Xin Miao scite author profile

An outbreak of betacoronavirus severe acute respiratory syndrome (SARS)-CoV-2 began in Wuhan, China in December 2019. COVID-19, the disease associated with SARS-CoV-2 infection, rapidly spread to produce a global pandemic. We report development of a rapid (<40 min), easy-to-implement and accurate CRISPR-Cas12-based lateral flow assay for detection of SARS-CoV-2 from respiratory swab RNA extracts. We validated our method using contrived reference samples and clinical samples from patients in the United States, including 36 patients with COVID-19 infection and 42 patients with other viral respiratory infections. Our CRISPR-based DETECTR assay provides a visual and faster alternative to the US Centers for Disease Control and Prevention SARS-CoV-2real-time RT-PCR assay, with 95% positive predictive agreement and 100% negative predictive agreement.

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Multi-sensor information fusion based on machine learning for real applications in human activity recognition: State-of-the-art and research challenges

Qiu

et al. 2022

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CitySee: Urban CO<inf>2</inf> monitoring with sensors

Mao

Miao

et al. 2012

125

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Abstract-Motivated by the needs of precise carbon emission measurement and real-time surveillance for CO2 management in cities, we present CitySee, a real-time CO2-monitoring system using sensor networks for an urban area (around 100 square kilometers). In order to conduct environment monitoring in a real-time and long-term manner, CitySee has to address the following challenges, including sensor deployment, data collection, data processing, and network management. In this discussion, we mainly focus on the sensor deployment problem so that necessary requirements like connectivity, coverage, data representability are satisfied. We also briefly go through the solutions for the remaining challenges. In CitySee, the sensor deployment problem can be abstracted as a relay node placement problem under hole-constraint. By carefully taking all constraints and real deployment situations into account, we propose efficient and effective approaches and prove that our scheme uses additional relay nodes at most twice of the minimum. We evaluate the performance of our approach through extensive simulations resembling realistic deployment. The results show that our approach outperforms previous strategies. We successfully apply this design into CitySee, a large-scale wireless sensor network consisting of 1096 relay nodes and 100 sensor nodes in Wuxi City, China.

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Calibration of T₂ oximetry MRI for subjects with sickle cell disease

Bush

Choi

et al. 2021

Magnetic Resonance in Med

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is a non-invasive imaging method to measure blood T 2 and cerebral venous oxygenation. Measured T 2 values are converted to oximetry estimates using carefully validated and potentially disease-specific calibrations. In sickle cell disease, red blood cells have abnormal cell shape and membrane properties that alter How to cite this article: Bush A, Vu C, Choi S, et al. Calibration of T 2 oximetry MRI for subjects with sickle cell disease.

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Xin Miao

CRISPR–Cas12-based detection of SARS-CoV-2

Multi-sensor information fusion based on machine learning for real applications in human activity recognition: State-of-the-art and research challenges

CitySee: Urban CO<inf>2</inf> monitoring with sensors

Calibration of T₂ oximetry MRI for subjects with sickle cell disease

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Xin Miao

CRISPR–Cas12-based detection of SARS-CoV-2

Multi-sensor information fusion based on machine learning for real applications in human activity recognition: State-of-the-art and research challenges

CitySee: Urban CO<inf>2</inf> monitoring with sensors

Calibration of T2 oximetry MRI for subjects with sickle cell disease

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Product

Resources

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Calibration of T₂ oximetry MRI for subjects with sickle cell disease