IMPLEMENTATION OF DYNAMIC ROUTING WITH OSPF (OPEN SHORTEST PATH FIRST) TECHNIQUE IN LOCAL AREA NETWORK (LAN) AT SMKN 2 TELUK KUANTAN

SMKN 2 Teluk Kuantan has 4 (four) main lines of internet network. Of the four networks have their own configuration. Static routing applied in SMKN 2 Teluk kuantan for the four modems of the network has their own area, because it is not under one control of the modem to the Router. Static Routing in SMKN 2 Teluk Kuantan is very possible to be damaged or trouble itself on the network of each modem. Static routing problems are so complex in the form of routing information into the routing table that is set manually by the network administrator. Dynamic Routing is very possible to be implemented in SMKN 2 Teluk Kuantan. where dynamic routing has a basic routing algorithm of dynamic routing. Dynamic Routing enters routing information into the routing table through exchanging information with other routers and creates routing tables dynamically, on dynamic routing network administrators will not enter the entry route manually into the routing table. Routing Open Short Path First (OSPF) is a type of routing protocol that builds topology independently by choosing the best path then iji network quality if the best path is in interference and perform Quality of Service (QoS) against realtime data.

Reliability-aware Scheduling and Routing for Messages in Time-sensitive Networking

Time-sensitive Networking (TSN) on Ethernet is a promising communication technology in the automotive and industrial automation industries due to its real-time and high-bandwidth communication capabilities. Time-triggered scheduling and static routing are often adopted in these areas due to high requirements on predictability for safety-critical applications. Deadline-constrained routing and scheduling in TSN have been studied extensively in past research. However, scheduling and routing with reliability requirements in the context of transient faults are not yet studied. In this work, we propose an Satisfiability Modulo Theory-based technique to perform scheduling and routing that takes both reliability constraints and end-to-end deadline constraints into consideration. Heuristics have been applied to improve the scalability of the solution. Extensive experiments have been conducted to demonstrate the efficiency of our proposed technique.

Analisis dan Perancangan Simulasi Perbandingan Kinerja Jaringan Komputer Menggunakan Metode Protokol Routing Statis, Open Shortest Path First (OSPF) dan Border Gateway Protocol (BGP) (Studi Kasus Tanri Abeng University)

Network is a communication between two devices to communicate with each other either using wire or wireless media. The LAN network topology used at Tanri Abeng Unversity still uses a static routing topology, where the routing process is still done manually, so that if there is an addition of a new network, it will be difficult to configure the routing table. In this research, a network topology with dynamic routing methods will be built that will help improve network performance at Tanri Abeng University. The purpose of this research is to analyze the comparison of network performance at Tanri Abeng Unversity in sending data packets using static routing protocols, OSPF, and BGP based on the parameters used. In this research also, the ping process was carried out using the cisco packet tracer 100 times with the size of the data packet sent of 32 bytes for each routing method to be compared. Then in this research, the test scenario was carried out eight times on each parameter of throughput, packet loss, delay, and jitter in the hope of determining which routing method is more optimal among static routing, OSPF, and BGP at Tanri Abeng University. The test results show that BGP routing for throughput and packet loss parameters is superior to other routing methods, while OSPF routing for delay and jitter parameters is superior to other routing methods.

Analisis Pengembangan Jaringan Komputer UIN Sunan Kalijaga Yogyakarta Menggunakan Perbandingan Protokol Routing Statik dan Routing Dinamis OSPF

<p>Penelitian ini menjelaskan tentang perbandingan <em>routing</em> sebagai salah satu manajemen jaringan komputer. Tujuan penelitian ini adalah melakukan analisis terhadap protokol <em>routing</em> statik dengan <em>routing</em> dinamis OSPF pada jaringan komputer di lingkungan Universitas Islam Negeri Sunan Kalijaga Yogyakarta dengan metode studi literatur dan wawancara dalam pengumpulan data. Penelitian dibuat berdasarkan pemodelan (simulasi) berbasis aplikasi EVE-NG. Performa yang dihasilkan dari perbandingan <em>routing </em>tersebut diukur menggunakan parameter QoS meliputi nilai dari <em>throughput, packet loss, delay</em>, dan <em>jitter</em>. Pengujian kinerja jaringan menggunakan skenario normal dan sibuk pada routing statik dan dinamis OSPF antara lain skenario normal <em>throughput</em> untuk <em>routing</em><em> </em>protokol statik sebanyak <em>598.10Bps</em> dan nilai untuk OSPF sebanyak <em>598.34Bps</em>, sedangkan skenario sibuk untuk <em>routing</em> protokol statik sebanyak <em>598.82Bps</em> dan nilai untuk OSPF sebesar <em>597.58Bps</em>. <em>Packet loss</em> skenario normal <em>routing</em> protokol statik sebanyak <em>0.2</em><em>3</em><em>%</em> dan nilai untuk OSPF sebanyak <em>0.27%</em> serta skenario sibuk untuk <em>routing</em> protokol statik sebanyak <em>0.2</em><em>4</em><em>%</em> dan OSPF sebanyak <em>0.26%</em>. Nilai <em>delay</em> skenario normal <em>routing</em> statik protokol sebanyak <em>59.</em><em>39</em><em>ms</em> dan nilai untuk OSPF sebanyak <em>59.3</em><em>6</em><em>ms</em>, sedangkan skenario sibuk untuk <em>routing</em> protokol statik sebanyak <em>59.</em><em>32</em><em>ms</em> dan nilai untuk OSPF sebanyak <em>59.44ms</em>. <em>Jitter</em> menggunakan skenario normal protokol <em>routing</em> statik sebanyak <em>0.98ms</em> dan nilai untuk OSPF sebanyak <em>0.98ms</em> serta skenario sibuk <em>routing</em> protokol statik sebanyak <em>0.98ms</em> dan nilai untuk OSPF sebanyak <em>0.99ms</em>. Parameter QoS menunjukkan bahwa <em>throughput</em> dan <em>delay</em> maka <em>routing</em> statik lebih optimal dibandingkan OSPF pada skenario sibuk, sedangkan pada skenario normal dan sibuk<em> jitter </em>dan <em>packet loss</em> lebih optimal <em>routing</em> protokol statik.</p><p> </p><p><em><strong>Abstract</strong></em></p><p><em>This study describes the comparison of routing as one of computer network management. The purpose of this study is to analyze static routing protocols with OSPF dynamic routing on computer networks in the State Islamic University of Sunan Kalijaga Yogyakarta with literature study methods and interviews in data collection. The study was made based on modeling (simulation) based on EVE-NG applications. The performance resulting from the comparison of routing is measured using QoS parameters including the value of throughput, packet loss, delay, and jitter. Network performance testing uses normal and busy scenarios on static and dynamic OSPF routing, including normal throughput scenarios for static protocol routing as much as 598.10Bps and values for OSPF as much as 598.34Bps, while busy scenarios for static protocol routing as much as 598.82Bps and values for OSPF as 597.58 Bps. Normal packet routing scenario static routing protocols are 0.23% and OSPF values are 0.27% and busy scenarios for static protocol routing are 0.24% and OSPF are 0.26%. The normal scenario static routing protocol delay value is 59.39ms and the value for OSPF is 59.36ms, while the busy scenario for static protocol routing is 59.32ms and the value for OSPF is 59.44ms. Jitter uses a normal scenario of 0.98ms static routing protocol and 0.98ms for OSPF and 0.98ms for busy routing protocol scenarios and 0.99ms for OSPF. QoS parameters indicate that throughput and delay static routing is more optimal than OSPF in busy scenarios, whereas in normal and busy scenarios jitter and packet loss are more optimal static protocol routing.</em></p><p><em><strong><br /></strong></em></p>

Kombinasi Protokol Routing OSPF dan BGP dengan VRRP, HSRP, dan GLBP

Sekolah Menengah Kejuruan sebagai sekolah menengah berbasis vokasi mendapatkan manfaat sebagai pengembangan teaching factory. Teaching factory adalah konsep pembelajaran yang berorientasi pada produksi dan bisnis untuk menjawab tantangan perkembangan industri. Namun, di tengah pandemi, pengelolaan teaching factory mendapatkan hambatan dari sisi kinerja jaringan yang tidak andal. Kondisi yang sudah ada menggunakan protokol jaringan static routing dan tidak memiliki jalur cadangan pada jaringan. Oleh karena itu, diusulkan penggunaan dynamic routing OSPF dan BGP dengan metode pembebanan kinerja VRRP, HSRP, dan GLBP sebagai jalur cadangan, yang diukur melalui parameter throughput, delay, dan packet loss untuk Quality of Service. Tahapan skenario penelitian menerapkan masing-masing dynamic routing protocol pada ketiga metode pembebanan kinerja agar mampu diukur dan memperoleh hasil QoS yang diharapkan di end user. Hasil terbaik yang direkomendasikan yaitu dynamic routing OSPF dengan metode pembebanan kinerja VRRP karena memberikan perbandingan waktu kurang dari 1 detik saat terjadi kegagalan jalur pada jaringan internet. Hal ini terbukti dari QoS sebesar 3,96 dengan kategori sangat memuaskan, lebih baik dibandingkan lainnya.