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1. Brain and Behavior in Engineering Design: An Exploratory Study on Using Concept Mapping

   https://doi.org/10.1007/978-3-031-20418-0_13  

   Hu, M.; Shealy, T.; Gero, J.; Milovanovic, J.; Ignacio Jr, P. (April 2023, Design Computing and Cognition'22)

   Gero, John S. (Ed.)

   To explore the connection between brain and behavior in engineering design, this study measured the change in neurocognition of engineering students while they developed concept maps. Concept maps help designers organize complex ideas by illustrating components and relationships. Student concept maps were graded using a pre-established scoring method and compared to their neurocognitive activation. Results show significant correlations between performance and neurocognition. Concept map scores were positively correlated with activation in students’ prefrontal cortex. A prominent sub-region was the right dorsolateral prefrontal cortex (DLPFC), which is generally associated with divergent thinking and cognitive flexibility. Student scores were negatively correlated with measures of brain network density. The findings suggest a possible neurocognitive mechanism for better performance. More research is needed to connect brain activation to the cognitive activi-ies that occur when designing but these results provide new evidence for the brain functions that support the development of complex ideas during design. 

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2. Students’ neurocognition changes during engineering design when thinking aloud

   Shealy, T.; Gero, J.S.; Song, I.; Ignacio, P.; Walker, E.; Aruon, A. (October 2022, NSF EEC Grantees Conference 2022)

   ASEE (Ed.)

   The purpose of this study was to measure the neurocognitive effects of think aloud when engineering students were designing. Thinking aloud is a commonly applied protocol in engineering design education research. The process involves students verbalizing what they are thinking as they perform a task. Students are asked to say what comes into their mind. This often includes what they are looking at, thinking, doing, and feeling. It provides insight into the student’s mental state and their cognitive processes when developing design ideas. Think aloud provides a richer understanding about how, what and why students’ design compared to solely evaluating their final product or performance. The results show that Ericsson and Simon's claim that there is no interference due to think-aloud is not supported by this study and more research is required to untangle the effect of think-aloud. 

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3. Enhancing creative divergent thinking in older adults with a semantic retrieval strategy

   https://doi.org/10.1080/13825585.2024.2414855  

   Dubec, Luke; Gerver, Courtney R; Dennis, Nancy A; Beaty, Roger E (May 2025, Aging, Neuropsychology, and Cognition)

   Creative divergent thinking involves the generation of unique ideas by pulling from semantic memory stores and exercising cognitive flexibility to shape these memories into something new. Although cognitive abilities such as episodic memory decline with age, semantic memory tends to remain intact. The current study aims to take advantage of older adults’ strength in semantic memory to investigate the effectiveness of a brief cognitive training to improve creative divergent thinking. Specifically, older adults were trained using a semantic retrieval strategy known as the disassembly strategy in order to improve creativity in the Alternate Uses Task (AUT), which involves generating original uses for objects. We also investigated whether this strategy would transfer to other creativity tasks, specifically, the Divergent Association Task (DAT). Participants were tested on the AUT and DAT across three time points in a single session: before the disassembly strategy was introduced (T0 and T1) and afterwards (T2). Results showed that the disassembly strategy enhances idea novelty in the AUT, though this enhancement did not transfer to DAT performance. Additionally, participants that initially scored lowest on the AUT at T0 showed the greatest increase in AUT performance at T2. This finding provides evidence that older adults can effectively use a semantic retrieval strategy to engage and enhance elements of creative divergent thinking. 

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4. Accelerating Creativity: Effects of Transcranial Direct Current Stimulation on the Temporal Dynamics of Divergent Thinking

   https://doi.org/10.1080/10400419.2022.2068297  

   Li, Yangping; Beaty, Roger E.; Luchini, Simone; Dai, David Yun; Xiang, Shuoqi; Qi, Senqing; Li, Yadan; Zhao, Ruili; Wang, Xuewei; Hu, Weiping (August 2022, Creativity Research Journal)

   Transcranial direct current stimulation (tDCS) over the dorsolateral prefrontal cortex (DLPFC) has been shown to enhance divergent and convergent creative thinking. Yet, how stimulation impacts creative performance over time, and what cognitive mechanisms underlie any such enhancement, remain largely unanswered questions. In the present research, we aimed to (1) verify the impact of DLPFC tDCS on both convergent and divergent thinking, and further investigated (2) the temporal dynamics of divergent thinking, focusing on the serial order effect (i.e., the tendency for ideas to become more original and less frequent over time), and (3) any role that cognitive inhibition may play in mediating any effect of stimulation on creative thinking (considering the DLPFC’s involvement in driving inhibitory processes that are also relevant for creative thinking). In a within-subjects design, twenty-six participants received three types of cross-hemispheric tDCS stimulation over the DLPFC (left cathodal and right anodal, L-R+; left anodal and right cathodal, L+R-; and sham). Before stimulation, they completed a pre-flanker task measuring cognitive inhibition; during stimulation, they completed the Alternate Uses Task (AUT), Remote Associates Test (RAT), and post-flanker task. Results showed that, compared with the sham stimulation, originality of responses in the AUT was significantly enhanced in the L+R- condition, while no tDCS effect was observed for the RAT. Additionally, compared with the other stimulation conditions, we found a diminished serial order effect in the L+R- condition characterized by an accelerated production of more original ideas. Critically, the L+R- condition was accompanied by better performance on the flanker task. Our findings thus verify that L+R- tDCS over the DLPFC accelerates idea originality also providing tentative clues that inhibition may act as a cognitive mechanism underlying enhancements in divergent thinking resulting from frontal lobe neuromodulation. 

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5. An Inclusive Study of Petri Nets and Their Applications

   McDuffie, Jasmine; Chenou, Jules (June 2024, Norfolk State University College of Science, Engineering and Technology. Technical Report No.1.)

   The main purpose of this report is to provide information on Petri nets, including their, design, semantics, properties, and uses. The problem addressed is how to model and analyze systems that may be susceptible to unknown issues. By visualizing these issues, we can improve or modify the system. Petri nets are highly powerful tools that can solve several problems, including issues with workflow management, deadlock, data transmission in communication systems, manufacturing and production, software systems, and more. These things are widely used in different work fields such as engineering, project management, and computer science. It is important to solve these problems for maintaining system reliability, and optimal performance. Exploring all the uses and techniques of a Petri net, beginning with the basics and advancing to the more complex ideas, demonstrates just how effective they are. The results confirm that Petri nets are important for identifying systems that need improvement within their performance and components across multiple fields. 

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