This is the fourth volume of the annual proceedings for the Games+Learning+Society (GLS). The GLS conference is a premier event for those from both academia and industry interested in videogames and learning. The GLS conference is one of the few destinations where the people who create high-quality digital learning media can gather for a serious think about what is happening in the field and how the field can serve the public interest. The conference offers an opportunity for in-depth conversation and social networking across diverse disciplines including game studies, education research
DATE:
TEAM MEMBERS:
Amanda OchsnerJeremy DietmeierCaroline WilliamsConstance Steinkuehler
This is the third volume of the annual proceedings for the Games+Learning+Society (GLS). The GLS conference is a premier event for those from both academia and industry interested in videogames and learning. The GLS conference is one of the few destinations where the people who create high-quality digital learning media can gather for a serious think about what is happening in the field and how the field can serve the public interest. The conference offers an opportunity for in-depth conversation and social networking across diverse disciplines including game studies, education research
DATE:
TEAM MEMBERS:
Caroline WilliamsAmanda OchsnerJeremy DietmeierConstance Steinkuehler
In late 2012, Providence Children’s Museum began a major three-year research project in collaboration with The Causality and Mind Lab at Brown University, funded by a grant from the National Science Foundation (1223777). Researchers at Brown examined how children develop scientific thinking skills and understand their own learning processes. The Museum examined what caregivers and informal educators understand about learning through play in its exhibits and how to support children’s metacognition – the ability to notice and reflect on their own thinking – and adults’ awareness and appreciation of kids’ thinking and learning through play. Drawing from fields like developmental psychology, informal education and museum visitor studies, the Museum’s exhibits team looked for indicators of children’s learning through play and interviewed parents and caregivers about what they noticed children doing in the exhibits, asking them to reflect on their children’s thinking. Based on the findings, the research team developed and tested new tools and activities to encourage caregivers to notice and appreciate the learning that takes place through play.
As science museums and centres (SMC) broaden their practices to include the development of scientific citizenship, evaluation needs also to take account of this dimension of their practices. It requires complex methods to understand better the impacts of public participation in activities mediated by SMC, including their impacts on the governance of the SMC themselves.
Evaluations of science communication activities before, during and after their implementation can provide findings that are useful in planning further activities. As some selected examples show, designing such evaluation is complex: they may involve assessment at various points, a mix of quantitative and qualitative methods, and show that impacts differ when seen from different perspectives.
The great increase in visitor studies on science museums and centres (SMC) has been marked also by a shift in approach to these studies, paying more attention to the social context of the visits and the nature of the experience. Evaluations have influenced directly SMC exhibition practices but more attention needs to be paid in research about the personal experiences of visits, how these are interpreted and how they contribute to scientific literacy.
The independent evaluation firm Multimedia Research conducted an evaluation of the television component of SciGirls Season Two, including an experimental study of the impact of the TV series on girls' abilities to take part in science and engineering projects.2 During the same period, the independent evaluation team from Knight Williams Inc. conducted an evaluation of the implementation of the outreach activities among the member institutions of the National Girls Collaborative Project (NGCP) network.
While some public works are monumental civil engineering structures like the Eiffel Tower or the Sydney Harbour Bridge, most are commonplace, even invisible, and they are taken for granted. The reason for existence of public works is to provide basic services, but both large and small infrastructure facilities also present opportunities to engage the public in understanding fundamental concepts of Science, Technology, Engineering, and Mathematics (STEM). We review here lessons learned in the National Science Foundation-funded Golden Gate Bridge Outdoor Exhibition project. Using the title of
The Complex Adaptive Systems as a Model for Network Evaluations (CASNET) study was a four-year research project investigating evaluation capacity building (ECB) within a network using a complexity theory lens. The study used a case study approach to examine and understand evaluation capacity building within the Nanoscale Informal Science Education Network (NISE Net). NISE Net is a national community of researchers and informal science educators dedicated to fostering public awareness, engagement, and understanding of nanoscale science, engineering, and technology. Instituted in 2005 through NSF funding (DRL-0532536 and 0940143), NISE Net has continuously expanded and is currently comprised of close to 600 science museum and university partners. The intent of the CASNET project was to provide insights on (1) the implications of complexity theory for promoting widespread and systemic use of evaluation within a network, and (2) complex system conditions that foster or impede ECB within a network, i.e., in this case, within the NISE Net.
Design-based research (DBR) is used to study learning in environments that are designed and systematically changed by the researcher. DBR is not a fixed “cookbook” method; it is a collection of approaches that involve a commitment to studying activity in naturalistic settings, many of which are designed and systematically changed by the researcher, with the goal of advancing theory at the same time directly impacting practice. The goal of DBR (sometimes also referred to as design experiments) is to use the close study of learning as it unfolds within a naturalistic context that contains
DATE:
TEAM MEMBERS:
Sasha Barab
resourceresearchProfessional Development, Conferences, and Networks
Design research is strongly associated with the learning sciences community, and in the 2 decades since its conception it has become broadly accepted. Yet within and without the learning sciences there remains confusion about how to do design research, with most scholarship on the approach describing what it is rather than how to do it. This article describes a technique for mapping conjectures through a learning environment design, distinguishing conjectures about how the design should function from theoretical conjectures that explain how that function produces intended outcomes.
The Wildlife Conservation Society and Good Shepherd Services (a youth development and education agency) are implementing and evaluating a school-to-career model program that consists of afterschool and weekend programming for high school students at four New York City area zoos and an aquarium, followed by post-participation tracking, support, and mentoring. The goal is to promote affective, cognitive and behavioral outcomes among 150 low-income minority youth necessary to pursue careers in the wildlife sciences.
The Bridging the Gap project is (1) developing a science career program that includes hands-on, technology-enriched, science learning experiences at zoos/aquaria; career building services, mentoring, and long-term tracking and support, (2) forming a community of minority students who have the knowledge and skills to pursue wildlife careers, (3) generating research findings on the short-term and long-term effectiveness of the program, and (4) disseminating information about the project's resources and findings to other informal science education institutions around the nation for replication. The evaluation plan measures a variety of outputs, outcomes and impacts that include short-term and long-term cognitive and affective variables. Data collection methods include student activity monitoring and pre-post testing.
The project addresses a compelling personnel issue documented by the American Zoo and Aquarium Association - the small number of minority science professionals working in zoos and aquariums. Because few programs currently exist to help minority students enter the wildlife science professions, this project fills an important programmatic need and serves as a model workforce program that can be replicated by other informal science education organizations around the country. The project's key strategic impact is its capacity to broaden participation in the wildlife sciences by expanding the science professional pipeline beginning in high school.
DATE:
-
TEAM MEMBERS:
Karen TingleyChanda BennettDon LisowyBrian JohnsonEmily StoethCourtney Wiggins