#SUMMARY MaplesonModelP: Pharmokinetic model from section 9.6 of"Metamodelling" #DESCRIPTION Detailed model with pools #DESCRIPTION #DESCRIPTION Note that the bond graph has been redrawn to replace active bonds with #DESCRIPTION AF components. #DESCRIPTION This would be much neater using a heirachical model. #DESCRIPTION #DESCRIPTION The following commands make the figures. #DESCRIPTION #DESCRIPTION Fig 9.17 mtt MaplesonModelP abg view #DESCRIPTION Figs 9.18-19 mtt MaplesonModelP odeso view 'T=[0:0.1:6]' #DESCRIPTION Fig 9.20 mtt MaplesonModelP lmfr view 'W=logspace(-2,2,100)' #DESCRIPTION Fig 9.21 mtt MaplesonModelP lpfr view 'W=logspace(-2,2,100)' # ############################################################### # ## Version control history # ############################################################### # ## $Id$ # ## $Log$ # ## Revision 1.1 1996/08/30 18:37:56 peter # ## Initial revision # ## # ############################################################### #VAR apools #VAR breathing_interval #VAR heart_interval #VAR k_ap #VAR k_b #VAR k_f #VAR k_i #VAR k_l #VAR k_s #VAR k_v #VAR k_vp #VAR kb #VAR kf #VAR kl #VAR ks #VAR kv #VAR lambdab #VAR lambdablood #VAR lambdaf #VAR lambdal #VAR lambdalung #VAR lambdav #VAR stroke_volume #VAR t_1 #VAR t_2 #VAR t_b #VAR t_f #VAR t_i #VAR t_l #VAR t_s #VAR t_v #VAR v_i #VAR vap #VAR varterial #VAR vb #VAR vbp #VAR vf #VAR vfp #VAR vgas #VAR vl #VAR vlp #VAR vlung #VAR vplung #VAR vpools #VAR vsp #VAR vv #VAR vvenous #VAR vvp ### Common tension junctions ### ti tb tv tl tf ts tap tvp ##Common flow junctions - inspiration ### fi ##Common flow junctions - arteries ### fba fva fla ffa fsa ##Common flow junctions - veins ### fbv fvv flv ffv fsv ## More junctions ap3 vp3 ap2 vp2 ap1 vp1 ### Resistances ### rb1 lin flow,r_b rv1 lin flow,r_v rl1 lin flow,r_l rf1 lin flow,r_f rs1 lin flow,r_s rb2 lin flow,r_b rv2 lin flow,r_v rl2 lin flow,r_l rf2 lin flow,r_f rs2 lin flow,r_s ri lin flow,r_i ## Capacities ### cb lin effort,c_b cv lin effort,c_v cl lin effort,c_l cf lin effort,c_f cs lin effort,c_s ci lin effort,c_i ### Input ### t0 SS external,internal ### Outputs ### yb SS external,0 yv SS external,0 yl SS external,0 yf SS external,0 ys SS external,0 ye SS external,0 ### Arterial pool # ap1 apool1 # ap2 apool2 # ap3 apool3 apc1 lin effort,c_ap apc2 lin effort,c_ap apr1 lin flow,r_ap apr2 lin flow,r_ap ### Venous pool # vp1 vpool1 # vp2 vpool2 # vp3 vpool3 vpc1 lin effort,c_vp vpc2 lin effort,c_vp vpr1 lin flow,r_vp vpr2 lin flow,r_vp