggunakan Arkime pada Jaringan Small-Office/Home-Office Zaky Abdussalam; Achmad Basuki
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 6 No 11 (2022): November 2022
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Network Traffic Analysis is a process of gaining knowledge and conclusions related to information from observable data flow characteristics. These characteristics include the identity, location of the source and destination of the stream, the existence of the stream, the number, frequency, and duration of that stream of information. Continuous network monitoring and analysis helps in keeping the network at its performance with little downtime. One method that can be used to analyze network traffic is to utilize the Arkime platform. In this final project, Arkime will be applied to monitor network traffic by collecting traffic data and providing visualization of the data which will then be analyzed from the traffic data. The main components that make up this system are a managed switch and capture-node in which the Arkime platform configuration and elastic stack components are Elasticsearch, and Metricbeat. Arkime itself consists of two elements, arkime-capture as a package catcher and arkime-viewer for data analysis and visualization. In the data retrieval process, the data used is direct data from network traffic in the researcher's environment that is captured using the arkime-capture component. The built system will also be tested for resource usage performance at the time of data collection and using specific network loads.
Evaluasi Intent-based Reactive Forwarding dan Reactive Forwarding pada ONOS Controller untuk Pemulihan Kegagalan Jaringan dalam Software Defined Networking Faris Surya Akbar; Achmad Basuki
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 6 No 12 (2022): Desember 2022
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

Software Defined Network (SDN) is a current technology developed in computer networks to overcome the drawbacks of traditional networks that are complex and difficult to manage. Although many new functions in SDN have been explored, the issue of resilience to connectivity disruptions in SDN still remains challenging. Measurement studies have revealed that link and node failures are frequent and unexpected in data center and web area network environments. In SDN, there are two approaches in handling link failures, viz: proactive and reactive approaches. In the proactive approach, an alternate path is configured from the beginning, but the possibility of failure of the alternate path earlier than the main path will cause the alternate path to be reconfigured for each failed link, which is not only impractical but also exceeds the limit of entries in the flow table so that the storage required will be even larger. In the reactive approach alternate paths will only be created if there is a link failure, thus reducing the storage load on the switch. ONOS has 2 reactive forwarding methods that can be used in the ONOS controller, namely Intent-based Reactive Forwarding and Reactive Forwarding. Based on the test results, by applying the Intent-based Reactive Forwarding and Reactive Forwarding methods, the average recovery time test results are obtained. The test results show that Reactive Forwarding is still better than Intent-based Reactive Forwarding in the scenario of path termination and alternative path discovery with an average recovery time of 1395.81 ms and 1536.6 ms, respectively.
Pengembangan IoT Cloud Platform berbasis pada Layanan Serverless Computing Refri Rifwan Daharmi; Adhitya Bhawiyuga; Achmad Basuki
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 6 No 12 (2022): Desember 2022
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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IoT and Cloud integration is undoubtedly the best way to solve most IoT problems. IoT Cloud Platform development is carried out by creating programs in a complex application which is then loaded into a virtual environment on the cloud or known as Infrastructure-as-a-Service (IaaS). The use of IaaS has common problems related to operations such as resource provisioning, monitoring, maintenance, scalability, and fault tolerance. Therefore, it is necessary to develop an IoT Cloud Platform using a cloud mechanism as Function-as-a-Service (FaaS), which is a subset of serverless computing. Its application is carried out by building an IoT cloud platform architectural design including system component design, system communication design, and Auth Services architectural design. Next, implementation is carried out from the results of the architectural design that has been made and testing is carried out starting from testing the API service and testing performance. The tests carried out resulted in all system features being valid and the results of system performance testing being able to handle 28.85 requests per second for 50 requests simultaneously and increased for 100 and 150 requests with a result of 56.37 per second for 100 requests and 82.42 requests per second for 150 requests.
Perancangan Development Cycle Over The Air pada Sistem IoT berbasis Teknologi Container Rifki Karim Ramadhan; Sabriansyah Rizqika Akbar; Achmad Basuki
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 7 No 3 (2023): Maret 2023
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

The development of Internet of Things (IoT) systems using container technology has several problems, such as difficulty in managing and updating deployed applications, and difficulty in managing dynamically changing system configurations. To solve these problems, a development method is needed that can help manage and update IoT system applications using container technology. This method is called the Development Life Cycle Over the Air (DLCOTA). DLCOTA is a development method that allows the automatic and controlled deployment, update, and rollback of IoT system applications through the internet. The design of the Development Cycle for the IoT system using the Development Life Cycle Over The Air (DLCOTA) method adapts the software development method of Continuous Integration Continuous Delivery (CI/CD), Continuous Integration Continuous Delivery is a system that uses automation techniques to speed up and simplify the development process of the Internet of Things (IoT) system. Automation of Continuous Integration (CI) and Continuous Delivery (CD) is a method that can be used to improve the efficiency and reliability of IoT system development. The result of the DLCOTA design is a system that is able to perform the automatic and controlled deployment, update, and rollback of IoT system applications through the internet. This system is also able to manage dynamically changing system configurations and improve system reliability and security. In addition, this research will test the utility of using computational resources on the Raspberry Pi
Visualisasi Topologi Routing pada Jaringan berdasarkan OSPF Link State Database Amalia Miftakhul Jannah; Achmad Basuki
Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer Vol 7 No 3 (2023): Maret 2023
Publisher : Fakultas Ilmu Komputer (FILKOM), Universitas Brawijaya

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Abstract

A computer network is a system consisting of several devices connected to each other to exchange data and information. One way to organize the network is by using routing protocol, which is a set of rules that determines how data packets can be sent from one device to another. OSPF (Open Shortest Path First) is one of the commonly used routing protocols in computer networks. In this final project, we will discuss about the visualization of routing topology in a network based on the link state database (LSDB) of OSPF. LSDB is a database that stores information about the network topology, which is used by OSPF to determine the best path for data packets to be sent using the Dijkstra algorithm. To visualize the routing topology, a web application will be created that can display the network topology graphically. This web application will use LSDB as a data source and will display the routing paths determined by OSPF. This application can be used to help network administrators understand the existing network topology, thus helping to organize and manage the network more effectively. In addition, visualization of routing topology can also help in analyzing and finding problems that occur in the network. The implementation results show the success of representing the OSPF's LSDB in a graphical visualization that forms a network topology of nodes and edges.
Co-Authors Adhitya Bhawiyuga Aditya Chamim Pratama Agung Wahyu Setio Budi Akbar, Sabriansyah Rizkika Akhmad Mukhtarom Al Aziiz Burhanudin Faidzin Labay Amalia Miftakhul Jannah Andi Yudiko Leonardo Solin Ariefanda Junediansyah Budi Darma Setiawan Cahyo Karya Basuki Candra Dewi Candra Dewi Dahnial Syauqy Dany Primanita Kartikasari Deron Liang Eko Laksono Eko Setiawan Eldyto Puspa Laksana Endah Octaviana Nasution Fabiansyah Raam Pontoh Fahmi Alfareza Faisal Akhmadi Faris Surya Akbar Fathan Abdurrahman Shani Amarta Putra Fitra Abdurrachman Bachtiar Fransiska Sisilia Mukti Friska Anggia Nurlita Sari Hans Romario Sitorus Ibrahim Ibrahim Imron Sazali Ismawati Nurjannah Jehn Ruey Jiang Jodi Prayoga Wahyudwi Jonathan Rovelano Huwae Kasyful Amron Kevin Jonathan Harnanta Khabban Sayyidi Razin Surya La Ode Muh. Fadlun Akbar Laisa Ryry Pudja Mentari Lutfi Fanani Maskur Purwiadi Maystya Tri Handono Moh Wildan Habibi Mohammad Zulfikar Mudjirahardjo, Panca Muhamad Miftahur Ridhoilah Muhamad Rizka Maulana Muhammad Aswin Muhammad Khairullah Harto Muhammad Rafi Fauzan Fathin Muhammad Syaifuddin Zuhri Muharrom Abdillah Onny Setyawati Panser Brigade Muhammad Pramukantoro, Eko Sakti Primantara Hari Trisnawan Putri Rizqia Hardein Raden Arief Setyawan Rakhmadhany Primananda Rasidy Cakra Pratama Refri Rifwan Daharmi Reza Andria Siregar Rifki Karim Ramadhan Rini Nur Hasanah Rizky Jelang Romadhondaru Rudi Hariyanto Sabriansyah Rizqika Akbar Sabriansyah Rizqika Akbar Sabriansyah Rizqika Akbar Shafira Aulia Indrarto Uis Yudha Tri Wirawan Widhi Yahya Widhi Yahya yuliana diah pristanti Zaky Abdussalam Zeddin Arief Zefanya Hermanta