In order to mitigate inter-cell interference and cope with network, traffic, and channel fluctuations in space and time, Orthogonal Frequency Division Multiple Access (OFDMA) based cellular network
Enhanced Inter-cell Interference Co-ordination (eICIC) is a time-domain multiplexing technique for supporting and improving the performance of range extended pico cells deployed on the same carrier
In parametric devices based on nondegenerate four-wave mixing, there exist dynamic eigenstates for the signal and idler, for which there is no change of polarization as the waves propagate.
We propose a unifying theory of dynamic eigen state of polarization (DESP) to describe the sensitibity of the polarization for the optical medium.
Enhanced intercell interference coordination (eICIC) is a key ingredient in boosting the performance of cochannel heterogeneous networks.
Vapour and gas bubbles are known to increase heat transfer rates from adjacent heated surfaces, a phenomenon attributed to the interaction between the bubble and the thermal boundary layer.
We report here a new dynamic device that can compensate a spectral variation in the erbium doped fibre amplifier (EDFA) gain.
Dynamic inter-cell interference coordination (ICIC) is multi-point cooperation technology that has attracted significant interest for inter-cell interference mitigation in wireless communication sy
Deployment of both outdoor and indoor Small Cell Base Stations (SCBSs) has attracted significant interest in the wireless industry.
The concept of a user-deployed femtocell which operates in licensed spectrum and provides cellular coverage in the home has attracted much interest in the wireless industry and an extensive deploym
