420 likes | 609 Views
Analysis of the Lotka Volterra Equations as a Technological Substitution Model. Steven Morris October 25, 2001. DISCONTINUOUS TECHNOLOGY SUBSTITUTION. OLD DOMINANT TECHNOLOGY. OBSOLESENCE. COMPETITION AMONG MANY, NO STANDARD PRODUCT. EMERGENCE OF STANDARD PRODUCT. INNOVATION.
E N D
Analysis of the Lotka Volterra Equations as a Technological Substitution Model Steven Morris October 25, 2001
DISCONTINUOUS TECHNOLOGY SUBSTITUTION OLD DOMINANT TECHNOLOGY OBSOLESENCE COMPETITION AMONG MANY, NO STANDARD PRODUCT EMERGENCE OF STANDARD PRODUCT INNOVATION NEW DOMINANT TECHNOLOGY
Lotka-Volterra Competition Equations • Model interaction of between species competing for the same resources • Model short term “struggle for existence” • Original applied to biological systems
Historical Use of LVC model • Qualitative analysis using nullclines • Under arbitrary initial conditions, find stable solutions • No scaling of parameters • No quantitative analysis of dynamic response
Key Question: State the problem as commonly found in practice:Given a dominant competitor at equilibrium, what happens when a better suited competitor appears? We describe the resulting replacement curve as “LVC substitution”.
DISCONTINUOUS TECHNOLOGY SUBSTITUTION OLD DOMINANT TECHNOLOGY OBSOLESENCE COMPETITION AMONG MANY, NO STANDARD PRODUCT EMERGENCE OF STANDARD PRODUCT INNOVATION NEW DOMINANT TECHNOLOGY
Analysis of LVC Substitution • Step 1: Normalize LVC equations • Step 2:Find models parameters and initial conditions that result in LVC substitution • Step 3: Analyze dynamics of substitution • Step 4: Compare to other substitution models
Decreasing u1 Decreasing u2 Increasing u1 Increasing u2 ANALYSIS OF NULLCLINES
LVC Substitution of u1by u2 • u1 is dominant competitor • u2 is invader with advantage • 2 > 1, 1 < 1
Final condition: u1 = 0, u2= 1 u2= 1 (b) 1-u2 (a) u1= 0 Initial condition: u1 = 1, u2 0 u2= 0 u1= 1 1-u1
u2 u1
u2
e =0.8 1 e =1.5 2 g =1.0 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 u2
FISHER PRY PLOT e =0.8 1 e =1.5 2 g =1.0
4. Right asymmetric with asymptote 1+ 3. Right asymmetric with 2-1 asymptote 2 2. Logistic 1. Left asymmetric 1 0 1 1
u Slope = 1 delay
1 2 0.9880 1.0248 10.1466 1.946
a u BASS MODEL
NSRL MODEL u
5 4 3 2 inset ‘c’ u 1 5 4 3 2 1
TOTAL CANS FOR VEGETABLES SUM OF LEAD-FREE AND SOLDERED CANS BILLION UNITS SOLDERED CANS LEAD-FREE CANS YEAR
1 = 0.75 2 = 1.25 a1 = a2 = 2 yr -1 K1 = K2 = 1 t(0)=1975 u2(0)=1.52% SOLDERED CANS PERCENT OF MARKET LEAD-FREE CANS SOLDERED CANS LEAD-FREE CANS YEAR
SIGNIFICANT RESULTS • NORMALIZED LVC MODEL • ASYMPTOTIC BEHAVIOR DURING SUBSTITUTION • PREDICTION OF RESPONSE CLASSES BASED ON LVC PARAMETERS • REVERSION OF LVC TO LOGISTIC SUBSTITUTION • LOGISTIC SUBSTITUTION IN FIXED MARKET • GRAPHICAL ANALYSIS TECHNIQUE • NORMALIZED BASS MODEL • COMPARISON OF LVC MODEL TO OTHER SUBSTITUTION MODELS