rie w.p. P1 r2e2 w.p. P2 Rt R₁ = Tnen w.p. Pn 0 w.p. 1-1 Pj Let DER be a vector with components Dj value of the program max ry, = ER/ Show that the optimal s.t. Ayx, 0≤ y ≤D, with variable y = R is equal to JH (x). In addition, the optimal dual solution of the capacity constraints of the previous deterministic linear program is an optimal solution of the problem minμ20 (x).

Consider the network revenue management model. Suppose that the fare prices are constant (deterministic), that is they are as shown in the first image below of Rt. Let D ∈ ℝ^n be a vector with components Dj = E[t=1 to T∑(Rt,j/rj)]. Show that the optimal value of the program with variable y ∈ ℝ^n is equal to optimal bid price policy J˜^µ∗T(x). In addition, the optimal dual solution of the capacity constraints of the previous deterministic linear program is an optimal solution of the problem min µ≥0 J˜µT(x). The program in question is the following:
max (r^⊺)y,
s.t. Ay ≤ x,
0 ≤ y ≤ D

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rie w.p. P1 r2e2 w.p. P2 Rt R₁ = Tnen w.p. Pn 0 w.p. 1-1 Pj

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Let DER be a vector with components Dj value of the program max ry, = ER/ Show that the optimal s.t. Ayx, 0≤ y ≤D, with variable y = R is equal to JH (x). In addition, the optimal dual solution of the capacity constraints of the previous deterministic linear program is an optimal solution of the problem minμ20 (x).