Citation: M. Degee et J. Grasman, SUSTAINABLE YIELDS FROM SEASONALLY FLUCTUATING BIOLOGICAL POPULATIONS, Ecological modelling, 109(2), 1998, pp. 203-212
Citation: J. Grasman, STOCHASTIC EPIDEMICS - THE EXPECTED DURATION OF THE ENDEMIC PERIOD INHIGHER-DIMENSIONAL MODELS, Mathematical biosciences, 152(1), 1998, pp. 13-27
Citation: J. Grasman, THE EXPECTED EXTINCTION TIME OF A POPULATION WITHIN A SYSTEM OF INTERACTING BIOLOGICAL POPULATIONS, Bulletin of mathematical biology, 58(3), 1996, pp. 555-568
Citation: Oa. Vanherwaarden et J. Grasman, STOCHASTIC EPIDEMICS - MAJOR OUTBREAKS AND THE DURATION OF THE ENDEMIC PERIOD, Journal of mathematical biology, 33(6), 1995, pp. 581-601
Citation: J. Grasman et Jj. Wentzel, COEXISTENCE OF A LIMIT-CYCLE AND AN EQUILIBRIUM IN KALDOR BUSINESS-CYCLE MODEL AND ITS CONSEQUENCES, Journal of economic behavior & organization, 24(3), 1994, pp. 369-377
Citation: M. Kalivianakis et al., RECONSTRUCTION OF THE SEASONALLY VARYING CONTACT RATE FOR MEASLES, Mathematical biosciences, 124(2), 1994, pp. 225-234
Citation: Slj. Mous et J. Grasman, 2 METHODS FOR ASSESSING THE SIZE OF EXTERNAL PERTURBATIONS IN CHAOTICPROCESSES, Mathematical models and methods in applied sciences, 3(4), 1993, pp. 577-593
Citation: B. Braaksma et J. Grasman, CRITICAL-DYNAMICS OF THE BONHOEFFER-VANDERPOL EQUATION AND ITS CHAOTIC RESPONSE TO PERIODIC STIMULATION, Physica. D, 68(2), 1993, pp. 265-280