Title :
Analysis and design of Learner Quanta Graph properties for efficient query processing in an adaptive dynamic courseware
Author :
Halder, Kaushik ; Chaki, Nabendu ; Dasgupta, R.
Author_Institution :
AK Choudhury Sch. of IT, Univ. of Calcutta, Kolkata, India
Abstract :
The problems related to design a customized courseware are of immense importance in the design of adaptive dynamic courseware taking into account of knowledge and objective of individual learner. To meet the requirement of individual learner, concepts of Learner Quanta (LQ) & Learner Quanta Cloud (LQC) had been proposed in [9]. Concepts of the learner-centric LQ had been extended through a Graph based model in order to identify the appropriate data structure of the LQC [22]. This paper analyzes properties identified in [22] and proposes a query processor on the background mentioned here.
Keywords :
courseware; data structures; graph theory; query processing; LQC concept; adaptive dynamic courseware design; data structure; graph-based model; learner quanta cloud concept; learner quanta graph property analysis; learner quanta graph property design; learner-centric LQ concept; query processing; Adaptation models; Computer science; Computers; Conferences; Courseware; Multimedia communication; LQ graph; LQ matrix; Learner Quanta; Web-based learning; prerequisite LQ; query processor;
Conference_Titel :
Teaching, Assessment and Learning for Engineering (TALE), 2013 IEEE International Conference on
Conference_Location :
Bali
DOI :
10.1109/TALE.2013.6654406
