Nesnelerin İnterneti Teknolojileri ile Gerçek Zamanlı Okul Servisi ve Öğrenci Takip Sistemi Tasarımı
Yıl 2018,
Cilt: 6 Sayı: 4, 1211 - 1223, 01.08.2018
Kerem Küçük
,
Buse Çelik
Cüneyt Bayılmış
Öz
Nesnelerin İnterneti tabanlı çözümler sağladığı
kolaylıklar ve maliyetlerinin etkin olması nedeni ile gün geçtikçe artan
kullanıma sahip olmaya başlamıştır. Özellikle son yıllarda gelişmeye başlayan
akıllı şehir kavramı ile birlikte hemen hemen her alanda var olmaya başlayan bu
teknolojiler yüksek hızda veri iletişimini destekleyebilmektedirler. Bu
çalışmanın amacı servis araçlarının ve öğrencilerin hareketlerinin gerçek
zamanlı olarak izlenmesidir. Böylelikle araca biniş ile okula varıncaya kadar
geçen süre içerisinde tüm grupların bilgilendirilmesi ve öğrencilerin güvenli
bir biçimde okula ulaştırılması sağlanmaktadır. Bu çalışma ile el ile
yapılmakta olan tüm işlemler sistematik bir hale getirilmektedir. Bu amaç ile HM-11
Bluetooth düşük enerji modülü işaretçi cihazları, gerçek zamanlı olarak
çalışabilen bir veri tabanı olan Firebase bulut platformunu, işaretçi cihazlara
erişimi sağlayabilen MIT App Inventor Android mobil uygulamasını ve web
uygulamasını kullanan okul servisi ve öğrenci takip sistemi sunulmaktadır.
Kaynakça
- [1] Y. F. Bao, “Analysis of the learning evaluation of distance education based on the Internet of Things”, World Tran. on Engineering and Technology Education, c. 14, s. 1, ss.168-172, 2016.
- [2] T.M. NG, “From “Where I Am” to “Here I Am”: accuracy study on location-based services with IBeacon technology,” HKIE Transactions, c. 22, s.1, ss. 23-31, 2015.
- [3] F. Dalkılıç, U. C. Çabuk, E. Arıkan, A. Gürkan, “An analysis of the positioning accuracy of iBeacon technology in indoor environments,” International Conference on Computer Science and Engineering (UBMK), Antalya, Türkiye, ss. 549-553, 2017.[4] F. Alam, R. Mehmood, I. Katib, N. N. Albogami and A. Albeshri, “Data Fusion and IoT for Smart Ubiquitous Environments: A Survey,” IEEE Access, c. 5, ss. 9533-9554, 2017.
- [5] S. Verma, Y. Kawamoto, Z. M. Fadlullah, H. Nishiyama and N. Kato, “A Survey on Network Methodologies for Real-Time Analytics of Massive IoT Data and Open Research Issues,” IEEE Communications Surveys & Tutorials, c. 19, s. 3, ss. 1457-1477, 2017.
- [6] O. B. Sezer, E. Dogdu and A. M. Ozbayoglu, “Context-Aware Computing, Learning, and Big Data in Internet of Things: A Survey,” IEEE Internet of Things Journal, c. 5, s. 1, ss. 1-27, 2018.
- [7] H. Hoshi, H. Ishizuka, A. Kobayashi and A. Minamikawa, “An indoor location estimation using BLE beacons considering movable obstructions,” Tenth International Conference on Mobile Computing and Ubiquitous Network (ICMU), Toyama, ss. 1-2, 2017.
- [8] C. Bayılmış, M. Özdemir, “Bluetooth Düşük Enerji Teknolojisine Sahip İşaretçi ve Akıllı Telefon Temelli Öğrenci Yoklama Sistemi,” Bilişim Teknolojileri Dergisi, c. 9, s. 3, ss. 249-254, 2016.
- [9] H. Geng, Beacon Technology with IoT and Big Data, Internet of Things and Data Analytics Handbook , Wiley Telecom, 2017.
- [10] Anonim, (22 Mayıs 2018). [Online]. Erişim: https://www.blesh.com.
- [11] R. C. Jisha, A. Jyothindranath, L. S. Kumary, “Iot based school bus tracking and arrival time prediction," International Conference on Advances in Computing, Communications and Informatics (ICACCI), Udupi, ss. 509-514, 2017.
- [12] S. Shah and B. Singh, “RFID based school bus tracking and security system,” Int. Conference on Communication and Signal Processing (ICCSP), Melmaruvathur, ss. 1481-1485, 2016.
- [13] M. Ghareeb, A. Ghamlous, H. Hamdan, A. Bazzi and S. Abdul-Nabi, “Smart bus: A tracking system for school buses,” Sensors Networks Smart and Emerging Technologies, Beirut, ss. 1-3, 2017.
- [14] J. T. Raj and J. Sankar, “IoT based smart school bus monitoring and notification system,” IEEE Region 10 Humanitarian Technology Conference (R10-HTC), Dhaka, ss. 89-92, 2017.
- [15] Anonim, (22 Mayıs 2018). [Online]. Erişim: http://isbak.istanbul/akilli-ulasim-cozumleri/.
- [16] G. Shan and B. H. Roh, “Advertisement Interval to Minimize Discovery Time of Whole BLE Advertisers,” IEEE Access, c. 6, ss. 17817-17825, 2018.
- [17] W. J. Li, C. Yen, Y. S. Lin, S. C. Tung and S. Huang, “JustIoT Internet of Things based on the Firebase real-time database,” IEEE International Conference on Smart Manufacturing, Industrial & Logistics Engineering (SMILE), Hsinchu, ss. 43-47, 2018.
- [18] A. Shukla, D. Hedaoo, M. B. Chandak, V. Prakashe and A. Raipurkar, “A novel approach: Cloud-based real-time electronic notice board,” International Conference On Smart Technologies For Smart Nation (SmartTechCon), Bengaluru, India, ss. 1416-1423, 2017.
Yıl 2018,
Cilt: 6 Sayı: 4, 1211 - 1223, 01.08.2018
Kerem Küçük
,
Buse Çelik
Cüneyt Bayılmış
Kaynakça
- [1] Y. F. Bao, “Analysis of the learning evaluation of distance education based on the Internet of Things”, World Tran. on Engineering and Technology Education, c. 14, s. 1, ss.168-172, 2016.
- [2] T.M. NG, “From “Where I Am” to “Here I Am”: accuracy study on location-based services with IBeacon technology,” HKIE Transactions, c. 22, s.1, ss. 23-31, 2015.
- [3] F. Dalkılıç, U. C. Çabuk, E. Arıkan, A. Gürkan, “An analysis of the positioning accuracy of iBeacon technology in indoor environments,” International Conference on Computer Science and Engineering (UBMK), Antalya, Türkiye, ss. 549-553, 2017.[4] F. Alam, R. Mehmood, I. Katib, N. N. Albogami and A. Albeshri, “Data Fusion and IoT for Smart Ubiquitous Environments: A Survey,” IEEE Access, c. 5, ss. 9533-9554, 2017.
- [5] S. Verma, Y. Kawamoto, Z. M. Fadlullah, H. Nishiyama and N. Kato, “A Survey on Network Methodologies for Real-Time Analytics of Massive IoT Data and Open Research Issues,” IEEE Communications Surveys & Tutorials, c. 19, s. 3, ss. 1457-1477, 2017.
- [6] O. B. Sezer, E. Dogdu and A. M. Ozbayoglu, “Context-Aware Computing, Learning, and Big Data in Internet of Things: A Survey,” IEEE Internet of Things Journal, c. 5, s. 1, ss. 1-27, 2018.
- [7] H. Hoshi, H. Ishizuka, A. Kobayashi and A. Minamikawa, “An indoor location estimation using BLE beacons considering movable obstructions,” Tenth International Conference on Mobile Computing and Ubiquitous Network (ICMU), Toyama, ss. 1-2, 2017.
- [8] C. Bayılmış, M. Özdemir, “Bluetooth Düşük Enerji Teknolojisine Sahip İşaretçi ve Akıllı Telefon Temelli Öğrenci Yoklama Sistemi,” Bilişim Teknolojileri Dergisi, c. 9, s. 3, ss. 249-254, 2016.
- [9] H. Geng, Beacon Technology with IoT and Big Data, Internet of Things and Data Analytics Handbook , Wiley Telecom, 2017.
- [10] Anonim, (22 Mayıs 2018). [Online]. Erişim: https://www.blesh.com.
- [11] R. C. Jisha, A. Jyothindranath, L. S. Kumary, “Iot based school bus tracking and arrival time prediction," International Conference on Advances in Computing, Communications and Informatics (ICACCI), Udupi, ss. 509-514, 2017.
- [12] S. Shah and B. Singh, “RFID based school bus tracking and security system,” Int. Conference on Communication and Signal Processing (ICCSP), Melmaruvathur, ss. 1481-1485, 2016.
- [13] M. Ghareeb, A. Ghamlous, H. Hamdan, A. Bazzi and S. Abdul-Nabi, “Smart bus: A tracking system for school buses,” Sensors Networks Smart and Emerging Technologies, Beirut, ss. 1-3, 2017.
- [14] J. T. Raj and J. Sankar, “IoT based smart school bus monitoring and notification system,” IEEE Region 10 Humanitarian Technology Conference (R10-HTC), Dhaka, ss. 89-92, 2017.
- [15] Anonim, (22 Mayıs 2018). [Online]. Erişim: http://isbak.istanbul/akilli-ulasim-cozumleri/.
- [16] G. Shan and B. H. Roh, “Advertisement Interval to Minimize Discovery Time of Whole BLE Advertisers,” IEEE Access, c. 6, ss. 17817-17825, 2018.
- [17] W. J. Li, C. Yen, Y. S. Lin, S. C. Tung and S. Huang, “JustIoT Internet of Things based on the Firebase real-time database,” IEEE International Conference on Smart Manufacturing, Industrial & Logistics Engineering (SMILE), Hsinchu, ss. 43-47, 2018.
- [18] A. Shukla, D. Hedaoo, M. B. Chandak, V. Prakashe and A. Raipurkar, “A novel approach: Cloud-based real-time electronic notice board,” International Conference On Smart Technologies For Smart Nation (SmartTechCon), Bengaluru, India, ss. 1416-1423, 2017.