Logistics and Supply Chain Engineering: Perspectives on Paperless System for Highway Automatic Tollgate (HAT) through Industry 4.0. in Indonesia


This paper elaborates discourse on Highway Automatic Tollgate (HAT) within logistics and supply chain engineering perspectives. The aforementioned HAT and its implementation are complying with the Product Design Engineering’s perspectives within theoretical and industrial implementation through Industry 4.0 in Indonesia. The objective of this paper is to intertwine the theoretical perspectives with industrial implementation. The industrial implementation constitutes the effort to implement paperless system for HAT in order to reduce wasted papers that are necessarily needed by user of this HAT, as transaction proof. The result and discussion of this paper comprise several discussions to be considered. To begin with, the result of this paperless system helps the cleaning service officers to reduce their cleaning duty. Furthermore, the result of this paperless system integrates the concept of industry 4.0 within scope of internet of things (IoT) and internet of everything (IoE). Subsequently, the discussion on this paper refers to the discourse on logistics and supply chain engineering perspectives, to ease the transaction proof involving big data. As a result, it reduces significantly the vehicle traffic and time needed to proceed to transaction in the aforementioned HAT. This paper refers to the research methodology within quantitative approach. As future research, it is indispensable to intertwine both aforementioned theoretical and industrial implementation. Both implementation, as future research, need to be integrated within the Asia Region.

Keywords: big data analytics; internet of things; making Indonesia 4.0; paperless mechanism; product design engineering

[1] Husein AH. Internet of things (IOT): Research challenges and future applications. International Journal of Advanced Computer Science and Applications 2019; 10(6):77–82. http://thesai.org/Downloads/ Volume10No6/Paper_11-Internet_of_Things_IOT_Research_Challenges.pdf

[2] Hartarto A. Making Indonesia 4.0 [Online] from http://www.kemenperin.go.id/download/18384 (2016). [Accessed on 6 February 2018]. [in Bahasa Indonesia].

[3] Thamrin H, Kadarudin. Indonesia in the industrial revolution era 4.0: Challenges or threats?. International Journal of Management 2019; January–June:46-57 http://www.ic.rmutk.ac.th/wp-content/uploads/ 2019/06/International-Management-Journal-jan-jun.2019.pdf

[4] Fatkhurrahman MA, Syafei WA, Drajat. Perancangan prototipe sistem gerbang tol cerdas berbasis RFID dan notifikasi pembayaran via social messenger [Designing prototypes of RFID-based smart toll gate systems and notification of payments via social messenger]. Transient 2017; 7(4):690–697. [in Bahasa Indonesia]. https://ejournal3.undip.ac.id/index.php/transient/article/view/18887/0

[5] Vinitha V, Velantina V. Advanced automatic toll collection and vehicle detection system using internet of things. SSRG International Journal of Electrical and Electronics Engineering 2019; 6(8):5–10. http://www.internationaljournalssrg.org/IJEEE/2019/Volume6-Issue8/IJEEE-V6I8P102.pdf

[6] Matta P, Pant B. Internet of things: Genesis, challenges and applications. Journal of Engineering Science and Technology 2019; 14(3):1717–1750. http://jestec.taylors.edu.my/ Vol{%}2014{%}20issue{%}203{%}20June{%}202019/14_3_42.pdf

[7] Korade SA, Kotak V, Durafe A. A review paper on internet of things (IoT) and its applications. International Research Journal of Engineering and Technology 2019; 6(6):1623–1630. https://www.irjet.net/archives/ V6/i6/IRJET-V6I6376.pdf

[8] Nandhini S, Premkumar P. Automatic toll gate system using advanced RFID and GSM technology. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering 2014, 3(5):13002–13007. https://www.ijareeie.com/upload/2014/november/26H_Automatic.pdf

[9] Yuliastuti D. (2017). 3 era perkembangan digital payment di Indonesia [3 era of digital develop- ment payment in Indonesia]. Digination.id [Online] from https://www.digination.id/read/01513/3-era- perkembangan-digital-payment-di-indonesia (2017). [Accessed on 27 July 2018].

[10] Mithya V, Dharani KV, Nivetha A, Praveen RG, Roshel IM. Smart highway toll collection system. International Journal of Innovative Technology and Exploring Engineering 2019; 8(5):418– 421. https://webcache.googleusercontent.com/search?q=cache:nVBRec9c8pgJ:https://www.ijitee.org/wp content/uploads/papers/v8i5s/ES3456018319.pdf+&cd=1&hl=en&ct=clnk&gl=id

[11] Gade D. ICT based smart traffic management system “iSMART” for smart cities. International Journal of Recent Technology and Engineering 2019; 8(3):1000–1006 https://www.semanticscholar.org/paper/ICT-Enabled-Smart-Parking-System-{%}3A-Smartpark-for-Gade/ 013d0e2b59e799fe1779256790b1916549f45040

[12] Haveli S, Ingle V, Parge P, Bhujbal N, Meher NS. Toll collection system. International Journal of Advanced Research in Computer and Communication Engineering 2019; 8(1):28–30. https://ijarcce. com/wp-content/uploads/2019/02/IJARCCE.2019.8106.pdf