Abstract
With the development of information technology, colleges and universities around the world are constructing E-learning system to meet their students' and faculty's needs. E-learning can effectively help students to learn varieties of knowledge and even skills they want to obtain.
 Therefore, the efficiency of E-learning system is important to popularize and develop it. Then, in this paper, we investigate to propose a method to evaluate E-learning system in higher education based on some criteria. Hereinto, this assessment problem can be considered as a multiple attribute decision making (MADM) problem. Thus, TOPSIS method, as a popular multiple attribute decision making method, is introduced in this paper to solve this assessment problem. In MADM problem, how to acquire preference of the decision maker is critical. In order to solve this issue, hesitant fuzzy set is developed in this paper. Weight vector, as a balance to weight the importance of different attributes, is hard to obtain. Then, a new fuzzy weight method is proposed to determine attribute weights. Finally, a case study is demonstrated to verify the applicability of this method.
Highlights
Modern education seeks to find a way to satisfy the demand of students with advanced technology [1]
It is important for developing E-learning system in higher education
This assessment problem can be considered as a multiple attribute decision making (MADM) problem
Summary
Modern education seeks to find a way to satisfy the demand of students with advanced technology [1]. Interaction among peers, and with teachers, is privileged by elearning students promoting the existence of a learning community and emphasized the teacher's expertise and role as a facilitator in learning It is important for developing E-learning system in higher education. In this paper, we investigate to propose a method to evaluate Elearning system in higher education based on some criteria. Hereinto, this assessment problem can be considered as a multiple attribute decision making (MADM) problem. In order to solve this issue, hesitant fuzzy set is developed in this paper [7,8].
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