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http://dx.doi.org/10.17662/ksdim.2022.18.4.077

Development of Dynamic Vehicle Service Simulation Tool based on Node-RED  

Ryu, Minwoo (현대자동차 자동차부분 연구개발본부)
Lee, Jongeon (LG 유플러스)
Cha, Si-Ho (청운대학교 멀티미디어학과)
Publication Information
Journal of Korea Society of Digital Industry and Information Management / v.18, no.4, 2022 , pp. 77-83 More about this Journal
Abstract
As users' needs for customized services increase, the service provision method is changing from a vertical structural service provision method to a horizontal structural service provision method. This paradigm shift has led to a change from the way existing users find the content they want to find and provide customized needs of users by content providers. With the recent development of smartphones and various AI technologies, demand for providing seamless services such as smartphones is increasing in automobiles. However, it is difficult to provide services in line with changes in this service paradigm because automobile services provide services centered on finished car manufacturers rather than individually providing services tailored to user needs. In this paper, we develop a Node-RED-based dynamic vehicle service simulation tool so that users can use the service they want in cars. The simulation tool developed provides a simulation environment for services authored by the user using NodeRed by writing, registering, and using NodeRed.
Keywords
Vehicle services; Service-oriented Architecture; Simulator; Service Authoring Tool; NodeRed;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 구진경, "II. 서비스산업 그룹별 전개 방향과 비전," 월간 KIET 산업경제, vol. 269, 2021, pp. 47-55.
2 도준호.김희경, "자율주행차와 미디어 산업 변화," 한국인터넷방송통신학회논문지, 제20권, 제5호, 2020, pp. 15-23.   DOI
3 A. K. Mandal, A. Cortesi, P. Ferrara, F. Panarotto, F. Spoto, "Vulnerability analysis of android auto infotainment apps," In Proc. of the 15th ACM International Conference on Computing Frontiers, 2018. pp. 183-190.
4 Y. Shin, S. Kim, W. Jo, T. Shon, "Digital Forensic Case Studies for In-Vehicle Infotainment Systems Using Android Auto and Apple CarPlay," Sensors, 2022, 217192, pp. 1-20.
5 Node-RED, https://nodered.org/.
6 A. Zhou, S. Wang, Q. Sun, H. Zou, F. Yang, "FTCloudSim: A simulation tool for cloud service reliability enhancement mechanisms," In Proc. Demo & Poster Track of ACM/IFIP/ USENIX International Middleware Conference, 2013, pp. 1-2.
7 B. Schuenema, K. Massow, I. Radusch, "Realistic simulation of vehicular communication and vehicle-2-X applications," In Proc. of the 1st International Conference on Simulation Tools and Techniques for Communications, Networks and Systems & Workshops, SimuTools 2008, Marseille, France, March 3-7, 2008.
8 I. A Aljabry, G. A Al-Suhail, "A Survey on Network Simulators for Vehicular Ad-hoc Networks (VANETS)," International Journal of Computer Applications, vol. 174, no. 11, Jan. 2021, pp. 1-9.
9 P. Kaur, S. Taghavi, Z. Tian, W. Shi, "A Survey on Simulators for Testing Self-Driving Cars," In Proc. of 4th International Conference on Connected and Autonomous Driving (MetroCAD). IEEE, 2021. pp. 62-70.
10 A. Gabriele, F. Mancini, M. Khayyat, S. Arrigoni, "Design and Simulation-Based Testing of 5G-Connected Systems for Traffic Light Guidance," Journal of Robotics and Autonomous Systems, Sep. 14, 2022.
11 K.-W. Yun, H.-G. Kim, J. Kwon, H.-Y. Jeong, Y.-H. Choi, "Vehicular Acceleration Advisory Algorithm Using V2V Communication in Highway Junction Point," In 2018 10th International Conference on Ubiquitous and Future Networks (ICUFN). IEEE, 2018. pp. 85-88.
12 Apache Tomcat, https://tomcat.apache.org/.
13 Apache Cassandra, https://cassandra.apache. org/index.html.
14 Kodi media service, https://kodi.tv/.