1 00:00:00,740 --> 00:00:06,140 The quality of service assuring soaring guide is a really good guide to use for both study as well as 2 00:00:06,140 --> 00:00:08,550 for real world applications. 3 00:00:08,780 --> 00:00:15,770 It has as an example recommendations for classification and marking so as an example voice traffic should 4 00:00:15,770 --> 00:00:26,360 use an IP precedents of 5 a per hop behavior or GHB which is similar in concept to DCP of E F and DSP 5 00:00:26,360 --> 00:00:31,170 a 46 per hop behaviour essentially is a CLOs. 6 00:00:31,190 --> 00:00:39,080 So what class of traffic Will traffic be put into and how will it be treated on a per hop behaviour. 7 00:00:39,080 --> 00:00:45,890 In other words by each node in a network how will your Rodders and switches treat the traffic the physical 8 00:00:45,890 --> 00:00:47,480 marking would be 46. 9 00:00:47,510 --> 00:00:54,230 So that's the DCP and at least to your costs in your edit to the one queue head it would be set to 5 10 00:00:54,860 --> 00:01:02,240 and the NPL less experimental bits will be set to 5 as well called signalling protocol such as sub or 11 00:01:02,330 --> 00:01:10,570 a 2 to 3 I use an IP presidents of three proper behavior would be either a f 31 or C S three and the 12 00:01:10,570 --> 00:01:13,600 DCP would be either 26 or 24. 13 00:01:13,630 --> 00:01:21,690 That's because there are differences in the way that phones mock traffic depending on how old they are 14 00:01:24,030 --> 00:01:32,270 bulk data as an example would have an IP presidents of 1 per hop behaviour of a F eleven DCP of ten 15 00:01:32,600 --> 00:01:41,720 and a cost experimental value of 1 the different ways to create classes depending on how close you are 16 00:01:41,720 --> 00:01:43,720 to the edge of the network. 17 00:01:44,120 --> 00:01:50,220 If you're at the edge of the network in other words you right here where your pieces and phones are 18 00:01:50,220 --> 00:01:57,550 connecting to the network you may use multiple classes such as the quality of service baseline model 19 00:01:58,100 --> 00:02:02,120 but in a lot of cases as you get closer and closer to the core. 20 00:02:02,200 --> 00:02:09,310 So in a core empire less network as an example they'll end up only having four or five classes they 21 00:02:09,310 --> 00:02:15,340 will aggregate traffic classes into fewer classes as you get closer to the core of the network.