Radio planning and coverage optimization are critical issues when deploying and expanding third generation cellular systems. We investigate mixed integer programming models for locating and configuring base stations in UMTS networks so as to maximize cov- erage and minimize installation costs. The overall model considers both uplink and downlink directions, that we studied separately in Amaldi et al. (2002, 2003b). The two-stage Tabu Search algorithm we propose exploits solutions of a simplified model for the uplink direction to drastically reduce the computational time required to find good approximate solutions of the overall uplink and downlink model. Computational results obtained for realistic instances are reported and discussed
The UMTS radio network planning problem poses the challenge of designing a cost-effective network th...
Mobility, as provided in cellular networks, is largely affected by the location of the base stations...
This paper deals with the solution of the mathematical optimisation model introduced in D4.2 for ob...
Radio planning and coverage optimization are critical issues when deploying and expanding third gene...
Abstract — The problem of planning third generation UMTS networks with a W-CDMA radio interface is i...
Abstract — The planning of UMTS radio networks must take into account not only signal levels in the ...
Abstract—Classical coverage models, adopted for second-gen-eration cellular systems, are not suited ...
Radio networks of universal mobile telecommunication system (UMTS) need accurate planning and optimi...
Cell planning problem with capacity expansion is examined in wireless communications. The problem de...
The aim of this paper is to study the impact of the base station site locations and antenna orientat...
M. Tech. Electrical Engineering.Discusses how to find the best set of base station locations in 3G n...
Although upper bounds on cell planning have been derived for UMTS systems, little has been done to a...
Radio network planning for UMTS technology is a relevant task for operators in the current roll-out...
This paper is concerned with UMTS radio network design. The task is to reconfigure antennas and the ...
This paper is concerned with UMTS radio network design. The task is to recon-figure antennas and the...
The UMTS radio network planning problem poses the challenge of designing a cost-effective network th...
Mobility, as provided in cellular networks, is largely affected by the location of the base stations...
This paper deals with the solution of the mathematical optimisation model introduced in D4.2 for ob...
Radio planning and coverage optimization are critical issues when deploying and expanding third gene...
Abstract — The problem of planning third generation UMTS networks with a W-CDMA radio interface is i...
Abstract — The planning of UMTS radio networks must take into account not only signal levels in the ...
Abstract—Classical coverage models, adopted for second-gen-eration cellular systems, are not suited ...
Radio networks of universal mobile telecommunication system (UMTS) need accurate planning and optimi...
Cell planning problem with capacity expansion is examined in wireless communications. The problem de...
The aim of this paper is to study the impact of the base station site locations and antenna orientat...
M. Tech. Electrical Engineering.Discusses how to find the best set of base station locations in 3G n...
Although upper bounds on cell planning have been derived for UMTS systems, little has been done to a...
Radio network planning for UMTS technology is a relevant task for operators in the current roll-out...
This paper is concerned with UMTS radio network design. The task is to reconfigure antennas and the ...
This paper is concerned with UMTS radio network design. The task is to recon-figure antennas and the...
The UMTS radio network planning problem poses the challenge of designing a cost-effective network th...
Mobility, as provided in cellular networks, is largely affected by the location of the base stations...
This paper deals with the solution of the mathematical optimisation model introduced in D4.2 for ob...