Global ETD Search

101	Video Games as Deweyan Worlds: A Desktop/Mobile VR Game-based Intervention to Improve Visuospatial Self-efficacy in Middle School Students Kuznetcova, Irina January 2020 (has links) No description available. Educational Psychology Educational Technology serious games virtual reality dewey spatial ability visuospatial thinking self-efficacy STEM education
102	The Effect of Weight and Size on Mental Rotation Furtak, Luke 01 January 2014 (has links) Shepard and Metzler (1971) argued that mental rotation is analogous to the real world in that people imagine the rotation of an object as if it were being physically rotated. This study tested this assertion by exposing participants to physical shapes that increased in size and weight. Participants interacted with blocks designed after Shepard and Metzler mental rotation size that differed in size and weight then performed subsequent mental rotation. We found no difference in reaction time but found that increased size reduced accuracy. We discuss the implications of this study as they pertain to embodied cognition. Psychology
103	Tailoring Instruction to the individual: Investigating the Utility of Trainee Aptitudes for use in Adaptive Training Landsberg, Carla 01 January 2015 (has links) Computer-based training has become more prolific as the military and private business enterprises search for more efficient ways to deliver training. However, some methods of computer-based training are not more effective than traditional classroom methods. One technique that may be able to approximate the most effective form of training, one-on-one tutoring, is Adaptive Training (AT). AT techniques use instruction that is tailored to the learner in some way, and can adjust different training parameters such as difficulty, feedback, pace, and delivery mode. There are many ways to adapt training to the learner, and in this study I explored adapting the feedback provided to trainees based on spatial ability in line with Cognitive Load Theory (CLT). In line with the CLT expertise reversal effect literature I hypothesized that for a spatial task, higher ability trainees would perform better when they were given less feedback. Alternately, I hypothesized that lower ability trainees would perform better during training when they were given more support via feedback. This study also compared two different adaptation approaches. The first approach, called the ATI approach, adapts feedback based on a premeasured ability. In this case, it was spatial ability. The second approach, called the Hybrid approach adapts initially based on ability, but then based on performance later in training. I hypothesized that participants who received Hybrid adaptive training would perform better. The study employed a 2(spatial ability; high, low) X 2(feedback; matched, mismatched) X 2 (approach; ATI, Hybrid) between-subjects design in which participants were randomly assigned to one of the eight conditions. Ninety-two participants completed a submarine-based periscope operator task that was visual and spatial in nature. iv The results of the study did not support the use of CLT-derived adaptation based on spatial ability; contrary to what was hypothesized, higher ability participants who received more feedback performed better than those who received less. Similarly, lower ability participants who received less feedback performed better than those who received more. While not significant, results suggested there may be some benefit to using the Hybrid approach, but more research is needed to determine the relative effectiveness of this approach. Adaptive training cognitive load theory computer based training spatial ability aptitude treatment interaction hybrid adaptive training feedback Psychology
104	Initial Validation Of Novel Performance-based Measures: Mental Rotation And Psychomotor Ability Fatolitis, Philip 01 January 2008 (has links) Given the high-risk nature of military flight operations and the significant resources required to train U.S. Naval Aviation personnel, continual improvement is required in the selection process. In addition to general commissioning requirements and aeromedical standards, the U.S. Navy utilizes the Aviation Selection Test Battery (ASTB) to select commissioned aviation students. Although the ASTB has been a good predictor of aviation student performance in training, it was proposed that incremental improvement could be gained with the introduction of novel, computer administered performancebased measures: Block Rotation (BRT) and a Navy-developed Compensatory Tracking task. This work constituted an initial validation of the BRT, an interactive virtual analog of Shepard-Metzler’s (1971) Mental Rotation task that was developed with the intention of quantifying mental rotation and psychomotor ability. For Compensatory Tracking, this work sought to determine if data gathered concord with results in extant literature, confirming the validity of the task. Data from the BRT were examined to determine task reliability and to formulate relevant quantitative/predictive performance human models. Results showed that the BRT performance is a valid spatial ability predictor whose output can be modeled, and that Compensatory Tracking task data concord with the psychometric properties of tracking tasks that have been previously presented in the literature. Air pilots Motor ability -- Testing Psychometrics Spatial ability -- Testing United States -- Navy Psychology
105	The Roles of Empirical Evidence, Judgment, and Values in Scientific Explanations: The Case of Gender Differences in Spatial Ability Brunton, James Ryan 24 July 2015 (has links) No description available. Psychology Philosophy of Science Gender Studies gender differences spatial ability scientific explanations values empirical evidence feminist philosophy of science
106	The Creation of a 3D Interactive Human Neural Development Resource and Its Evaluation Through a Video Analytic Usability Study Detton, Alan James 25 June 2012 (has links) No description available. Anatomy and Physiology Human Development Embryology Anatomy Education MRI 3D Reconstructions Video Analytic Usability Study Human Computer Interaction Visual Spatial Ability
107	THE EFFECTS OF VISUAL SUPPORT BY A THREEDIMENSIONAL STAIRCASE MODEL ON INDOOR NAVIGATION AND SPATIAL ORIENTATION DURING VERTICAL MOTION Larsson, Sofia, Mattsson, Pauline January 2019 (has links) Vertikala strukturer i byggnader har blivit väldigt vanligt och mer komplexa, därmed ökar vikten av wayfinding. Syftet med denna studie var att undersöka om en tredimensionell modell av en spiraltrappa ökar spatiala orienteringen när man rör sig vertikalt via den motsvarande existerande trappan. Ett experiment utfördes med 25 deltagare, 13 män and 12 kvinnor, mellan åldrarna 18-29 (M= 23.12, SD= 2.93). Hälften blev fördelade till testgrupp och andra hälften till kontrollgrupp. Båda grupper studerade en karta i 30 sekunder och blev instruerade att gå till ett mål på översta våningen. Testgruppen presenterades med ett visuellt hjälpmedel innan de gick in i trappan, kontrollgruppen såg inte detta hjälpmedel. När deltagarna nått översta våningen var deras uppgift att peka till tre olika platser, målet, starten och till Universum byggnaden med en kompassapplikation. Graderna av fel vid pekandet räknades ut och analyserades. Deltagarna fyllde även i Santa Barbara Sense of Direction skalan för att undersöka deras spatiala förmåga. Andra aspekter som togs i aktsamhet var huruvida de var familjära med byggnaden sedan tidigare och skillnader i utförandet mellan kvinnor och män. Resultatet visade något mindre fel vid pekuppgifterna av testgruppen än kontrollgruppen, dock visades ingen signifikant skillnad i datan. Alternativa tolkningar av resultatet och begränsningar tas upp i diskussionen. / Vertical structures in buildings have become very common and more complex, and thereby the importance of wayfinding increases. The aim of the present study was to investigate whether a three-dimensional model of a spiral staircase will improve spatial orientation when travelling in vertical motion via the corresponding real-world staircase. An experiment was conducted with 25 participants, 13 males and 12 females, between the ages of 18-29 (M= 23.12, SD= 2.93). They were divided into a test-group and a control-group. Both groups studied a map for 30 seconds and were instructed to walk to a goal on the top floor. The test-group was presented with a three-dimensional representation of the staircase as a visual aid before entering the stairs, the control-group was not presented with the aid. When the participants reached the top floor, they were instructed to point to the goal, the start and to the Universum building using a compass application. The pointing error was calculated and analyzed. The participants also filled in the Santa Barbara Sense of Direction scale to assess their spatial ability. Other aspects that was taken into consideration was to what extent the participants were familiar with the building the experiment took place in and differences in performance between men and women. Results show an indication of a smaller pointing error for the test-group than the control-group in all pointing tasks, however there were no statistically significant differences in the data. Alternative interpretations of the results and limitations of the study are discussed. Indoor navigation spatial ability vertical motion visual aid Inomhusnavigering spatial förmåga vertikal rörelse visuellt hjälpmedel Psychology Psykologi
108	The importance of identifying particular strengths : spatial ability in pupils who are at risk of not learning to read Burgoyne, Christine Anne January 2010 (has links) Recent studies have shown that there may be evidence that children with reading difficulties have particular compensatory spatial ability, although the exact spatial ability has not been identified. This study used qualitative and quantitative methods to examine closely two spatial abilities, spatial visualisation (mental rotation from memory) and visual realism (three-dimensional drawing and construction ability) in students with reading problems and students with no problems. The aim was also to explore the question of whether students with spatial ability and reading problems were encouraged to use these strengths either in or out of school and whether such abilities could be identified in the early years environment. Equally, the question of motivational failure related to possible unrecognised potential, particularly in the area of non-verbal/spatial ability was also examined. This study used longitudinal case studies with five children and their mothers over a period of ten years. Interviews were transcribed and analysed using a grounded theory approach. Researcher observations as the teacher of the five children in their primary years provided additional evidence of their reading and spatial abilities at an early age. In addition, the study uses a Further Education College survey that examines spatial ability and reading problems in 133 post-16 year olds that provides the quantitative element of the study providing evidence about students with spatial abilities and their career choices. The data analysis revealed that the five case studies had largely overcome their reading problems due to early intervention strategies for reading together with encouragement and support outside school for their spatial abilities. Additionally, they have pursued careers, which for the most part, uses their spatial skills. The data analysis of the College survey showed that the link between spatial ability and reading problems was less secure, although there were a number of students with Specific Learning Difficulties (SpLD) who had high spatial abilities and this proved to be important from the point of view of identifying strengths alongside weakness in literacy, particularly in the early years at school. Early identification and acknowledgement of spatial ability as a perceived strength and used to support learning, as opposed to identification of reading problems, a perceived deficit, proved to be a key finding of the research. 371.9
109	Predicting 9th Grade Students Isik, Ebru 01 December 2008 (has links) (PDF) The aim of the study was to investigate how well the geometry achievement is explained by field dependency/ independency cognitive styles, spatial orientation, spatial visualization and attitude toward geometry. The sample of the study was composed of 378 ninth grade students (183 male and 195 female) from five different lycees in EskiSehir. The types of schools participating in the study were General High School, Anatolian High School, Commercial Vocational High, and Anatolian Fine Art High School. The data were collected by using four instruments, which were Group Embedded Figure Test ( GEFT ) , Spatial Ability Tests, Geometry Achievement Test (GAT) and Geometry Attitude Scale (GAS). GEFT developed by Witkin, Oltman, Raskin and Karp ( 1971 ) was used to determine students&rsquo / cognitive styles. Another test, The Spatial Ability Test developed by Ekstrom and colleagues (1976) was composed of four sub-tests. Two of them were aimed to measure spatial orientation, which were Cube Comparison and Card Rotation test. The others were developed to measure spatial visualization, which were Paper Folding and Surface Development tests. The Turkish version of the tests translated by Delialioglu (1996) used in the study. In order to measure geometry achievement, GAT was developed by researcher. GAS developed by Bulut, iSeri, Ekici and Helvaci (2002) was used to measure the dimension of like/dislike geometry, usefulness of geometry and anxiety about geometry. The data conducted from the research sample through the tests and scale was analyzed by using regression analysis. The multiple regression analysis indicated that students&rsquo / cognitive styles were the most significant variable in explaining their geometry achievements. The other predictive variables also made statistically significant contribution in explaining the variance in geometry achievement. Four predictive variables of the study were entered the regression model, and explained the % 47 of the variance in geometry achievement. The findings of the study suggested that students&rsquo / field dependency/ independency cognitive style had high importance in learning geometry / and it should have taken into the consideration in teaching geometry.
110	Visualization: The Human Brain and Developing Spatial Ability in Structural Geological Education / Visualisering: Den mänskliga hjärnan och utvecklingen av en spatial förmåga i undervisning inom strukturgeologi Ninasdotter Holmström, Matilda, Korhonen, Sofia January 2015 (has links) Spatial ability and the skill to visualize objects is necessary for earth scientist, especially structural geologist. For this reason, undergraduate students within earth science needs to learn this skills, and how is the best way to teach this skills. To implement 3D thinking in undergraduate teaching, three strategies are presented. The first one is to separate and combine objects, which includes to see geological differences and categorize them. Secondly, visualize objects, both many and single ones and see which ones who are connected. Third and lastly is still and moving objects which involves geological processes. It is important to give students time to develop their spatial abilities and help them during the learning process. Another aspect to this is the path of information within the human brain when visualizing an object. The result shows that the process starts with the human eye which perceive the object and its attributes, then the geniculate nucleus sorts the information and directs it toward the visual primary cortex located in the occipital lobe. The primary visual cortex then send the information though the ventral- and dorsal steam which produces a visualization. Aspects which can affect the spatial ability may be earlier experiences, age and the way each person perceive the object. These factors effects how hard humans think the process of visualization is. The questionnaire showed that 3D models help students to visualize and should be used more in undergraduate teaching. / Förmågan att visualisera objekt och förstå dem är nödvändig för en geovetare, speciellt inom strukturgeologi. Därför är det viktigt att studenter på kandidatprogram i geovetenskap får tillfälle att lära sig den förmågan. För att implementera 3D-tänkande i undervisningen har tre strategier tagits fram. Den första är att separera och kombinera objekt, vilket inkluderar att se geologiska skillnader och kategorisera dem. Den andra är att visualisera ett eller flera objekt och se vilka som är kopplade till varandra. Den tredje är att se objekt som är i stilla eller i rörelse, vilket involverar geologiska processer. Det är viktigt att ge studenterna tid för att utveckla sin spatiala förmåga och att hjälpa dem under utvecklingen. Arbetet syftar också till att ta reda på hur visuell information bearbetas av den mänskliga hjärnan. Först bearbetas informationen av ögat, sen till geniculate nucleus som sorterar informationen och skickar den till det primära visuella cortex som ligger i occipital-loben. Därefter processas informationen av ventrala och dorsala stammen och det är här som en visualisering produceras. Faktorer så som ålder, tidigare erfarenheter och hur ögat uppfattar objekten påverkar hur visualiseringen blir och hur svårt individen uppfattar processen. Enkätundersökningen visade på att 3D-modeller hjälper studenter att visualisera och borde användas mer i undervisning på kandidatnivå. Spatial ability cognitive science human brain education structural geology 3D modelling Spatial förmåga kognitiv vetenskap mänskliga hjärnan utbildning strukturgeologi 3D-modellering

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