3D印刷折纸技术与Covid-19作战
研究人员正在复制折纸的微妙折叠,以创建3D可打印技术,以帮助与Covid-19斗争。
研究人员开发了一种由硝酸硼制成的新型原子传感器。它基于晶体晶格中的值,并且优于可比较的传感器。
5G smart beds, a prototype innovation to prevent elderly patients from falls in both hospitals and homes was showcased recently.
加州大学圣地亚哥分校的机器人主义者开发了一种负担得起的,易于使用的系统,以跟踪人体内部灵活的手术机器人的位置。
Researchers have developed a highly sensitive wearable pressure sensor for health monitoring applications and early diagnosis of diseases.
Transdermal optical imaging measures blood pressure by detecting blood flow changes in smartphone-captured facial videos.
研究人员在处理各种物体的同时戴着传感器包装的手套,编制了一个大量数据集,使AI系统能够单独通过触摸识别物体。
Researchers have made inroads in integrating electronic sensors with personalized 3D printed prosthetics — a development that could one day lead to more affordable electric-powered prosthetics.
A microfluidic chip takes up a water sample, adds the necessary chemicals and transports it to the detection site.
Electronic skins will play a significant role in monitoring, personalized medicine, prosthetics, and robotics.
德克萨斯州的工程师创新了一种有史以来的第一种混合传感方法,该方法允许该设备具有当今使用的两种主要类型的传感器的特性。
得益于他们以七lamp谐的游泳机器人的形式,EPFL科学家可能已经发现了为什么有些脊椎动物能够在脊髓病变后保持其运动能力。
研究人员开发了三个软,灵活,无线传感器,这些传感器允许移动并提供比现有数据更精确的数据。
Researchers have developed ultrathin self-powered health patches that can monitor a user's pulse and blood pressure, which may lead to new flexible motion-based energy harvesting devices.
工程师使用DNA纳米技术来创建高弹性合成纳米颗粒的材料,可以通过常规的纳米化方法处理。
The Fraunhofer Institutes project M³Infekt aims to develop a multi-modal, modular and mobile system of sensors for monitoring infectious diseases.
A new type of ultra-efficient, nano-thin material could advance self-powered electronics, wearable technologies and even deliver pacemakers powered by heart beats.
Covid-19给出了2020年的许多预测,这是一个全新的旋转:虽然某些炒作趋势却仅次于其他趋势,而其他趋势则在新常态下成为票房。
一件可以监视您的血压或可以跟踪胆固醇水平的袜子的衬衫,距离成为现实可能只有几年的时间。
Researchers at the Terasaki Institute have developed prototypes of contact lenses that can assist with tear sampling for diagnostic purposes.
科学家使用脑力启发的方法为机器人提供了一种方法,使机器人在损坏时使AI识别疼痛和自我修复。
研究人员开发了能够模仿人类运动动态过程的“电子皮肤”传感器。
配备高级软电子系统的新型医疗器械可以改善许多心脏病和病情的诊断和治疗。
研究人员已经开发了电子人造皮肤,就像真实的皮肤一样对疼痛做出反应,为更好的假肢,更智能的机器人技术和皮肤移植物的非侵入性替代品开辟了道路。
Scientists from Empa were able to 3D print stable well-shaped microstructures made from silica aerogels for use in biotechnology and precision engineering.
科学家开发了一种感觉综合人工大脑系统,该系统模仿生物神经网络,该网络可以在功率高效的神经形态处理器上运行。
A new smart fabric that can be inflated and deflated by temperature-dependent liquid-vapor phase changes could enable a range of medical therapeutics.
科学家使用软机器人材料创建了高保真呼吸模拟器,该模拟器表示隔膜,腹部和肺之间的相互作用。
研究人员开发了电子纤维,当嵌入纺织品中时,可以通过测量微妙而复杂的织物变形来收集有关我们身体的大量信息。
SARS-COV-2污染的表面对员工和患者的安全构成了严重威胁。为了最大程度地减少员工的风险,医院正在利用消毒机器人对表面进行消毒。
史蒂文斯技术学院的研究人员开发了一种AI驱动的智能鞋垫,立即将任何鞋子变成便携式步态分析实验室。
Researchers have developed a "smart" contact lens that can show real-time changes in moisture and pressure by altering colors.
具有使飞机更安全的传感器也可以用来改善糖尿病患者的生活和依靠假肢的传感器。
一位科学家认为,医疗保健的未来看起来像是您汽车仪表板上闪烁的检查引擎灯。
At the start of 2019 the EU project ELSAH began with the objective of designing a wearable within four years that enables the continuous determination of biomarker concentrations.
科学家开发了一种柔软的人造皮肤,可提供触觉反馈,并有可能立即适应佩戴者的运动。
科学家已经成功测试了将机器人控制与用户的自愿控制结合在一起的神经假体技术,在神经假体技术共享共享控制的新跨学科领域中开放了途径。
Researchers have developed an organ-on-an-electronic-chip platform, which uses bioelectrical sensors to measure the electrophysiology of the heart cells in three dimensions.
使用可拉伸电子设备建造的可穿戴监视器可以长期对成年人,婴儿和小孩进行长期健康监测,而不必担心皮肤损伤或过敏反应。
研究人员开发了一种多个传感器融合设备,用于对生命体征及其临床应用的非接触式测量。
A researcher developed a 3D printed baby dummy, based on an MRI scan of a real newborn baby, which could improve the training of the reanimation procedure.
A toilet-seat based cardiovascular monitoring system aims to lower the hospital readmission rates of patients with congestive heart failure.
Wireless body sensors could replace the tangle of wire-based sensors that currently monitor babies in hospitals’ NICU and pose a barrier to parent-baby cuddling and physical bonding.
Researchers decided it was time to create smarter knee implants that could monitor changes in activity as they happened.
传感器系统植入物提供了可行的信息,以优化患有青光眼患者的治疗。
Alphabet,Amazon,Apple和Microsoft都是有可能改变护理提供的建筑技术。这是BigTech通往医疗保健的一些例子。
The Murab project is developing technology that will make it possible to take more accurate biopsies and diagnose cancer and other illnesses faster.
工程师开发的新的柔性传感器可以在大面积的皮肤,组织和器官上绘制血氧水平。
研究人员正在开发聚合物纤维,这些聚合物纤维可以自己认识到需要治疗的必要性,并以精确和准确的态度给活性成分剂量。
Robots will be able to conduct a wide variety of tasks as well as humans if they can be given tactile sensing capabilities.
研究人员正在制作智能鞋垫,该标志在患者的步态,活动水平和平衡中会发生变化,并监视热量的局部增加热量,该热量可以在人眼中发现它之前揭示建筑物感染。
Researchers are developing an app and wearable technology to enable pregnant women to use a smartphone to detect whether they have a condition that could lead to serious health complications for them or their unborn child.