ITR - (EVS) - (int+soc+dmc): Technology Interventions for Elders with Mobility and Cognitive Impairments

ITR - (EVS) - (int soc dmc)：针对行动不便和认知障碍的老年人的技术干预

• 批准号: 0428420
• 负责人: Marjorie Skubic
• 金额: --
• 依托单位: University of Missouri-Columbia
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-11-15 至 2009-10-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0428420&HistoricalAwards=false
• 关键词: ITR; EVS; int+soc+dmc; Technology; Interventions

Americans are living longer and more fulfilled lives, and they desire to live as independently as possible. But independent lifestyles come with risks. To address these issues, researchers are developing "smart home" technologies to help older adults remain independent at home while controlling costs. Smart homes enhance residents' safety and monitor health conditions using sensors and other devices. Such technology can help keep older adults independent while controlling costs. The PIs have proposed a model of decline in older adults in which mobility and cognitive impairments lead to functional decline, thereby reducing independence. Appropriate interventions, if offered in a timely manner, can improve functional ability. The key is early identification of changing conditions that indicate impairments. In this project, the PIs will establish a partnership among faculty, students, and researchers across diverse schools within two universities, in order to develop and evaluate intervention technology for elders. They will utilize a unique eldercare facility in Columbia, called TigerPlace, to study technology targeting mobility and cognitive impairments. Project objectives include: development of an integrated monitoring system that reliably captures data about the elder residents and their environment in a noninvasive manner and balances the needs of health safety and privacy; collection of data in typical independent living, elder settings, using the integrated monitoring system; development of algorithms to extract patterns of activity from the collected sensor data; and evaluation of the usability of the technology and investigation of fundamental issues in human-computer interaction for the population of older adults. To these ends, a monitoring system developed by one of the participants and incorporating gait, physiological, and environmental sensors will be extended. An event-driven video sensor network will be developed to generate an "anonymized" video stream that hides identifying features of the residents, and sensor and video data will be fused and processed for identifying patterns of behavioral activity. Fundamental human-computer interaction (HCI) issues as related to elders will also be investigated. Deliberative evaluation and usability studies will be conducted.Broader Impacts: This project will have broad impact on our society, by offering a model for eldercare technology and by providing policy makers with answers to complex questions of cost effectiveness and outcomes to help guide decisions about services for older people, such as those funded by Medicare and Medicaid (it is estimated that 12.4% of the U.S. population was over 65 in 2000, and this percentage is projected to grow by 2030 is 20%). From the technical point of view, the research will advance the state of the art in HCI for elders, in anonymized and compressed video, in extracting human motion and behaviors from video data, in extracting human activity from sensory events, and in fusing sensor and video data for identifying behavioral patterns. In addition, the project will train both graduate and undergraduate students and help establish an infrastructure in conducting future research projects; faculty and administrators from Lincoln University in Jefferson City, MO will assist the PIs in recruiting traditionally underrepresented nursing and CIS students for multi-disciplinary teams and summer internships.

美国人活得更长，更充实，他们希望尽可能独立地生活。 但独立的生活方式伴随着风险。 为了解决这些问题，研究人员正在开发“智能家居”技术，以帮助老年人在控制成本的同时保持独立。 智能家居通过传感器和其他设备提高居民的安全性并监测健康状况。 这种技术可以帮助老年人保持独立，同时控制成本。 PI提出了一个老年人衰退的模型，其中移动性和认知障碍导致功能衰退，从而降低独立性。 适当的干预措施，如果及时提供，可以提高功能能力。 关键是及早发现表明损害的变化情况。 在这个项目中，PI将在两所大学的不同学院的教师，学生和研究人员之间建立伙伴关系，以开发和评估老年人干预技术。 他们将利用哥伦比亚一个名为TigerPlace的独特老年人护理设施，研究针对移动性和认知障碍的技术。 项目目标包括：开发综合监测系统，以非侵入性方式可靠地捕获有关老年居民及其环境的数据，并平衡健康安全和隐私的需求;使用综合监测系统收集典型独立生活的老年人环境中的数据;开发算法，从收集的传感器数据中提取活动模式;评估技术的可用性，调查老年人人机交互的基本问题。 为此，将扩展由一名参与者开发的监测系统，并将步态，生理和环境传感器纳入其中。 将开发一个事件驱动的视频传感器网络，以生成一个“匿名”的视频流，隐藏居民的识别特征，传感器和视频数据将被融合和处理，以识别行为活动的模式。 基本的人机交互（HCI）的问题有关的老年人也将进行调查。 将进行审慎评估和可用性研究。该项目将对我们的社会产生广泛影响，提供一个老年人护理技术模式，并为决策者提供成本效益和成果等复杂问题的答案，以帮助指导有关老年人服务的决定，例如由医疗保险和医疗补助资助的医疗保险（据估计，2000年美国65岁以上人口占12.4%，预计到2030年这一比例将增长20%）。 从技术的角度来看，这项研究将推进老年人HCI，匿名和压缩视频，从视频数据中提取人类运动和行为，从感官事件中提取人类活动，以及融合传感器和视频数据以识别行为模式的最新技术。 此外，该项目将培训研究生和本科生，并帮助建立一个基础设施，在进行未来的研究项目;教师和管理人员从林肯大学在杰斐逊城，密苏里州将协助在招聘传统上代表性不足的护理和独联体学生的多学科团队和暑期实习的PI。