Fundamental Limits of Cache-Aided Interference Management

Naderializadeh, Navid; Maddah-Ali, Mohammad Ali; Avestimehr, A. Salman

doi:10.1109/tit.2017.2669942

Cited by 198 publications

(323 citation statements)

References 27 publications

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“…The work in [13] studies the storage-latency trade-off for cache-aided wireless interference networks consisting of K T transmitters (K T ≥ 2) and two or three receivers. Authors introduce a new coded caching technique that leverages adjustable file splitting, and using this placement phase as well as IA and ZF techniques, they caractherize the fractional delivery time, obtaining similar results to those in [7], [12]. A 3 × 3 cache-aided MIMO interference network is studied in [14], where the achievable fractional delivery time is characterized.…”

Section: Introductionmentioning

confidence: 96%

“…They propose a transmission scheme that exploits zero-forcing (ZF) and interference alignment (IA) techniques, leveraging content availability at the transmitter caches, in order to create different types of channels for delivering the remaining parts of the requested content. In [12], the authors extend this model to a K T × K R network, in which both the transmitters and receivers are equipped with cache memories. Nonetheless, in [12], the authors exploit only ZF and the receiver cache contents for interference cancellation (IC).…”

Section: Introductionmentioning

confidence: 99%

“…In [12], the authors extend this model to a K T × K R network, in which both the transmitters and receivers are equipped with cache memories. Nonetheless, in [12], the authors exploit only ZF and the receiver cache contents for interference cancellation (IC). The work in [13] studies the storage-latency trade-off for cache-aided wireless interference networks consisting of K T transmitters (K T ≥ 2) and two or three receivers.…”

Section: Introductionmentioning

confidence: 99%

“…Similarly to [12] and [19], we consider a general interference network of single antenna terminals with cache capabilities at both ends. We first propose a centralized caching and delivery scheme that uses the same placement phase as in [12], but leverages a combination of ZF, IA and IC.…”

Section: Introductionmentioning

confidence: 99%

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Interference networks with caches at both ends

Roig

Gündüz

Tosato

2017

2017 IEEE International Conference on Communications (ICC)

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Abstract-A KT × KR cache-aided wireless interference network, in which both the transmitters and the receivers are equipped with cache memories is studied. Each user requests one file from a library of N popular files. The goal is to design the cache contents without the knowledge of the particular user demands, such that all possible demand combinations can be satisfied reliably over the interference channel. The achievable sum degrees-of-freedom (sDoF) and the normalized delivery time (NDT) are studied for centralized and decentralized network architectures, respectively. First, using a combination of interference alignment (IA), zero-forcing (ZF) and interference cancellation (IC) techniques, a novel caching and transmission scheme for centralized networks is introduced, and it is shown to improve the sDoF upon the state-of-the-art. Then, the NDT is studied when the content placement at the receiver caches is carried out in a decentralized manner. Our results indicate that, for this particular network architecture, caches located at the receiver side are more effective than those at the transmitter side in order to reduce the NDT.

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Section: Introductionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Interference networks with caches at both ends

Roig

Gündüz

Tosato

2017

2017 IEEE International Conference on Communications (ICC)

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“…[11] analyzes the benefits of caching and interference alignment at BSs in MIMO system with limited backhaul. Cache placement and interference management are elaborated in [12] cache-enabled. However, backhaul is needed for the interconnection of cache-enabled transmitters to achieve cooperative transmission in previous studies.…”

Section: Introductionmentioning

confidence: 99%

Modeling and Analysis for Cache-Enabled Networks With Dynamic Traffic

2016

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Abstract-Instead of assuming fully loaded cells in the analysis on cache-enabled networks with tools of stochastic geometry, we focus on the dynamic traffic in this letter. With modeling traffic dynamics of request arrivals and departures, probabilities of full-, free-, and modest-load cells in the large-scale cache-enabled network are elaborated based on the traffic queue state. Moreover, we propose to exploit the packets cached at cache-enabled users as side information to cancel the incoming interference. Then the packet loss rates for both the cache-enabled and cache-untenable users are investigated. The simulation results verify our analysis.

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The role of caching in next generation cellular networks: A survey and research outlook

Kabir

Rehman

Gilani

et al. 2019

Trans Emerging Tel Tech

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Mobile applications and social networks tend to enhance the needs for high‐quality content access. To address the expeditious growing demand for data services in 5G cellular networks, it is important to develop distribution techniques and an efficient content caching, aiming to significantly reduce redundant data transmission and, thus, improve the efficiency of the networks. In modern communication systems, caching has emerged as a vital tool for reducing peak data rates. It is anticipated that energy harvesting and self‐powered small base stations are the fundamental part of next‐generation cellular networks. However, uncertainties in energy are the main reason to adopt energy efficient power control schemes to reduce SBS energy consumption and ensure the quality of services for users. Using the edge cooperative caching such as energy efficient design can also be achievable, which reduces the usage of the capacity limited SBSs backhaul and the energy consumption. To support the huge power demand of cellular network, renewable energy harvesting technologies can be leveraged. In addition to this, power supply to the infrastructures is the main challenge to the mobile network operators (MNOs) especially in terms of economic optimum, sustainability, and green energy in developing countries for the growth of cellular networks. Renewable energy–based solutions for MNOs not only reduce the overall carbon dioxide emissions but also provide numerous profits.

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Fundamental Limits of Cache-Aided Interference Management

Cited by 198 publications

References 27 publications

Interference networks with caches at both ends

Interference networks with caches at both ends

Modeling and Analysis for Cache-Enabled Networks With Dynamic Traffic

The role of caching in next generation cellular networks: A survey and research outlook

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