Arunnehru, J.; Thalapathiraj, S.; Dhanasekar, R.; Vijayaraja, L.; Kannadasan, R.; Khan, A.A.; Haq, M.A.; Alshehri, M.; Alwanain, M.I.; Keshta, I.
Machine Vision-Based Human Action Recognition Using Spatio-Temporal Motion Features (STMF) with Difference Intensity Distance Group Pattern (DIDGP). Electronics 2022, 11, 2363.
https://doi.org/10.3390/electronics11152363
AMA Style
Arunnehru J, Thalapathiraj S, Dhanasekar R, Vijayaraja L, Kannadasan R, Khan AA, Haq MA, Alshehri M, Alwanain MI, Keshta I.
Machine Vision-Based Human Action Recognition Using Spatio-Temporal Motion Features (STMF) with Difference Intensity Distance Group Pattern (DIDGP). Electronics. 2022; 11(15):2363.
https://doi.org/10.3390/electronics11152363
Chicago/Turabian Style
Arunnehru, Jawaharlalnehru, Sambandham Thalapathiraj, Ravikumar Dhanasekar, Loganathan Vijayaraja, Raju Kannadasan, Arfat Ahmad Khan, Mohd Anul Haq, Mohammed Alshehri, Mohamed Ibrahim Alwanain, and Ismail Keshta.
2022. "Machine Vision-Based Human Action Recognition Using Spatio-Temporal Motion Features (STMF) with Difference Intensity Distance Group Pattern (DIDGP)" Electronics 11, no. 15: 2363.
https://doi.org/10.3390/electronics11152363
APA Style
Arunnehru, J., Thalapathiraj, S., Dhanasekar, R., Vijayaraja, L., Kannadasan, R., Khan, A. A., Haq, M. A., Alshehri, M., Alwanain, M. I., & Keshta, I.
(2022). Machine Vision-Based Human Action Recognition Using Spatio-Temporal Motion Features (STMF) with Difference Intensity Distance Group Pattern (DIDGP). Electronics, 11(15), 2363.
https://doi.org/10.3390/electronics11152363