Asymptotic behavior of irreducible excitatory networks of graded-response neurons (1996)
- Authors:
- USP affiliated authors: MALTA, CORACI PEREIRA - IF ; RAGAZZO, CLODOALDO GROTTA - IME
- Unidades: IF; IME
- Assunto: FÍSICA MATEMÁTICA
- Language: Inglês
- Imprenta:
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ABNT
PAKDAMAN, K et al. Asymptotic behavior of irreducible excitatory networks of graded-response neurons. . São Paulo: Ifusp. Disponível em: http://publica-sbi.if.usp.br/PDFs/pd1200.pdf. Acesso em: 21 jan. 2026. , 1996 -
APA
Pakdaman, K., Ragazzo, C. G., Malta, C. P., & Vibert, J. F. (1996). Asymptotic behavior of irreducible excitatory networks of graded-response neurons. São Paulo: Ifusp. Recuperado de http://publica-sbi.if.usp.br/PDFs/pd1200.pdf -
NLM
Pakdaman K, Ragazzo CG, Malta CP, Vibert JF. Asymptotic behavior of irreducible excitatory networks of graded-response neurons [Internet]. 1996 ;[citado 2026 jan. 21 ] Available from: http://publica-sbi.if.usp.br/PDFs/pd1200.pdf -
Vancouver
Pakdaman K, Ragazzo CG, Malta CP, Vibert JF. Asymptotic behavior of irreducible excitatory networks of graded-response neurons [Internet]. 1996 ;[citado 2026 jan. 21 ] Available from: http://publica-sbi.if.usp.br/PDFs/pd1200.pdf - Metastable periodic patterns in singularly perturbed state-dependent delayed equations
- Singularity structure of the Hopf bifurcation surface of a differential equation with two delays
- Bifurcation structure of scalar differential delayed equations
- Effect of delay on the boundary of the basin of attraction in a system of two neurons
- Bifurcation structure of scalar differential delayed equations
- Singularity structure of the hopf bifurcation surface of a differential equation with two delays
- Bifurcation structure of scalar differential delayed equations
- Effect of delay on the boundary of the basin of attraction in a self-excited single graded-response neuron
- Transition layer equations for positive-feedback delayed equations
- "Asymptotic behavior of irreducible excitatory networks of analog graded-response neurons
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