Abstract To find the cognitive principle through a cognitive model, a cognitive model based on single unit event is designed. The cognitive object of the model is cognition. The cognitive structure of the model consists of sensing part, accepting part, storing part, problem-solving part, thinking part and reasoning part. In the same testing cognitive process, the simulation of cognitive process is tested, when the capacity of the memory bank is given different values, the changes of the cognition stored in memory bank are recorded, and the cognitive data are calculated. The results show that the cognitive model is able to simulate cognitive process. As the cognitive process goes on, the cognition dimensions, the cognition quantities, the cognition multiplicities and the location of cognition in the memory bank often alter. All the cognitive data increase when the capacity of the memory bank enlarges and the data are modified when the problems are solved.
[1] Shi Zhongzhi.Intelligence Science.Beijing,China: Tsinghua University Press,2006 (in Chinese) (史忠植.智能科学.北京:清华大学出版社,2006) [2] Ansorge U,Kiefer M,Khalid S,et al.Testing the Theory of Embodied Cognition with Subliminal Words.Cognition,2010,116(3): 303-320 [3] Laird J E,Newell A,Rosenbloom P S.SOAR: An Architecture for General Intelligence.Artificial Intelligence,1987,33(1): 1-64 [4] Anderson J R,Bothell D,Byrne M D,et al.An Integrated Theory of the Mind.Psychological Review,2004,111(4): 1036-1060 [5] Bowers J S.On the Biological Plausibility of Grandmother Cells: Implications for Neural Network Theories in Psychology and Neuroscience.Psychological Review,2009,116(1): 220-251 [6] Freeman W J,Ahlfors S P,Menon V.Combining fMRI with EEG and MEG in Order to Relate Patterns of Brain Activity to Cognition.International Journal of Psychophysiology,2009,73(1): 43-52 [7] Lingnau A,Gesierich B,Caramazza A.Asymmetric fMRI Adaptation Reveals no Evidence for Mirror Neurons in Humans.Proc of the National Academy of Sciences of the United States of America,2009,106(24): 9925-9930 [8] Nakahara K,Adachi Y,Osada T,et al.Exploring the Neural Basis of Cognition: Multi-Modal Links between Human fMRI and Macaque Neurophysiology.Trends in Cognitive Sciences,2007,11(2): 84-92 [9] Wang Yingxu.On Cognitive Informatics.Brain and Mind,2003,4(2): 151-167 [10] Wang Yingxu,Wang Ying.Cognitive Informatics Models of the Brain.IEEE Trans on Systems,Man and Cybernetics,2006,36(2): 203-207 [11] Wang Yingxu.The Theoretical Framework of Cognitive Informatics.The International Journal of Cognitive Informatics and Natural Intelligence,2007,1(1): 1-27 [12] Wang Yingxu.On Concept Algebra: A Denotational Mathematical Structure for Knowledge and Software Modeling.International Journal of Cognitive Informatics and Natural Intelligence,2008,2(2): 1-19 [13] Wang Yingxu,Baciu G,Yao Yiyu,et al.Perspectives on Cognitive Informatics and Cognitive Computing.International Journal of Cognitive Informatics and Natural Intelligence,2010,4(1): 1-29 [14] Zhang Wenxiu,Xu Weihua.Cognitive Model Based on Granular Computing.Chinese Journal of Engineering Mathematics,2007,24(6): 957-971 (in Chinese) (张文修,徐伟华.基于粒计算的认知模型.工程数学学报,2007,24(6): 957-971) [15] Zhong Yixin.Mechanism: A Unified Theory of AI.Acta Electronica Sinica,2006,34(2): 317-321 (in Chinese) (钟义信.机制主义:人工智能的统一理论.电子学报,2006,34(2): 317-321) [16] Wang Zuowei,Zhang Rubo.Research on Robot Biomimetic Architecture Based on Tacit Knowledge.Computer Engineering and Applications,2010,46(1): 34-36,41 (in Chinese) (王作为,张汝波.基于意会知识的机器人仿生体系结构研究.计算机工程与应用,2010,46(1): 34-36,41) [17] Wang Lei,Wang Weiping.Cognition Evolutionary Algorithm.Computer Science,2010,37(9): 198-204 (in Chinese) (王 磊,王维平.认知演化算法.计算机科学,2010,37(9): 198-204)
2012, Vol. 25 
