Metastability in Loss Networks with Dynamic Alternative Routing

Abstract

Consider N stations interconnected with links, each of capacity K, forming a complete graph. Calls arrive to each link at rate λ and depart at rate 1. If a call arrives to a link x y, connecting stations x and y, which is at capacity, then a third station z is chosen uniformly at random and the call is attempted to be routed via z: if both links x z and z y have spare capacity, then the call is held simultaneously on these two; otherwise the call is lost. We analyse an approximation of this model. We show rigorously that there are three phases according to the traffic intensity α := λ/K: for α ∈ (0,αc) (1,∞), the system has mixing time logarithmic in the number of links n := N2; for α ∈ (αc,1) the system has mixing time exponential in n, the number of links. Here αc := 13 (5 10 - 13) ≈ 0.937 is an explicit critical threshold with a simple interpretation. We also consider allowing multiple rerouting attempts. This has little effect on the overall behaviour; it does not remove the metastability phase. Finally, we add trunk reservation: in this, some number σ of circuits are reserved; a rerouting attempt is only accepted if at least σ+1 circuits are available. We show that if σ is chosen sufficiently large, depending only on α, not K or n, then the metastability phase is removed.