MIMO Gaussian State-Dependent Channels with a State-Cognitive Helper

We consider the problem of channel coding over multiterminal state-dependent channels in which neither transmitters nor receivers but only a helper node has a non-causal knowledge of the state. Such channel models arise in many emerging communication schemes. We start by investigating the parallel state-dependent channel with the same but differently scaled state corrupting the receivers. A cognitive helper knows the state in a non-causal manner and wishes to mitigate the interference that impacts the transmission between two transmit–receive pairs. Outer and inner bounds are derived. In our analysis, the channel parameters are partitioned into various cases, and segments on the capacity region boundary are characterized for each case. Furthermore, we show that for a particular set of channel parameters, the capacity region is entirely characterized. In the second part of this work, we address a similar scenario, but now each channel is corrupted by an independent state. We derive an inner bound using a coding scheme that integrates single-bin Gel’fand–Pinsker coding and Marton’s coding for the broadcast channel. We also derive an outer bound and further partition the channel parameters into several cases for which parts of the capacity region boundary are characterized.

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On the Capacity Regions of Degraded Relay Broadcast Channels with and without Feedback

Entropy ◽

10.3390/e22070784 ◽

2020 ◽

Vol 22 (7) ◽

pp. 784

Author(s):

Bingbing Hu ◽

Ke Wang ◽

Yingying Ma ◽

Youlong Wu

Keyword(s):

Relay Node ◽

Broadcast Channels ◽

Feedback Signal ◽

Capacity Region ◽

Relay Feedback ◽

The Third ◽

Coding Scheme ◽

Rate Region ◽

Gaussian Case ◽

Outer Bound

The four-node relay broadcast channel (RBC) is considered, in which a transmitter communicates with two receivers with the assistance of a relay node. We first investigate three types of physically degraded RBCs (PDRBCs) based on different degradation orders among the relay and the receivers’ observed signals. For the discrete memoryless (DM) case, only the capacity region of the second type of PDRBC is already known, while for the Gaussian case, only the capacity region of the first type of PDRBC is already known. In this paper, we step forward and make the following progress: (1) for the first type of DM-PDRBC, a new outer bound is established, which has the same rate expression as an existing inner bound, with only a slight difference on the input distributions; (2) for the second type of Gaussian PDRBC, the capacity region is established; (3) for the third type of PDRBC, the capacity regions are established both for DM and Gaussian cases. Besides, we also consider the RBC with relay feedback where the relay node can send the feedback signal to the transmitter. A new coding scheme based on a hybrid relay strategy and a layered Marton’s coding is proposed. It is shown that our scheme can strictly enlarge Behboodi and Piantanida’s rate region, which is tight for the second type of DM-PDRBC. Moreover, we show that capacity regions of the second and third types of PDRBCs are exactly the same as that without feedback, which means feedback cannot enlarge capacity regions for these types of RBCs.

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Spectral Efficient and Reliable Channel Coding Scheme for 5G Vehicular Applications

International Journal of Sensors Wireless Communications and Control ◽

10.2174/2210327909666190319144338 ◽

2019 ◽

Vol 09 ◽

Author(s):

Komal Arora ◽

Jaswinder Singh ◽

Yogeshwar Singh Randhawa

Keyword(s):

Channel Coding ◽

Coding Scheme

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A practical joint source channel coding scheme for digital satellite broadcasting service based on scalable video coding

10.1049/cp.2009.1219 ◽

2009 ◽

Author(s):

In Ki Lee ◽

Dae-Ig Chang ◽

Won Sup Chi ◽

Kwang-deok Seo

Keyword(s):

Video Coding ◽

Channel Coding ◽

Scalable Video Coding ◽

Scalable Video ◽

Coding Scheme ◽

Satellite Broadcasting ◽

Joint Source Channel Coding ◽

Broadcasting Service ◽

Source Channel Coding

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The capacity region of a class of deterministic state-dependent Z-interference channels

2014 IEEE International Symposium on Information Theory ◽

10.1109/isit.2014.6874914 ◽

2014 ◽

Cited By ~ 5

Author(s):

Ritesh Kolte ◽

Ayfer Ozgur ◽

Haim Permuter

Keyword(s):

Interference Channels ◽

Capacity Region ◽

State Dependent

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An overview of channel coding for 5G NR cellular communications

APSIPA Transactions on Signal and Information Processing ◽

10.1017/atsip.2019.10 ◽

2019 ◽

Vol 8 ◽

Cited By ~ 7

Author(s):

Jung Hyun Bae ◽

Ahmed Abotabl ◽

Hsien-Ping Lin ◽

Kee-Bong Song ◽

Jungwon Lee

Keyword(s):

Channel Coding ◽

Ldpc Codes ◽

Low Latency ◽

Polar Codes ◽

Coding Scheme ◽

Coding Schemes ◽

Successive Cancellation ◽

New Radio ◽

Key Characteristics ◽

User Data

AbstractA 5G new radio cellular system is characterized by three main usage scenarios of enhanced mobile broadband (eMBB), ultra-reliable and low latency communications (URLLC), and massive machine type communications, which require improved throughput, latency, and reliability compared with a 4G system. This overview paper discusses key characteristics of 5G channel coding schemes which are mainly designed for the eMBB scenario as well as for partial support of the URLLC scenario focusing on low latency. Two capacity-achieving channel coding schemes of low-density parity-check (LDPC) codes and polar codes have been adopted for 5G where the former is for user data and the latter is for control information. As a coding scheme for data, 5G LDPC codes are designed to support high throughput, a variable code rate and length and hybrid automatic repeat request in addition to good error correcting capability. 5G polar codes, as a coding scheme for control, are designed to perform well with short block length while addressing a latency issue of successive cancellation decoding.

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On Uncertainty Relations and Entanglement Detection with Mutually Unbiased Measurements

Open Systems & Information Dynamics ◽

10.1142/s1230161215500055 ◽

2015 ◽

Vol 22 (01) ◽

pp. 1550005 ◽

Cited By ~ 16

Author(s):

Alexey E. Rastegin

Keyword(s):

The State ◽

Uncertainty Relations ◽

Trade Off ◽

Entropic Uncertainty Relations ◽

Finite Dimensional ◽

State Dependent ◽

Entanglement Detection

We formulate some properties of a set of several mutually unbiased measurements. These properties are used for deriving entropic uncertainty relations. Applications of mutually unbiased measurements in entanglement detection are also revisited. First, we estimate from above the sum of the indices of coincidence for several mutually unbiased measurements. Further, we derive entropic uncertainty relations in terms of the Rényi and Tsallis entropies. Both the state-dependent and state-independent formulations are obtained. Using the two sets of local mutually unbiased measurements, a method of entanglement detection in bipartite finite-dimensional systems may be realized. A certain trade-off between a sensitivity of the scheme and its experimental complexity is discussed.

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