On the Capacity of Interference Channel With Causal and Noncausal Generalized Feedback at the Cognitive Transmitter

Mirmohseni, Mahtab; Akhbari, Bahareh; Aref, Mohammad Reza

doi:10.1109/tit.2012.2184844

Cited by 16 publications

(39 citation statements)

References 38 publications

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“…However, these bounds involve several auxiliary random variables and it is thus not clear how to evaluate them for the Gaussian noise channel. The authors of [6] also proposed an achievable scheme, whose rate region, as pointed out in [6,Rem. 2,point 6], is no smaller than that in [4, Sec.…”

Section: A Related Workmentioning

confidence: 99%

“…V] specialized to unilateral source cooperation. However, in [6], no performance guarantees in terms of constant gap were given. In [7], the capacity of the IC with unilateral source cooperation was characterized to within 2 bits (per user) for a large set of channel parameters that, roughly speaking, excludes the case of weak interference at both receivers.…”

Section: A Related Workmentioning

confidence: 99%

See 1 more Smart Citation

New outer bounds for the interference channel with unilateral source cooperation

Cardone¹,

Tuninetti²,

Knopp³

et al. 2014

2014 IEEE International Symposium on Information Theory

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Abstract-This paper studies the two-user interference channel with unilateral source cooperation, which consists of two sourcedestination pairs that share the same channel and where one fullduplex source can overhear the other source through a noisy inband link. Novel outer bounds of the type 2R1 +R2/R1 +2R2 are developed for the class of injective semi-deterministic channels with independent noises at the different source-destination pairs. The bounds are then specialized to the Gaussian noise case. Interesting insights are provided about when these types of bounds are active, or in other words, when unilateral cooperation is too weak and leaves "holes" in the system resources.

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Section: A Related Workmentioning

confidence: 99%

Section: A Related Workmentioning

confidence: 99%

New outer bounds for the interference channel with unilateral source cooperation

Cardone¹,

Tuninetti²,

Knopp³

et al. 2014

2014 IEEE International Symposium on Information Theory

View full text Add to dashboard Cite

show abstract

“…Although, to the best of our knowledge, the work in [16] gives the best known bounds for this channel, their evaluation is not straightforward. For example, the outer bound involves several auxiliary random variables that are jointly distributed with the inputs and for which no cardinality bounds on the corresponding alphabets are known; the inner bound is characterized by many constraints and auxiliary random variables whose optimization is not immediate.…”

Section: ) Ic With Source Cooperationmentioning

confidence: 99%

The Two-User Causal Cognitive Interference Channel: Novel Outer Bounds and Constant Gap Result for the Symmetric Gaussian Noise Channel in Weak Interference

Cardone

Tuninetti

Knopp

2016

IEEE Trans. Inform. Theory

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This paper studies the two-user Causal Cognitive Interference Channel (CCIC), where two transmitters aim to communicate independent messages to two different receivers via a common channel.One source, referred to as the cognitive, is capable of overhearing the other source, referred to as the primary, through a noisy in-band link and thus can assist in sending the primary's data. Two novel outer bounds of the type 2R p + R c and R p + 2R c are derived for the class of injective semi-deterministic CCICs where the noises at the different source-destination pairs are independent. An achievable rate region is derived based on Gelfand-Pinsker binning, superposition coding and simultaneous decoding at the receivers.The lower and outer bounds are then specialized to the practically relevant Gaussian noise case.The authors of this paper recently characterized to within a constant gap the capacity of the symmetric Gaussian CCIC in (a) the strong interference regime, and (b) for a subset of the weak interference regime when the cooperation link is larger than a given threshold. This work characterizes to within a constant gap the capacity for the symmetric Gaussian CCIC in the regime that was still open. In particular, it is shown that the novel outer bounds are necessary to characterize the capacity to within a constant gap when the cooperation link is weaker than the direct links, that is, in this regime unilateral cooperation leaves some system resources underutilized.

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“…Cognitive channels were also studied in [14]; here the authors analyzed the causal cognitive IC with delay. The zerodelay case coincides with the causal cognitive model studied in this work; the main contribution is a capacity characterization for the degraded semi-deterministic channel in the strong interference regime.…”

Section: A Past Workmentioning

confidence: 99%

Approximate sum-capacity of full- and half-duplex asymmetric interference channels with unilateral source cooperation

Cardone

Tuninetti

Knopp

et al. 2013

2013 Information Theory and Applications Workshop (ITA)

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Abstract-This paper focuses on the causal cognitive radio channel. This model consists of a two-user Gaussian interference channel where a cooperative secondary/cognitive source can causally learn the message of a primary source through a noisy link. The generalized Degrees-of-Freedom (gDoF) and the sumcapacity to within a constant gap are characterized for channels where one destination does not experience interference, referred to as interference-asymmetric channels. Both cases where the cognitive source operates in full-and half-duplex mode are considered. The different models are compared among themselves and with the case of interference-symmetric channels with either bilateral or unilateral source cooperation. In particular, the parameter regimes where causal cognition, or unilateral cooperation, attains the same gDoF of classical channel models, such as the noncooperative interference channel and the noncausal cognitive channel, are identified in order to determine when causal cognitive radio offers benefits in practical systems.

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On the Capacity of Interference Channel With Causal and Noncausal Generalized Feedback at the Cognitive Transmitter

Cited by 16 publications

References 38 publications

New outer bounds for the interference channel with unilateral source cooperation

New outer bounds for the interference channel with unilateral source cooperation

The Two-User Causal Cognitive Interference Channel: Novel Outer Bounds and Constant Gap Result for the Symmetric Gaussian Noise Channel in Weak Interference

Approximate sum-capacity of full- and half-duplex asymmetric interference channels with unilateral source cooperation

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