【正文】 的 照料：評(píng)價(jià)智能家居（陌生的環(huán)境） 在有或 無提示 的情況下的 自我護(hù)理 能力 。監(jiān)測 下降的 頻率和位置 ， 以評(píng)估 針對 中風(fēng)患者和看護(hù)者 的 智能家電 的 價(jià)值 。 項(xiàng)目將集中于亞群， 并 期 望在 他們的條件和生活作風(fēng) 的 技術(shù)的影響后搜集科學(xué)數(shù)據(jù)。 對 老年人 來說 它造成傷害，殘疾的和額外的衛(wèi)生保健成本 是重大的問題。 由 急性護(hù)理醫(yī)院 照顧的上面例子中的老人 出院。照顧者監(jiān)測 需要照顧的老人的 健康和安全是其中一項(xiàng)重要的任務(wù)。其中一個(gè)例子是老人 髖關(guān)節(jié)置換手術(shù) 。 醫(yī)療保健和輔助房屋 ： 截至目前為止， 有 很少 的 協(xié)調(diào)研究 是關(guān)于“智能屋” 是否可以降低 體弱的老人留在家里 的成本 ， 而并非 由經(jīng)驗(yàn)豐富的非正式照顧者 照顧 。這新的領(lǐng)域 跟 外地的業(yè)務(wù)流程工程有許多相似之處， 那里有很多產(chǎn)品失敗，其原因是只考慮了一個(gè)小組設(shè)置的問題，通常是技術(shù) 方面 。特別 的 是，該項(xiàng)目將著重于 調(diào)查 衛(wèi)生保健 方面的 需求， 因?yàn)槲覀?相信 這部分的實(shí)施 可使 房屋獲得最大利益 。V techniques, tools or approaches are useful within this environment. Further, it is planned to make this trial facility available to researchers worldwide to increase the use of this vehicle. In the longterm, it is expected that the facilities offered by this infrastructure will evolve into an internationally recognized “benchmarking” site for Vamp。 development of systems that “follow and adopt to” individual?s mood and behavior. The solutions, based on data mining and evolutionary techniques, will utilize: (1) clustering methods, classification tress and association discovery techniques for the classification and partition of important relationships among different attributes for various features belonging to an individual, this is an essential element in finding behavioral patterns of an individual。 to evaluate the effect of wall color for patients and care givers。 to evaluate their ability to use unfamiliar equipment in the smart house。 to evaluate technology interface for Telehomecare staff and clients。 to research 山東建筑大學(xué)畢業(yè)設(shè)計(jì)外文文獻(xiàn)及譯文 3 caregivers support through ehealth technology。 附件 9： 本科畢業(yè)設(shè)計(jì) 外文文獻(xiàn)及譯文 文獻(xiàn)、資料題目 : Increasing an individual?s quality of life via their intelligent home 文獻(xiàn)、資料來源 ： 文獻(xiàn)、資料發(fā)表（出版）日期： 院 （部）： 信息與 電氣工程 學(xué)院 專 業(yè)： 電氣 工程 與自動(dòng)化 班 級(jí)： 電本 041 班 姓 名： 付令花 學(xué) 號(hào)： 2021081003 指導(dǎo)教師： 齊保良、鄭學(xué)漢 、石國萍 翻譯日期： 山東建筑大學(xué)畢業(yè)設(shè)計(jì)外文文獻(xiàn)及譯文 1 外文文獻(xiàn)： Increasing an individual?s quality of life via their intelligent home The hypothesis of this project is: can an individual?s quality of life be increased by integrating “intelligent technology” into their home environment. This hypothesis is very broad, and hence the researchers will investigate it with regard to various, potentially over lapping, subsections of the population. In particular, the project will focus on subsections with healthcare needs, because it is believed that these subsections will receive the greatest benefit from this enhanced approach to housing. Two research questions flow from this hypothesi s: what are the healthcare issues that could be improved via “intelligent housing”, and what are the technological issues needing to be solved to allow “intelligent housing” to be constructed? While a small number of initiatives exist, outside Canada, which claim to investigate this area, none has the global vision of this area. Work tends to be in small areas with only a limited idea of how the individual pieces contribute towards a greater goal. This project has a very strong sense of what it is trying to attempt, and believes that without this global direction the other initiatives will fail to address the large important issues described within various parts of this proposal, and that with the correct global direction the sum of the parts will produce much greater rewards than the individual ponents. This new field has many parallels with the field of business process engineering, where many products fail due to only considering a subset of the issues, typically the technology subset. Successful projects and implementations only started flow when people started to realize that a holistic approach was essential. This holistic requirement also applies to the field of “smart housing”。 to research pattern of movements during the ambulation, use of wheel chairs or canes on various type of floor material。 to evaluate information and munication technology set up for Telehomecare。 to evaluate the value of surveillance systems in assisting caregivers. Persons with Alzheimer?s disease and their caregivers: to evaluate the effect of smart house (unfamiliar environment) on their ability to conduct selfcare with and without prompting。 to evaluate the type and model of sensors to monitor patients。 to the best of our knowledge, only one group (Prof. Greg Carman, Mechanical Engineering, University of California, Los Angeles) has successfully demonstrated the dynamic properties of SMAbased MEMS. Here, the focus will be to harness the sensing and actuation capabilities of smart materials to design and fabricate useful and economically viable microsensors and actuators. Communications: Construction and use of an “intelligent house” offers extensive opportunities to analyze and verify the operation of wireless and wired homebased munication services. While some of these are already widely explored, many of the issues have received little or no attention. It is proposed to investigate the following issues: Measurement of channel statistics in a residential environment: knowledge of the indoor wireless channel statistics is critical for enabling the design of efficient transmitters and receivers, as well as determining appropriate levels of signal power, data transfer rates, modulation techniques, and error control codes for the wireless links. Interference, channel distortion, and spectral limitations that arises as a result of equipment for the disabled (wheelchairs, IV stands, monitoring equipment, etc.) is of particular interest. Design, analysis, and verification of enhanced antennas for indoor wireless munications. Indoor wireless munications present the need for pact and rugged antennas. New antenna designs, optimized for desired data rates, frequency of operation, and spatial requirements, could be considered. Verification