LAMPIRAN 1.1. # =============================================================== # Other default settings. LL set bandwidth_ 0 ;# not used

Transkripsi

1 DAFTAR PUSTAKA [1] Stallings, William, Komunikasi dan Jaringan Nirkabel Ed. 1 Terjemahan: D. A. Sasongko. Jakarta: Penerbit Erlangga, [2] Candra, Dirganto. Sony. Muhammad, Husni, Analisis Kinerja Protokol Routing AODV dan OLSR Pada Jaringan Mobile Ad Hoc Surabaya: Institut Sepuluh November, September, [3] Zulham. Yusep, Rusmansyah. Nanang, Ismail, Pengembangan Wireless Mesh Network Berbasis Standar IEEE Bandung: Institut Teknologi Bandung, [4] Zhang. Jijun, Luo. Honglin, Hu. Yan, Wireless Mesh Networking (architectures, protocols and standards) New York, Auerbach Publications, [5] Greis, Marc, Tutorial for the simulator ns Berkeley, USC ISI, [6] Anon, [7] A.B., Wirawan. E., Indarto, Mudah Membangun Simulasi dengan Network Simulator-2 Jakarta: Andi offset, [8] Postel, J., User Datagram Protocol: [9] Greis, Marc, Running Wireless Simulation on NS: nsnam/ns/tutorial/nsscript5.html, [10] Talipov, Elmurod A., Simple Method to Analyze Traces: [11] Sam, What is overhead: What_is_routing_overhead [12] Anonymous, Downloading and Installing ns-2: nsnam/index.php/downloading_and_installing_ns-2.

2 LAMPIRAN

3 LAMPIRAN Skrip TCL Skrip ini yang digunakan untuk membuat skenario simulasi, di bawah ini salah satu contoh untuk protokol AODV, kemudian skrip ini dijalankan pada aplikasi ns2. =============================================================== Define options =============================================================== set opt(chan) Channel/WirelessChannel set opt(prop) Propagation/TwoRayGround set opt(netif) Phy/WirelessPhy set opt(mac) Mac/802_11 set opt(ifq) Queue/DropTail/PriQueue set opt(ll) LL set opt(ant) Antenna/OmniAntenna set opt(x) 1800 ; X dimension set opt(y) 1000 ; Y dimension set opt(ifqlen) 50 ; max packet in ifq set opt(seed) 0.0 ; set opt(tr) scene1-dv.tr ; trace file set opt(nam) scene1-dv.nam ; nam trace file set opt(adhocrouting) AODV set opt(nn) 6 ; how many nodes are simulated set opt(stop) ; simulation time =============================================================== Other default settings LL set mindelay_ 50us LL set delay_ 25us LL set bandwidth_ 0 ; not used Agent/Null set sport_ 0 Agent/Null set dport_ 0 Agent/CBR set sport_ 0 Agent/CBR set dport_ 0 Agent/TCPSink set sport_ 0 Agent/TCPSink set dport_ 0 Agent/TCP set sport_ 0 Agent/TCP set dport_ 0 Agent/TCP set packetsize_ 512 Queue/DropTail/PriQueue set Prefer_Routing_Protocols 1

4 LAMPIRAN 1.2 unity gain, omni-directional antennas set up the antennas to be centered in the node and 1.5 meters above it Antenna/OmniAntenna set X_ 0 Antenna/OmniAntenna set Y_ 0 Antenna/OmniAntenna set Z_ 1.5 Antenna/OmniAntenna set Gt_ 1.0 Antenna/OmniAntenna set Gr_ 1.0 Initialize the SharedMedia interface with parameters to make it work like the 914MHz Lucent WaveLAN DSSS radio interface Phy/WirelessPhy set CPThresh_ 10.0 Phy/WirelessPhy set CSThresh_ 1.559e-11 Phy/WirelessPhy set RXThresh_ 3.652e-10 Phy/WirelessPhy set Rb_ 2*1e6 Phy/WirelessPhy set Pt_ Phy/WirelessPhy set freq_ 914e+6 Phy/WirelessPhy set L_ 1.0 =============================================================== Main Program =============================================================== Initialize Global Variables create simulator instance set ns_ [new Simulator] set wireless channel, radio-model and topography objects set wchan set wprop set wtopo [new $opt(chan)] [new $opt(prop)] [new Topography] create trace object for ns and nam set tracefd [open $opt(tr) w] $ns_ use-newtrace set namtrace [open $opt(nam) w] $ns_ trace-all $tracefd $ns_ namtrace-all-wireless $namtrace $opt(x) $opt(y) Define a 'finish' procedure proc finish { { global ns_ tracefd $ns_ flush-trace Close the trace file close $tracefd Execute nam on the trace file exec $namtrace exit 0

5 LAMPIRAN 1.3 define topology $wtopo load_flatgrid $opt(x) $opt(y) $wprop topography $wtopo Create God set god_ [create-god $opt(nn)] define how node should be created global node setting $ns_ node -config -adhocrouting $opt(adhocrouting) \ -lltype $opt(ll) \ -mactype $opt(mac) \ -ifqtype $opt(ifq) \ -ifqlen $opt(ifqlen) \ -anttype $opt(ant) \ -proptype $opt(prop) \ -phytype $opt(netif) \ -channeltype $opt(chan) \ -topoinstance $wtopo \ -agenttrace ON \ -routertrace ON \ -mactrace OFF Create the specified number of nodes [$opt(nn)] and "attach" them to the channel. for {set i 0 {$i < $opt(nn) {incr i { set node_($i) [$ns_ node] $node_($i) random-motion 0 ; disable random motion Define node movement model puts "Loading connection pattern..." nodes: 6, pause: 2.00, max speed: max x = 800.0, max y: $node_(0) set X_ 0.0 $node_(0) set Y_ $node_(0) set Z_ 0.0 $node_(1) set X_ $node_(1) set Y_ $node_(1) set Z_ 0.0 $node_(2) set X_ $node_(2) set Y_ $node_(2) set Z_ 0.0 $node_(3) set X_ $node_(3) set Y_ $node_(3) set Z_ 0.0 $node_(4) set X_ $node_(4) set Y_ $node_(4) set Z_ 0.0

6 LAMPIRAN 1.4 $node_(5) set X_ $node_(5) set Y_ $node_(5) set Z_ 0.0 $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist $god_ set-dist Define traffic model puts "Loading scenario file..." nodes: 6, max conn: 11, send rate: 0.25, seed: connecting to 1 at time 1.0 set udp_(0) [new Agent/UDP] $ns_ attach-agent $node_(0) $udp_(0) set null_(0) [new Agent/Null] $ns_ attach-agent $node_(5) $null_(0) set cbr_(0) [new Application/Traffic/CBR] $cbr_(0) set packetsize_ 512 $cbr_(0) set rate_ 32Kb $cbr_(0) set interval_ 0.5 $cbr_(0) set random_ 1 $cbr_(0) set maxpkts_ $cbr_(0) attach-agent $udp_(0) $ns_ connect $udp_(0) $null_(0) $ns_ at 1.0 "$cbr_(0) start" $ns_ at "$cbr_(0) stop" 1 connecting to 5 at time 1.11 set udp_(1) [new Agent/UDP] $ns_ attach-agent $node_(1) $udp_(1) set null_(1) [new Agent/Null] $ns_ attach-agent $node_(7) $null_(1) set cbr_(1) [new Application/Traffic/CBR] $cbr_(1) set packetsize_ 512 $cbr_(1) set rate_ 32Kb $cbr_(1) set interval_ 0.5 $cbr_(1) set random_ 1 $cbr_(1) set maxpkts_ $cbr_(1) attach-agent $udp_(1) $ns_ connect $udp_(1) $null_(1)

7 $ns_ at 1.11 "$cbr_(1) start" $ns_ at "$cbr_(1) stop" LAMPIRAN 1.5 set tcp [new Agent/TCP] $tcp set class_ 1 set sink [new Agent/TCPSink] $ns_ attach-agent $node_(0) $tcp $ns_ attach-agent $node_(5) $sink $ns_ connect $tcp $sink set ftp [new Application/FTP] $ftp attach-agent $tcp $ns_ at 1.20 "$ftp start" $ns_ at "$ftp stop" set tcp [new Agent/TCP] $tcp set class_ 2 set sink [new Agent/TCPSink] $ns_ attach-agent $node_(1) $tcp $ns_ attach-agent $node_(7) $sink $ns_ connect $tcp $sink set ftp [new Application/FTP] $ftp attach-agent $tcp $ns_ at 1.12 "$ftp start" $ns_ at "$ftp stop" Make a reverse trafic connecting to 4 at time 1.0 set udp_(5) [new Agent/UDP] $ns_ attach-agent $node_(5) $udp_(5) set null_(0) [new Agent/Null] $ns_ attach-agent $node_(0) $null_(0) set cbr_(5) [new Application/Traffic/CBR] $cbr_(5) set packetsize_ 512 $cbr_(5) set rate_ 32Kb $cbr_(5) set interval_ 0.5 $cbr_(5) set random_ 1 $cbr_(5) set maxpkts_ $cbr_(5) attach-agent $udp_(5) $ns_ connect $udp_(5) $null_(0) $ns_ at "$cbr_(5) start" 5 connecting to 4 at time 1.11 set udp_(6) [new Agent/UDP] $ns_ attach-agent $node_(6) $udp_(6) set null_(0) [new Agent/Null] $ns_ attach-agent $node_(0) $null_(0) set cbr_(6) [new Application/Traffic/CBR] $cbr_(6) set packetsize_ 512 $cbr_(6) set rate_ 32Kb $cbr_(6) set interval_ 0.5 $cbr_(6) set random_ 1 $cbr_(6) set maxpkts_ 10000

8 LAMPIRAN 1.6 $cbr_(6) attach-agent $udp_(6) $ns_ connect $udp_(6) $null_(0) $ns_ at "$cbr_(6) start" set tcp [new Agent/TCP] $tcp set class_ 3 set sink [new Agent/TCPSink] $ns_ attach-agent $node_(5) $tcp $ns_ attach-agent $node_(0) $sink $ns_ connect $tcp $sink set ftp [new Application/FTP] $ftp attach-agent $tcp $ns_ at "$ftp start" set tcp [new Agent/TCP] $tcp set class_ 4 set sink [new Agent/TCPSink] $ns_ attach-agent $node_(6) $tcp $ns_ attach-agent $node_(0) $sink $ns_ connect $tcp $sink set ftp [new Application/FTP] $ftp attach-agent $tcp $ns_ at "$ftp start" $ns_ at "$ftp stop" $ns_ at 2.0 $opt(mac) link-down 1 2 $ns_ at 2.0 $node_(2) node-down for {set i 0 {$i < $opt(nn) {incr i { 20 defines the node size in nam, must adjust it according to your scenario The function must be called after mobility model is defined $ns_ initial_node_pos $node_($i) 20 Tell nodes when the simulation ends for {set i 0 {$i < $opt(nn) {incr i { $ns_ at $opt(stop) "$node_($i) reset"; tell nam the simulation stop time $ns_ at $opt(stop) "$ns_ nam-end-wireless $opt(stop)" $ns_ at $opt(stop) "puts \"NS EXITING...\" ; $ns_ halt" $ns_ at $opt(stop) "finish" puts "Starting Simulation..." $ns_ run

9 LAMPIRAN Trace File AODV Berikut ini adalah hasil trace dari file tcl dari protokol AODV yang sudah dijalankan di ns2. File ini yang kemudian dikalkulasi kemudian di analisa. s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [0] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [0] 0 4 s _0_ RTR AODV 48 [ ] [0:255-1: ] [0x2 1 1 [5 0] [0 4]] (REQUEST) r _1_ RTR AODV 48 [0 ffffffff 0 800] [0:255-1: ] [0x2 1 1 [5 0] [0 4]] (REQUEST) s _1_ RTR AODV 48 [0 ffffffff 0 800] [1:255-1: ] [0x2 2 1 [5 0] [0 4]] (REQUEST) r _0_ RTR AODV 48 [0 ffffffff 1 800] [1:255-1: ] [0x2 2 1 [5 0] [0 4]] (REQUEST) r _2_ RTR AODV 48 [0 ffffffff 1 800] [1:255-1: ] [0x2 2 1 [5 0] [0 4]] (REQUEST) r _3_ RTR AODV 48 [0 ffffffff 1 800] [1:255-1: ] [0x2 2 1 [5 0] [0 4]] (REQUEST) s _2_ RTR AODV 48 [0 ffffffff 1 800] [2:255-1: ] [0x2 3 1 [5 0] [0 4]] (REQUEST) r _1_ RTR AODV 48 [0 ffffffff 2 800] [2:255-1: ] [0x2 3 1 [5 0] [0 4]] (REQUEST) r _4_ RTR AODV 48 [0 ffffffff 2 800] [2:255-1: ] [0x2 3 1 [5 0] [0 4]] (REQUEST) r _3_ RTR AODV 48 [0 ffffffff 2 800] [2:255-1: ] [0x2 3 1 [5 0] [0 4]] (REQUEST) s _4_ RTR AODV 48 [0 ffffffff 2 800] [4:255-1: ] [0x2 4 1 [5 0] [0 4]] (REQUEST) s _3_ RTR AODV 48 [0 ffffffff 1 800] [3:255-1: ] [0x2 3 1 [5 0] [0 4]] (REQUEST) r _5_ RTR AODV 48 [0 ffffffff 4 800] [4:255-1: ] [0x2 4 1 [5 0] [0 4]] (REQUEST) s _5_ RTR AODV 44 [ ] [5:255 0: ] [0x4 1 [5 4] ] (REPLY) r _3_ RTR AODV 48 [0 ffffffff 4 800] [4:255-1: ] [0x2 4 1 [5 0] [0 4]] (REQUEST) r _2_ RTR AODV 48 [0 ffffffff 4 800] [4:255-1: ] [0x2 4 1 [5 0] [0 4]] (REQUEST) r _1_ RTR AODV 48 [0 ffffffff 3 800] [3:255-1: ] [0x2 3 1 [5 0] [0 4]] (REQUEST) r _4_ RTR AODV 48 [0 ffffffff 3 800] [3:255-1: ] [0x2 3 1 [5 0] [0 4]] (REQUEST) r _2_ RTR AODV 48 [0 ffffffff 3 800] [3:255-1: ] [0x2 3 1 [5 0] [0 4]] (REQUEST) r _4_ RTR AODV 44 [13a ] [5:255 0: ] [0x4 1 [5 4] ] (REPLY) f _4_ RTR AODV 44 [13a ] [5:255 0: ] [0x4 2 [5 4] ] (REPLY) r _2_ RTR AODV 44 [13a ] [5:255 0: ] [0x4 2 [5 4] ] (REPLY) f _2_ RTR AODV 44 [13a ] [5:255 0: ] [0x4 3 [5 4] ] (REPLY)

10 LAMPIRAN 2.2 r _1_ RTR AODV 44 [13a ] [5:255 0: ] [0x4 3 [5 4] ] (REPLY) f _1_ RTR AODV 44 [13a ] [5:255 0: ] [0x4 4 [5 4] ] (REPLY) r _0_ RTR AODV 44 [13a ] [5:255 0: ] [0x4 4 [5 4] ] (REPLY) s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [0] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [0] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [0] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [0] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [0] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [0] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [0] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [0] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [1] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [1] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [1] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [1] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [1] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [1] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [1] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [1] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [1] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [1] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [2] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [2] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [2] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [2] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [2] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [2] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [2] 2 4

11 LAMPIRAN 2.3 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [2] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [2] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [2] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [3] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [3] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [3] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [3] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [3] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [3] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [3] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [3] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [3] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [3] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [4] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [4] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [4] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [4] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [4] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [4] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [4] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [4] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [4] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [4] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [5] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [5] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [5] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [5] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [5] 1 4

12 LAMPIRAN 2.4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [5] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [5] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [5] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [5] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [5] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [6] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [6] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [6] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [6] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [6] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [6] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [6] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [6] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [6] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [6] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [7] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [7] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [7] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [7] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [7] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [7] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [7] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [7] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [7] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [7] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [8] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [8] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [8] 0 4

13 LAMPIRAN 2.5 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [8] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [8] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [8] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [8] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [8] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [8] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [8] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [9] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [9] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [9] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [9] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [9] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [9] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [9] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [9] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [9] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [9] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [10] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [10] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [10] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [10] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [10] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [10] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [10] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [10] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [10] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [10] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [11] 0 4

14 LAMPIRAN 2.6 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [11] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [11] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [11] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [11] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [11] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [11] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [11] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [11] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [11] 4 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [12] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [12] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 30 1] [12] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 30 1] [12] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [12] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 29 2] [12] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [12] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 28 4] [12] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 27 5] [12] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 27 5] [12] 4 4

15 LAMPIRAN Trace File OLSR Berikut ini adalah hasil trace dari file tcl dari protokol OLSR yang sudah dijalankan di ns2. File ini yang kemudian dikalkulasi kemudian di analisa. s _0_ RTR OLSR 48 [ ] [0:255-1: ] [1 0 [HELLO 0 0 0]] r _1_ RTR OLSR 48 [0 ffffffff 0 800] [0:255-1: ] [1 0 [HELLO 0 0 0]] s _1_ RTR OLSR 48 [ ] [1:255-1: ] [1 0 [HELLO 1 0 0]] r _0_ RTR OLSR 48 [0 ffffffff 1 800] [1:255-1: ] [1 0 [HELLO 1 0 0]] r _2_ RTR OLSR 48 [0 ffffffff 1 800] [1:255-1: ] [1 0 [HELLO 1 0 0]] r _3_ RTR OLSR 48 [0 ffffffff 1 800] [1:255-1: ] [1 0 [HELLO 1 0 0]] s _5_ RTR OLSR 48 [ ] [5:255-1: ] [1 0 [HELLO 5 0 0]] r _4_ RTR OLSR 48 [0 ffffffff 5 800] [5:255-1: ] [1 0 [HELLO 5 0 0]] s _4_ RTR OLSR 48 [ ] [4:255-1: ] [1 0 [HELLO 4 0 0]] r _5_ RTR OLSR 48 [0 ffffffff 4 800] [4:255-1: ] [1 0 [HELLO 4 0 0]] r _3_ RTR OLSR 48 [0 ffffffff 4 800] [4:255-1: ] [1 0 [HELLO 4 0 0]] r _2_ RTR OLSR 48 [0 ffffffff 4 800] [4:255-1: ] [1 0 [HELLO 4 0 0]] s _2_ RTR OLSR 48 [ ] [2:255-1: ] [1 0 [HELLO 2 0 0]] r _1_ RTR OLSR 48 [0 ffffffff 2 800] [2:255-1: ] [1 0 [HELLO 2 0 0]] r _4_ RTR OLSR 48 [0 ffffffff 2 800] [2:255-1: ] [1 0 [HELLO 2 0 0]] r _3_ RTR OLSR 48 [0 ffffffff 2 800] [2:255-1: ] [1 0 [HELLO 2 0 0]] s _3_ RTR OLSR 48 [ ] [3:255-1: ] [1 0 [HELLO 3 0 0]] r _1_ RTR OLSR 48 [0 ffffffff 3 800] [3:255-1: ] [1 0 [HELLO 3 0 0]] r _4_ RTR OLSR 48 [0 ffffffff 3 800] [3:255-1: ] [1 0 [HELLO 3 0 0]] r _2_ RTR OLSR 48 [0 ffffffff 3 800] [3:255-1: ] [1 0 [HELLO 3 0 0]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [0] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [0] 0 4 D _0_ RTR NRTE 6 cbr 532 [ ] [0:0 5:0 31 0] [0] 0 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [1] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [1] 0 4

16 LAMPIRAN 3.2 D _0_ RTR NRTE 7 cbr 532 [ ] [0:0 5:0 31 0] [1] 0 4 s _0_ RTR OLSR 56 [ ] [0:255-1: ] [1 1 [HELLO 0 0 1]] r _1_ RTR OLSR 56 [0 ffffffff 0 800] [0:255-1: ] [1 1 [HELLO 0 0 1]] s _3_ RTR OLSR 64 [ ] [3:255-1: ] [1 1 [HELLO 3 0 1]] r _1_ RTR OLSR 64 [0 ffffffff 3 800] [3:255-1: ] [1 1 [HELLO 3 0 1]] r _4_ RTR OLSR 64 [0 ffffffff 3 800] [3:255-1: ] [1 1 [HELLO 3 0 1]] r _2_ RTR OLSR 64 [0 ffffffff 3 800] [3:255-1: ] [1 1 [HELLO 3 0 1]] s _5_ RTR OLSR 56 [ ] [5:255-1: ] [1 1 [HELLO 5 0 1]] r _4_ RTR OLSR 56 [0 ffffffff 5 800] [5:255-1: ] [1 1 [HELLO 5 0 1]] s _2_ RTR OLSR 64 [ ] [2:255-1: ] [1 1 [HELLO 2 0 1]] r _1_ RTR OLSR 64 [0 ffffffff 2 800] [2:255-1: ] [1 1 [HELLO 2 0 1]] r _4_ RTR OLSR 64 [0 ffffffff 2 800] [2:255-1: ] [1 1 [HELLO 2 0 1]] r _3_ RTR OLSR 64 [0 ffffffff 2 800] [2:255-1: ] [1 1 [HELLO 2 0 1]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [2] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [2] 0 4 D _0_ RTR NRTE 12 cbr 532 [ ] [0:0 5:0 31 0] [2] 0 4 s _1_ RTR OLSR 68 [ ] [1:255-1: ] [1 1 [HELLO 1 0 1]] r _0_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 1 [HELLO 1 0 1]] r _2_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 1 [HELLO 1 0 1]] r _3_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 1 [HELLO 1 0 1]] s _4_ RTR OLSR 68 [ ] [4:255-1: ] [1 1 [HELLO 4 0 1]] r _5_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 1 [HELLO 4 0 1]] r _3_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 1 [HELLO 4 0 1]] r _2_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 1 [HELLO 4 0 1]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [3] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [3] 0 4 D _0_ RTR NRTE 15 cbr 532 [ ] [0:0 5:0 31 0] [3] 0 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [4] 0 4

17 LAMPIRAN 3.3 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [4] 0 4 D _0_ RTR NRTE 16 cbr 532 [ ] [0:0 5:0 31 0] [4] 0 4 s _5_ RTR OLSR 56 [ ] [5:255-1: ] [1 2 [HELLO 5 0 2]] r _4_ RTR OLSR 56 [0 ffffffff 5 800] [5:255-1: ] [1 2 [HELLO 5 0 2]] s _1_ RTR OLSR 64 [ ] [1:255-1: ] [1 2 [HELLO 1 0 2]] r _0_ RTR OLSR 64 [0 ffffffff 1 800] [1:255-1: ] [1 2 [HELLO 1 0 2]] r _2_ RTR OLSR 64 [0 ffffffff 1 800] [1:255-1: ] [1 2 [HELLO 1 0 2]] r _3_ RTR OLSR 64 [0 ffffffff 1 800] [1:255-1: ] [1 2 [HELLO 1 0 2]] s _0_ RTR OLSR 56 [ ] [0:255-1: ] [1 2 [HELLO 0 0 2]] r _1_ RTR OLSR 56 [0 ffffffff 0 800] [0:255-1: ] [1 2 [HELLO 0 0 2]] s _3_ RTR OLSR 68 [ ] [3:255-1: ] [1 2 [HELLO 3 0 2]] r _1_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 2 [HELLO 3 0 2]] r _4_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 2 [HELLO 3 0 2]] r _2_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 2 [HELLO 3 0 2]] s _2_ RTR OLSR 68 [ ] [2:255-1: ] [1 2 [HELLO 2 0 2]] r _1_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 2 [HELLO 2 0 2]] r _4_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 2 [HELLO 2 0 2]] r _3_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 2 [HELLO 2 0 2]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [5] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [5] 0 4 D _0_ RTR NRTE 22 cbr 532 [ ] [0:0 5:0 31 0] [5] 0 4 s _4_ RTR OLSR 64 [ ] [4:255-1: ] [1 2 [HELLO 4 0 2]] r _5_ RTR OLSR 64 [0 ffffffff 4 800] [4:255-1: ] [1 2 [HELLO 4 0 2]] r _3_ RTR OLSR 64 [0 ffffffff 4 800] [4:255-1: ] [1 2 [HELLO 4 0 2]] r _2_ RTR OLSR 64 [0 ffffffff 4 800] [4:255-1: ] [1 2 [HELLO 4 0 2]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [6] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [6] 0 4 D _0_ RTR NRTE 24 cbr 532 [ ] [0:0 5:0 31 0] [6] 0 4

18 LAMPIRAN 3.4 s _1_ RTR OLSR 56 [ ] [1:255-1: ] [1 3 [TC 1 0 3]] r _0_ RTR OLSR 56 [0 ffffffff 1 800] [1:255-1: ] [1 3 [TC 1 0 3]] r _2_ RTR OLSR 56 [0 ffffffff 1 800] [1:255-1: ] [1 3 [TC 1 0 3]] r _3_ RTR OLSR 56 [0 ffffffff 1 800] [1:255-1: ] [1 3 [TC 1 0 3]] s _4_ RTR OLSR 60 [ ] [4:255-1: ] [1 3 [TC 4 0 3]] r _5_ RTR OLSR 60 [0 ffffffff 4 800] [4:255-1: ] [1 3 [TC 4 0 3]] r _3_ RTR OLSR 60 [0 ffffffff 4 800] [4:255-1: ] [1 3 [TC 4 0 3]] r _2_ RTR OLSR 60 [0 ffffffff 4 800] [4:255-1: ] [1 3 [TC 4 0 3]] s _5_ RTR OLSR 56 [ ] [5:255-1: ] [1 3 [HELLO 5 0 3]] r _4_ RTR OLSR 56 [0 ffffffff 5 800] [5:255-1: ] [1 3 [HELLO 5 0 3]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [7] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [7] 0 4 D _0_ RTR NRTE 28 cbr 532 [ ] [0:0 5:0 31 0] [7] 0 4 s _2_ RTR OLSR 68 [ ] [2:255-1: ] [1 3 [HELLO 2 0 3]] r _1_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 3 [HELLO 2 0 3]] r _4_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 3 [HELLO 2 0 3]] r _3_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 3 [HELLO 2 0 3]] s _4_ RTR OLSR 68 [ ] [4:255-1: ] [1 4 [HELLO 4 0 4]] r _5_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 4 [HELLO 4 0 4]] r _3_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 4 [HELLO 4 0 4]] r _2_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 4 [HELLO 4 0 4]] s _1_ RTR OLSR 68 [ ] [1:255-1: ] [1 4 [HELLO 1 0 4]] r _0_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 4 [HELLO 1 0 4]] r _2_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 4 [HELLO 1 0 4]] r _3_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 4 [HELLO 1 0 4]] s _3_ RTR OLSR 68 [ ] [3:255-1: ] [1 3 [HELLO 3 0 3]] r _1_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 3 [HELLO 3 0 3]] r _4_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 3 [HELLO 3 0 3]]

19 LAMPIRAN 3.5 r _2_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 3 [HELLO 3 0 3]] s _0_ RTR OLSR 56 [ ] [0:255-1: ] [1 3 [HELLO 0 0 3]] r _1_ RTR OLSR 56 [0 ffffffff 0 800] [0:255-1: ] [1 3 [HELLO 0 0 3]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [8] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [8] 0 4 D _0_ RTR NRTE 34 cbr 532 [ ] [0:0 5:0 31 0] [8] 0 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [9] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [9] 0 4 D _0_ RTR NRTE 35 cbr 532 [ ] [0:0 5:0 31 0] [9] 0 4 s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [10] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [10] 0 4 D _0_ RTR NRTE 36 cbr 532 [ ] [0:0 5:0 31 0] [10] 0 4 s _5_ RTR OLSR 56 [ ] [5:255-1: ] [1 4 [HELLO 5 0 4]] r _4_ RTR OLSR 56 [0 ffffffff 5 800] [5:255-1: ] [1 4 [HELLO 5 0 4]] s _2_ RTR OLSR 68 [ ] [2:255-1: ] [1 4 [HELLO 2 0 4]] r _1_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 4 [HELLO 2 0 4]] r _4_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 4 [HELLO 2 0 4]] r _3_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 4 [HELLO 2 0 4]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [11] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [11] 0 4 D _0_ RTR NRTE 39 cbr 532 [ ] [0:0 5:0 31 0] [11] 0 4 s _1_ RTR OLSR 68 [ ] [1:255-1: ] [1 5 [HELLO 1 0 5]] r _0_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 5 [HELLO 1 0 5]] r _2_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 5 [HELLO 1 0 5]] r _3_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 5 [HELLO 1 0 5]] s _3_ RTR OLSR 68 [ ] [3:255-1: ] [1 4 [HELLO 3 0 4]] r _1_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 4 [HELLO 3 0 4]] r _4_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 4 [HELLO 3 0 4]]

20 LAMPIRAN 3.6 r _2_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 4 [HELLO 3 0 4]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [12] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [12] 0 4 D _0_ RTR NRTE 42 cbr 532 [ ] [0:0 5:0 31 0] [12] 0 4 s _0_ RTR OLSR 56 [ ] [0:255-1: ] [1 4 [HELLO 0 0 4]] r _1_ RTR OLSR 56 [0 ffffffff 0 800] [0:255-1: ] [1 4 [HELLO 0 0 4]] s _4_ RTR OLSR 68 [ ] [4:255-1: ] [1 5 [HELLO 4 0 5]] r _5_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 5 [HELLO 4 0 5]] r _3_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 5 [HELLO 4 0 5]] r _2_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 5 [HELLO 4 0 5]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [13] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [13] 0 4 D _0_ RTR NRTE 45 cbr 532 [ ] [0:0 5:0 31 0] [13] 0 4 s _5_ RTR OLSR 56 [ ] [5:255-1: ] [1 5 [HELLO 5 0 5]] r _4_ RTR OLSR 56 [0 ffffffff 5 800] [5:255-1: ] [1 5 [HELLO 5 0 5]] _2_ RTR OLSR 68 [ ] [2:255-1: ] [1 5 [HELLO 2 0 5]] r _1_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 5 [HELLO 2 0 5]] r _4_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 5 [HELLO 2 0 5]] r _3_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 5 [HELLO 2 0 5]] s _0_ RTR OLSR 56 [ ] [0:255-1: ] [1 5 [HELLO 0 0 5]] r _1_ RTR OLSR 56 [0 ffffffff 0 800] [0:255-1: ] [1 5 [HELLO 0 0 5]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [14] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [14] 0 4 D _0_ RTR NRTE 49 cbr 532 [ ] [0:0 5:0 31 0] [14] 0 4 s _1_ RTR OLSR 68 [ ] [1:255-1: ] [1 6 [HELLO 1 0 6]] r _0_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 6 [HELLO 1 0 6]] r _2_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 6 [HELLO 1 0 6]] r _3_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 6 [HELLO 1 0 6]]

21 LAMPIRAN 3.7 s _1_ RTR OLSR 60 [ ] [1:255-1: ] [1 7 [TC 1 0 7]] r _0_ RTR OLSR 60 [0 ffffffff 1 800] [1:255-1: ] [1 7 [TC 1 0 7]] r _2_ RTR OLSR 60 [0 ffffffff 1 800] [1:255-1: ] [1 7 [TC 1 0 7]] r _3_ RTR OLSR 60 [0 ffffffff 1 800] [1:255-1: ] [1 7 [TC 1 0 7]] s _4_ RTR OLSR 68 [ ] [4:255-1: ] [1 6 [HELLO 4 0 6]] r _5_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 6 [HELLO 4 0 6]] r _3_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 6 [HELLO 4 0 6]] r _2_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 6 [HELLO 4 0 6]] s _3_ RTR OLSR 68 [ ] [3:255-1: ] [1 5 [HELLO 3 0 5]] r _1_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 5 [HELLO 3 0 5]] r _4_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 5 [HELLO 3 0 5]] r _2_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 5 [HELLO 3 0 5]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [15] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [15] 0 4 D _0_ RTR NRTE 54 cbr 532 [ ] [0:0 5:0 31 0] [15] 0 4 s _2_ RTR OLSR 84 [ ] [2:255-1: ] [2 6 [TC 1 1 7][TC 2 0 6]] r _1_ RTR OLSR 84 [0 ffffffff 2 800] [2:255-1: ] [2 6 [TC 1 1 7][TC 2 0 6]] r _4_ RTR OLSR 84 [0 ffffffff 2 800] [2:255-1: ] [2 6 [TC 1 1 7][TC 2 0 6]] r _3_ RTR OLSR 84 [0 ffffffff 2 800] [2:255-1: ] [2 6 [TC 1 1 7][TC 2 0 6]] s _1_ RTR OLSR 56 [ ] [1:255-1: ] [1 8 [TC 2 1 6]] r _0_ RTR OLSR 56 [0 ffffffff 1 800] [1:255-1: ] [1 8 [TC 2 1 6]] r _2_ RTR OLSR 56 [0 ffffffff 1 800] [1:255-1: ] [1 8 [TC 2 1 6]] r _3_ RTR OLSR 56 [0 ffffffff 1 800] [1:255-1: ] [1 8 [TC 2 1 6]] s _4_ RTR OLSR 112 [ ] [4:255-1: ] [3 7 [TC 4 0 7][TC 1 2 7][TC 2 1 6]] r _5_ RTR OLSR 112 [0 ffffffff 4 800] [4:255-1: ] [3 7 [TC 4 0 7][TC 1 2 7][TC 2 1 6]] r _3_ RTR OLSR 112 [0 ffffffff 4 800] [4:255-1: ] [3 7 [TC 4 0 7][TC 1 2 7][TC 2 1 6]] r _2_ RTR OLSR 112 [0 ffffffff 4 800] [4:255-1: ] [3 7 [TC 4 0 7][TC 1 2 7][TC 2 1 6]] s _2_ RTR OLSR 60 [ ] [2:255-1: ] [1 7 [TC 4 1 7]]

22 LAMPIRAN 3.8 r _1_ RTR OLSR 60 [0 ffffffff 2 800] [2:255-1: ] [1 7 [TC 4 1 7]] r _4_ RTR OLSR 60 [0 ffffffff 2 800] [2:255-1: ] [1 7 [TC 4 1 7]] r _3_ RTR OLSR 60 [0 ffffffff 2 800] [2:255-1: ] [1 7 [TC 4 1 7]] s _1_ RTR OLSR 60 [ ] [1:255-1: ] [1 9 [TC 4 2 7]] r _0_ RTR OLSR 60 [0 ffffffff 1 800] [1:255-1: ] [1 9 [TC 4 2 7]] r _2_ RTR OLSR 60 [0 ffffffff 1 800] [1:255-1: ] [1 9 [TC 4 2 7]] r _3_ RTR OLSR 60 [0 ffffffff 1 800] [1:255-1: ] [1 9 [TC 4 2 7]] s _5_ RTR OLSR 56 [ ] [5:255-1: ] [1 6 [HELLO 5 0 6]] r _4_ RTR OLSR 56 [0 ffffffff 5 800] [5:255-1: ] [1 6 [HELLO 5 0 6]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [16] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [16] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 31 1] [16] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 31 1] [16] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [16] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [16] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [16] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [16] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 28 5] [16] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 28 5] [16] 4 4 s _2_ RTR OLSR 68 [ ] [2:255-1: ] [1 8 [HELLO 2 0 7]] r _1_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 8 [HELLO 2 0 7]] r _4_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 8 [HELLO 2 0 7]] r _3_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 8 [HELLO 2 0 7]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [17] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [17] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 31 1] [17] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 31 1] [17] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [17] 1 4

23 LAMPIRAN 3.9 r _2_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [17] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [17] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [17] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 28 5] [17] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 28 5] [17] 4 4 s _3_ RTR OLSR 68 [ ] [3:255-1: ] [1 6 [HELLO 3 0 6]] r _1_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 6 [HELLO 3 0 6]] r _4_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 6 [HELLO 3 0 6]] r _2_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 6 [HELLO 3 0 6]] s _0_ RTR OLSR 56 [ ] [0:255-1: ] [1 6 [HELLO 0 0 6]] r _1_ RTR OLSR 56 [0 ffffffff 0 800] [0:255-1: ] [1 6 [HELLO 0 0 6]] s _1_ RTR OLSR 68 [ ] [1:255-1: ] [1 10 [HELLO 1 0 8]] r _0_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 10 [HELLO 1 0 8]] r _2_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 10 [HELLO 1 0 8]] r _3_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 10 [HELLO 1 0 8]] s _4_ RTR OLSR 68 [ ] [4:255-1: ] [1 8 [HELLO 4 0 8]] r _5_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 8 [HELLO 4 0 8]] r _3_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 8 [HELLO 4 0 8]] r _2_ RTR OLSR 68 [0 ffffffff 4 800] [4:255-1: ] [1 8 [HELLO 4 0 8]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [18] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [18] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 31 1] [18] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 31 1] [18] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [18] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [18] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [18] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [18] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 28 5] [18] 3 4

24 LAMPIRAN 3.10 r _5_ AGT cbr 532 [13a ] [0:0 5:0 28 5] [18] 4 4 s _5_ RTR OLSR 56 [ ] [5:255-1: ] [1 7 [HELLO 5 0 7]] r _4_ RTR OLSR 56 [0 ffffffff 5 800] [5:255-1: ] [1 7 [HELLO 5 0 7]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [19] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [19] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 31 1] [19] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 31 1] [19] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [19] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [19] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [19] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [19] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 28 5] [19] 3 4 r _5_ AGT cbr 532 [13a ] [0:0 5:0 28 5] [19] 4 4 s _2_ RTR OLSR 68 [ ] [2:255-1: ] [1 9 [HELLO 2 0 8]] r _1_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 9 [HELLO 2 0 8]] r _4_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 9 [HELLO 2 0 8]] r _3_ RTR OLSR 68 [0 ffffffff 2 800] [2:255-1: ] [1 9 [HELLO 2 0 8]] s _0_ RTR OLSR 56 [ ] [0:255-1: ] [1 7 [HELLO 0 0 7]] _1_ RTR OLSR 56 [0 ffffffff 0 800] [0:255-1: ] [1 7 [HELLO 0 0 7]] s _0_ AGT cbr 512 [ ] [0:0 5:0 32 0] [20] 0 4 r _0_ RTR cbr 512 [ ] [0:0 5:0 32 0] [20] 0 4 s _0_ RTR cbr 532 [ ] [0:0 5:0 31 1] [20] 0 4 r _1_ RTR cbr 532 [13a ] [0:0 5:0 31 1] [20] 1 4 f _1_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [20] 1 4 r _2_ RTR cbr 532 [13a ] [0:0 5:0 30 2] [20] 2 4 f _2_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [20] 2 4 r _4_ RTR cbr 532 [13a ] [0:0 5:0 29 4] [20] 3 4 f _4_ RTR cbr 532 [13a ] [0:0 5:0 28 5] [20] 3 4

25 LAMPIRAN 3.11 r _5_ AGT cbr 532 [13a ] [0:0 5:0 28 5] [20] 4 4 s _3_ RTR OLSR 68 [ ] [3:255-1: ] [1 7 [HELLO 3 0 7]] r _1_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 7 [HELLO 3 0 7]] r _4_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 7 [HELLO 3 0 7]] r _2_ RTR OLSR 68 [0 ffffffff 3 800] [3:255-1: ] [1 7 [HELLO 3 0 7]] s _1_ RTR OLSR 68 [ ] [1:255-1: ] [1 11 [HELLO 1 0 9]] r _0_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 11 [HELLO 1 0 9]] r _2_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 11 [HELLO 1 0 9]] r _3_ RTR OLSR 68 [0 ffffffff 1 800] [1:255-1: ] [1 11 [HELLO 1 0 9]]

26 LAMPIRAN Skrip perl untuk kalkulasi Routing Overhead dan Packet Delivery Ratio AODV!/usr/bin/perl $tracefile=$argv[0]; $granularity=$argv[1]; $ofile="simulation_result.csv"; open OUT, ">$ofile" or die "$0 cannot open output file $ofile: $!"; open (DR,STDIN); $gclock=0; Init Data Packet Information $datasent = 0; $datarecv = 0; $routerdrop = 0; Init Routing Overhead & Delivery Ratio $routingoverhead = 0; $deliveryratio = 0; AODV Message Packet Information $aodvsent = 0; $aodvrecv = 0; $aodvsentrequest = 0; $aodvrecvrequest = 0; $aodvdroprequest = 0; $aodvsentreply = 0; $aodvrecvreply = 0; $aodvdropreply = 0; $routerdroprequest = 0; $routerdropreply = 0; if ($granularity==0) {$granularity=30; while(<>){ chomp; if (/^s/){ if (/^s.*aodv/) { $aodvsent++; if (/^s.*request/) { $aodvsendrequest++; elsif (/^s.*reply/) { $aodvsendreply++; elsif (/^s.*agt/) { $datasent++; elsif (/^r/){

27 LAMPIRAN 4.2 if (/^r.*aodv/) { $aodvrecv++; if (/^r.*request/) { $aodvrecvrequest++; elsif (/^r.*reply/) { $aodvrecvreply++; elsif (/^r.*agt/) { $datarecv++; elsif (/^D/) { if (/^D.*AODV/) { if (/^D.*REQUEST/) { $aodvdroprequest++; elsif (/^D.*REPLY/) { $aodvdropreply++; if (/^D.*RTR/) { $routerdrop++; close DR; $deliveryratio = 100*$dataRecv/$dataSent; $routingoverhead = (($routingoverhead + $aodvsent + $aodvrecv)* 48)/120; print "AODV Sent print "AODV Recv print "Data Sent print "Data Recv print "Router Drop print "Delivery Ratio print "Routing Overhead : $aodvsent\n"; : $aodvrecv\n"; : $datasent\n"; : $datarecv\n"; : $routerdrop\n"; : $deliveryratio \n"; : $routingoverhead \n"; print OUT "Messages Sent,$dataSent\n"; print OUT "Messages Recieved,$dataRecv\n"; print OUT "Messages Dropped,$routerDrop\n"; print OUT "Delivery Rate,$deliveryRatio\n"; close OUT;

28 LAMPIRAN Skrip perl untuk kalkulasi Routing Overhead dan Packet Delivery Ratio OLSR!/usr/bin/perl $tracefile=$argv[0]; $granularity=$argv[1]; $ofile="simulation_result.csv"; open OUT, ">$ofile" or die "$0 cannot open output file $ofile: $!"; open (DR,STDIN); $gclock=0; Data Packet Information $datasent = 0; $datarecv = 0; $datadrop = 0; OLSR Packet Information $olsrsent = 0; $olsrrecv = 0; $olsrhellosent = 0; $olsrhellorecv = 0; $olsrtcsent = 0; $olsrtcrecv = 0; $routingoverhead = 0; $deliveryratio = 0; if ($granularity==0) {$granularity=30; while(<>){ chomp; if (/^s/){ if (/^s.*olsr/) { $olsrsent++; if (/^s.*hello/) { $olsrhellosent++; if (/^s.*tc/) { $olsrtcsent++; elsif (/^s.*agt/) { $datasent++; elsif (/^r/){ if (/^r.*olsr/) { $olsrrecv++; if (/^r.*hello/) { $olsrhellorecv++; if (/^r.*tc/) { $olsrtcrecv++;

29 LAMPIRAN 5.2 elsif (/^r.*agt/) { $datarecv++; elsif (/^D/) { if (/^D.*OLSR/) { $olsrdrop++; if (/^D.*RTR/) { $datadrop++; close DR; $deliveryratio = 100*$dataRecv/$dataSent; $routingoverhead = (($olsrhellosent * 48) + ($olsrhellorecv * 48) + ($olsrtcsent * 56) + ($olsrtcrecv * 56)) / 120 ; print "OLSR Sent print "OLSR Recv print "Data Sent print "Data Recv print "Data Drop print "Delivery Ratio print "Routing Overhead : $olsrsent\n"; : $olsrrecv\n"; : $datasent\n"; : $datarecv\n"; : $datadrop\n"; : $deliveryratio \n"; : $routingoverhead \n"; print OUT "Messages Sent,$dataSent\n"; print OUT "Messages Recieved,$dataRecv\n"; print OUT "Messages Dropped,$routerDrop\n"; print OUT "Delivery Rate,$deliveryRatio\n"; close OUT;

30 LAMPIRAN Hasil kalkulasi Routing Overhead dan Delivery Ratio Ini adalah contoh tampilan dari proses kalkulasi hasil trace terhadap routing overhead dan delivery ratio yang dijalankan melalui terminal, dengan menggunakan script pearl.