311 research outputs found
Low energy indoor network : deployment optimisation
This article considers what the minimum energy indoor access point deployment is in order to achieve a certain downlink quality-of-service. The article investigates two conventional multiple-access technologies, namely: LTE-femtocells and 802.11n Wi-Fi. This is done in a dynamic multi-user and multi-cell interference network. Our baseline results are reinforced by novel theoretical expressions. Furthermore, the work underlines the importance of considering optimisation when accounting for the capacity saturation of realistic modulation and coding schemes. The results in this article show that optimising the location of access points both within a building and within the individual rooms is critical to minimise the energy consumption
Normal Inverse Gaussian Approximation for Arrival Time Difference in Flow-Induced Molecular Communications
In this paper, we consider molecular communications in one-dimensional
flow-induced diffusion channels with a perfectly absorbing receiver. In such
channels, the random propagation delay until the molecules are absorbed follows
an inverse Gaussian (IG) distribution and is referred to as first hitting time.
Knowing the distribution for the difference of the first hitting times of two
molecules is very important if the information is encoded by a limited set of
molecules and the receiver exploits their arrival time and/or order. Hence, we
propose a moment matching approximation by a normal inverse Gaussian (NIG)
distribution and we derive an expression for the asymptotic tail probability.
Numerical evaluations showed that the NIG approximation matches very well with
the exact solution obtained by numerical convolution of the IG density
functions. Moreover, the asymptotic tail probability outperforms
state-of-the-art tail approximations.Comment: This paper has been submitted to IEEE Transactions on Molecular,
Biological and Multi-Scale Communication
Performance Analysis of Micro Unmanned Airborne Communication Relays for Cellular Networks
This paper analyses the potential of utilising small unmanned-aerial-vehicles
(SUAV) as wireless relays for assisting cellular network performance. Whilst
high altitude wireless relays have been investigated over the past 2 decades,
the new class of low cost SUAVs offers new possibilities for addressing local
traffic imbalances and providing emergency coverage.We present field-test
results from an SUAV test-bed in both urban and rural environments. The results
show that trough-to-peak throughput improvements can be achieved for users in
poor coverage zones. Furthermore, the paper reinforces the experimental study
with large-scale network analysis using both stochastic geometry and multi-cell
simulation results.Comment: conferenc
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