Here, we present a mobility prediction framework for 5G mobile systems. Our work stems from the intuition that mobility in vehicular networks is highly correlated, and such correlation can be captured by advanced neural network designs to anticipate the users' point of attachment. To prove this, we combine Markov chains with recurrent and convolutional neural networks, training them on mobility trajectories estimated by the received radio signal from mobile millimeter-wave devices. The proposed framework is decentralized, i.e., user trajectories are independently learned by each base station. In this paper, various problems are pragmatically tackled and solved, such as dealing with imbalanced datasets, as some trajectories are under represe...
Millimeter-wave (mm-wave) communication, which has already been a part of the fifth generation of mo...
thus the implementation of this technique will give the significant impact especially on higher spee...
The Long Term Evolution (LTE) femtocell has promised to improve indoor coverage and enhance data rat...
Owing to the challenging nature of emerging applications, such as augmented reality, 4 K video strea...
Abstract — Wireless user-mobility prediction has been inves-tigated from various angles to improve n...
Users’ mobility has a huge impact on the performance of cellular networks. Acknowledge users’ multip...
AbstractRecent advances in wireless technology and computing have paved the way to the unprecedented...
International audienceA promising potential of Unmanned Aerial Vehicles (UAV) in 5G networks is to a...
The vision of next generation networks (4G & beyond) is to make possible seamless mobility acros...
With the rapid development of wireless networks, more and more online services significantly raise m...
dortmund.de In mobile networks, moving users generate trails of traversed cells. For the network, th...
Mobility prediction is one of the mostcritical research areas in wireless network. At thenetwork lev...
Abstract. Efficient planning and improved quality of service (QoS) in wireless networks call for the...
Part 12: 5G – Putting Intelligence to the Network Edge (5G-PINE)International audienceThis paper con...
Location prediction serves to save capacity on the air interface of mobile radio networks. Location ...
Millimeter-wave (mm-wave) communication, which has already been a part of the fifth generation of mo...
thus the implementation of this technique will give the significant impact especially on higher spee...
The Long Term Evolution (LTE) femtocell has promised to improve indoor coverage and enhance data rat...
Owing to the challenging nature of emerging applications, such as augmented reality, 4 K video strea...
Abstract — Wireless user-mobility prediction has been inves-tigated from various angles to improve n...
Users’ mobility has a huge impact on the performance of cellular networks. Acknowledge users’ multip...
AbstractRecent advances in wireless technology and computing have paved the way to the unprecedented...
International audienceA promising potential of Unmanned Aerial Vehicles (UAV) in 5G networks is to a...
The vision of next generation networks (4G & beyond) is to make possible seamless mobility acros...
With the rapid development of wireless networks, more and more online services significantly raise m...
dortmund.de In mobile networks, moving users generate trails of traversed cells. For the network, th...
Mobility prediction is one of the mostcritical research areas in wireless network. At thenetwork lev...
Abstract. Efficient planning and improved quality of service (QoS) in wireless networks call for the...
Part 12: 5G – Putting Intelligence to the Network Edge (5G-PINE)International audienceThis paper con...
Location prediction serves to save capacity on the air interface of mobile radio networks. Location ...
Millimeter-wave (mm-wave) communication, which has already been a part of the fifth generation of mo...
thus the implementation of this technique will give the significant impact especially on higher spee...
The Long Term Evolution (LTE) femtocell has promised to improve indoor coverage and enhance data rat...