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- analysis of trace file for MANET
rakeshParticipant
hi all project guideline users,
I am rakesh, I am doing a project on Mobile Ad hoc network,
I am using ns-2.31 on red hat linux-5,
I have generated a trace file after simulation.
for this MANET i have generate the connection pattern fron cbrgen.tcl, i have taken 5 CBR connection for this network , total simulation time is 200 Seconds,
i have also generated the scenario pattern from ./setdest command.
I am given here partial part of that trace file ,
because trace file is very large
s 2.556838879 _1_ AGT — 0 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [0] 0 2
r 2.556838879 _1_ RTR — 0 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [0] 0 2
s 2.556838879 _1_ RTR — 0 AODV 48 [0 0 0 0]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779044 _16_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779108 _41_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779162 _25_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779172 _49_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779178 _24_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779223 _23_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779227 _47_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779234 _37_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779324 _21_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779337 _26_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0] [1 4]] (REQUEST)
r 2.557779357 _3_ RTR — 0 AODV 48 [0 ffffffff 1 800]
[1:255 -1:255 30 0] [0x2 1 1 [2 0]
s 2.602524180 _1_ RTR — 0 cbr 532 [0 0 0 0]
[1:0 2:0 30 10] [0] 0 2
r 2.608638221 _10_ RTR — 0 cbr 532 [13a a 1 800]
[1:0 2:0 30 10] [0] 1 2
f 2.608638221 _10_ RTR — 0 cbr 532 [13a a 1 800]
[1:0 2:0 29 2] [0] 1 2
r 2.614511769 _2_ AGT — 0 cbr 532 [13a 2 a 800]
[1:0 2:0 29 2] [0] 2 2
s 2.681923773 _1_ AGT — 1 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [1] 0 2
r 2.681923773 _1_ RTR — 1 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [1] 0 2
s 2.681923773 _1_ RTR — 1 cbr 532 [0 0 0 0]
[1:0 2:0 30 10] [1] 0 2
r 2.687373814 _10_ RTR — 1 cbr 532 [13a a 1 800]
[1:0 2:0 30 10] [1] 1 2
f 2.687373814 _10_ RTR — 1 cbr 532 [13a a 1 800]
[1:0 2:0 29 2] [1] 1 2
r 2.693167362 _2_ AGT — 1 cbr 532 [13a 2 a 800]
[1:0 2:0 29 2] [1] 2 2
s 2.858394395 _1_ AGT — 2 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [2] 0 2
r 2.858394395 _1_ RTR — 2 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [2] 0 2
s 2.858394395 _1_ RTR — 2 cbr 532 [0 0 0 0]
[1:0 2:0 30 10] [2] 0 2
r 2.864164436 _10_ RTR — 2 cbr 532 [13a a 1 800]
[1:0 2:0 30 10] [2] 1 2
f 2.864164436 _10_ RTR — 2 cbr 532 [13a a 1 800]
[1:0 2:0 29 2] [2] 1 2
r 2.870357983 _2_ AGT — 2 cbr 532 [13a 2 a 800]
[1:0 2:0 29 2] [2] 2 2
s 3.078053722 _1_ AGT — 3 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [3] 0 2
r 3.078053722 _1_ RTR — 3 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [3] 0 2
s 3.078053722 _1_ RTR — 3 cbr 532 [0 0 0 0]
[1:0 2:0 30 10] [3] 0 2
r 3.083583763 _10_ RTR — 3 cbr 532 [13a a 1 800]
[1:0 2:0 30 10] [3]
s 199.931623805 _6_ RTR — 4297 cbr 532 [0 0 0 0]
[6:1 7:0 30 46] [571] 0 2
r 199.937173748 _46_ RTR — 4297 cbr 532 [13a 2e 6 800]
[6:1 7:0 30 46] [571] 1 2
f 199.937173748 _46_ RTR — 4297 cbr 532 [13a 2e 6 800]
[6:1 7:0 29 7] [571] 1 2
r 199.943228201 _7_ AGT — 4297 cbr 532 [13a 7 2e 800]
[6:1 7:0 29 7] [571] 2 2
s 199.959748959 _4_ AGT — 4298 cbr 512 [0 0 0 0]
[4:0 5:0 32 0] [572] 0 2
r 199.959748959 _4_ RTR — 4298 cbr 512 [0 0 0 0]
[4:0 5:0 32 0] [572] 0 2
s 199.959748959 _4_ RTR — 4298 cbr 532 [0 0 0 0]
[4:0 5:0 30 45] [572] 0 2
r 199.965239141 _45_ RTR — 4298 cbr 532 [13a 2d 4 800]
[4:0 5:0 30 45] [572] 1 2
f 199.965239141 _45_ RTR — 4298 cbr 532 [13a 2d 4 800]
[4:0 5:0 29 5] [572] 1 2
r 199.971453249 _5_ AGT — 4298 cbr 532 [13a 5 2d 800]
[4:0 5:0 29 5] [572] 2 2
s 199.989187719 _1_ AGT — 4299 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [788] 0 3
r 199.989187719 _1_ RTR — 4299 cbr 512 [0 0 0 0]
[1:0 2:0 32 0] [788] 0 3
s 199.989187719 _1_ RTR — 4299 cbr 532 [0 0 0 0]
[1:0 2:0 30 40] [788] 0 3
r 199.994917925 _40_ RTR — 4299 cbr 532 [13a 28 1 800]
[1:0 2:0 30 40] [788] 1 3
f 199.994917925 _40_ RTR — 4299 cbr 532 [13a 28 1 800]
[1:0 2:0 29 34] [788] 1 3
D 200.000000000 _2_ IFQ END 0 AODV 44 [0 0 2 800]
[2:255 1:255 30 33] [0x4 1 [2 44] 10.000000] (REPLY)
D 200.000000000 _2_ IFQ END 0 AODV 44 [0 0 2 800]
[2:255 1:255 30 22] [0x4 1 [2 20] 10.000000] (REPLY)
D 200.000000000 _2_ IFQ END 0 AODV 44 [0 0 2 800]
[2:255 38:255 30 28] [0x4 1 [2 14] 10.000000] (REPLY)
D 200.000000000 _2_ IFQ END 0 AODV 44 [0 0 2 800]
[2:255 1:255 30 30] [0x4 1 [2 28] 10.000000] (REPLY)
if any body getting my problem then please help me as soon as possible.[url][/url]
jabjijiParticipant
HI rakesh,
i am doing a project on WiMax (802.16) network,
I am using ns-2.31 on fedora 8 ,
i want to generate a trace file for my simulation to do some graphs with xgraph.
the scenario of my simulation is : a base station and a random number of mobile nodes, i want to evaluate the throughput of the base station.
would you help me please to generate this file!
thanks
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