Negin Golrezaei scite author profile

Video on-demand streaming from Internetbased servers is becoming one of the most important services offered by wireless networks today. In order to improve the area spectral efficiency of video transmission in cellular systems, small cells heterogeneous architectures (e.g., femtocells, WiFi off-loading) are being proposed, such that video traffic to nomadic users can be handled by short-range links to the nearest small cell access points (referred to as "helpers"). As the helper deployment density increases, the backhaul capacity becomes the system bottleneck. In order to alleviate such bottleneck we propose a system where helpers with low-rate backhaul but high storage capacity cache popular video files. Files not available from helpers are transmitted by the cellular base station. We analyze the optimum way of assigning files to the helpers, in order to minimize the expected downloading time for files. We distinguish between the uncoded case (where only complete files are stored) and the coded case, where segments of Fountain-encoded versions of the video files are stored at helpers. We show that the uncoded optimum file assignment is NP-hard, and develop a greedy strategy that is provably within a factor 2 of the optimum. Further, for a special case we provide an efficient algorithm achieving a provably better approximation ratio of 1 − (1 − 1/d) d , where d is the maximum number of helpers a user can be connected to. We also show that the coded optimum cache assignment problem is convex that can be further reduced to a linear program. We present numerical results comparing the proposed schemes.

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FemtoCaching: Wireless video content delivery through distributed caching helpers

Golrezaei

et al. 2012

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Abstract-Video on-demand streaming from Internetbased servers is becoming one of the most important services offered by wireless networks today. In order to improve the area spectral efficiency of video transmission in cellular systems, small cells heterogeneous architectures (e.g., femtocells, WiFi off-loading) are being proposed, such that video traffic to nomadic users can be handled by short-range links to the nearest small cell access points (referred to as "helpers"). As the helper deployment density increases, the backhaul capacity becomes the system bottleneck. In order to alleviate such bottleneck we propose a system where helpers with low-rate backhaul but high storage capacity cache popular video files. Files not available from helpers are transmitted by the cellular base station. We analyze the optimum way of assigning files to the helpers, in order to minimize the expected downloading time for files. We distinguish between the uncoded case (where only complete files are stored) and the coded case, where segments of Fountain-encoded versions of the video files are stored at helpers. We show that the uncoded optimum file assignment is NP-hard, and develop a greedy strategy that is provably within a factor 2 of the optimum. Further, for a special case we provide an efficient algorithm achieving a provably better approximation ratio of 1where d is the maximum number of helpers a user can be connected to. We also show that the coded optimum cache assignment problem is convex that can be further reduced to a linear program. We present numerical results comparing the proposed schemes.

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Femtocaching and device-to-device collaboration: A new architecture for wireless video distribution

et al. 2013

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We present a new architecture to handle the ongoing explosive increase in the demand for video content in wireless networks. It is based on distributed caching of the content in femto-basestations with small or non-existing backhaul capacity but with considerable storage space, called helper nodes. We also consider using the mobile terminals themselves as caching helpers, which can distribute video through device-to-device communications. This approach allows an improvement in the video throughput without deployment of any additional infrastructure. The new architecture can improve video throughput by one to two orders-of-magnitude.

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Base-Station Assisted Device-to-Device Communications for High-Throughput Wireless Video Networks

Golrezaei

Mansourifard

Molisch

et al. 2014

IEEE Trans. Wireless Commun.

444

364

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Abstract-We propose a new scheme for increasing the throughput of video files in cellular communications systems. This scheme exploits (i) the redundancy of user requests as well as (ii) the considerable storage capacity of smartphones and tablets. Users cache popular video files and -after receiving requests from other users -serve these requests via device-to-device localized transmissions. We investigate what is the optimal collaboration distance, trading off frequency reuse with the probability of finding a requested file within the collaboration distance. We show that an improvement of spectral efficiency of one to two orders of magnitude is possible, even if there is not very high redundancy in video requests.

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Base-station assisted device-to-device communications for high-throughput wireless video networks

2012

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We propose a new scheme for increasing the throughput of video files in cellular communications systems. This scheme exploits (i) the redundancy of user requests as well as (ii) the considerable storage capacity of smartphones and tablets. Users cache popular video files and -after receiving requests from other users -serve these requests via device-to-device localized transmissions. The file placement is optimal when a central control knows a priori the locations of wireless devices when file requests occur.However, even a purely random caching scheme shows only a minor performance loss compared to such a "genie-aided" scheme. We then analyze the optimal collaboration distance, trading off frequency reuse with the probability of finding a requested file within the collaboration distance. We show that an improvement of spectral efficiency of one to two orders of magnitude is possible, even if there is not very high redundancy in video requests.Existing Literature: Exploiting the redundancy of video requests in cellular networks is not new, but in the past has been used in fundamentally different ways compared to our approach.Wireless TV, such as MediaFlow, was exploiting the broadcast effect to supply the same video stream to many users simultaneously. However, consumers expect on demand capability for cellular transmission. Caching of popular files at the base stations, or at mobile switching centers is discussed, e.g., in [3], but it only helps to reduce the strain on the cellular backhaul, without alleviating the "on air" congestion. However, the efficiency of this approach is limited by the number of files that can be stored on a single device. A pioneering precoding scheme that works in conjunction with broadcast from the BS was recently introduced by [4]. Caching files that

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Negin Golrezaei

FemtoCaching: Wireless Content Delivery Through Distributed Caching Helpers

FemtoCaching: Wireless video content delivery through distributed caching helpers

Femtocaching and device-to-device collaboration: A new architecture for wireless video distribution

Base-Station Assisted Device-to-Device Communications for High-Throughput Wireless Video Networks

Base-station assisted device-to-device communications for high-throughput wireless video networks

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