Inter-Relay Interference Mitigation for Chirp-Based Two-Path Successive Relaying Protocol.

Kwang-Yul Kim,Yoan Shin

doi:10.3390/s19153346

Abstract

Since the chirp spread spectrum (CSS) system is considered as a communication technology for the Internet of things (IoT), long-range communication and a high data rate are required. In wireless communications, in order to increase spectral efficiency and to extend transmission coverage, a two-path successive relaying (TPSR) protocol has been proposed. Thus, in order to improve transmission performance of the CSS system, in this paper we apply the TPSR protocol to the CSS system. However, since the TPSR protocol is successively relaying data, the spectral efficiency may be limited due to inter-relay interference (IRI). Hence, we propose a multiple linear chirp-based IRI mitigation method for the CSS-based TPSR protocol. In the proposed scheme, the cross-correlation coefficient (CCC) has been derived mathematically according to a separating bandwidth in a given total bandwidth. Then, one separating bandwidth that guarantees the transmission performance is allocated to the primary relay by considering a single relay CCC (SR-CCC) and another separating bandwidth that guarantees the orthogonality from the primary relay is allocated to the secondary relay by considering the inter-relay CCC (IR-CCC). Since the IR-CCC means a degree of similarity between these two relays, it is possible to mitigate the IRI effect within the same bandwidth by allocating orthogonal separating bandwidths to each relay. Simulation results show that the proposed scheme can improve the transmission performance by mitigating the IRI effect even in high IRI environments. Consequently, we expect that the proposed scheme can extend the transmission coverage and increase the data rate of the CSS system.

Highlights

The spread spectrum system was firstly developed to improve the low probability of detection and anti-jamming capability of military wireless communications [1]
Performance was measured both for the primary relay and the secondary relay to analyze the inter-relay interference (IRI) effect occurring from each relay, and the theoretical bit error rate (BER) performance was obtained from (25)
Since the purpose of our paper is to analyze and mitigate the IRI effect, three kinds of multiple linear chirp (MLC) combinations as the representative cases were chosen based on the analyses of the SR-correlation coefficient (CCC) and the inter-relay CCC (IR-CCC)

Summary

Introduction

The spread spectrum system was firstly developed to improve the low probability of detection and anti-jamming capability of military wireless communications [1]. Among the spread spectrum systems, chirp spread spectrum (CSS) system using a chirp signal has several advantages such as low energy consumption, high resolution, and Doppler effect robustness. Due to these advantages, the CSS system has been used for military radio detection and ranging (RADAR) systems from the 1940s [2] and adopted as an IEEE. 802.15.4a standard for a physical layer of wireless localization systems [3]. It is mainly used for a long range (LoRa) technology of low-power wide area networks for Internet of Things (IoT). The transmission method for the CSS system is generally classified into a direct modulation-based CSS (DM-CSS) scheme and a binary orthogonal keying-based (BOK-CSS) scheme, Sensors 2019, 19, 3346; doi:10.3390/s19153346 www.mdpi.com/journal/sensors

Objectives

Results

Conclusion