Further, we model the well known prey-predator problem by graph dierential equations and show that the nonlinearity is naturally preserved.J Vasundhara DeviR V.G Ravi Kumar
33. The graph below shows the population size of a predator and its prey living in a certain habitat over a few years.size of population prey predator一123 4years Write 'T' (true), 'F'(false) or 'NPTT' (not possible to tell) in the boxes provided below.(3m)Statements T, For ...
33. The graph below shows the population size of a predator and its prey living in a certain habitat over a few years.size of prey population predator years1234Write 'T'(true), 'F'(false) or 'NPTT' (not possible to tell) in the boxes provided below. (3m)Statements T, F or NPTT ...
Global stability for a new predator–prey model with cross-dispersal among patches based on graph theoryCross-dispersalCoupled modelGlobal stabilityPredator–prey modelPatchesIn this paper, cross-dispersal is considered in a predator–prey model with a patchy environment. A new predator–prey model ...
Beretta.Graph theoretical criteria for stability and boundedness of predator-prey systems[J]. Bulletin of Mathematical Biology .1982(4)F. Solimano and E. Beretta, Graph theoretical criteria for stability and boundedness of predator-prey systems, Bull. Math. Biol. 44:579-585 (1982)....
Multi‐agent modelling and simulation of graph‐based predator–prey dynamic systems: A BDI approachagent‐oriented programmingBDI agentdynamic systemmodelling and simulationReinforcement Learning -- RL is an important agent problem that was not approached using the tools provided by Agent Oriented ...
graph theoryHolling type‐II functional responseperiodic solutionpredator‐prey systemWe study the periodicity of multipatch dispersal predator-prey system with Holling type-II functional response in this paper. By providing a new method, we overcome the difficulty to get the priori bounds estimation ...