P. Singh Et Al. , "High-order finite volume approximation for population density model based on quadratic integrate-and-fire neuron," ENGINEERING COMPUTATIONS , vol.36, no.1, pp.84-102, 2019
Singh, P. Et Al. 2019. High-order finite volume approximation for population density model based on quadratic integrate-and-fire neuron. ENGINEERING COMPUTATIONS , vol.36, no.1 , 84-102.
Singh, P., Kumar, S., & Köksal, M. E., (2019). High-order finite volume approximation for population density model based on quadratic integrate-and-fire neuron. ENGINEERING COMPUTATIONS , vol.36, no.1, 84-102.
Singh, Paramjeet, Santosh Kumar, And Mehmet Emir Köksal. "High-order finite volume approximation for population density model based on quadratic integrate-and-fire neuron," ENGINEERING COMPUTATIONS , vol.36, no.1, 84-102, 2019
Singh, Paramjeet Et Al. "High-order finite volume approximation for population density model based on quadratic integrate-and-fire neuron." ENGINEERING COMPUTATIONS , vol.36, no.1, pp.84-102, 2019
Singh, P. Kumar, S. And Köksal, M. E. (2019) . "High-order finite volume approximation for population density model based on quadratic integrate-and-fire neuron." ENGINEERING COMPUTATIONS , vol.36, no.1, pp.84-102.
@article{article, author={Paramjeet Singh Et Al. }, title={High-order finite volume approximation for population density model based on quadratic integrate-and-fire neuron}, journal={ENGINEERING COMPUTATIONS}, year=2019, pages={84-102} }