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1. Engineering creativity: Prior experience modulates electrophysiological responses to novel metaphors

   https://doi.org/10.1111/psyp.13630  

   Jończyk, Rafal; Kremer, Gül E.; Siddique, Zahed; van Hell, Janet G. (July 2020, Psychophysiology)

   Abstract Novel metaphorical language use exemplifies human creativity through production and comprehension of meaningful linguistic expressions that may have never been heard before. Available electrophysiological research demonstrates, however, that novel metaphor comprehension is cognitively costly, as it requires integrating information from distantly related concepts. Herein, we investigate if such cognitive cost may be reduced as a factor of prior domain knowledge. To this end, we asked engineering and nonengineering students to read for comprehension literal, novel metaphorical, and anomalous sentences related to engineering or general knowledge, while undergoing EEG recording. Upon reading each sentence, participants were asked to judge whether or not the sentence was original in meaning (noveltyjudgment) and whether or not it made sense (sensicalityjudgment). When collapsed across groups, our findings demonstrate a gradual N400 modulation with N400 being maximal in response to anomalous, followed by metaphorical, and literal sentences. Between‐group comparisons revealed a mirror effect on the N400 to novel metaphorical sentences, with attenuated N400 in engineers and enhanced N400 in non‐engineers. Critically, planned comparisons demonstrated reduced N400 amplitudes to engineering novel metaphors in engineers relative to non‐engineers, pointing to an effect of prior knowledge on metaphor processing. This reduction, however, was observed in the absence of a sentence type × knowledge × group interaction. Altogether, our study provides novel evidence suggesting that prior domain knowledge may have a direct impact on creative language comprehension. 

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2. Electroencephalogram Experimentation to Understand Creativity of Mechanical Engineering Students

   https://doi.org/10.1115/1.4056473  

   Ahad, Md Tanvir; Hartog, Tess; Alhashim, Amin G.; Marshall, Megan; Siddique, Zahed (January 2023, ASME Open Journal of Engineering)

   Abstract Electroencephalogram (EEG) alpha power (8–13 Hz) is a characteristic of various creative task conditions and is involved in creative ideation. Alpha power varies as a function of creativity-related task demands. This study investigated the event-related potentials (ERPs), alpha power activation, and potential machine learning (ML) to classify the neural responses of engineering students involved with creativity task. All participants performed a modified alternate uses task (AUT), in which participants categorized functions (or uses) for everyday objects as either creative, nonsense, or common. At first, this study investigated the fundamental ERPs over central and parietooccipital temporal areas. The bio-responses to understand creativity in engineering students demonstrates that nonsensical and creative stimuli elicit larger N400 amplitudes (−1.107 mV and −0.755 mV, respectively) than common uses (0.0859 mV) on the 300–500 ms window. N400 effect was observed on 300–500 ms window from the grand average waveforms of each electrode of interest. ANOVA analysis identified a significant main effect: decreased alpha power during creative ideation, especially over (O1/2, P7/8) parietooccipital temporal area. Machine learning is used to classify the specific temporal area data’s neural responses (creative, nonsense, and common). A k-nearest neighbors (kNN) classifier was used, and results were evaluated in terms of accuracy, precision, recall, and F1- score using the collected datasets from the participants. With an overall 99.92% accuracy and area under the curve at 0.9995, the kNN classifier successfully classified the participants’ neural responses. These results have great potential for broader adaptation of machine learning techniques in creativity research. 

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3. Pilot Study: Investigating EEG Based Neuro-Responses of Engineers via a Modified Alternative Uses Task to Understand Creativity

   https://doi.org/10.1115/DETC2020-22614  

   Hartog, Tess; Marshall, Megan; Ahad, Md Tanvir; Alhashim, Amin G.; Okudan Kremer, Gul; van Hell, Janet; Siddique, Zahed (January 2020, ASME 2020 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference)

   null (Ed.)

   Assessing creativity is not an easy task, but that has not stopped researchers from exploring it. Because creativity is essential to engineering disciplines, knowing how to enhance creative abilities through engineering education has been a topic of interest. In this paper, the event related potential (ERP) technique is used to study the neural responses of engineers via a modified alternative uses task (AUT). Though only a pilot study testing two participants, the preliminary results of this study indicate general neuro-responsiveness to novel or unusual stimuli. These findings also suggest that a scaled-up study along these lines would enable better understanding and modeling of neuroresponses of engineers and creative thinking, as well as contribute to the growing field of ERP research in the field of engineering. 

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4. Divergent thinking and academic performance of students with attention deficit hyperactivity disorder characteristics in engineering

   https://doi.org/10.1002/jee.20310  

   Taylor, Christa_L; Esmaili_Zaghi, Arash; Kaufman, James_C; Reis, Sally_M; Renzulli, Joseph_S (March 2020, Journal of Engineering Education)

   Abstract BackgroundCreativity is increasingly recognized as an important skill for success in the field of engineering, but most traditional, post‐secondary engineering education programs do not reward creative efforts. Failing to recognize creativity or creative efforts can have particularly negative effects for those students with attention deficit hyperactivity disorder (ADHD), who may exhibit enhanced divergent thinking ability yet struggle in the traditional educational environment. Purpose/HypothesisThis study was conducted to investigate how ADHD characteristics, academic aptitude, and one important component of creativity (divergent thinking) contribute to academic performance in engineering programs and how traditional markers of academic performance and ADHD characteristics predict divergent thinking. Design/MethodUndergraduate engineering students (n= 60) completed measures of ADHD symptoms and divergent thinking. Scholastic Aptitude Test (SAT) scores and grade point average (GPA) were collected from university records, and hypotheses were tested using a series of multivariate regression models. ResultsVerbal SAT scores were the only positive predictor of overall GPA and engineering GPA. ADHD characteristics did not significantly predict overall GPA but negatively predicted engineering GPA. ADHD characteristics were the only positive predictor of divergent thinking ability. ConclusionsADHD characteristics negatively predict academic performance (i.e., GPA) in engineering programs but are more predictive of divergent thinking ability than traditional markers of academic performance. 

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5. Investigating Adaptation to And-Coordination in English: An ERP Study

   https://doi.org/10.3390/languages8030207  

   Kaan, Edith (September 2023, Languages)

   According to certain approaches to adaptation, readers and listeners quickly adjust their processing of sentences to match properties of recently encountered sentences. The present preregistered study used ERP (event-related brain potentials) to investigate how and when readers change their processing in response to recent exposure to sentences of a particular structure. We presented English speakers (n = 36) with three virtual blocks of English sentences with and-coordination ambiguities. In the first and third block, the ambiguity was always resolved towards a noun phrase (NP-) coordination; in the second block, the structure was always a clausal (S-) coordination. We manipulated the plausibility of the critical noun after the conjunct. N400 and P600 plausibility effects were probed to see to what extent the reader preferred an NP- coordination or expected the sentence to continue differently. Our results suggest that readers change their processing as a function of recent exposure but that they do not immediately adapt to the target structure. Furthermore, we observed substantial individual variation in the type and change in response over the course of the study. The idea that structural adaptation is immediate and a direct reflection of the properties of the recent context therefore needs to be fine-tuned. 

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