Future cellular networks need to support data hungry applications with enhanced data rates possibly via cell densification (ultra-small cells). The key objective of this work is to study the performance of a cellular network by taking into account the user mobility when LTE ultra-small cell network is deployed. Handover (HO) issues are analyzed considering various cell sizes, user speeds, and HO optimization related parameters. This study is very helpful to realize the problem of HO in 5G standalone network deployment as it shows the impact of LTE ultra-small cell deployment on the HO performance. A system level simulator is used to perform simulation and the results show that, as expected, the ultra-densification results in an increased nu...
The flood of applications that demand massive data has imposed a challenge for 5G cellular network i...
In the past few years, the demand for data traffic has increased explosively, in order to meet such ...
The mobility management will be more complex and will have a great impact on the quality of service ...
| openaire: EC/H2020/722424/EU//SECRETFuture cellular networks need to support data hungry applicati...
In this paper we address the impact of cell size on the handover procedure in a Long Term Evolution ...
More and more cellular network operators enable the unplanned deployment of small-sized cellular sta...
To satisfy the ever-growing demand for enhanced data rate in future cellular networks, an ultra-dens...
Future cellular networks as envisaged by mobile operators, are expected to consist of macro cells ov...
With fast growing traffic, high-density small cells (SC) deployment is envisioned in 5G network unde...
User mobility and handover are two important functions in mobile networks that provide seamless conn...
The massive growth of mobile users will spread to significant numbers of small cells for the Fifth G...
To satisfy the high data demands in future cellular networks, an ultra-densification approach is int...
Femtocell technology has improved cellular coverage and capacity allowing the provision of rich and ...
To satisfy the high data demands in future cellular networks, an ultra-densification approach is int...
LTE (Long Term Evolution) is a fourth generation cellular network technology that provides improved ...
The flood of applications that demand massive data has imposed a challenge for 5G cellular network i...
In the past few years, the demand for data traffic has increased explosively, in order to meet such ...
The mobility management will be more complex and will have a great impact on the quality of service ...
| openaire: EC/H2020/722424/EU//SECRETFuture cellular networks need to support data hungry applicati...
In this paper we address the impact of cell size on the handover procedure in a Long Term Evolution ...
More and more cellular network operators enable the unplanned deployment of small-sized cellular sta...
To satisfy the ever-growing demand for enhanced data rate in future cellular networks, an ultra-dens...
Future cellular networks as envisaged by mobile operators, are expected to consist of macro cells ov...
With fast growing traffic, high-density small cells (SC) deployment is envisioned in 5G network unde...
User mobility and handover are two important functions in mobile networks that provide seamless conn...
The massive growth of mobile users will spread to significant numbers of small cells for the Fifth G...
To satisfy the high data demands in future cellular networks, an ultra-densification approach is int...
Femtocell technology has improved cellular coverage and capacity allowing the provision of rich and ...
To satisfy the high data demands in future cellular networks, an ultra-densification approach is int...
LTE (Long Term Evolution) is a fourth generation cellular network technology that provides improved ...
The flood of applications that demand massive data has imposed a challenge for 5G cellular network i...
In the past few years, the demand for data traffic has increased explosively, in order to meet such ...
The mobility management will be more complex and will have a great impact on the quality of service ...