Proceedings of International Conference on Applied Innovation in IT
2025/07/26, Volume 13, Issue 3, pp.207-214

Revolutionizing Surveillance with Deep Learning-Powered Anomaly Detection and Real-Time Behavior Analysis


Shanmuga Shyam B., Selva Jothi Murugan, Chairan Zibar L. Parisu, Sasmin Sasmin, Janani Vignesh and Ahmed Mohammed Abdukarem


Abstract: A novel approach for real-time anomaly detection within CCTV surveillance systems, taking the full power of advanced deep learning models to overcome the shortcomings of human-monitored surveillance. Traditional systems are largely dependent on human operators monitoring video feeds, often resulting in fatigue, distraction, and delayed responses. The use of Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs) in enhancing the automation of anomaly detection. CNNs have been specialized in extracting spatial features from video frames, identifying objects, scenes, and contextual patterns. RNNs, analyzing temporal dynamics, capture behaviors over time, hence detecting patterns that are indicative of abnormal activities. The fusion of these models allows the system to detect fights, accidents, or falls in real time. Moreover, the system provides a much lower rate of false positives, allowing the system to be much more accurate than traditional systems regarding anomaly detection. Real-time anomaly detection is crucial for applications in public safety, health care, traffic management, and retail, all allowing for faster response times and improving operational efficiency with a reduced reliance on human intervention. The discussion is about development, methodology, and potential applications and demonstrates the dramatic impact it had on public safety and operational efficiency.

Keywords: Anomaly Detection, Real-Time Surveillance, CCTV Monitoring, Deep Learning, Convolutional Neural Network (CNN), Recurrent Neural Network (RNN).

DOI: Under Indexing

Download: PDF

References:

  1. L. Sharara et al., "A real-time automotive safety system based on advanced AI facial detection algorithms," IEEE Transactions on Intelligent Vehicles, May 2023.
  2. T. F. Bukht, H. Rahman, M. Shaheen, A. Algarni, N. A. Almujally, and A. Jalal, "A review of video-based human activity recognition: Theory, methods and applications," Multimedia Tools and Applications, vol. 2024, pp. 1–47, Jul. 2024.
  3. K. Rezaee, S. M. Rezakhani, M. R. Khosravi, and M. K. Moghimi, "A survey on deep learning-based real-time crowd anomaly detection for secure distributed video surveillance," Personal and Ubiquitous Computing, vol. 28, no. 1, pp. 135–151, Feb. 2024.
  4. K. Alomar, H. I. Aysel, and X. Cai, "RNNs, CNNs and Transformers in human action recognition: A survey and a hybrid model," arXiv preprint arXiv:2407.06162, Jun. 2024.
  5. A. Diro, S. Kaisar, A. V. Vasilakos, A. Anwar, A. Nasirian, and G. Olani, "Anomaly detection for space information networks: A survey of challenges, techniques, and future directions," Computers & Security, vol. 139, p. 103705, Apr. 2024.
  6. A. A. Musa, A. Hussaini, W. Liao, F. Liang, and W. Yu, "Deep neural networks for spatial-temporal cyber-physical systems: A survey," Future Internet, vol. 15, no. 6, p. 199, May 2023.
  7. Y. He and L. Xiao, "Structured pruning for deep convolutional neural networks: A survey," IEEE Transactions on Pattern Analysis and Machine Intelligence, Nov. 2023.
  8. D. Chakraborty, W. Chiracharit, and K. Chamnongthai, "Semantic scene object-camera motion recognition for scene transition detection using dense spatial frame segments and temporal trajectory analysis," IEEE Access, Feb. 2024.
  9. R. Khaldi, A. El Afia, R. Chiheb, and S. Tabik, "What is the best RNN-cell structure to forecast each time series behavior?," Expert Systems with Applications, vol. 215, p. 119140, Apr. 2023.
  10. W. Qin, B. Zou, X. Li, W. Wang, and H. Ma, "Micro-expression spotting with face alignment and optical flow," in Proc. 31st ACM Int. Conf. on Multimedia, Oct. 2023, pp. 9501–9505.
  11. U. Bibi et al., "Advances in pruning and quantization for natural language processing," IEEE Access, Sep. 2024.
  12. J. Rane, S. K. Mallick, O. Kaya, and N. L. Rane, "Artificial intelligence, machine learning, and deep learning in cloud, edge, and quantum computing: A review of trends, challenges, and future directions," Future Research Opportunities in Artificial Intelligence Industry, vol. 4, pp. 2–, 2024.
  13. I. E. Nizza et al., "Examining change in the mental health of young people with epilepsy following a successful psychological intervention," Clinical Child Psychology and Psychiatry, vol. 29, no. 4, pp. 1400–1416, Oct. 2024.
  14. Y. Berhanu, E. Alemayehu, and D. Schröder, "Examining car accident prediction techniques and road traffic congestion: A comparative analysis of road safety and prevention of world challenges in low-income and high-income countries," Journal of Advanced Transportation, vol. 2023, no. 1, p. 6643412, 2023.
  15. R. S. Jebur, M. H. B. M. Zabil, L. K. Cheng, and D. A. Hammood, "Image denoising in deep learning: A comprehensive survey," EETJ, vol. 1, no. 1, pp. 1–12, Jun. 2024.
  16. G. A. Carlson et al., "Narrative review: Impairing emotional outbursts: What they are and what we should do about them," Journal of the American Academy of Child & Adolescent Psychiatry, vol. 62, no. 2, pp. 135–150, Feb. 2023.
  17. W. Du, A. Dash, J. Li, H. Wei, and G. Wang, "Safety in traffic management systems: A comprehensive survey," Designs, vol. 7, no. 4, p. 100, Aug. 2023.
  18. T. Shaik et al., "Remote patient monitoring using artificial intelligence: Current state, applications, and challenges," Wiley Interdisciplinary Reviews: Data Mining and Knowledge Discovery, vol. 13, no. 2, p. e1485, Mar. 2023.
  19. T. G. Mondal, J. Y. Chou, Y. Fu, and J. Mao, "A hybrid deep neural network compression approach enabling edge intelligence for data anomaly detection in smart structural health monitoring systems," Smart Structures and Systems, vol. 32, no. 3, pp. 179–193, Sep. 2023.
  20. G. Pang, C. Shen, L. Cao, and A. van den Hengel, "Deep learning for anomaly detection: A review," ACM Computing Surveys, vol. 54, no. 2, pp. 1–38, Mar. 2021.
  21. J. Madeira, "Ethical considerations in deploying IoT sensors for anomaly detection in autonomous vehicles," Journal of AI-Assisted Scientific Discovery, vol. 3, no. 2, pp. 1–3, Jun. 2023.
  22. H. F. Jameel, "Real-time sitting correction using Arduino-based ultrasonic sensor at the workplace," JT, vol. 6, no. 4, pp. 19–26, Dec. 2024.
  23. A. Hakami, "Strategies for overcoming data scarcity, imbalance, and feature selection challenges in machine learning models for predictive maintenance," Scientific Reports, vol. 14, no. 1, p. 9645, Apr. 2024.
  24. V. R. Boppana, "Data ethics in CRM: Privacy and transparency issues," MZ Computer Journal, vol. 4, no. 2, Nov. 2023.
  25. Z. Zhang, S. Zhang, D. Ni, Z. Wei, K. Yang, S. Jin, G. Huang, Z. Liang, L. Zhang, L. Li, and H. Ding, "Multimodal sensing for depression risk detection: Integrating audio, video, and text data," Sensors, vol. 24, no. 12, p. 3714, Jun. 7, 2024.
  26. Q. Tang, J. Liang, and F. Zhu, "A comparative review on multi-modal sensors fusion based on deep learning," Signal Processing, p. 109165, Jul. 3, 2023.
  27. A. Diro, S. Kaisar, A. V. Vasilakos, A. Anwar, A. Nasirian, and G. Olani, "Anomaly detection for space information networks: A survey of challenges, techniques, and future directions," Computers & Security, vol. 139, p. 103705, Apr. 1, 2024.
  28. P. Yan, A. Abdulkadir, P. P. Luley, M. Rosenthal, G. A. Schatte, B. F. Grewe, and T. Stadelmann, "A comprehensive survey of deep transfer learning for anomaly detection in industrial time series: Methods, applications, and directions," IEEE Access, Jan. 2, 2024.
  29. H. Taherdoost, "Beyond supervised: The rise of self-supervised learning in autonomous systems," Information, vol. 15, no. 8, p. 491, Aug. 16, 2024.
  30. K. U. Duja, I. A. Khan, and M. Alsuhaibani, "Video surveillance anomaly detection: A review on deep learning benchmarks," IEEE Access, Nov. 5, 2024.
  31. S. Nair, "Beyond the cloud-unraveling the benefits of edge computing in IoT," International Journal of Computer Engineering and Technology, vol. 14, pp. 91–97, 2023.

    HOME

       - Conference
       - Journal
       - Paper Submission to Journal
       - Paper Submission to Conference
       - For Authors
       - For Reviewers
       - Important Dates
       - Conference Committee
       - Editorial Board
       - Reviewers
       - Last Proceedings


    PROCEEDINGS

       - Volume 13, Issue 3 (ICAIIT 2025)
       - Volume 13, Issue 2 (ICAIIT 2025)
       - Volume 13, Issue 1 (ICAIIT 2025)
       - Volume 12, Issue 2 (ICAIIT 2024)
       - Volume 12, Issue 1 (ICAIIT 2024)
       - Volume 11, Issue 2 (ICAIIT 2023)
       - Volume 11, Issue 1 (ICAIIT 2023)
       - Volume 10, Issue 1 (ICAIIT 2022)
       - Volume 9, Issue 1 (ICAIIT 2021)
       - Volume 8, Issue 1 (ICAIIT 2020)
       - Volume 7, Issue 1 (ICAIIT 2019)
       - Volume 7, Issue 2 (ICAIIT 2019)
       - Volume 6, Issue 1 (ICAIIT 2018)
       - Volume 5, Issue 1 (ICAIIT 2017)
       - Volume 4, Issue 1 (ICAIIT 2016)
       - Volume 3, Issue 1 (ICAIIT 2015)
       - Volume 2, Issue 1 (ICAIIT 2014)
       - Volume 1, Issue 1 (ICAIIT 2013)


    PAST CONFERENCES

       ICAIIT 2025
         - Photos
         - Reports

       ICAIIT 2024
         - Photos
         - Reports

       ICAIIT 2023
         - Photos
         - Reports

       ICAIIT 2021
         - Photos
         - Reports

       ICAIIT 2020
         - Photos
         - Reports

       ICAIIT 2019
         - Photos
         - Reports

       ICAIIT 2018
         - Photos
         - Reports

    ETHICS IN PUBLICATIONS

    ACCOMODATION

    CONTACT US

 

        

         Proceedings of the International Conference on Applied Innovations in IT by Anhalt University of Applied Sciences is licensed under CC BY-SA 4.0


                                                   This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License


           ISSN 2199-8876
           Publisher: Edition Hochschule Anhalt
           Location: Anhalt University of Applied Sciences
           Email: leiterin.hsb@hs-anhalt.de
           Phone: +49 (0) 3496 67 5611
           Address: Building 01 - Red Building, Top floor, Room 425, Bernburger Str. 55, D-06366 Köthen, Germany

        site traffic counter

Creative Commons License
Except where otherwise noted, all works and proceedings on this site is licensed under Creative Commons Attribution-ShareAlike 4.0 International License.