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Scientometric analysis of literature on distributed vehicular networks : VOSViewer visualization techniques

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Abstract

The idea of vehicular communication has evolved dramatically over the past two decades apparently with technological advancements that accord low power and memory consumption devices, and yet providing low latency and high performing abilities. In the 20th century, vehicular communications were primarily done through singling blinkers, tail lights, and hazard lamps, essentially serving rudimentary purposes. In the early 2000s, the term “VANET” was first introduced for demonstrating road safety and navigation. By the end of 2012, the term vehicle-to-everything(V2X) was coined with IEEE 802.11p as the supporting standard for underneath technology. The adequately increasing publications and development of VANET simulators like SUMO acknowledge the fact that there has been an intriguing interest in vehicular research. While publications are increasing massively in numbers, perhaps, we identified a lack of comprehensive scientometric analysis for this field. This paper aims at analyzing the researches carried out between 2009 and 2020 using Scopus data with a scientometric approach thereby highlighting the citation patterns and indulging journals, authors, institutes, countries in the field of vehicular communication. Furthermore, keywords analysis is also staged using VOSViewer to visualize the research patterns. This paper also tries to classify the publications into distinct clusters so formed in VOSViewer using classifying techniques, hence, to make the voluminous data acumen for the publication stride.

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References

  • Abrougui K, Boukerche A, Wang Y (2012) In: 2012 IEEE global communications conference (GLOBECOM), pp 391–396. IEEE

  • Al-Sultan S, Al-Doori MM, Al-Bayatti AH, Zedan H (2014) A comprehensive survey on vehicular ad hoc network. J Netw Comput Appl 37:380

    Article  Google Scholar 

  • Bhatia J, Dave R, Bhayani H, Tanwar S, Nayyar A (2020) Sdn-based real-time urban traffic analysis in vanet environment. Comput Commun 149:162

    Article  Google Scholar 

  • Buchenscheit A, Schaub F, Kargl F, Weber M (2009) In: 2009 IEEE vehicular networking conference (VNC), pp 1–8. IEEE

  • Cao S, Lee VC (2020) An accurate and complete performance modeling of the IEEE 802.11 p MAC sublayer for VANET. Comput Commun 149:107

  • Chehri A, Chehri H, Hakim N, Saadane R (2020) Smart transportation systems. Springer, pp 133–141

    Google Scholar 

  • Cheng H, Liu Y (2020) An improved RSU-based authentication scheme for VANET. J Internet Technol 21(4):1137

    Google Scholar 

  • Contreras M, Gamess E (2020) An algorithm based on VANET technology to count vehicles stopped at a traffic light. Int J Intell Transp Syst Res 18(1):122

    Google Scholar 

  • Ding R, Li X, Zhang Y, Gerla M (1903) Broadcast-first service scheduling scheme for vehicle-roadside communication. Wireless Pers Commun 68(4):1903–1922

    Article  Google Scholar 

  • Ebers S, Fischer S (2014) In: 2014 IEEE vehicular networking conference (VNC), pp 193–194. IEEE

  • Elsevier. About scopus - abstract and citation database | Elsevier. https://www.scopus.com/dashboard.uri/. Aaccessed 3 Oct 2019

  • Falagas ME, Pitsouni EI, Malietzis GA, Pappas G (2008) Comparison of PubMed, Scopus, web of science, and Google scholar: strengths and weaknesses. FASEB J 22(2):338

    Article  Google Scholar 

  • Gao J, Agyekum KOBO, Sifah EB, Acheampong KN, Xia Q, Du X, Guizani M, Xia H (2019) A blockchain-SDN-enabled Internet of vehicles environment for fog computing and 5G networks. IEEE Internet Things J 7(5):4278

    Article  Google Scholar 

  • Gao H, Liu C, Li Y, Yang X (2020) IEEE Trans Intell Transp Syst

  • Ghazi MU, Khattak MAK, Shabir B, Malik AW, Ramzan MS (2020) Emergency message dissemination in vehicular networks: a review. IEEE Access 8:38606

    Article  Google Scholar 

  • Hadded M, Muhlethaler P, Laouiti A, Zagrouba R, Saidane LA (2015) TDMA-based MAC protocols for vehicular ad hoc networks: a survey, qualitative analysis, and open research issues. IEEE Commun Surv Tutor 17(4):2461

    Article  Google Scholar 

  • He D, Zeadally S, Xu B, Huang X (2015) An efficient identity-based conditional privacy-preserving authentication scheme for vehicular ad hoc networks. IEEE Trans Inf Forensics Secur 10(12):2681

    Article  Google Scholar 

  • Hennemann S, Rybski D, Liefner I (2012) The myth of global science collaboration-collaboration patterns in epistemic communities. J Informetr 6(2):217

    Article  Google Scholar 

  • Jan N, Waltman L, Van Eck (2014) Measuring scholarly impact. Springer, Berlin, pp 285–320

    Google Scholar 

  • Kerrache CA, Lagraa N, Hussain R, Ahmed SH, Benslimane A, Calafate CT, Cano JC, Vegni AM (2018) TACASHI: trust-aware communication architecture for social internet of vehicles. IEEE Internet Things J 6(4):5870

    Article  Google Scholar 

  • Kim T, Jung S, Lee S (2009) In: 2009 second international conference on computer and electrical engineering, vol 1, pp 380–383. IEEE

  • Kostoff R (2002) Citation analysis of research performer quality. Scientometrics 53(1):49

    Article  Google Scholar 

  • Kusner MJ, Hernández-Lobato JM (2016) arXiv:1611.04051

  • Lipowski A, Lipowska D (2012) Roulette-wheel selection via stochastic acceptance. Physica A 391(6):2193

    Article  Google Scholar 

  • Liu B, Khorashadi B, Du H, Ghosal D, Chuah CN, Zhang M (2009) VGSim: an integrated networking and microscopic vehicular mobility simulation platform. IEEE Commun Mag 47(5):134

    Article  Google Scholar 

  • Montoya FG, Alcayde A, Baños R, Manzano-Agugliaro F (2018) A fast method for identifying worldwide scientific collaborations using the Scopus database. Telemat Inform 35(1):168

    Article  Google Scholar 

  • Nafi NS, Khan RH, Khan JY, Gregory M (2014) In: 2014 Australasian telecommunication networks and applications conference (ATNAC), pp 135–140. IEEE

  • Nalimov VV, Mulchenko B (1969) Studies of science as a process of information. Science, Moscow, Russia

    Google Scholar 

  • Nzouonta J, Rajgure N, Wang G, Borcea C (2009) VANET routing on city roads using real-time vehicular traffic information. IEEE Trans Veh Technol 58(7):3609

    Article  Google Scholar 

  • Olariu S, Khalil I, Abuelela M (2011) Int J Pervasive Comput Commun

  • Park S, Aslam B, Turgut D, Zou CC (2009) In: MILCOM 2009-2009 IEEE military communications conference, pp 1–7. IEEE

  • Paskin N (2010) Digital object identifier (DOI®) system. Encycl Libr Inf Sci 3:1586

    Google Scholar 

  • Sengupta J, Ruj S, Bit SD (2020) A Comprehensive survey on attacks, security issues and blockchain solutions for IoT and IIoT. J Netw Comput Appl 149:102481

    Article  Google Scholar 

  • Shafranovich Y (2005) Common format and MIME type for comma-separated values (CSV) files

  • Sommer C, German R, Dressler F (2010) Bidirectionally coupled network and road traffic simulation for improved IVC analysis. IEEE Trans Mob Comput 10(1):3

    Article  Google Scholar 

  • Studer A, Shi E, Bai F, Perrig A (2009) In: 2009 6th annual IEEE communications society conference on sensor, mesh and ad hoc communications and networks, pp 1–9. IEEE

  • Subramanyam K (1983) Bibliometric studies of research collaboration: a review. J Inf Sci 6(1):33

    Article  Google Scholar 

  • Tareque MH, Hossain MS, Atiquzzaman M (2015) In: 2015 federated conference on computer science and information systems (FedCSIS), pp 1–9. IEEE

  • Toh CK (2001) Ad hoc mobile wireless networks: protocols and systems. Pearson Education

    Google Scholar 

  • TomTom T (2019) Traffic congestion ranking: Tom tom traffic index. https://www.tomtom.com/en_gb/traffic-index/ranking/. Accessed 30 Dec 2019

  • Upton E, Halfacree G (2014) Raspberry Pi user guide. Wiley

  • Van Eck NJ, Waltman L (2007) Advances in data analysis. Springer, pp 299–306

    Google Scholar 

  • Van Eck N, Waltman L (2010) Software survey: VOSviewer, a computer program for bibliometric mapping. Scientometrics 84(2):523

    Article  Google Scholar 

  • Ware B et al (2002) Open source development with LAMP: using Linux, Apache, MySQL and PHP. Addison-Wesley Longman Publishing Co Inc

  • Whitley D (1994) A genetic algorithm tutorial. Stat Comput 4(2):65

    Google Scholar 

  • Yu YT, Gerla M, Sanadidi M (2015) Scalable VANET content routing using hierarchical bloom filters. Wirel Commun Mobile Comput 15(6):1001

    Article  Google Scholar 

  • Zeadally S, Hunt R, Chen YS, Irwin A, Hassan A (2012) Vehicular ad hoc networks (VANETS): status, results, and challenges. Telecommun Syst 50(4):217

    Article  Google Scholar 

  • Zhang L, Lakas A, El-Sayed H, Barka E (2013) Mobility analysis in vehicular ad hoc network (VANET). J Netw Comput Appl 36(3):1050

    Article  Google Scholar 

  • Zyren J, McCoy W (2007) Overview of the 3GPP long term evolution physical layer. Freescale Semiconductor Inc, white paper 7:2

    Google Scholar 

Download references

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Authors and Affiliations

  1. Department of Computer Science and Informatics, Central University of Himachal Pradesh, Dharamshala, HP, India

    Sandeep Kumar Sood

  2. Department of Computer Engineering and Technology, Guru Nanak Dev University, Amritsar, PB, India

    Navin Kumar & Munish Saini

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  1. Sandeep Kumar Sood
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  2. Navin Kumar
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  3. Munish Saini
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Correspondence to Navin Kumar.

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Sood, S.K., Kumar, N. & Saini, M. Scientometric analysis of literature on distributed vehicular networks : VOSViewer visualization techniques. Artif Intell Rev 54, 6309–6341 (2021). https://doi.org/10.1007/s10462-021-09980-4

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