Title :
A paradigm of decision making in fuzzy environments
Author :
Jagannathan, R. ; Mathialagan, A.
Author_Institution :
Postgraduate Phys. Dept., Vivekananda Coll., Madras, India
Abstract :
Utility coefficients are assigned to every element of options in a problem for the beginning and also for the end of the problem sequence, based on expert opinions which are expressed as weight ratio matrices. As the problem sequence advances, these utility coefficients are modified to suit the current level of the problem through a dynamic transfer function (DTF). The potential options are determined by calculating the current advantage index, which reflects the short-term perceptions of the experts. This short list incorporates the instant realities at the current level. The final decision is made by the maxi-max algorithm. The quality of the decision is assessed by ratio analysis
Keywords :
decision theory; fuzzy set theory; optimisation; transfer functions; current advantage index; decision making; dynamic transfer function; fuzzy environments; maxi-max algorithm; short-term perceptions; utility coefficients; weight ratio matrices; Algorithm design and analysis; Decision making; Educational institutions; Fuzzy sets; Path planning; Physics; Telephony; Transfer functions;
Conference_Titel :
TENCON '92. ''Technology Enabling Tomorrow : Computers, Communications and Automation towards the 21st Century.' 1992 IEEE Region 10 International Conference.
Conference_Location :
Melbourne, Vic.
Print_ISBN :
0-7803-0849-2
DOI :
10.1109/TENCON.1992.271983
