Space-Time Frequency Block Codes in LTE-DSRC Hybrid Vehicular Networks

Space-Time Frequency Block Codes in LTE-DSRC Hybrid Vehicular Networks

In vehicular communication systems, Dedicated Short Range Communication (DSRC) is said to provide fast communication and high security between vehicles. Simultaneously, Long-Term Evolution (LTE) is used due to its high bandwidth, low latency, and high spectrum efficiency. The DSRC and LTE hybrid...

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Main Authors: Azlan Abd Aziz, Hanis Adiba Mohamad, Azwan Mahmud, Mohamad Yusoff Alias, Nawaid Hasan
Format: Article
Language:English
Published: Universitas Indonesia 2022-11-01
Series:International Journal of Technology
Subjects:
hybrid mimo
lte-dsrc
space time-frequency
vehicular network
Online Access:https://ijtech.eng.ui.ac.id/article/view/5828
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author Azlan Abd Aziz
Hanis Adiba Mohamad
Azwan Mahmud
Mohamad Yusoff Alias
Nawaid Hasan
author_facet Azlan Abd Aziz
Hanis Adiba Mohamad
Azwan Mahmud
Mohamad Yusoff Alias
Nawaid Hasan
author_sort Azlan Abd Aziz
collection DOAJ
description In vehicular communication systems, Dedicated Short Range Communication (DSRC) is said to provide fast communication and high security between vehicles. Simultaneously, Long-Term Evolution (LTE) is used due to its high bandwidth, low latency, and high spectrum efficiency. The DSRC and LTE hybrid model has gained much attention as it is feasible and simpler in design and deployment. In fact, multiple-input multiple-output (MIMO) systems have been widely used in modern wireless communication systems to enhance data throughput, reliability, and coverage. This paper proposes a MIMO LTE-DSRC hybrid system using space-time frequency block codes (STFBC). This paper focuses on the physical layer performance of the LTE-DSRC hybrid uplink structure. The DSRC Orthogonal Frequency Division Multiplexing (OFDM) transmitter and LTE Single Carrier Frequency Division Multiplexing (SCFDM) receiver are used for the uplink transmission. A study on bit error rate (BER), pairwise error probability (PEP), and channel-to-interference ratio (CIR) of the 2x2 MIMO LTE-DSRC system is conducted. The numerical results show that this proposed method improves the error rate performance with a gradual increase in signal-to-noise ratio (SNR) compared to the baseline systems.
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spelling doaj.art-12218d0e0b3c4ddf84dd9919234d1fe02023-01-03T09:19:39ZengUniversitas IndonesiaInternational Journal of Technology2086-96142087-21002022-11-011361183119210.14716/ijtech.v13i6.58285828Space-Time Frequency Block Codes in LTE-DSRC Hybrid Vehicular NetworksAzlan Abd Aziz0Hanis Adiba Mohamad1Azwan Mahmud2Mohamad Yusoff Alias3Nawaid Hasan4Faculty of Engineering & Technology, Multimedia University, Jalan Ayer Keroh, 75450 Melaka, MalaysiaFaculty of Engineering & Technology, Multimedia University, Jalan Ayer Keroh, 75450 Melaka, MalaysiaFaculty of Engineering, Multimedia University, Persiaran Multimedia, 63100 Cyberjaya, MalaysiaFaculty of Engineering, Multimedia University, Persiaran Multimedia, 63100 Cyberjaya, MalaysiaFaculty of Engineering & Technology, Multimedia University, Jalan Ayer Keroh, 75450 Melaka, MalaysiaIn vehicular communication systems, Dedicated Short Range Communication (DSRC) is said to provide fast communication and high security between vehicles. Simultaneously, Long-Term Evolution (LTE) is used due to its high bandwidth, low latency, and high spectrum efficiency. The DSRC and LTE hybrid model has gained much attention as it is feasible and simpler in design and deployment. In fact, multiple-input multiple-output (MIMO) systems have been widely used in modern wireless communication systems to enhance data throughput, reliability, and coverage. This paper proposes a MIMO LTE-DSRC hybrid system using space-time frequency block codes (STFBC). This paper focuses on the physical layer performance of the LTE-DSRC hybrid uplink structure. The DSRC Orthogonal Frequency Division Multiplexing (OFDM) transmitter and LTE Single Carrier Frequency Division Multiplexing (SCFDM) receiver are used for the uplink transmission. A study on bit error rate (BER), pairwise error probability (PEP), and channel-to-interference ratio (CIR) of the 2x2 MIMO LTE-DSRC system is conducted. The numerical results show that this proposed method improves the error rate performance with a gradual increase in signal-to-noise ratio (SNR) compared to the baseline systems.https://ijtech.eng.ui.ac.id/article/view/5828hybrid mimolte-dsrcspace time-frequencyvehicular network
spellingShingle Azlan Abd Aziz
Hanis Adiba Mohamad
Azwan Mahmud
Mohamad Yusoff Alias
Nawaid Hasan
Space-Time Frequency Block Codes in LTE-DSRC Hybrid Vehicular Networks
International Journal of Technology
hybrid mimo
lte-dsrc
space time-frequency
vehicular network
title Space-Time Frequency Block Codes in LTE-DSRC Hybrid Vehicular Networks
title_full Space-Time Frequency Block Codes in LTE-DSRC Hybrid Vehicular Networks
title_fullStr Space-Time Frequency Block Codes in LTE-DSRC Hybrid Vehicular Networks
title_full_unstemmed Space-Time Frequency Block Codes in LTE-DSRC Hybrid Vehicular Networks
title_short Space-Time Frequency Block Codes in LTE-DSRC Hybrid Vehicular Networks
title_sort space time frequency block codes in lte dsrc hybrid vehicular networks
topic hybrid mimo
lte-dsrc
space time-frequency
vehicular network
url https://ijtech.eng.ui.ac.id/article/view/5828
work_keys_str_mv AT azlanabdaziz spacetimefrequencyblockcodesinltedsrchybridvehicularnetworks
AT hanisadibamohamad spacetimefrequencyblockcodesinltedsrchybridvehicularnetworks
AT azwanmahmud spacetimefrequencyblockcodesinltedsrchybridvehicularnetworks
AT mohamadyusoffalias spacetimefrequencyblockcodesinltedsrchybridvehicularnetworks
AT nawaidhasan spacetimefrequencyblockcodesinltedsrchybridvehicularnetworks

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