Abstract
Fuzzy cognitive maps have been applied in different areas to express the dynamic behavior of a set of related concepts. These maps are powerful tools for analysis and generate simulations in dynamic systems. Nowadays, individuals use a lot of different technological media: smart TV, Internet, video games, mobile phones, etc. Some of these media present new ways to play, express, learn and communicate. The use of multimedia has become popular in the education field, these multimedia techniques can allow students to get more entertainment, immersion, and interactivity. An interactive learning environment can provide useful information to analyze the student learning process. Information such as: when the student initiates and completes a task, time between interactions, number of attempts, sequence of decisions taken, results related to the aggregate of the group, etc. This research work presents a learning assessment system that uses multivariate analysis based on structural equation modeling and fuzzy cognitive maps as a tool. The main aim of the proposed system is to facilitate assessment of learning on interactive environments. To validate the proposal, we have performed an empirical evaluation. As a part of the evaluation, we apply a sequence of scenarios to stimulate cognitive function of planning in a child population. In this evaluation, it was observed that most practical tasks obtain better results, confirming the Hebb rule on learning and cellular neurophysiological relationship.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.References
Aleven V, Vincent I, Roll B, Mclaren K, Koedinger K (2010) Automated, unobtrusive, action-by-action assessment of self-regulation during learning with an intelligent tutoring system. Educ Psychol 45(4):224–233
Alonso S, Pérez IJ, Cabrerizo FJ, Herrera-Viedma E (2013) A linguistic consensus model for Web 2.0 communities. Appl Soft Comput 13(1):149–157
Ausubel DP (1968) Educational psychology: a cognitive view. Holt, Rinehart & Winston, New York
Baker F, Kim S (2004) Item response theory: parameter estimation techniques. Marcel Dedder, New York (p 503)
Barab S, Thomas M, Dodge T, Carteaux R, Tuzun H (2005) Making learning fun: quest Atlantis, a game without guns. Educ Technol Res Dev 53(1):86–107
Byrd D, Case K, Berg W (2011) Planning: fixed-foreperiod event-related potentials during the Tower of London task. Neuropsychologia 49(5):1024–1032
Chen C, Chen M (2009) Mobile formative assessment tool based on data mining techniques for supporting web-based learning. Computers Educón 52(1):256–273
Cheng C, Tzeng G (2011) Creating the aspired intelligent assessment systems for teaching materials. Expert Syst Appl 38(10):12168–12179
Choi B, Baek Y (2011) Exploring factors of media characteristic influencing flow in learning through virtual worlds. Proc Computers Educ 57(4):2382–2394
Faiola A, Newlon C, Pfaff M, Smyslova O (2012) Correlating the effects of flow and telepresence in virtual worlds: enhancing our understanding of user behavior in game-based learning. Computers Hum Behav 29(3):1113–1121
Ferreira-Satler M, Romero F, Menendez-Dominguez V, Zapata A, Prieto M (2012) Fuzzy ontologies-based user profiles applied to enhance e-learning activities. Soft Comput 16(7):1129–1141
Freitas S, Oliver M (2006) How can exploratory learning with games and simulations within the curriculum be most effectively evaluated? Compters Educ 46(3):249–264
Gartner Inc (2009) Gartner Hype cycle for education 2009. In: Proceedings of http://www.gartner.com/DisplayDocument?id=1095713
Hair J, Black W, Babin B, Anderson R (2009) Multivariate data analysis. Prentice Hall, London, p 816
Havnes A, Smith K, Dysthe O, Ludvigsen K (2012) Formative assessment and feedback: making learning visible. Sutd Educ Eval 38(1):21–27
Huang Y, Backman S, Backman K, Moore D (2013) Exploring user acceptance of 3D virtual worlds in travel and tourism marketing. Proc Tourism Manage 36:490–501
Ibañez M, Morillo D, Delgado C, Pérez D, Santos P, Hernández-Leo D (2010) Assessment in 3D virtual Worlds: QTI in Wonderland. In: Congreso Iberoamericano de Informática Educativa, Santiago de Chile, vol 1, pp 410–417
Jarmon L, Traphagan T, Mayrath M, Trivedi A (2009) Virtual world teaching, experiential learning, and assessment: an interdisciplinary communication course in Second Life. Proc Computers Educ 53(1):169–182
Kaller C, Unterrainer J, Rahm B, Halsband U (2004) The impact of problem structure on planning: insights from the Tower of London task. Cognitive Brain Res 20(3):462–472
Konar A, Jain L (2005) Cognitive engineering a distributed approach to machine intelligence. Springer, New York, p 353
Kosko B (1986) Fuzzy cognitive maps. Int J Man Mach Stud 24(1):66–75
Luo X, And Wei X (2010) Guided game-based learning using fuzzy cognitive maps. IEEE Trans Learn Technol 3(4):344–357
Miyake A, Naomi P, Friedman M (2000) The unity and diversity of executive functions and their contributions to complex “Frontal Lobe” tasks: a latent. Variable Anal Original Res Article Cogn Psychol 41(1):49–100
Naim S, Hagras H (2013) A type 2-hesitation fuzzy logic based multi-criteria group decision making system for intelligent shared environments. Soft Comput 13(1):1–15
OECD (2011) Measuring improvements in learning outcomes: best practices to assess the value-added of schools. OECD Publishing, p 222
Peláez E, Bowles J (1996) Using fuzzy cognitive maps as a system model for failure modes and effects analysis. Inf Sci 88(1–4):177–199
Pérez IJ, Mezei J, Wikström R, Carlsson C, Herrera-Viedma E (2014) A new consensus model for GDM problems based on a fuzzy ontology. Soft Comput 17(9):1617–1627
Reimann P, Kickmeier-Rust M, Albert D (2013) Problem solving learning environments and assessment: a knowledge space theory approach. Computers Educ 64:183–193
Rutter M, Maughan B (2002) School effectiveness findings 1979–2002. Proc J School Psychol 40(6):451–475
Shadish W (2001) Quasi-experimental designs. Int Encycl Soc Behav Sci 18:12655–12659
Stach W, Kurgan L, Pedrycz W, Reformat M (2005) Genetic learning of fuzzy cognitive maps. J Fuzzy Sets Syst 153(3):371–401
Siu-Lung J, Chi-Wai R, Fang Y (2012) The effects of peer intrinsic and extrinsic motivation on MMOG game-based collaborative learning. Computers Hum Behav 28(5):1663–1669
Tugba S (2012) Place presence, social presence, co-presence, and satisfaction in virtual worlds. Computers Educ 18(1):154–161
Wang Y (2003) Assessment of learner satisfaction with asynchronous electronic learning systems. Proc Inf Manage 41(1):75–86
Wiliam D (2011) What is assessment for learning? Stud Educ Eval 37:3–14
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by V. Loia.
Rights and permissions
About this article
Cite this article
Barón, H.B., Crespo, R.G., Pascual Espada, J. et al. Assessment of learning in environments interactive through fuzzy cognitive maps. Soft Comput 19, 1037–1050 (2015). https://doi.org/10.1007/s00500-014-1313-x
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00500-014-1313-x