Seeing Scientifically: Developing Smart Microscope Exhibits That Support Authentic Visitor Observation and Scientific Inquiry of Living Microscopic Organisms

科学地观察：开发智能显微镜展品，支持参观者对活体微生物的真实观察和科学探究

• 批准号: 2005893
• 负责人: Kristina Yu
• 金额: $ 297.86万
• 依托单位: Exploratorium
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-10-01 至 2024-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2005893&HistoricalAwards=false
• 关键词: Seeing; Scientifically; Developing; Smart; Microscope

The science museum field is only starting to look at ways of providing visitors with opportunities for the authentic observation of complex, real-time biological phenomenon. The project will develop and research a microscope-based exhibit with pedagogical scaffolding (i.e., helpful prompts) that responds to visitors’ changing views as they explore live samples and biological processes. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches, and resources for use in a variety of settings. Scientific observation is a systematic, complex practice, critical in the biological sciences where investigation is heavily reliant on visual data. Using techniques and equipment similar to what scientists themselves use, the exhibit will enable visitors to see and explore the complex, dynamic visual evidence that scientists themselves see. The exhibit will use new and more affordable high-resolution imaging technology and image analysis software to make microscopic images of living organisms visible. Armed with "smart" (i.e., computer-assisted) pedagogical scaffolding that supports inquiry, the project will develop exhibits that help informal learners bridge the gap between everyday observation and authentic scientific observation. The platform will incorporate strategies grounded in prior work on learning through observation that will be applicable to a range of biological content and live specimens. The project platform will be designed for use to a variety of informal science learning environments, including nature centers and mobile laboratories as well as interactive science centers. The project platform itself, including the microscope, related imaging, and learning technologies will be relatively inexpensive, bring it within reach of small science museum and schools. The exhibit will directly engage thousands of learners who visit the Exploratorium and will reach underserved audiences through partnerships with BioBus, a mobile unit that serves the New York City area, and the Noyo Center of Marine Science, a science museum that serves rural areas in Northern California. The project will move beyond simulation and modeling of complex visual phenomena and provide learners with experiences using real visual evidence that can deeply engage them with the content and practice of biological science. By grounding the work in prior theoretical and empirical findings, project research will refine and broaden understanding of scaffolding strategies and their effect on informal science learning at exhibits. Project research will investigate how the project supports learners (1) asking productive questions (i.e., those answerable through observations) that are meaningful to them, (2) interpreting what they see, and (3) connecting their observations to biological concepts to build a more coherent understanding of the content and practice of biological disciplines. A series of comparative studies across and within venues, specimens, and content will assess engagement and scaffolding strategies, with a particular focus on appropriately integrating computational imaging techniques in a way that is responsive to the interests and needs of different venues' audiences. Project research will contribute important knowledge on ways to support informal learners who are engaged in authentic observation of biological phenomenon. Project research findings and technology resources will be widely shared with informal STEM researchers and practitioners concerned with engaging the public in current research in biology, as well as those interested in supporting observation in other disciplines (e.g., meteorology, ocean science, environmental science) that rely on an evidence base of live, dynamic, complex imagery.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

科学博物馆领域才刚刚开始寻找为游客提供真实观察复杂实时生物现象的机会的方法。该项目将开发和研究一个以显微镜为基础的展览与教学脚手架（即，有用的提示），以回应游客的不断变化的意见，因为他们探索活样本和生物过程。作为加强非正式环境中学习的整体战略的一部分，推进非正式STEM学习（AISL）计划资助创新研究，方法和资源，用于各种环境。科学观察是一种系统的、复杂的实践，在调查严重依赖视觉数据的生物科学中至关重要。展览使用与科学家自己使用的技术和设备类似的技术和设备，使参观者能够看到和探索科学家自己看到的复杂，动态的视觉证据。展览将使用新的和更负担得起的高分辨率成像技术和图像分析软件，使活生物体的显微图像可见。配备了“智能”（即，该项目将利用计算机辅助的教学框架来支持探究，并将开发展览，帮助非正式学习者弥合日常观察与真实科学观察之间的差距。该平台将纳入以先前通过观察学习的工作为基础的战略，这些战略将适用于一系列生物内容和活标本。 该项目平台将被设计用于各种非正式的科学学习环境，包括自然中心和移动的实验室以及互动科学中心。该项目平台本身，包括显微镜，相关成像和学习技术将相对便宜，使小型科学博物馆和学校触手可及。该展览将直接吸引数千名参观探索馆的学习者，并将通过与BioBus（一个服务于纽约市地区的移动的单位）和Noyo海洋科学中心（一个服务于北方加州农村地区的科学博物馆）的合作关系，接触到服务不足的观众。 该项目将超越复杂视觉现象的模拟和建模，并为学习者提供使用真实的视觉证据的经验，使他们能够深入了解生物科学的内容和实践。通过将工作建立在先前的理论和实证研究结果基础上，项目研究将完善和扩大对脚手架策略及其对展览会上非正式科学学习的影响的理解。项目研究将调查项目如何支持学习者（1）提出富有成效的问题（即，（2）解释他们所看到的，（3）将他们的观察与生物学概念联系起来，以建立对生物学科内容和实践的更连贯的理解。一系列跨场馆、标本和内容的比较研究将评估参与和搭建策略，特别关注以响应不同场馆观众的兴趣和需求的方式适当整合计算成像技术。 项目研究将提供重要的知识，以支持非正式学习者谁是从事真实的观察生物现象。 项目研究成果和技术资源将与非正式的STEM研究人员和从业人员广泛分享，这些研究人员和从业人员关心让公众参与当前的生物学研究，以及那些有兴趣支持其他学科观察的人（例如，该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。