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Control of movement via skeletal muscles J M Nightingale
Models of electrical and mechanical activity in
Dynamics of blood glucose and its regulating hormones
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abnormal action potential adaptive tracker adenylate cyclase amplitude analysis atrial attractor behaviour Berridge bifurcation Biol biological Biophys calcium cardiac catastrophe catastrophe theory cells circadian rhythms complex components control system coupled oscillators cusp cyclic AMP describing function differential equation eclosion effect electrical activity entrainment enzyme estimating example factor feedback fibres frequency gives glucagon glucokinase glucose Goodwin equations harmonic balancing heart hexokinase Hopf theorem human hysteresis ibid IEEE increase input insulin intersection intestine limit cycle linear Linkens liver loop lung parameters mathematical model measured mechanical membrane metabolism method mode motoneurones movements muscle nerve neural neurones nonlinear normal observed obtained output pacemaker Pavlidis periodic solutions phase shift Physiol physiological plasma Pol oscillators potential prediction pressure Proc pulse Rapp reaction reflex relaxation oscillators shown in Fig shows signal simulation sinusoidal stable steady-state stimulus structure studies synchronisation theorem threshold tidal volume wave