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Bounds On QoS - Constrained Energy Savings in Cellular Access Networks with Sleep Modes. - Sushant Bhardwaj. Part I (a)- Objectives . - PowerPoint PPT Presentation
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BOUNDS ON QOS- CONSTRAINED ENERGY SAVINGS IN CELLULAR ACCESS NETWORKS WITH SLEEP MODES
-Sushant Bhardwaj
Part I (a)- Objectives The objective is to obtain a
characterization of the energy savings that can be achieved by sleep mode schemes under fixed user performance constraints, and study the impact of base station topology, power consumption model, and user density on energy optimal configuration of access networks.
Part I (b)- Results Demonstrated that substantial energy
savings is possible through schemes that adapt density of base stations to fluctuations in user density.
Showed that system level techniques are essential even if base stations become more energy proportional in the future.
Part II – Outline of the paper First ,the model for the distribution of
users and of base stations is presented Next, average per-bit delay and variance
of the per bit delay are calculated. After getting the results for the per bit
delay, compute the energy optimal base station density for a given user density and from this estimate the achievable energy savings.
Then, present the lower bounds on the base station densities required to satisfy the performance constraints.
Finally, presented the numerical and simulation results.
Part III – Detailed explanation MODEL AND ASSUMPTIONS:There are three layouts for the base stationdistribution in the service area:1. Manhattan layout2. Hexagonal layout3. Poisson layoutIn Manhattan and Hexagonal layout the switching
onand off of base station is not independent as is in
the case of the Poisson layout.
Performance metric used: Per-bit delay Performance constraint used:If, Per-bit delay< Set threshold value,
then,Users have satisfactory performance and corresponding BS distribution is possible. The performance constraint used is the
average per-bit delay and not its variance.
MODELS: Channel and Service Model: Network serves only best effort traffic. Capacity(bits/Hz) is divided among all the connected
best effort users. Energy Consumption model: Power consumed by a BS=k1+k2.U This is further subdivided into two types of energy
models:1. Energy consumption is accounted just by staying on
i.e. k2=0.2. Energy-proportional model where k2 not 0.
MODELING USER PERCEIVED PERFORMANCE:
Variance of the per-bit delay:
OPTIMIZING BASE STATION ENERGY CONSUMPTION:
Two cases: For energy model with k2=0 For energy model with k1<<k2
NUMERICAL EVALUATION: On-Off setting (for current BS): k1=1500W, k2=0 i.e. energy
consumption does not vary with utilization.
Energy propotional setting: EP=k2/(k1+k2) For, k1=100W and k2=1400W,
EP=93.4% For k1=500W and k2=1000W,
EP=66.6%