In this series of experiments we investigate two commonly used methods of assigning numerical values (i.e., decision weights) to attributes in order to signify their perceived relative importance. The two methods are to ask people to directly rate each of the attributes in turn (Rating), or to allocate a budget of points (typically 100 points) to the attributes (Point Allocation or PA). These procedures may seem to be minor variants of one another, yet they produce very different profiles of decision weights. The differences are predicted by a simple, idealized model of weighting, from which Rating and PA, in different ways, exhibit consistent elicitation-dependent bias
Jay Russo for helpful comments. This paper has benefited from comments by Detlof von Winterfeldt, De...
This paper compares the properties and performance of three weight elicitation methods. It is in eff...
This paper investigates two alternative mechanisms through which rankings may influence attribute we...
In this series of experiments we investigate two commonly used methods of assigning numerical values...
Two commonly used methods of assigning numerical judgments (i.e., importance weights) to attributes ...
Two popular methods for assigning numerical values to a set of to-be-judged objects in order to capt...
This paper describes an experimental work about relative importance of criteria in Multiple Criteria...
Two apparently similar methods for making numerical judgments about a set of objects (point allocat...
One of the most important steps in formulating and solving a multiattribute decision-making (MADM) p...
[[abstract]]Many decision making problems of business and management are formulated in terms of Mult...
Aim: To examine the difference between discrete-choice experiments (DCE) and rating scale exercises ...
Despite the importance of identifying the hierarchy of product attributes that drive judgment and ch...
Despite the importance of identifying the hierarchy of product attributes that drive judgment and ch...
Despite the importance of identifying the hierarchy of product attributes that drive judgment and ch...
EXTENDED ABSTRACT -This article introduces a new technique for improving preference assessment by re...
Jay Russo for helpful comments. This paper has benefited from comments by Detlof von Winterfeldt, De...
This paper compares the properties and performance of three weight elicitation methods. It is in eff...
This paper investigates two alternative mechanisms through which rankings may influence attribute we...
In this series of experiments we investigate two commonly used methods of assigning numerical values...
Two commonly used methods of assigning numerical judgments (i.e., importance weights) to attributes ...
Two popular methods for assigning numerical values to a set of to-be-judged objects in order to capt...
This paper describes an experimental work about relative importance of criteria in Multiple Criteria...
Two apparently similar methods for making numerical judgments about a set of objects (point allocat...
One of the most important steps in formulating and solving a multiattribute decision-making (MADM) p...
[[abstract]]Many decision making problems of business and management are formulated in terms of Mult...
Aim: To examine the difference between discrete-choice experiments (DCE) and rating scale exercises ...
Despite the importance of identifying the hierarchy of product attributes that drive judgment and ch...
Despite the importance of identifying the hierarchy of product attributes that drive judgment and ch...
Despite the importance of identifying the hierarchy of product attributes that drive judgment and ch...
EXTENDED ABSTRACT -This article introduces a new technique for improving preference assessment by re...
Jay Russo for helpful comments. This paper has benefited from comments by Detlof von Winterfeldt, De...
This paper compares the properties and performance of three weight elicitation methods. It is in eff...
This paper investigates two alternative mechanisms through which rankings may influence attribute we...