In 5G ultra-dense networks, a large number of mobile users (MUs) request a huge amount of high data rate video traffic causing a peak congestion situation at the macro base station (MBS) and small-cell base stations. This situation certainly reduces the total video capacity delivered to the MUs. In this paper, we exploit the available spectrum and storage resources of the MUs as well as the wireless broadcast nature of device-to-device (D2D) communications to propose a joint downlink resource sharing and caching helper selection (DRS-CHS) control to maximize the multicast video delivery capacity in dense D2D 5G networks. We assume that the MUs are divided into different clusters in which they can communicate with each other by D2D communica...
The fifth generation wireless networks must provide fast and reliable connectivity while coping with...
Wireless video is the main driver for rapid growth in cellular data traffic. Traditional methods for...
Abstract—Cellular data traffic almost doubles every year, greatly straining network capacity. The ma...
© 2017 IEEE. Mobile video traffic and mobile devices have now outpaced other data traffic and fixed ...
In this paper, we propose a two-Tiered segment-based Device-To-Device (S-D2D) caching approach to de...
Abstract Proactive wireless caching and device to device (D2D) communication have emerged as promis...
In this paper, we propose a two-tiered segment-based Device-to-Device (S-D2D) caching approach to de...
Small-cell network is a promising solution to high video traffic. However, with the increasing numbe...
The video traffic offloading in edge networks is an effective method for remission of congestion of ...
With the increase in the number of devices connected to the network and the increase in data rates, ...
In this paper, we consider downlink resource allocation of a cellular user to group of device-to-dev...
A new paradigm of wireless video delivery between users in the converged D2D network and cellular sy...
Device-to-device (D2D) multicast communication can greatly improve the spectrum utilization in a con...
Leveraging video caching to collaborative Mobile Edge Computing (MEC) servers is an emerging paradig...
In the scenario where multiple device-to-device (D2D) users and cellular users coexist, the large nu...
The fifth generation wireless networks must provide fast and reliable connectivity while coping with...
Wireless video is the main driver for rapid growth in cellular data traffic. Traditional methods for...
Abstract—Cellular data traffic almost doubles every year, greatly straining network capacity. The ma...
© 2017 IEEE. Mobile video traffic and mobile devices have now outpaced other data traffic and fixed ...
In this paper, we propose a two-Tiered segment-based Device-To-Device (S-D2D) caching approach to de...
Abstract Proactive wireless caching and device to device (D2D) communication have emerged as promis...
In this paper, we propose a two-tiered segment-based Device-to-Device (S-D2D) caching approach to de...
Small-cell network is a promising solution to high video traffic. However, with the increasing numbe...
The video traffic offloading in edge networks is an effective method for remission of congestion of ...
With the increase in the number of devices connected to the network and the increase in data rates, ...
In this paper, we consider downlink resource allocation of a cellular user to group of device-to-dev...
A new paradigm of wireless video delivery between users in the converged D2D network and cellular sy...
Device-to-device (D2D) multicast communication can greatly improve the spectrum utilization in a con...
Leveraging video caching to collaborative Mobile Edge Computing (MEC) servers is an emerging paradig...
In the scenario where multiple device-to-device (D2D) users and cellular users coexist, the large nu...
The fifth generation wireless networks must provide fast and reliable connectivity while coping with...
Wireless video is the main driver for rapid growth in cellular data traffic. Traditional methods for...
Abstract—Cellular data traffic almost doubles every year, greatly straining network capacity. The ma...