TAŞRA BÖLGELERDE KULLANILAN SİSTEMLERİN KABLOSUZ TEKNOLOJİLER YARDIMIYLA DENETİMİ
Year 2023,
Volume: 2 Issue: 1, 68 - 73, 26.12.2023
Canberk Turhan
,
Ersin Alaybeyoğlu
Abstract
Çalışmada taşra bölgelerde denetleme ihtiyacı bulunan elektronik ve mekanik sistemlerin uzaktan veri aktarımı sağlanarak denetlenmesi ve kontrol edilmesi amacıyla kablosuz haberleşme gerçekleştirilmiştir. Haberleşme modülü olarak XBee kablosuz haberleşme modülü kullanılmıştır. İlk olarak birinci modül taşrada bulunan sisteme yerleştirilecektir. İkinci modül kullanılarak internet erişimi olan noktadan ağ geçidi oluşturulacaktır. Bu sayede veri bulut sistemine aktarılacaktır. Bulut sistemine aktarılan veri kullanılarak taşrada bulunan cihazın denetimi internet erişimi olan noktalardan geliştirilen mobil uygulama ve internet sitesi aracılığıyla gerçekleştirilebilecektir. Çalışma akıllı köylerin geliştirilmesinde kullanılacak IoT uygulamalarında araştırmacılara örnek oluşturması için kullanılabilir. Çalışma Tübitak 2209A kapsamında desteklenmiş ve sonuçlandırılmıştır.
Ethical Statement
Çalışmada etik izin gerektiren bir durum bulunmamaktadır.
Supporting Institution
Tübitak
Project Number
1919B012005647
References
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- 2015.
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- 10. Maja, P. W., Meyer, J., & Von Solms, S., “Development of Smart Rural Village Indicators in Line With Industry 4.0”, IEEE Access, 8, 152017-152033, 2020.
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- 13. Cama-Pinto, A., Pineres-Espitia, G., Caicedo-Ortiz, J., Ramírez-Cerpa, E., Betancur-Agudelo, L., & Gómez-Mula, F., “Received strength signal intensity performance analysis in wireless sensor network using Arduino platform and XBee wireless modules”, International Journal of Distributed Sensor Networks, 13, 2017.
- 14. Tuan, K. N., “A wireless sensor network for aquaculture using Raspberry Pi, Arduino and Xbee”, International Conference on System Science and Engineering, 235-238, 2019.
- 15. Kabir, A. S., Shorif, M. A., Li, H., & Yu, Q., “A study of secured wireless sensor networks with XBee and Arduino”, 2nd International Conference on Systems and Informatics, 492-496, 2014.
- 16. Kim, J. D., Lee, S. Y., Kim, Y. S., Song, H. J., & Park, C. Y., “A study of polymerase chain reaction device control via cloud using Firebase Cloud Messaging protocol”, BioMedical Engineering OnLine, 17, 1-9, 2018.
- 17. Chandana, R., Jilani, S., & Hussain, S. J., “Smart surveillance system using thing speak and Raspberry Pi”, International Journal of Advanced Research in Computer and Communication Engineering, 4, 214-218, 2015.
- 18. Yazgan, A., Tuğcu, E., Albayrak, C., & Kadir, T. U. R. K., “Yüksek hızlı terahertz kablosuz haberleşme için iletim pencereleri ve link hesabı”, Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi, 10, 48-53, 2021.
- 19. Başçiftçi, F., & Gündüz, K. A., “Nesnelerin İnterneti Uyumlu Mikrodenetleyiciler Üzerine Bir Araştırma”, Selçuk Üniversitesi Sosyal ve Teknik Araştırmalar Dergisi, 66-76, 2019.
REMOTE CONTROL OF SYSTEMS USED IN PROVINCIAL REGIONS
Year 2023,
Volume: 2 Issue: 1, 68 - 73, 26.12.2023
Canberk Turhan
,
Ersin Alaybeyoğlu
Abstract
In the study, control of electronic and mechanical systems in rural areas is implemented by providing remote data transfer. XBee wireless communication module is used as communication module. The first module is placed in the system located in the province. By using the second module, a gateway is created from the point with internet access. In this way, the data can be transferred to the cloud system. By using the data transferred to the cloud system, the control of the device in the province will be carried out from points with internet access via developed mobile application and the website. The study can be used to set an example for researchers in IoT applications to be used in the development of smart villages. The study was supported and concluded within the scope of Tübitak 2209A.
Project Number
1919B012005647
References
- 1. Gilchrist, A., “Industry 4.0: The Industrial Internet of Things. Heidelberg”, Germany: Springer, 2016.
- 2. Bock, B., “Social innovation and sustainability; how to disentan- gle the buzzword and its application in the field of agriculture and rural development”, Stud. Agricult. Econ., 114, 57–63, 2012.
- 3. Lu, Y., “Industry 4.0: A survey on technologies, applications and open research issues”, J. Ind. Inf. Integr., 6, 1–10, 2017.
- 4. Bauer, W., Hämmerle M., Schlund S., and Vocke C., “Transforming to a hyperconnected society and economy—Towards an ‘industry 4.0”, Procedia Manuf., 3, 417–424,
- 2015.
5. Nam, T., and Pardo, T.A., Conceptualizing smart city with dimensions of technology, people, and institutions”, in Proc. 12th Annu. Int. Digit. Government Res. Conf. Digit. Government Innov. Challenging Times, 282–291, 2011.
- 6. Zavratnik, V., Kos, A., and Duh, E. S., “Smart villages: Comprehensive review of initiatives and practices”, Sustainability, 10, 2559, 2018.
- 7. Markowitz, C., “Harnessing the 4IR in SADC: Roles for policymakers”, South Afr. Inst. Int. Affairs, Johannesburg, South Africa, Tech. Rep., 2019.
- 8. Gwaka, L. T., “Digital technologies and youth mobility in rural Zimbabwe”, Electron. J. Inf. Syst. Developing Countries, 84, 2018.
- 9. Nair, A. V., Nellippallil, A. B., Allen, J. K., and Mistree, F., ‘‘Speculating a successful and relevant global development enterprise in the year 2035”, Mississippi State Univ., Starkville, MN, USA, Tech. Rep. NSF/ASME Design Essay Competition, 2019.
- 10. Maja, P. W., Meyer, J., & Von Solms, S., “Development of Smart Rural Village Indicators in Line With Industry 4.0”, IEEE Access, 8, 152017-152033, 2020.
- 11. Agrawal, N., and Singhal, S., “Smart drip irrigation system using raspberry pi and Arduino”, International Conference on Computing, Communication & Automation, 928-932, 2015.
- 12. Akkaya, O. S., “Gerçek Zamanlı Enerji İzleme İçin Nesnelerin İnterneti Tabanlı Akıllı Sayaç Tasarımı”, (Doctoral dissertation, Necmettin Erbakan University, 2020.
- 13. Cama-Pinto, A., Pineres-Espitia, G., Caicedo-Ortiz, J., Ramírez-Cerpa, E., Betancur-Agudelo, L., & Gómez-Mula, F., “Received strength signal intensity performance analysis in wireless sensor network using Arduino platform and XBee wireless modules”, International Journal of Distributed Sensor Networks, 13, 2017.
- 14. Tuan, K. N., “A wireless sensor network for aquaculture using Raspberry Pi, Arduino and Xbee”, International Conference on System Science and Engineering, 235-238, 2019.
- 15. Kabir, A. S., Shorif, M. A., Li, H., & Yu, Q., “A study of secured wireless sensor networks with XBee and Arduino”, 2nd International Conference on Systems and Informatics, 492-496, 2014.
- 16. Kim, J. D., Lee, S. Y., Kim, Y. S., Song, H. J., & Park, C. Y., “A study of polymerase chain reaction device control via cloud using Firebase Cloud Messaging protocol”, BioMedical Engineering OnLine, 17, 1-9, 2018.
- 17. Chandana, R., Jilani, S., & Hussain, S. J., “Smart surveillance system using thing speak and Raspberry Pi”, International Journal of Advanced Research in Computer and Communication Engineering, 4, 214-218, 2015.
- 18. Yazgan, A., Tuğcu, E., Albayrak, C., & Kadir, T. U. R. K., “Yüksek hızlı terahertz kablosuz haberleşme için iletim pencereleri ve link hesabı”, Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi, 10, 48-53, 2021.
- 19. Başçiftçi, F., & Gündüz, K. A., “Nesnelerin İnterneti Uyumlu Mikrodenetleyiciler Üzerine Bir Araştırma”, Selçuk Üniversitesi Sosyal ve Teknik Araştırmalar Dergisi, 66-76, 2019.