This chapter presents the principles of first longâterm evolution (LTE) version in Release 8 as well as the first development step with LTE Advanced in Releases 10 and 11.
- Today's wireless network complexity and the new applications from smart phones call for an in-depth understanding of the mutual impact of networks and applications.
This chapter gives an overview of different aspects of longâterm evolution (LTE) backhaul.
This article reviews technology and business enablers for future flexible use concepts of the UHF broadcasting spectrum (470-790 MHz) by digital terrestrial TV and MBB.
LTE deployment using a network overlay for rapid wide area deployment is a more efficient approach than adding LTE support as part of an overall cell site upgrade using single radio access network
It is increasingly being recognised that effective communications are key to a successful response to emergency and disaster situations.
It is forecasted that mobile data traffic will increase 1000-fold from 2010 to 2020.
It is forecasted that mobile data traffic will increase 1000-fold from 2010 to 2020. As a result, the network must evolve to meet the large and rapidly growing data demand.
This paper provides an updated analysis of link-budget and coverage performance for LTE IoT technologies: enhancements for machine type communications (eMTC) and narrowband Internet of Things (NB-I
The longâterm evolution (LTE) network performance measured by network or drive test key performance indicators (KPIs) can be perfected by parameter tuning.
