Service-Oriented Architecture for Animal Monitoring System

  • Arvind Kumar Mishra
  • Renuka Nagpal
  • Kirti Seth
  • Rajni Sehgal
Keywords: Service Oriented Architecture (SOA), Animal Monitoring System (AMS), Internet of Things (IOT), Mean Score Value (MSV)

Abstract

In recent years, Service-Oriented Architecture (SOA) has emerged as a robust and scalable framework for integrating diverse systems and services. While SOA has been widely adopted in industries such as finance, healthcare, and e-commerce, its potential application in animal welfare and conservation is relatively unexplored. This paper proposes the Animal Monitoring System of SOA that assists in animal care, monitoring and rescue operations. Through the integration of diverse technologies and services—ranging from sensor networks to veterinary databases—SOA can enhance animal welfare in areas such as wildlife conservation, animal shelters, and veterinary care. This research discusses the architectural design, potential benefits, and challenges of adopting SOA in animal-related domains. The paper highlighting the need for SOA in aiding animals during war by integrating services like GPS, satellite, and drones for wildlife tracking and analyzing the Animal Management System (AMS), assigning severity scores to animals based on symptoms from 10,000 datasets. It found a 60% chance of a dog being in a dangerous condition, triggering alerts if two critical symptoms are detected.

Author Biographies

Arvind Kumar Mishra

Amity Institute of Information Technology , Amity University Noida, UP, India

Renuka Nagpal

ASET,Amity University Noida,UP, India

Kirti Seth

IUT-Taskent

Rajni Sehgal

ASET, Amity University Noida, UP, India

References

Goyal, A., Srivastava, R., & Kumar, V. (2020). The role of SOA in modernizing animal welfare systems. International Journal of Animal Science and Welfare, 9(3), 101-115.

Anderson, J., & Smith, R. (2019). Interoperability in animal welfare systems: A service-oriented architecture approach. Journal of Animal Welfare Technology, 8(2), 45-60.

Luntz, S., et al. (2021). SOA and scalability in veterinary healthcare systems. Journal of Animal Care IT Solutions, 15(4), 67-80.

Perez, M., & Williams, T. (2022). Data analytics in animal welfare using service-oriented architecture. Animal Welfare Data Science Review, 6(1), 92-109.

Benjamins, P., & Martin, K. (2020). Optimizing resources in animal welfare through service-oriented architecture. Veterinary Information Systems, 11(1), 33-46.

Watanabe, Y., & Lee, D. (2021). Overcoming challenges in the implementation of SOA for animal welfare systems. Journal of Animal Care Technology, 12(2), 77-89.

Smith, A., & Jones, B. (2020). SOA for enhanced animal shelter management. Journal of Animal Welfare, 15(3), 200-215.

Patel, C., Lee, D., & Chen, E. (2021). Integrating SOA in veterinary services. Veterinary Practice Management Journal, 22(1), 50-65.

Kim, H., & Lee, S. (2022). Cloud-based SOA for animal rescue networks. International Journal of Animal Rescue Technology, 10(2), 130-145.

Garcia, M., & Thompson, R. (2023). Data sharing in animal welfare through SOA. Journal of Animal Welfare Research, 8(4), 300-320.

Wu, J., & Zhang, L. (2022). SOA in animal welfare education. Journal of Animal Welfare Education, 5(1), 75-90.

Mishra, A. K., Nagpal, R., Seth, K., & Sehgal, R. (2021, September). A Critical Review on Service Oriented Architecture and its Maintainability. In 2021 9th International Conference on Reliability, Infocom Technologies and Optimization (Trends and Future Directions)(ICRITO) (pp. 1-8). IEEE.

Mishra, A. K., Nagpal, R., Seth, K., & Sehgal, R. (2022, October). Analyzability of SOA using Soft Computing Technique. In 2022 10th International Conference on Reliability, Infocom Technologies and Optimization (Trends and Future Directions)(ICRITO) (pp. 1-5). IEEE.

Mishra, A. K., Nagpal, R., Seth, K., & Sehgal, R. (2023). Maintainability of Service-Oriented Architecture using Hybrid K-means Clustering Approach. International Journal of Performability Engineering, 19(1)

Mishra, A. K., Nagpal, R., Seth, K., & Sehgal, R. (2023). A Framework to Evaluate Maintainability of Service-oriented Architecture using Fuzzy. International Journal of Performability Engineering, 19(6), 379.

https://www.kaggle.com/datasets/willianoliveiragibin/animal-condition

Published
2024-10-23
How to Cite
Arvind Kumar Mishra, Renuka Nagpal, Kirti Seth, & Rajni Sehgal. (2024). Service-Oriented Architecture for Animal Monitoring System. Revista Electronica De Veterinaria, 25(1), 2474 -2480. https://doi.org/10.69980/redvet.v25i1.1251
Section
Articles