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Kapalı Alan Kargo Otomat Sistemi Geliştirme ve Geliştirme Ortamı Tasarımı

Year 2023, Volume: 4 Issue: 2, 140 - 159, 24.12.2023
https://doi.org/10.58769/joinssr.1385906

Abstract

Covid-19 pandemisi, e-ticaretin hızla büyümesine yol açmış ve bu gelişim beraberinde lojistik sektörünün önemini artırmıştır. Bu bağlamda, teslimat ve iade süreçlerinin daha esnek ve verimli olması gerekliliği doğmuştur. Bu ihtiyacı karşılamak amacıyla, akıllı dış mekân kargo otomat sistemleri geliştirilmiştir. Ancak bu sistemlerin güvenlik ve enerji tüketimi gibi bazı dezavantajları vardır. Bu çalışma, dış mekân otomat problemlerini çözmek için yüksek güvenlikli, enerji tüketimi düşük bir iç mekân akıllı kargo otomat sistemi sunar. Bu sistem, müşterilere siparişlerini almak veya iade etmek için esneklik sağlamaktadır. Ayrıca, bu yenilikçi çözüm, e-ticaret firmalarının lojistik maliyetlerini azaltmalarına ve müşteri memnuniyetini artırmalarına yardımcı olur. Bu önerilen iç mekân akıllı kargo otomat sistemi, otomat üreticileri ve e-ticaret firmaları için kargo alma süreçlerinin tüm senaryoları için çözüm sunar. Bu çözüm, bilimsel literatüre sunulan bir yaklaşımla hem sistem yazılımı hem de donanım tasarımını içerir. Sonuç olarak, bu çalışma, e-ticaretin büyümesiyle ortaya çıkan lojistik zorluklarına yanıt olarak geliştirilen yenilikçi bir iç mekân akıllı kargo otomat sistemi önermektedir. Bu sistem, güvenlik, enerji tasarrufu ve müşteri memnuniyeti gibi kritik alanlarda olumlu etkiler sağlayabilir ve lojistik sektöründe önemli bir adım olarak değerlendirilebilir.

References

  • [1] Karabulut OA, Seyret MK, Avcı MG. Kargo Otomatı Yer Seçimi Problemi için Bir Matematiksel Model. Endüstri Mühendisliği 2023;34:26–41. https://doi.org/10.46465/endustrimuhendisligi.1130216.
  • [2] Rohmer S, Gendron B. A guide to parcel lockers in last mile distribution: Highlighting challenges and opportunities from an OR perspective 2020.
  • [3] Tang YM, Chau KY, Xu D, Liu X. Consumer perceptions to support IoT based smart parcel locker logistics in China. J Retail Consum Serv 2021;62:102659. https://doi.org/10.1016/J.JRETCONSER.2021.102659.
  • [4] Toraman Y. Planlı Davranış Teorisi Çerçevesinde Kargo Otomat (Kargomat) Sisteminin İncelenmesi: Elektronik Son Adım Teslimat Süreçlerinin E-Ticaret Platformları Özelinde Araştırılması. J Transp Logist 2022;7:303–20. https://doi.org/10.26650/jtl.2022.1006593.
  • [5] YAMAN O, BAYĞIN M. UHF-RFID Based Smart Cargo Management and Real Time Tracking Approach. J Intell Syst Theory Appl 2020:38–45. https://doi.org/10.38016/jista.762685.
  • [6] Kim K, Kim J-H. A Development of an Low Cost Smart Parcel Service System with Enhanced Security. J Converg Inf Technol 2018;8:193–9. https://doi.org/10.22156/CS4SMB.2018.8.6.193.
  • [7] Çakır A, Güngör O. Rfid ile Kargo Yönetimi. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilim Derg 2011;10:83–9.
  • [8] Atlassian. Jira Work Management | A Friendly and Powerful Way to Work. Atlassian 2023. https://www.atlassian.com/software/jira/work-management (accessed September 30, 2023).
  • [9] Filion L, Daviot N, Le Bel JP, Gagnon M. Using Atlassian tools for efficient requirements management: An industrial case study. 11th Annu IEEE Int Syst Conf SysCon 2017 - Proc 2017. https://doi.org/10.1109/SYSCON.2017.7934769.
  • [10] Chakraborty S, Aithal PS. A Practical Approach to GIT Using Bitbucket, GitHub and SourceTree. Int J Appl Eng Manag Lett 2022;6:254–63. https://doi.org/10.47992/IJAEML.2581.7000.0156.
  • [11] Demiral Y, Carkaci N, Cekmez U. DevOps architecture in the cloud. 27th Signal Process Commun Appl Conf SIU 2019 2019. https://doi.org/10.1109/SIU.2019.8806433.
  • [12] HANAYLI M. GİT: Versiyon Kontrol Sistemi 2022.
  • [13] Smart J. Jenkins: The Definitive Guide: Continuous Integration for the Masses 2011.
  • [14] Rensin DK. Kubernetes 2015.

Indoor Cargo Vending System Development and Development Environment Design

Year 2023, Volume: 4 Issue: 2, 140 - 159, 24.12.2023
https://doi.org/10.58769/joinssr.1385906

Abstract

The rapid expansion of e-commerce caused by the Covid-19 pandemic has increased the significance of the logistics industry. Processes for delivery and return need to be more adaptable and effective in this situation. Smart outdoor cargo vending systems have been created to satisfy this need. These systems do, however, have some drawbacks, such as security and energy usage. In order to address the issues with outdoor vending, this paper presents an indoor smart cargo vending system with high security and minimal energy consumption. Customers have the choice to pick up or return their orders with the help of this system. Additionally, this creative solution aids e-commerce businesses in decreasing logistics expenses and raising customer satisfaction. For manufacturers of vending machines and e-commerce businesses, this proposed indoor smart cargo vending system provides solutions for all scenarios of cargo order processes. This solution combines the design of the system's hardware and software with a methodology that has been discussed in the scientific literature. The study's conclusion suggests a novel indoor smart cargo vending system that was created in response to the logistical difficulties brought on by the expansion of e-commerce. This system can have a positive impact in key areas like security, energy efficiency, and customer satisfaction, and it can be seen as a significant advancement for the logistics sector.

References

  • [1] Karabulut OA, Seyret MK, Avcı MG. Kargo Otomatı Yer Seçimi Problemi için Bir Matematiksel Model. Endüstri Mühendisliği 2023;34:26–41. https://doi.org/10.46465/endustrimuhendisligi.1130216.
  • [2] Rohmer S, Gendron B. A guide to parcel lockers in last mile distribution: Highlighting challenges and opportunities from an OR perspective 2020.
  • [3] Tang YM, Chau KY, Xu D, Liu X. Consumer perceptions to support IoT based smart parcel locker logistics in China. J Retail Consum Serv 2021;62:102659. https://doi.org/10.1016/J.JRETCONSER.2021.102659.
  • [4] Toraman Y. Planlı Davranış Teorisi Çerçevesinde Kargo Otomat (Kargomat) Sisteminin İncelenmesi: Elektronik Son Adım Teslimat Süreçlerinin E-Ticaret Platformları Özelinde Araştırılması. J Transp Logist 2022;7:303–20. https://doi.org/10.26650/jtl.2022.1006593.
  • [5] YAMAN O, BAYĞIN M. UHF-RFID Based Smart Cargo Management and Real Time Tracking Approach. J Intell Syst Theory Appl 2020:38–45. https://doi.org/10.38016/jista.762685.
  • [6] Kim K, Kim J-H. A Development of an Low Cost Smart Parcel Service System with Enhanced Security. J Converg Inf Technol 2018;8:193–9. https://doi.org/10.22156/CS4SMB.2018.8.6.193.
  • [7] Çakır A, Güngör O. Rfid ile Kargo Yönetimi. Afyon Kocatepe Üniversitesi Fen Ve Mühendislik Bilim Derg 2011;10:83–9.
  • [8] Atlassian. Jira Work Management | A Friendly and Powerful Way to Work. Atlassian 2023. https://www.atlassian.com/software/jira/work-management (accessed September 30, 2023).
  • [9] Filion L, Daviot N, Le Bel JP, Gagnon M. Using Atlassian tools for efficient requirements management: An industrial case study. 11th Annu IEEE Int Syst Conf SysCon 2017 - Proc 2017. https://doi.org/10.1109/SYSCON.2017.7934769.
  • [10] Chakraborty S, Aithal PS. A Practical Approach to GIT Using Bitbucket, GitHub and SourceTree. Int J Appl Eng Manag Lett 2022;6:254–63. https://doi.org/10.47992/IJAEML.2581.7000.0156.
  • [11] Demiral Y, Carkaci N, Cekmez U. DevOps architecture in the cloud. 27th Signal Process Commun Appl Conf SIU 2019 2019. https://doi.org/10.1109/SIU.2019.8806433.
  • [12] HANAYLI M. GİT: Versiyon Kontrol Sistemi 2022.
  • [13] Smart J. Jenkins: The Definitive Guide: Continuous Integration for the Masses 2011.
  • [14] Rensin DK. Kubernetes 2015.
There are 14 citations in total.

Details

Primary Language English
Subjects Artificial Intelligence (Other)
Journal Section Research Articles
Authors

Süleyman Uzun 0000-0001-8246-6733

Mustafa Zahid Yıldız

Tolga Sugetiren

İsmail Yüksel

Publication Date December 24, 2023
Submission Date November 6, 2023
Acceptance Date December 4, 2023
Published in Issue Year 2023 Volume: 4 Issue: 2

Cite

APA Uzun, S., Yıldız, M. Z., Sugetiren, T., Yüksel, İ. (2023). Indoor Cargo Vending System Development and Development Environment Design. Journal of Smart Systems Research, 4(2), 140-159. https://doi.org/10.58769/joinssr.1385906
AMA Uzun S, Yıldız MZ, Sugetiren T, Yüksel İ. Indoor Cargo Vending System Development and Development Environment Design. JoinSSR. December 2023;4(2):140-159. doi:10.58769/joinssr.1385906
Chicago Uzun, Süleyman, Mustafa Zahid Yıldız, Tolga Sugetiren, and İsmail Yüksel. “Indoor Cargo Vending System Development and Development Environment Design”. Journal of Smart Systems Research 4, no. 2 (December 2023): 140-59. https://doi.org/10.58769/joinssr.1385906.
EndNote Uzun S, Yıldız MZ, Sugetiren T, Yüksel İ (December 1, 2023) Indoor Cargo Vending System Development and Development Environment Design. Journal of Smart Systems Research 4 2 140–159.
IEEE S. Uzun, M. Z. Yıldız, T. Sugetiren, and İ. Yüksel, “Indoor Cargo Vending System Development and Development Environment Design”, JoinSSR, vol. 4, no. 2, pp. 140–159, 2023, doi: 10.58769/joinssr.1385906.
ISNAD Uzun, Süleyman et al. “Indoor Cargo Vending System Development and Development Environment Design”. Journal of Smart Systems Research 4/2 (December 2023), 140-159. https://doi.org/10.58769/joinssr.1385906.
JAMA Uzun S, Yıldız MZ, Sugetiren T, Yüksel İ. Indoor Cargo Vending System Development and Development Environment Design. JoinSSR. 2023;4:140–159.
MLA Uzun, Süleyman et al. “Indoor Cargo Vending System Development and Development Environment Design”. Journal of Smart Systems Research, vol. 4, no. 2, 2023, pp. 140-59, doi:10.58769/joinssr.1385906.
Vancouver Uzun S, Yıldız MZ, Sugetiren T, Yüksel İ. Indoor Cargo Vending System Development and Development Environment Design. JoinSSR. 2023;4(2):140-59.