2021
DOI: 10.1109/jsyst.2020.3014231
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Intelligent Active Queue Management for Stabilized QoS Guarantees in 5G Mobile Networks

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Cited by 36 publications
(18 citation statements)
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“…Respect to this tradeoff, the Lyapunov optimization theorybased drift-plus-penalty (DPP) algorithm [22], [38]- [42] can be used for optimizing the time-average utility function (i.e., energy consumption) subject to queue stability. Define the Lyapunov function L(Q[t]) = 1 2 (Q[t]) 2 , and let ∆(.)…”
Section: ) Two-stage Mobile Charging Matching/schedulingmentioning
confidence: 99%
“…Respect to this tradeoff, the Lyapunov optimization theorybased drift-plus-penalty (DPP) algorithm [22], [38]- [42] can be used for optimizing the time-average utility function (i.e., energy consumption) subject to queue stability. Define the Lyapunov function L(Q[t]) = 1 2 (Q[t]) 2 , and let ∆(.)…”
Section: ) Two-stage Mobile Charging Matching/schedulingmentioning
confidence: 99%
“…Such an approach permits the existence of bursty traffic during periods shorter than the interval value. Recent results on CoDel in cellular networks [21] [24] [26] show a latency reduction when adopted.…”
Section: A Bufferbloat At the Rlc Sublayer 1) Problem Descriptionmentioning
confidence: 99%
“…where X is a decision set, In(x(t), t) is queue arrival procedure with decision x(t) and time t, Out(x(t), t) is queue departure process with decision x(t) and time t, V is a trade-off factor, and x * is optimal decision, respectively. More details about this theory are discussed in [19]; and the various applications that implement the theory are in [20]- [28].…”
Section: B Lyapunov Optimization Frameworkmentioning
confidence: 99%