This paper studies LTE (Long-Term Evolution)-Advanced heterogeneous network expansion in a dense urban environment for a 1000 times capacity increase and a 10 times increase of the minimum user data rate requirements. The radio network capacity enhancement via outdoor and indoor small cell densification and utilization of the higher frequency bands has been investigated. As the baseline, we assume a full LTE-Advanced network deployment. Rather than looking at peak data rate, we focus on the end-user experience defined as 90% coverage at a minimum user data rate. We conclude that the 1000 times network capacity increase together with the 10 times increase of minimum user data rate can be reached by LTE-Advanced deployment with approximately ...
AbstractIn this paper we develop “state-of-the-art” cost model of the heterogeneous wireless network...
Frequency spectrum is the scarce resource. From mobile operator’s point of view, efficient utilizati...
In recent years Mobile Network Operators (MNOs) worldwide are extensively deploying LTE networks in ...
This paper studies the capability of Long-Term Evolution-Advanced (LTE-A) together with WiFi 802.11a...
Wireless data traffic has been increasing exponentially in recent years. Driven by a new generation ...
This paper is based on the newly advanced cellular technology called Long Term Evolution (LTE). It i...
The main objective of the paper is to investigate and compare the downlink performance of different ...
New multimedia services such as HTTP live video streaming [1] demand for higher capacity, especially...
As the demand for mobile data is expected to keep on growing, the mobile network needs constant deve...
Long Term Evolution (LTE) is the latest and most enhanced broadband wireless access (BWA) technology...
Long-Term Evolution (LTE) allows operators to use new and wider spectrum and complements 3G networks...
Long Term Evolution (LTE) is the enhancement to 3G and GSM cellular system that has been in use for ...
Abstract — Long-Term Evolution (LTE) allows operators to use new and wider spectrum and complements ...
An initial analysis of 5G has shown that it is a radical departure form the generational trend: In p...
The exponential grow of data traffic, sets stringent requirements for future generation networks. Th...
AbstractIn this paper we develop “state-of-the-art” cost model of the heterogeneous wireless network...
Frequency spectrum is the scarce resource. From mobile operator’s point of view, efficient utilizati...
In recent years Mobile Network Operators (MNOs) worldwide are extensively deploying LTE networks in ...
This paper studies the capability of Long-Term Evolution-Advanced (LTE-A) together with WiFi 802.11a...
Wireless data traffic has been increasing exponentially in recent years. Driven by a new generation ...
This paper is based on the newly advanced cellular technology called Long Term Evolution (LTE). It i...
The main objective of the paper is to investigate and compare the downlink performance of different ...
New multimedia services such as HTTP live video streaming [1] demand for higher capacity, especially...
As the demand for mobile data is expected to keep on growing, the mobile network needs constant deve...
Long Term Evolution (LTE) is the latest and most enhanced broadband wireless access (BWA) technology...
Long-Term Evolution (LTE) allows operators to use new and wider spectrum and complements 3G networks...
Long Term Evolution (LTE) is the enhancement to 3G and GSM cellular system that has been in use for ...
Abstract — Long-Term Evolution (LTE) allows operators to use new and wider spectrum and complements ...
An initial analysis of 5G has shown that it is a radical departure form the generational trend: In p...
The exponential grow of data traffic, sets stringent requirements for future generation networks. Th...
AbstractIn this paper we develop “state-of-the-art” cost model of the heterogeneous wireless network...
Frequency spectrum is the scarce resource. From mobile operator’s point of view, efficient utilizati...
In recent years Mobile Network Operators (MNOs) worldwide are extensively deploying LTE networks in ...