Araştırma Makalesi
BibTex RIS Kaynak Göster

Yıl 2023, Cilt: 8 Sayı: 2, 45 - 48

Aytaç Uğur Yerden

https://doi.org/10.52876/jcs.1389651

Öz

Kaynakça

  • [1] Watson, R., Akselsen, S., Monod, E., & Pitt, L. (2004). The Open Tourism Consortium:: Laying The Foundations for the Future of Tourism. European Management Journal, 22(3), 315-326.
  • [2] Romão, T., Correia, N., Dias, E., Danado, J., Trabuco, A., Santos, C., ... & Nobre, E. (2004). ANTS—augmented environments. Computers & Graphics, 28(5), 625-633.
  • [3] Gracias, J. S., Parnell, G. S., Specking, E., Pohl, E. A., & Buchanan, R. (2023). Smart Cities—A Structured Literature Review. Smart Cities, 6(4), 1719-1743.
  • [4] Rolland, J. P., & Hua, H. (2005). Head-mounted display systems. Encyclopedia of optical engineering, 2, 1-14.
  • [5] Loomis, J. M., Golledge, R. G., & Klatzky, R. L. (1998). Navigation system for the blind: Auditory display modes and guidance. Presence, 7(2), 193-203.
  • [6] Kim, S. K., Kang, S. J., Choi, Y. J., Choi, M. H., & Hong, M. (2017). Augmented-Reality Survey: from Concept to Application. KSII Transactions on Internet & Information Systems, 11(2).
  • [7] Milgram, P., Takemura, H., Utsumi, A., and Kishino, F. (1994). Augmented reality: a class of displays on the reality-virtuality continuum. Proc. SPIE 2351, 282–292. doi: 10.1117/12.197321
  • [8] Kanade, P., & Prasad, J. P. (2021). Mobile and location based service using augmented reality: a review. European Journal of Electrical Engineering and Computer Science, 5(2), 13-18.
  • [9] Shatte, A., Holdsworth, J., & Lee, I. (2014). Mobile augmented reality based context-aware library management system. Expert systems with applications, 41(5), 2174-2185.
  • [10] Ramtohul, A., & Khedo, K. K. (2022). Location-based mobile augmented reality systems: a systematic review. Immersive Technology in Smart Cities: Augmented and Virtual Reality in IoT, 41-65.
  • [11] Aurelia, S. (2020). Heightening Satellite Image Display via Mobile Augmented Reality – A Cutting-Edge Planning Model. In: Hemanth, D. (eds) Artificial Intelligence Techniques for Satellite Image Analysis. Remote Sensing and Digital Image Processing, vol 24. Springer, Cham. https://doi.org/10.1007/978-3-030-24178-0_1
  • [12] Zhang, T., Li, Y., & Chen, C. P. (2021). Edge computing and its role in Industrial Internet: Methodologies, applications, and future directions. Information Sciences, 557, 34-65.
  • [13] Ajslev, J. Z. N., & Nimb, I. E. E. (2022). Virtual design and construction for occupational safety and health purposes–A review on current gaps and directions for research and practice. Safety science, 155, 105876.
  • [14] GEMET. (2023). Definition of Preventive Information. Retrieved January 10, 2023, from http://www.eionet.europa.eu/gemet/concept/12866
  • [15] Pierdicca, R., Frontoni, E., Zingaretti, P., Mancini, A., Malinverni, E. S., Tassetti, A. N., ... & Galli, A. (2016). Smart maintenance of riverbanks using a standard data layer and Augmented Reality. Computers & Geosciences, 95, 67-74.
  • [16] Gazcón, N. F., Nagel, J. M. T., Bjerg, E. A., & Castro, S. M. (2018). Fieldwork in Geosciences assisted by ARGeo: A mobile Augmented Reality system. Computers & Geosciences, 121, 30-38.
  • [17] Sabeti, S., Shoghli, O., Baharani, M., & Tabkhi, H. (2021). Toward AI-enabled augmented reality to enhance the safety of highway work zones: Feasibility, requirements, and challenges. Advanced Engineering Informatics, 50, 101429.
  • [18] El Ammari, K., & Hammad, A. (2019). Remote interactive collaboration in facilities management using BIM-based mixed reality. Automation in Construction, 107, 102940.
  • [19] Lee, J., Kim, J., Ahn, J., & Woo, W. (2019). Context-aware risk management for architectural heritage using historic building information modeling and virtual reality. Journal of Cultural Heritage, 38, 242-252.
  • [20] Koyun, A. & Cankaya, I.A. (2018). Implementation of a Beacon-Enabled Mobile Indoor Navigation System Using Augmented Reality. Tehnički vjesnik, 25 (4), 979-985. https://doi.org/10.17559/TV-20160428091101
  • [21] Djordjevic, D., Radojevic, M.D. & Popovic, N. (2021). On-photo Restitution and Management of an Angular Size-Illusion's Behaviour Experienced in Architectural/Urban Spaces. Tehnički vjesnik, 28 (5), 1681-1690. https://doi.org/10.17559/TV-20200514000758
  • [22] Amin, K., Mills, G., & Wilson, D. (2023). Key functions in BIM-based AR platforms. Automation in Construction, 150, 104816.
  • [23] Kamal, A. A., Junaini, S. N., Hashim, A. H., Sukor, F. S., & Said, M. F. (2021). The Enhancement of OSH Training with an Augmented Reality-Based App. International Journal of Online and Biomedical Engineering (iJOE), 17(13), pp. 120–134. https://doi.org/10.3991/ijoe.v17i13.24517

Location-Based Artificial Intelligence and Augmented Reality-Assisted Preventive Information Application

Yıl 2023, Cilt: 8 Sayı: 2, 45 - 48

Aytaç Uğur Yerden

https://doi.org/10.52876/jcs.1389651

Öz

This study describes the development of a location-based preventive information application supported by augmented reality and artificial intelligence. It can be very difficult to stay updated about the safety measures implemented for the settlement in our region while carrying out daily tasks. With this application created in this context, while obtaining preliminary information about our location, it will be incredibly simple for us to obtain information such as the level of measures taken for the location, the last inspection control dates of the existing equipment in the location, earthquake safety, etc. The application produced by combining augmented reality, artificial intelligence, and cloud computing technologies delivers data to us for this purpose. Individuals will be aware of the location as a result of the offered information, allowing them to act more safely. As a result, the developed application made it possible to reach all the data about the places in the applied locations and successful findings were obtained.

Anahtar Kelimeler

Augmented Reality Location-Based AR Artificial Intelligence Preventive Information

Kaynakça

  • [1] Watson, R., Akselsen, S., Monod, E., & Pitt, L. (2004). The Open Tourism Consortium:: Laying The Foundations for the Future of Tourism. European Management Journal, 22(3), 315-326.
  • [2] Romão, T., Correia, N., Dias, E., Danado, J., Trabuco, A., Santos, C., ... & Nobre, E. (2004). ANTS—augmented environments. Computers & Graphics, 28(5), 625-633.
  • [3] Gracias, J. S., Parnell, G. S., Specking, E., Pohl, E. A., & Buchanan, R. (2023). Smart Cities—A Structured Literature Review. Smart Cities, 6(4), 1719-1743.
  • [4] Rolland, J. P., & Hua, H. (2005). Head-mounted display systems. Encyclopedia of optical engineering, 2, 1-14.
  • [5] Loomis, J. M., Golledge, R. G., & Klatzky, R. L. (1998). Navigation system for the blind: Auditory display modes and guidance. Presence, 7(2), 193-203.
  • [6] Kim, S. K., Kang, S. J., Choi, Y. J., Choi, M. H., & Hong, M. (2017). Augmented-Reality Survey: from Concept to Application. KSII Transactions on Internet & Information Systems, 11(2).
  • [7] Milgram, P., Takemura, H., Utsumi, A., and Kishino, F. (1994). Augmented reality: a class of displays on the reality-virtuality continuum. Proc. SPIE 2351, 282–292. doi: 10.1117/12.197321
  • [8] Kanade, P., & Prasad, J. P. (2021). Mobile and location based service using augmented reality: a review. European Journal of Electrical Engineering and Computer Science, 5(2), 13-18.
  • [9] Shatte, A., Holdsworth, J., & Lee, I. (2014). Mobile augmented reality based context-aware library management system. Expert systems with applications, 41(5), 2174-2185.
  • [10] Ramtohul, A., & Khedo, K. K. (2022). Location-based mobile augmented reality systems: a systematic review. Immersive Technology in Smart Cities: Augmented and Virtual Reality in IoT, 41-65.
  • [11] Aurelia, S. (2020). Heightening Satellite Image Display via Mobile Augmented Reality – A Cutting-Edge Planning Model. In: Hemanth, D. (eds) Artificial Intelligence Techniques for Satellite Image Analysis. Remote Sensing and Digital Image Processing, vol 24. Springer, Cham. https://doi.org/10.1007/978-3-030-24178-0_1
  • [12] Zhang, T., Li, Y., & Chen, C. P. (2021). Edge computing and its role in Industrial Internet: Methodologies, applications, and future directions. Information Sciences, 557, 34-65.
  • [13] Ajslev, J. Z. N., & Nimb, I. E. E. (2022). Virtual design and construction for occupational safety and health purposes–A review on current gaps and directions for research and practice. Safety science, 155, 105876.
  • [14] GEMET. (2023). Definition of Preventive Information. Retrieved January 10, 2023, from http://www.eionet.europa.eu/gemet/concept/12866
  • [15] Pierdicca, R., Frontoni, E., Zingaretti, P., Mancini, A., Malinverni, E. S., Tassetti, A. N., ... & Galli, A. (2016). Smart maintenance of riverbanks using a standard data layer and Augmented Reality. Computers & Geosciences, 95, 67-74.
  • [16] Gazcón, N. F., Nagel, J. M. T., Bjerg, E. A., & Castro, S. M. (2018). Fieldwork in Geosciences assisted by ARGeo: A mobile Augmented Reality system. Computers & Geosciences, 121, 30-38.
  • [17] Sabeti, S., Shoghli, O., Baharani, M., & Tabkhi, H. (2021). Toward AI-enabled augmented reality to enhance the safety of highway work zones: Feasibility, requirements, and challenges. Advanced Engineering Informatics, 50, 101429.
  • [18] El Ammari, K., & Hammad, A. (2019). Remote interactive collaboration in facilities management using BIM-based mixed reality. Automation in Construction, 107, 102940.
  • [19] Lee, J., Kim, J., Ahn, J., & Woo, W. (2019). Context-aware risk management for architectural heritage using historic building information modeling and virtual reality. Journal of Cultural Heritage, 38, 242-252.
  • [20] Koyun, A. & Cankaya, I.A. (2018). Implementation of a Beacon-Enabled Mobile Indoor Navigation System Using Augmented Reality. Tehnički vjesnik, 25 (4), 979-985. https://doi.org/10.17559/TV-20160428091101
  • [21] Djordjevic, D., Radojevic, M.D. & Popovic, N. (2021). On-photo Restitution and Management of an Angular Size-Illusion's Behaviour Experienced in Architectural/Urban Spaces. Tehnički vjesnik, 28 (5), 1681-1690. https://doi.org/10.17559/TV-20200514000758
  • [22] Amin, K., Mills, G., & Wilson, D. (2023). Key functions in BIM-based AR platforms. Automation in Construction, 150, 104816.
  • [23] Kamal, A. A., Junaini, S. N., Hashim, A. H., Sukor, F. S., & Said, M. F. (2021). The Enhancement of OSH Training with an Augmented Reality-Based App. International Journal of Online and Biomedical Engineering (iJOE), 17(13), pp. 120–134. https://doi.org/10.3991/ijoe.v17i13.24517
Toplam 23 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Yapay Zeka (Diğer)
Bölüm Articles
Yazarlar

Aytaç Uğur Yerden 0000-0002-3886-802X

Erken Görünüm Tarihi 22 Ocak 2024
Yayımlanma Tarihi
Gönderilme Tarihi 12 Kasım 2023
Kabul Tarihi 18 Aralık 2023
Yayımlandığı Sayı Yıl 2023 Cilt: 8 Sayı: 2

Kaynak Göster

APA Yerden, A. U. (2024). Location-Based Artificial Intelligence and Augmented Reality-Assisted Preventive Information Application. The Journal of Cognitive Systems, 8(2), 45-48. https://doi.org/10.52876/jcs.1389651
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