We address the use of maximum distance separable (MDS) codes for distributed storage (DS) to enable efficient content delivery in wireless networks. Content is stored in a number of the mobile devices and can be retrieved from them using device-to-device communication or, alternatively, from the base station (BS). We derive an analytical expression for the download delay in the hypothesis that the reliability state of the network is periodically restored. Our analysis shows that MDS-coded DS can dramatically reduce the download time with respect to the reference scenario where content is always downloaded from the BS
The amount of content downloaded to mobile devices, mainly driven by the demand for video content, t...
Abstract—We examine the problem of creating an encoded distributed storage representation of a data ...
We examine the problem of creating an encoded distributed storage representation of a data object fo...
We address the use of maximum distance separable (MDS) codes for distributed storage (DS) to enable ...
Abstract-We address the use of maximum distance separable (MDS) codes for distributed storage (DS) t...
We investigate the use of maximum distance separable (MDS) codes to cache popular content to reduce ...
We consider the use of distributed storage (DS) to reduce the communication cost of content delivery...
In this paper, we investigate the caching of files in mobile devices in a wireless D2D network using...
Wireless distributed storage systems can potentially relieve the centralized traffic burden of base ...
We consider the caching of content in the mobile devices in a dense wireless network using maximum d...
We consider the problem of storing segments of encoded versions of content files in a set of base st...
In this paper we study how coding in distributed storage reduces download time, in addition to provi...
We consider distributed storage (DS) for a wireless network where mobile devices arrive and depart a...
Abstract—Distributed storage systems (DSSs) have gained a lot of interest recently, thanks to their ...
In conventional maximum distance separable (MDS) coded caching systems, storage-efficient caching st...
The amount of content downloaded to mobile devices, mainly driven by the demand for video content, t...
Abstract—We examine the problem of creating an encoded distributed storage representation of a data ...
We examine the problem of creating an encoded distributed storage representation of a data object fo...
We address the use of maximum distance separable (MDS) codes for distributed storage (DS) to enable ...
Abstract-We address the use of maximum distance separable (MDS) codes for distributed storage (DS) t...
We investigate the use of maximum distance separable (MDS) codes to cache popular content to reduce ...
We consider the use of distributed storage (DS) to reduce the communication cost of content delivery...
In this paper, we investigate the caching of files in mobile devices in a wireless D2D network using...
Wireless distributed storage systems can potentially relieve the centralized traffic burden of base ...
We consider the caching of content in the mobile devices in a dense wireless network using maximum d...
We consider the problem of storing segments of encoded versions of content files in a set of base st...
In this paper we study how coding in distributed storage reduces download time, in addition to provi...
We consider distributed storage (DS) for a wireless network where mobile devices arrive and depart a...
Abstract—Distributed storage systems (DSSs) have gained a lot of interest recently, thanks to their ...
In conventional maximum distance separable (MDS) coded caching systems, storage-efficient caching st...
The amount of content downloaded to mobile devices, mainly driven by the demand for video content, t...
Abstract—We examine the problem of creating an encoded distributed storage representation of a data ...
We examine the problem of creating an encoded distributed storage representation of a data object fo...