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1.
Sensors (Basel) ; 20(6)2020 Mar 17.
Artigo em Inglês | MEDLINE | ID: mdl-32192204

RESUMO

A wristwatch-based wireless sensor platform for IoT wearable health monitoring applications is presented. The paper describes the platform in detail, with a particular focus given to the design of a novel and compact wireless sub-system for 868 MHz wristwatch applications. An example application using the developed platform is discussed for arterial oxygen saturation (SpO2) and heart rate measurement using optical photoplethysmography (PPG). A comparison of the wireless performance in the 868 MHz and the 2.45 GHz bands is performed. Another contribution of this work is the development of a highly integrated 868 MHz antenna. The antenna structure is printed on the surface of a wristwatch enclosure using laser direct structuring (LDS) technology. At 868 MHz, a low specific absorption rate (SAR) of less than 0.1% of the maximum permissible limit in the simulation is demonstrated. The measured on-body prototype antenna exhibits a -10 dB impedance bandwidth of 36 MHz, a peak realized gain of -4.86 dBi and a radiation efficiency of 14.53% at 868 MHz. To evaluate the performance of the developed 868 MHz sensor platform, the wireless communication range measurements are performed in an indoor environment and compared with a commercial Bluetooth wristwatch device.


Assuntos
Internet das Coisas/instrumentação , Monitorização Ambulatorial/instrumentação , Oximetria/instrumentação , Fotopletismografia/instrumentação , Tecnologia sem Fio/instrumentação , Técnicas Biossensoriais/instrumentação , Técnicas Biossensoriais/métodos , Impedância Elétrica , Meio Ambiente , Desenho de Equipamento , Saúde , Humanos , Aplicativos Móveis , Monitorização Ambulatorial/métodos , Oximetria/métodos , Fotopletismografia/métodos , Punho
2.
Innovations (Phila) ; 15(2): 114-119, 2020.
Artigo em Inglês | MEDLINE | ID: mdl-32107958

RESUMO

The concept of Big Data is changing the way that clinical research can be performed. Cardiothoracic surgeons need to understand the dynamic digital transformation taking place in the healthcare industry. In the last decade, technological advances and Big Data analytics have become powerful tools for businesses. In healthcare, rapid expansion of Big Data infrastructure has occurred in parallel with attempts to reduce cost and improve outcomes. Many hospitals around the country are augmenting traditional relational databases with Big Data infrastructure. Advanced data capture and categorization tools such as natural language processing and optical character recognition are being developed for clinical and research use, while Internet of Things in the form of wearable technology serves as an additional source of data usable for research. As cardiothoracic surgeons seek ways to innovate, novel approaches to data acquisition and analysis enable a more rigorous level of investigatory efforts.


Assuntos
Mineração de Dados/métodos , Setor de Assistência à Saúde/economia , Internet das Coisas/instrumentação , Processamento de Linguagem Natural , Big Data , Protocolos Clínicos , Ciência de Dados , Tecnologia Digital/estatística & dados numéricos , Setor de Assistência à Saúde/organização & administração , Setor de Assistência à Saúde/estatística & dados numéricos , Humanos , Cirurgiões/educação , Cirurgiões/estatística & dados numéricos , Procedimentos Cirúrgicos Torácicos/educação , Procedimentos Cirúrgicos Torácicos/estatística & dados numéricos
3.
Innovations (Phila) ; 15(2): 155-162, 2020.
Artigo em Inglês | MEDLINE | ID: mdl-32107960

RESUMO

In the first part of this series, we introduced the tools of Big Data, including Not Only Standard Query Language data warehouse, natural language processing (NLP), optical character recognition (OCR), and Internet of Things (IoT). There are nuances to the utilization of these analytics tools, which must be well understood by clinicians seeking to take advantage of these innovative research strategies. One must recognize technical challenges to NLP, such as unintended search outcomes and variability in the expression of human written texts. Other caveats include dealing written texts in image formats, which may ultimately be handled with transformation to text format by OCR, though this technology is still under development. IoT is beginning to be used in cardiac monitoring, medication adherence alerts, lifestyle monitoring, and saving traditional labs from equipment failure catastrophes. These technologies will become more prevalent in the future research landscape, and cardiothoracic surgeons should understand the advantages of these technologies to propel our research to the next level. Experience and understanding of technology are needed in building a robust NLP search result, and effective communication with the data management team is a crucial step in successful utilization of these technologies. In this second installment of the series, we provide examples of published investigations utilizing the advanced analytic tools introduced in Part I. We will explain our processes in developing the research question, barriers to achieving the research goals using traditional research methods, tools used to overcome the barriers, and the research findings.


Assuntos
Mineração de Dados/métodos , Setor de Assistência à Saúde/economia , Internet das Coisas/instrumentação , Processamento de Linguagem Natural , Big Data , Protocolos Clínicos , Comunicação , Ciência de Dados , Tecnologia Digital/estatística & dados numéricos , Análise de Falha de Equipamento/instrumentação , Feminino , Setor de Assistência à Saúde/organização & administração , Setor de Assistência à Saúde/estatística & dados numéricos , Humanos , Masculino , Sistemas de Registro de Ordens Médicas , Monitorização Fisiológica/instrumentação , Cirurgiões/educação , Cirurgiões/estatística & dados numéricos , Procedimentos Cirúrgicos Torácicos/educação , Procedimentos Cirúrgicos Torácicos/estatística & dados numéricos
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