/
incoming_traffic.m
93 lines (81 loc) · 3.08 KB
/
incoming_traffic.m
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
function [ incoming_rate ] = incoming_traffic( selectedaction, tx )
global N_SubF % number of each subflows for each flow, assume that each flow is divided equally
global N_BSs % the number of SC BSs
global N_Flow % number of flows
global alpha1
% Access to the data
% indicator_bs = zeros(N_Flow,N_BSs+1, N_SubF);
incoming_rate = zeros(N_BSs+1, N_SubF);
% selectedaction = [1 2]';
% Routing table
% [distance_cal, h] = topology();
% channel_gain( distance_cal(a,b), h(a,b) )
RT.action(1).route1 = [1 2 3];
RT.action(1).route2 = [1 4 5];
RT.action(2).route1 = [1 2 3];
RT.action(2).route2 = [1 6];
RT.action(3).route1 = [1 2 3];
RT.action(3).route2 = [1 7];
RT.action(4).route1 = [1 4 5];
RT.action(4).route2 = [1 7];
RT.action(5).route1 = [1 4 5];
RT.action(5).route2 = [1 6];
RT.action(6).route1 = [1 7];
RT.action(6).route2 = [1 6];
for player = 1:N_Flow % rate_allocated = zeros(N_BSs+1, N_SubF);
if player == 1
UE = 8;
[~, sizea] = size(RT.action(selectedaction(player)).route1);
bs_list1 = RT.action(selectedaction(player)).route1;
for n1 = 1:(sizea-1)
k = 1;
if n1 == 1
incoming_rate(bs_list1(n1),1) = alpha1;
else
incoming_rate(bs_list1(n1),1) = log( 1 + tx(bs_list1(n1-1) , k));
end
end
%
incoming_rate(bs_list1(sizea),1) = log( 1 + tx(bs_list1(sizea-1) , k));
[~, sizeb] = size(RT.action(selectedaction(player)).route2);
bs_list2 = RT.action(selectedaction(player)).route2;
k = 2;
for n2 = 1:(sizeb-1)
if n2 == 1
incoming_rate(bs_list2(n2),2) = alpha1;
else
incoming_rate(bs_list2(n2),2) = log( 1 + tx(bs_list2(n2-1) , k));
end
end
%
incoming_rate(bs_list2(sizeb),2) = log( 1 + tx(bs_list2(sizeb-1) , k)); %rate(bs_list2(sizeb-1),bs_list2(sizeb)) - rate(bs_list2(sizeb), UE);
else % if player 2, then update subflow 3 & 4
UE = 9;
[~, sizea] = size(RT.action(selectedaction(player)).route1);
bs_list1 = RT.action(selectedaction(player)).route1;
k = 3;
for n1 = 1:(sizea-1)
if n1 == 1
incoming_rate(bs_list1(n1),3) = alpha1;
else
incoming_rate(bs_list1(n1),3) = log( 1 + tx(bs_list1(n1-1) , k));
end
end
%
incoming_rate(bs_list1(sizea),3) = log( 1 + tx(bs_list1(sizea-1) , k));
[~, sizeb] = size(RT.action(selectedaction(player)).route2);
bs_list2 = RT.action(selectedaction(player)).route2;
k = 4;
for n2 = 1:(sizeb-1)
if n2 == 1
incoming_rate(bs_list2(n2),4) = alpha1;
else
incoming_rate(bs_list2(n2),4) = log( 1 + tx(bs_list2(n2-1) , k));
end
end
%
incoming_rate(bs_list2(sizeb),4) = log( 1 + tx(bs_list2(sizeb-1) , k));
end
end
incoming_rate = incoming_rate';
end