Global ETD Search

21	Investigating gender differences in student preferences for and achievement with educational games Regan, Damon A. 01 January 2012 (has links) The purpose of this study was to investigate the choice behavior and achievement of male and female high school students who are given an option of taking a 36 week American History course in either a game-based format or a web-based format. It was hypothesized that (a) males would enroll more frequently in the game-based course than females, (b) there would be no significant difference in achievement between males and females in the game-based course or across course formats, and (c) there would be no significant interaction between gender and the selection of course format. The study consisted of a sample of 7,962 11th grade students who enrolled in American History during the 2009/2010 school year at the Florida Virtual School (FLVS). Students planning to take 11th grade American History at FLVS were given the choice of enrolling in a game-based class format or a standard web-based online class format. A chi-square test of independence was used to analyze enrollment rates. An independent t test was used to analyze achievement based on gender in the game-based course. A two-way factorial analysis of variance (ANOVA) was used to analyze achievement data based on gender across course formats, enrollment, and the interaction of gender and enrollment. The chi-square results indicated that there is a relationship between gender and enrollment. Males chose to enroll in the game-based format of the course more frequently than females and females chose to enroll in the web-based format of the course more frequently than males. The independent t test results indicated that there is no significant difference in achievement based on gender in the game-based course. The ANOVA results indicated that there are significant differences in achievement based on gender as well as enrollment, but there are no significant differences in achievement based on the interaction of gender and enrollment. Implications for researchers, teachers, administrators, game developers, and funders are provided. Gender differences preferences achievement educational games Education
22	Method for Improving the Perception of Reality and Understanding of the Population Problem in the College Classroom: A Simulation Game Connor, Thomas Dwight 08 1900 (has links) The purpose of this study is the development of an educational simulation game for use in college classes. The simulation game is based on selected aspects of the population problem. The panel approved or rejected objectives on the basis of their significance as goals for college students. Twelve objectives were approved by a majority of the panel. Upon completion of the exercise, students should be able to compute population increases, to predict population sizes, and to identify birth and death rates that cause a population to increase, decrease, or remain stable. Students should also be able to describe how the following factors affect population size: cultural and religious beliefs, pressure for economic growth, investments of capital, and financial losses. Students should understand the problems of governing a country with a rapidly growing population as compared to problems in governing a country with slower population growth, and they should recognize how rapid population growth can affect the quality of life. Students should recognize decreased birth rates, increased death rates, and increased economic production as possible solutions to the population problem. Finally, students should personalize the population problem and make commitments in seeking and participating in its solutions. simulation games Population -- Study and teaching Educational games college teaching educational games
23	Teaching home management at the college level through simulation: a formative evaluation Janke, Harriette Grove. January 1979 (has links) Call number: LD2668 .T4 1979 J35 / Master of Science Educational games. Masters theses
24	Combining games and speech recognition in a multilingual educational environment / M. Booth Booth, Martin January 2014 (has links) Playing has been part of people's lives since the beginning of time. However, play does not take place in silence (isolated from speech and sound). The games people play allow them to interact and to learn through experiences. Speech often forms an integral part of playing games. Video games also allow players to interact with a virtual world and learn through those experiences. Speech input has previously been explored as a way of interacting with a game, as talking is a natural way of communicating. By talking to a game, the experiences created during gameplay become more valuable, which in turn facilitates effective learning. In order to enable a game to “hear", some issues need to be considered. A game, that will serve as a platform for speech input, has to be developed. If the game will contain learning elements, expert knowledge regarding the learning content needs to be obtained. The game needs to communicate with a speech recognition system, which will recognise players' speech inputs. To understand the role of speech recognition in a game, players need to be tested while playing the game. The players' experiences and opinions can then be fed back into the development of speech recognition in educational games. This process was followed with six Financial Management students on the NWU Vaal Triangle campus. The students played FinMan, a game which teaches the fundamental concepts of the “Time value of money" principle. They played the game with the keyboard and mouse, as well as via speech commands. The students shared their experiences through a focus group discussion and by completing a questionnaire. Quantitative data was collected to back the students' experiences. The results show that, although the recognition accuracies and response times are important issues, speech recognition can play an essential part in educational games. By freeing learners to focus on the game content, speech recognition can make games more accessible and engaging, and consequently lead to more effective learning experiences. / MSc (Computer Science), North-West University, Vaal Triangle Campus, 2014 Educational games Financial management Interaction modalities Multilingualism Speech recognition
25	First responder: weapons of mass destruction training using massively multiplayer on-line gaming Richardson, Thomas J. 06 1900 (has links) CHDS State/Local / Approved for public release, distribution is unlimited / This thesis proposes the development of a Massively Multiplayer On-Line Game (MMOG) to deliver Weapons of Mass Destruction Training to the nation's first responders and civilians. MMOG technology offers a cost effective alternative to existing training methodologies. Existing first responder WMD training often uses traditional in-residence classes. These current training methods are expensive, lack standardization, and do not have provable outcomes. Scaling up existing training to meet the needs of millions of responders would be cost prohibitive. Modern information technologies such as MMOGs offer a safe, efficient, effective and fun alternative mechanism to deliver training. MMOGs could scale to meet the volume of training need at a fraction of the cost of traditional methods. The DoD has proven the effectiveness of simulation games as a training tool, and the use of gaming and simulations is recognized in academia. / Captain, Seattle Fire Department War games Simulation methods Educational games Disaster relief
26	Modes and Mechanisms of Game-like Interventions in Intelligent Tutoring Systems Rai, Dovan 28 April 2016 (has links) While games can be an innovative and a highly promising approach to education, creating effective educational games is a challenge. It requires effectively integrating educational content with game attributes and aligning cognitive and affective outcomes, which can be in conflict with each other. Intelligent Tutoring Systems (ITS), on the other hand, have proven to be effective learning environments that are conducive to strong learning outcomes. Direct comparisons between tutoring systems and educational games have found digital tutors to be more effective at producing learning gains. However, tutoring systems have had difficulties in maintaining students€™ interest and engagement for long periods of time, which limits their ability to generate learning in the long-term. Given the complementary benefits of games and digital tutors, there has been considerable effort to combine these two fields. This dissertation undertakes and analyzes three different ways of integrating Intelligent Tutoring Systems and digital games. We created three game-like systems with cognition, metacognition and affect as their primary target and mode of intervention. Monkey's Revenge is a game-like math tutor that offers cognitive tutoring in a game-like environment. The Learning Dashboard is a game-like metacognitive support tool for students using Mathspring, an ITS. Mosaic comprises a series of mini-math games that pop-up within Mathspring to enhance students' affect. The methodology consisted of multiple randomized controlled studies ran to evaluate each of these three interventions, attempting to understand their effect on students€™ performance, affect and perception of the intervention and the system that embeds it. Further, we used causal modeling to further explore mechanisms of action, the inter-relationships between student€™s incoming characteristics and predispositions, their mechanisms of interaction with the tutor, and the ultimate learning outcomes and perceptions of the learning experience. causal modeling gamification game elements intelligent tutoring systems educational games
27	Tangram Race Mathematical Game: Combining Wearable Technology and Traditional Games for Enhancing Mathematics Learning Liu, Yuting 05 December 2014 (has links) "The public in general and educational communities are aware of the importance of elementary math education in students' lives, as it establishes a cognitive and motivational foundation to reach higher levels of schooling. However, students usually learn passively in traditional instructivist modes, and tend to get bored and disengaged. In contrast, games can be a useful way to assist education and engage students. This thesis reports on a novel game learning environment for mathematics learning, the Tangrams Race, which attempts to inspire students to learn math, by combining traditional outdoor games and wearable technology in the form of Cyber Watches. The Tangrams Race, a physical game designed for elementary school students to play outdoors, is examined and tested in two studies to show that the game-based learning environment and the technology can enhance learning gains and inspire students interest to learn mathematics." game learning environment wearable technology outdoor educational games
28	A methodology for the design of educational computer adventure games Moser, Robert B., Computer Science & Engineering, Faculty of Engineering, UNSW January 2000 (has links) This work undertakes a systematic study of various elements from differing fields which apply to the construction of computer-aided instructional systems. Drawing upon these works, the potential for instruction in computer adventure games is recognised, and previous work in the area analysed with respect to the theoretical findings. Based both on this theory and the germane advice of practicing game designers, a methodology for the design of educational computer adventure games is laid out in detail. The method described is then used to construct a sample game with basic programming skills as the pedagogical content, and this sample game is tested and the results examined. An informed approach to the design of computer-assisted instruction must begin with an understanding of how people acquire and store new information or skills. Cognitive psychology provides a number of conflicting models of the human information processing system, but these differing theories have a common basis which can be exploited in an attempt to make material more accessible. Instructional design describes a methodology for the analysis of pedagogical goals and demonstrates methods of learning support which can and should be incorporated into the new setting. In this field also is a judgement of different media, including computers, and their ability to provide the necessary elements of learning. By understanding the strengths and weaknesses of the medium the limits of what is possible within it can be catered to, and its failings augmented with supplemental materials. Both educational psychology and instructional design indicate benefits to learning from a correctly motivated learner, and the theory of engagement is therefore also scrutinised for elements helpful to the educational designer. The convergence of the knowledge gleaned from these various fields leads to one possible match to the desired criteria for computer-mediated instruction; the computerised fantasy adventure game. This being the case, other work in the field is examined for relevance, and it is found that a detailed methodology for the construction of such games does not exist. Existing material is combined with the aforementioned theoretical work and a survey of what is known about practical game design to create such a framework. It is proposed that through its use the systematic inclusion of educational content in an engaging environment will be facilitated. The hypothesis is examined, and an action research approach found to be called for. As such, the proposed methodology is used to create a sample game, and the process of its design used to inform the proposed methodology. The final form is described in detail, and the process of its application to the sample game elucidated. A prototype of the game is used with a number of test subjects to evaluate the game?s level of success at both engagement and the imparting of content material. Computer adventure games educational games computer games data processing programming
29	A Practitioner Researcher perspective on facilitating an open, infinite, chaordic simulation. Learning to Engage with Theory while Putting Myself Into Practice January 2003 (has links) This thesis investigates two intertwined themes. The first concerns the development of a framework for understanding, and making appropriate use of, simulations and games as tools for learning. The second concerns the utilisation of the term PractitionerResearcher to reflect the unity of practice and research activity in creating 'working knowledge' (Symes 2000). These themes are intertwined in the sense that the route I take to understanding simulations and games is through the stance of a PractitionerResearcher. Conversely the thesis aims to draw out what it means to be a PractitionerResearcher through my engagement as a facilitator of simulations and games. I argue that the knowledge I generate as a PractitionerResearcher is utilitarian and pragmatic. Grounded in my practice as an adult educator it utilises theoretical perspectives chosen for immediate relevance rather than because of any claims to 'truth' or permanence. Understanding how this shapes and influences my practice was a complex, difficult process. Using an auto-ethnographic approach, Chapter 1 outlines the development of my 'working knowledge' as a PractitionerResearcher. It draws on selected personal experiences in my work as an adult educator using simulations and games for teaching and learning. While curiosity about historical facts initiated the research reported in Chapter 2, the chapter focuses on uses of historical precedent for generating greater understanding, and acceptance by participants, of simulations and games as teaching/learning strategies. It identifies a range of contributions - from war games, religious games, and children's play - to the structuring of modern educational simulations and games. Chapter 3 explores approaches to classifying simulations and games. Its development brought a gradual realisation of the futility of trying to establish a single definitive categorisation system for all simulations and games. Understanding how they can be arranged in a variety of different relationships provides a better insight into their general features and helps in making decisions about when and how to use specific activities. One outcome of the work for this chapter was the realisation of some simulations as 'open and infinite' in nature, and that XB - simulation of importance in my practice - is such a simulation. Chapter 4 uses concepts developed in the field of chaos theory to illustrate how certain simulations create messy but 'chaordic' (Hock 2002) rather than dis-orderly learning contexts. 'Chaos/chaotic' once meant only dis-order, 'messiness' and unpredictability. Twentieth century scientific discoveries illustrate that order is concealed within 'chaos' producing richly complex patterns when viewed from the right perspective. I argue that 'chaos' concepts can be usefully applied to open and infinite simulations to demonstrate how they are similarly 'chaordic'. XB (for eXperience Based learning) is an open, infinite chaordic simulation, and has been a driving force in my practice for six years. The case study in Chapter 5 introduces the 'world according to XB' and takes the reader 'inside' participants' experiences as the unfolding nature of their learning is revealed in the way they apply theories of organisational behaviour to immediate behaviours. Chapter 6 reflects on my experiences of facilitating XB, via a review of interactions with some past XB participants. The influence of such a learning process on my practice is analysed. The emotional impact of these interactions has brought a better understanding of my own practice, and the chapter considers the concept of 'dispassionate reflexivity' as an aid for the facilitator in such contexts. Chapter 7 examines the evolution and distinctive features of the PractitionerResearcher in more detail. As an educator, a consistent focus of my work has been simultaneously 'to know more' and 'to be able to do better' - and it is the interdependence of these that lies at the heart of what it means to be a PractitionerResearcher. It is my hope that this thesis offers a solution for practitioners wanting to combine 'research' and 'practice' into a practical and scientifically rigorous 'whole'. For such professionals the PractitionerResearcher model offers an integrated approach, combining and validating 'learning in action' and 'learning for action'. Practitioner Researcher Experiential learning Educational games Simulation games Working knowledge
30	Playing at Reality: Exploring the potential of the digital game as a medium for science communication Aitkin, Alexander Lewis, alex.aitkin@dest.gov.au January 2005 (has links) Scientific culture is not popular because the essential nature of science – the models and practises that make it up – cannot be communicated via conventional media in a manner that is interesting to the average person. These models and practises might be communicated in an interesting manner using the new medium of the digital game, yet very few digital games based upon scientific simulations have been created and thus the potential of such games to facilitate scientific knowledge construction cannot be studied directly. Scientific simulations have, however, been much used by scientists to facilitate their own knowledge construction, and equally, both simulations and games have been used by science educators to facilitate knowledge construction on the part of their students. The large academic literatures relating to these simulations and games collectively demonstrate that their ability to: re-create reality; model complex systems; be visual and interactive; engage the user in the practise of science; and to engage the user in construction and collaboration, makes them powerful tools for facilitating scientific knowledge construction. Moreover, the large non-academic literature discussing the nature of digital games (which are themselves both simulations and games) demonstrates that their ability to perform the above tasks (i.e. to re-create reality, model complex systems, and so forth) is what makes them enjoyable to play.¶Because the features of scientific and educational simulations and games that facilitate knowledge construction are the very same features that make digital games enjoyable to play, the player of a scientific-simulation-based digital game would be simultaneously gaining enjoyment and acquiring scientific knowledge. If science were widely communicated using digital games, therefore, then it would be possible for there to be a popular scientific culture. Digital games science communication simulations educational games computational science interactivity

Search results