2,992 research outputs found
Cross-Layer Optimization of Fast Video Delivery in Cache-Enabled Relaying Networks
This paper investigates the cross-layer optimization of fast video delivery
and caching for minimization of the overall video delivery time in a two-hop
relaying network. The half-duplex relay nodes are equipped with both a cache
and a buffer which facilitate joint scheduling of fetching and delivery to
exploit the channel diversity for improving the overall delivery performance.
The fast delivery control is formulated as a two-stage functional non-convex
optimization problem. By exploiting the underlying convex and quasi-convex
structures, the problem can be solved exactly and efficiently by the developed
algorithm. Simulation results show that significant caching and buffering gains
can be achieved with the proposed framework, which translates into a reduction
of the overall video delivery time. Besides, a trade-off between caching and
buffering gains is unveiled.Comment: 7 pages, 4 figures; accepted for presentation at IEEE Globecom, San
Diego, CA, Dec. 201
On the Tradeoff between Energy Harvesting and Caching in Wireless Networks
Self-powered, energy harvesting small cell base stations (SBS) are expected
to be an integral part of next-generation wireless networks. However, due to
uncertainties in harvested energy, it is necessary to adopt energy efficient
power control schemes to reduce an SBSs' energy consumption and thus ensure
quality-of-service (QoS) for users. Such energy-efficient design can also be
done via the use of content caching which reduces the usage of the
capacity-limited SBS backhaul. of popular content at SBS can also prove
beneficial in this regard by reducing the backhaul usage. In this paper, an
online energy efficient power control scheme is developed for an energy
harvesting SBS equipped with a wireless backhaul and local storage. In our
model, energy arrivals are assumed to be Poisson distributed and the popularity
distribution of requested content is modeled using Zipf's law. The power
control problem is formulated as a (discounted) infinite horizon dynamic
programming problem and solved numerically using the value iteration algorithm.
Using simulations, we provide valuable insights on the impact of energy
harvesting and caching on the energy and sum-throughput performance of the SBS
as the network size is varied. Our results also show that the size of cache and
energy harvesting equipment at the SBS can be traded off, while still meeting
the desired system performance.Comment: To be presented at the IEEE International Conference on
Communications (ICC), London, U.K., 201
Content Placement in Cache-Enabled Sub-6 GHz and Millimeter-Wave Multi-antenna Dense Small Cell Networks
This paper studies the performance of cache-enabled dense small cell networks
consisting of multi-antenna sub-6 GHz and millimeter-wave base stations.
Different from the existing works which only consider a single antenna at each
base station, the optimal content placement is unknown when the base stations
have multiple antennas. We first derive the successful content delivery
probability by accounting for the key channel features at sub-6 GHz and mmWave
frequencies. The maximization of the successful content delivery probability is
a challenging problem. To tackle it, we first propose a constrained
cross-entropy algorithm which achieves the near-optimal solution with moderate
complexity. We then develop another simple yet effective heuristic
probabilistic content placement scheme, termed two-stair algorithm, which
strikes a balance between caching the most popular contents and achieving
content diversity. Numerical results demonstrate the superior performance of
the constrained cross-entropy method and that the two-stair algorithm yields
significantly better performance than only caching the most popular contents.
The comparisons between the sub-6 GHz and mmWave systems reveal an interesting
tradeoff between caching capacity and density for the mmWave system to achieve
similar performance as the sub-6 GHz system.Comment: 14 pages; Accepted to appear in IEEE Transactions on Wireless
Communication
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