Keywords
service ecosystem, symbiotic evolution, digital technology, flexible population, Lotka-Volterra model
Abstract
To establish a highly integrated collaborative innovation mechanism and create a collaborative and efficient innovation environment is the key to improve the environmental adaptability and group relationship resilience of service ecosystem.The complex relationship among service absorption unit and integration unit is represented by different action parameters of Lotka-Volterra symbiosis model.According to the flexibility and agility effect of population energy fusion under digital guidance,the two dimensional differential equations of organization embedding delay and business delay are constructed,The local stability analysis model is built to give the cooperative mechanism of population symbiosis and external environment evolution.The simulation results of MATLAB show that the reciprocal symbiosis is the best matching mode between service absorption unit and integration unit;The occurrence of two-dimensional delay affects the overall stability of the ecosystem,and the impact on service absorption unit is greater than that of integration unit.Based on timing judgment,the interaction network of digital oriented flexible population can promote the deep integration of digital technology and service ecosystem application scenarios,and promote the formation of new enterprise architecture,new scenarios and new paradigms.
DOI
10.16315/j.stm.2021.05.008
Recommended Citation
SHAN, Zi-dan; CHEN, Lin; ZENG, Yan-hong; and LI, Hui-min
(2021)
"Research on symbiotic relationship among flexible populations under digital guidance,"
Journal of Science and Technology Management: Vol. 23:
Iss.
5, Article 8.
DOI: 10.16315/j.stm.2021.05.008
Available at:
https://jstm.researchcommons.org/journal/vol23/iss5/8
Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 4.0 International License.
