Deployment and demand traces are a crucial tool to study today's LTE systems, as well as their evolution toward 5G. In this paper, we use a set of real-world, crowdsourced traces, coming from the WeFi and OpenSignal apps, to investigate how present-day networks are deployed, and the load they serve. Given this information, we present a way to generate {\em synthetic} deployment and demand profiles, retaining the same features of their real-world counterparts. We further discuss a methodology using traces (both real-world and synthetic) to assess (i) to which extent the current deployment is adequate to the current {\em and future} demand, and (ii) the effectiveness of the existing strategies to improve network capacity. Applying our m...
The following provides a 4G trace dataset composed of client-side cellular key performance indicator...
Cellular mobile networks have enabled ubiquitous communications and largely changed the way we live ...
Seamless and ubiquitous coverage are key factors for future cellular networks. Despite capacity and ...
Deployment and demand traces are a crucial tool to study today's LTE systems, as well as their evolu...
We focus on today’s LTE systems and use realworld, crowdsourced traces to understand (i) how present...
In this paper, we present a 5G trace dataset collected from a major Irish mobile operator. The datas...
In this work, we present a 5G trace dataset collected from a major Irish mobile operator. The datase...
Much of the research about 5G networks deals with emerging or upcoming applications, e.g., self-driv...
In this work, we present a 5G trace dataset collected from a major Irish mobile operator. The datase...
Internet of Things (IoT) and sensor fusion techniques may be used to collect data about the current ...
The fifth-generation mobile initiative, 5G, is a tremendous and collective effort to specify, stand...
Mobile networks have become highly complex systems. In order to better understand how network featur...
The analysis of real mobile traffic traces is helpful to understand usage patterns of cellular netwo...
Moving from 4G LTE to 5G is an archetypal example of technological change. Mobile Network Operators ...
In this paper, we present a 4G trace dataset composed of client-side cellular key performance indica...
The following provides a 4G trace dataset composed of client-side cellular key performance indicator...
Cellular mobile networks have enabled ubiquitous communications and largely changed the way we live ...
Seamless and ubiquitous coverage are key factors for future cellular networks. Despite capacity and ...
Deployment and demand traces are a crucial tool to study today's LTE systems, as well as their evolu...
We focus on today’s LTE systems and use realworld, crowdsourced traces to understand (i) how present...
In this paper, we present a 5G trace dataset collected from a major Irish mobile operator. The datas...
In this work, we present a 5G trace dataset collected from a major Irish mobile operator. The datase...
Much of the research about 5G networks deals with emerging or upcoming applications, e.g., self-driv...
In this work, we present a 5G trace dataset collected from a major Irish mobile operator. The datase...
Internet of Things (IoT) and sensor fusion techniques may be used to collect data about the current ...
The fifth-generation mobile initiative, 5G, is a tremendous and collective effort to specify, stand...
Mobile networks have become highly complex systems. In order to better understand how network featur...
The analysis of real mobile traffic traces is helpful to understand usage patterns of cellular netwo...
Moving from 4G LTE to 5G is an archetypal example of technological change. Mobile Network Operators ...
In this paper, we present a 4G trace dataset composed of client-side cellular key performance indica...
The following provides a 4G trace dataset composed of client-side cellular key performance indicator...
Cellular mobile networks have enabled ubiquitous communications and largely changed the way we live ...
Seamless and ubiquitous coverage are key factors for future cellular networks. Despite capacity and ...