TY - GEN
T1 - Fitness landscapes, heuristics and technological paradigms: a critique on random search models in evolutionary economics
AU - Frenken, K.
PY - 2001
Y1 - 2001
N2 - The biological evolution of complex organisms, in which the functioning of genes is interdependent, has been analyzed as “hill-climbing” on NK fitness landscapes through random mutation and natural selection. In evolutionary economics, NK fitness landscapes have been used to simulate the evolution of complex technological systems containing elements that are interdependent in their functioning. In these models, economic agents randomly search for new technological design by trial-and-error and run the risk of ending up in sub-optimal solutions due to interdependencies between the elements in a complex system. These models of random search are legitimate for reasons of modeling simplicity, but remain limited as these models ignore the fact that agents can apply heuristics. A specific heuristic is one that sequentially optimises functions according to their ranking by users of the system. To model this heuristic, a generalized NK-model is developed. In this model, core elements that influence many functions can be distinguished from peripheral elements that affect few functions. The concept of paradigmatic search can then be analytically defined as search that leaves core elements in tact while concentrating on improving functions by mutation of peripheral elements.
AB - The biological evolution of complex organisms, in which the functioning of genes is interdependent, has been analyzed as “hill-climbing” on NK fitness landscapes through random mutation and natural selection. In evolutionary economics, NK fitness landscapes have been used to simulate the evolution of complex technological systems containing elements that are interdependent in their functioning. In these models, economic agents randomly search for new technological design by trial-and-error and run the risk of ending up in sub-optimal solutions due to interdependencies between the elements in a complex system. These models of random search are legitimate for reasons of modeling simplicity, but remain limited as these models ignore the fact that agents can apply heuristics. A specific heuristic is one that sequentially optimises functions according to their ranking by users of the system. To model this heuristic, a generalized NK-model is developed. In this model, core elements that influence many functions can be distinguished from peripheral elements that affect few functions. The concept of paradigmatic search can then be analytically defined as search that leaves core elements in tact while concentrating on improving functions by mutation of peripheral elements.
U2 - 10.1063/1.1388721
DO - 10.1063/1.1388721
M3 - Conference contribution
SN - 0-7354-0012-1
SP - 558
EP - 565
BT - Computing Anticipatory Systems
A2 - Dubois, D.
PB - American Institute of Physics
CY - Woodbury NY
ER -