Performance Comparison of AODV and AOMDV Protocol Routing with TCP and UDP on Mobile Ad-Hoc Network (Manet) Using Malicious Node (Blackhole Attack) JURNAL MULTINETICS VOL. 5 NO. 2 NOPEMBER 2019 21 Performance Comparison of AODV and AOMDV Protocol Routing with TCP and UDP on Mobile Ad-Hoc Network (Manet) Using Malicious Node (Blackhole Attack) Nurul Faizah Rozy 1 , Siti Ummi Masruroh 2 , Ivan Gustra Manca Armenia 3 Informatic Engineering State Islamic Syarif Hidayatullah Jakarta-Indonesia 1) nurul.faizah@uinjkt.ac.id, 2) ummi.masruroh@uinjkt.ac.id, 3) ivangustra@gmail.com Diterima 13 Oktober 2019. Disetujui 20 Oktober 2019. Dipublikasikan Nopember 2019 Abstract - Transmission package delivery can be a problem of routes on the network, one of them is the Wireless network. Mobile Ad-Hoc Network (MANET) topology is often used on Wireless networks. The existence of a malicious node is a threat to MANET. Package delivery uses AODV and AOMDV Protocol Routing in TCP and UDP packet transmission. This study uses a simulation method using NS2, NAM and AWK. The Quality of Service (QoS) parameters used are throughput, packet loss, and jitter. Simulations are carried out using malicious nodes, the results on the AOMDV TCP graph have the highest input values and the best packets but are difficult to minimize energy, while for the TCP jitter values graph is best because it has a flow control function that can adjust the trajectory. The results in AOMDV TCP have the highest input value and the best packet loss but it is difficult to minimize energy, while for TCP value jitters it is best because it has a flow control function that can adjust the trajectory. Keywords: TCP; UDP; MANET; AODV; AOMDV; Malicious Node; Blackhole Attack; NS2; NAM; AWK; QoS; Throughput; Packet Loss; Jitter. I. INTRODUCTION The growth of technology in Wireless networks is very fast, because it provides high convenience and flexibility for users to be able to establish communication links with others. In wireless networks there are two transmission packages in packet delivery that are used to increase network levels in general, namely TCP and UDP. TCP is a protocol that 75% is mostly used for internet services today. However, in this protocol, when a dense network automatically impacts on very high congestion, it causes time-out and will send retransmissions because of its connection mode, while UDP is a protocol intended for data transmission regardless of congestion control and error correction in a network [1] In sending packets in transmission there are several routing activities that are used to run packets with correct routing. Routing is a protocol that is used to get routes or instructions from one network to another network, routing is a process where a router will choose a route or route to send or forward a packet to the destination network. In route search, several types of topologies or designs are widely used in making routes using NS- 2 simulators such as Mobile Ad-hoc Network (MANET). MANET has become popular and interesting to study because it has characteristics that are fast, saving the cost of deployment, capable of managing topology changes independently, and can be applied to emergency locations such as forest fire detection, military operations, and health monitoring [2]. MANET has three types of routing protocols including Reactive, Proactive, and Hybrid. Reactive Protocol Routing is a protocol that works on request to create new routes or route changes and Proactive Protocol Routing is a routing table, based protocol that is constantly regularly updated [3]. In Reactive Routing in the MANET topology there are several routing protocols such as AODV, AOMDV, and DSR. The messages used in the AODV protocol are Route Request (RREQ), Route Reply (RREP), and Route Error (RERR). RREQ and RREP are route discovery, while RERR is also called route maintenance. Route discovery is initiated by spreading Route Reply (RREP). When RREP explores a node, RREP will automatically set-up the