Publications

Journal Publications (Selected)

  • Khorsandi, F., Ayers, P. D., Jackson, D., & Wilkerson, J. (2016). The effect of speed on foldable ROPS actuation forces. Journal of Agricultural Safety and Health, 22(4), 285–295.
  • Ayers, P. D., Khorsandi, F., John, Y., & Whitaker, G. (2016). Development and evaluation of a computer-based ROPS design program. Journal of Agricultural Safety and Health, 22(4), 247–260.
  • Khorsandi, F., Ayers, P. D., & Truster, T. J. (2017). Developing and evaluating a finite element model for predicting the two-posts rollover protective structure nonlinear behaviour using SAE J2194 static test. Biosystems Engineering, 156, 96–107.
  • Ayers, P. D., Khorsandi, F., Wang, X., & de Moura Araujo, G. D. M. (2018). ROPS designs to protect operators during agricultural tractor rollovers. Journal of Terramechanics, 75, 49–55.
  • Khorsandi, F., Ayers, P. D., Freeland, R. S., & Wang, X. (2018). Modeling the effect of liquid movement on the center of gravity calculation of agricultural vehicles. Journal of Terramechanics, 75, 37–48.
  • Khorsandi, F., & Ayers, P. D. (2018). The effect of friction on actuation torques of the foldable roll-over protective structure. Journal of Agricultural Safety and Health, 24(4), 227–242.
  • Ayers, P., & Khorsandi, F. (2018). Reducing tractor roll-over fatalities. Resource Magazine, American Society of Agricultural and Biological Engineers.
  • Khorsandi, F., Ayers, P. D., & Fong, E. (2019). Evaluation of crush protection devices for agricultural all-terrain vehicles. Journal of Biosystems Engineering, 185, 161–173.
  • Ayers, P., Khorsandi, F., Poland, M., & Hilliard, C. (2019). Foldable rollover protective structures: Universal lift-assist design. Journal of Biosystems Engineering, 185, 116–125.
  • Pourreza, A., Moghimi, A., Niederholzer, F. J. A., Larbi, P. A., Zuniga-Ramirez, G., Cheung, K. H., Khorsandi, F., & Giles, D. K. (2020). Spray backstop: A method to reduce orchard spray drift without limiting the spray and air delivery. Sustainable, 12(21), 8862.
  • Khorsandi, F., Ayers, P. D., Denning, D., Jennissen, C., Jepsen, D., Myers, M., Oesch, S., Pate, M., & White, D. J. (2020). Agricultural all-terrain vehicle safety: Hazard control methods using the Haddon matrix. Journal of Agromedicine, 1–16.
  • Khorsandi, F., Ayers, P. D., Myers, M. L., Oesch, S., & White, D. J. (2021). Engineering control technologies to protect operators in agricultural all-terrain vehicle rollovers. Journal of Agricultural Safety and Health, 27(3), 177–201.
  • Chou, H. Y., Khorsandi, F., Vougioukas, S. G., & Fathallah, F. A. (2022). Developing and evaluating an autonomous agricultural all-terrain vehicle for field experimental rollover simulations. Computers and Electronics in Agriculture, 194, 106735.
  • Dos Santos, F. F. L., de Queiroz, D. M., Valente, D. S. M., Khorsandi, F., & de Moura Araujo, G. D. M. (2023). Analysis of different electric current frequencies in soil apparent conductivity. Journal of Biosystems Engineering, 48, 269–282.
  • Gibbs, J., Sheridan, C., Khorsandi, F.*, & Yoder, A. (2023). Emphasizing safe engineering design features of quad bikes in agricultural safety programs. Journal of Agricultural Safety and Health, 29(2), 121–127.
  • de Moura Araujo, G. D. M., Khorsandi, F., & Fathallah, F. A. (2023). Ability of youth operators to reach agricultural all-terrain vehicle controls. Journal of Safety Research, 84, 353–363.
  • de Moura Araujo, G. D. M., Khorsandi, F., & Fathallah, F. A. (2023). Limitations in the field of vision of young operators of utility all-terrain vehicles. Journal of Safety Research, 88, 303–312.
  • Jepsen, D., Aaron, Y., Issa, S., Salzwedel, M., Funkenbusch, K., & Khorsandi, F. (2023). ATV safety knowledge and skills are critical for all riders. Agricultural Education Magazine, 95(5), 18–21.
  • Khorsandi, F., de Moura Araujo, G. D. M., & Fathallah, F. (2023). A systematic review of youth and all-terrain vehicles safety in agriculture. Journal of Agromedicine, 28(2), 254–276.
  • de Moura Araujo, G. D. M., Khorsandi, F., & Fathallah, F. A. (2023). Forces required to operate controls on agricultural all-terrain vehicles: Implications for youth. Journal of Ergonomics, 66(9), 1280–1294.
  • Sorensen, J. A., Milkovich, P. J., Khorsandi, F., Gorucu, S., Weichelt, B., Scott, E., & Johnson, A. (2024). Tractors, trees, and rollover protective structures: A cause for concern.
  • Dos Santos, F. F. L., & Khorsandi, F. (2024). Riding into danger: Predictive modeling for ATV-related injuries and seasonal patterns. Forecasting, 6(2), 266.
  • Khorsandi, F., de Moura Araujo, G. D. M., & dos Santos, F. F. L. (2024). AgroGuardian: A novel all-terrain vehicle crash prediction, detection, and notification system. Journal of Agricultural Safety and Health, 30(2), 53–74.
  • Khorsandi, F., de Moura Araujo, G. D. M., & dos Santos, F. F. L. (2024). Artificial intelligence-driven all-terrain vehicle crash prediction and prevention system. Journal of Agricultural Safety and Health, 30(4), 139–154.
  • Khan, F. A., Khorsandi, F., Ali, M., Ghafoor, A., Raza Khan, R. A., Umair, M., Rehman, S. A., & Hussain, Z. (2024). Spray drift reduction management in agriculture: A review.
  • Khorsandi, F., Pinkerton, K., & Hong, M. (2024). Closing the regulatory gap: Addressing challenges for autonomous agricultural equipment in California. Journal of Agricultural Safety and Health, 30(4), 155–161.

Conference Proceedings (Selected)

Khorsandi, F., Ayers, P., & Fong, E. 2019. Evaluation of the Crush Protection Zone of Three Crush Protection Devices. In 2019 ASABE Annual International Meeting (p. 1). American Society of Agricultural and Biological Engineers.

Chou, H. Y., & Khorsandi, F. 2019. Developing and testing an autonomous all-terrain vehicle to experimentally test rollover incidents. In 2019 ASABE Annual International Meeting (p. 1). American Society of Agricultural and Biological Engineers.

Chou, H. Y., Khorsandi, F., & Vougioukas, S. G. 2020. Developing and Testing a GPS-Based Steering Control System for an Autonomous All-Terrain Vehicle. In 2020 ASABE Annual International Virtual Meeting (p. 1). American Society of Agricultural and Biological Engineers.

Araujo, G. D. M., & Khorsandi, F. (2020). Ability of Youth Operators to Activate Agricultural All-Terrain Vehicles Controls. In 2020 ASABE Annual International Virtual Meeting (p. 1). American Society of Agricultural and Biological Engineers.

Araujo, G. D. M., Khorsandi, F., Kabakibo, S., & Kreylos, O. (2021). Can Youth Reach Agricultural All-Terrain Vehicle Controls?. In 2021 ASABE Annual International Virtual Meeting (p. 1). American Society of Agricultural and Biological Engineers.

Araujo, G. D. M., Khorsandi, F., & Abdullah, A. 2021. Ability of Youth to Activate Agricultural All-Terrain Vehicles’ Main Controls. In 2021 ASABE Annual International Virtual Meeting (p. 1). American Society of Agricultural and Biological Engineers.

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