We derive an analytical formula for the sum rate of the uplink of a linear network of cells when clustered joint processing is adopted among the base stations in a generalised fading environment. An inter-cluster interference allowance scheme is considered and various user power allocation profiles are investigated in terms of optimal achievable sum rate to highlight that cell-based power allocation is preferable to cluster-based. The contribution of each base station on the cluster sum rate is investigated and its importance is discussed. Numerical results are produced for a real-world scenario showing how medium density systems are the most viable case for clustered system design by achieving > 80% of the global cooperation capacity
The raised user expectations of quality of service and the rapid growth of the data traffics impose ...
As a result of the rapid exhaustion of available electromagnetic spectra and industry trend towards...
Due to requirements of large bandwidth and increased computational complexity, conventional cellular...
We derive an analytical formula for the sum rate of the uplink of a linear network of cells when clu...
This paper examines the uplink of cellular systems employing base station cooperation for joint sign...
In this paper we derive the sum rate of the uplink of a linear network of cells when clustered coord...
We provide an analytical formula to evaluate the performance of the uplink of planar cellular networ...
We focus on the mean achievable rate per user of the coordinated base station downlink transmission ...
Abstract Multicell joint processing has originated from information-theoretic principles as a means ...
In current day modern multicell networks, inter-cell interference (ICI) poses a major obstacle to ac...
This thesis examines interference modeling and management in small cell cognitive radio networks. A...
Multicell Joint Processing has emerged as a new paradigm of cooperative communications, which aims a...
The rise in wireless data traffic requires innovative interference management techniques to meet the...
With the emergence and continuous growth of wireless data services, the value of wireless networks i...
In this paper, three joint processing schemes for the downlink are characterized and compared within...
The raised user expectations of quality of service and the rapid growth of the data traffics impose ...
As a result of the rapid exhaustion of available electromagnetic spectra and industry trend towards...
Due to requirements of large bandwidth and increased computational complexity, conventional cellular...
We derive an analytical formula for the sum rate of the uplink of a linear network of cells when clu...
This paper examines the uplink of cellular systems employing base station cooperation for joint sign...
In this paper we derive the sum rate of the uplink of a linear network of cells when clustered coord...
We provide an analytical formula to evaluate the performance of the uplink of planar cellular networ...
We focus on the mean achievable rate per user of the coordinated base station downlink transmission ...
Abstract Multicell joint processing has originated from information-theoretic principles as a means ...
In current day modern multicell networks, inter-cell interference (ICI) poses a major obstacle to ac...
This thesis examines interference modeling and management in small cell cognitive radio networks. A...
Multicell Joint Processing has emerged as a new paradigm of cooperative communications, which aims a...
The rise in wireless data traffic requires innovative interference management techniques to meet the...
With the emergence and continuous growth of wireless data services, the value of wireless networks i...
In this paper, three joint processing schemes for the downlink are characterized and compared within...
The raised user expectations of quality of service and the rapid growth of the data traffics impose ...
As a result of the rapid exhaustion of available electromagnetic spectra and industry trend towards...
Due to requirements of large bandwidth and increased computational complexity, conventional cellular...