Your search keyword '"Du, Marvin"' showing total 5 results

1. Mitigating COVID-19 on a small-world network

Author

Du, Marvin

Published

2021

2. Contact Tracing as a Measure to Combat COVID-19 and Other Infectious DiseasesHighlights

Author

Du, Marvin

Subjects

SARS-CoV-2, infection transmission, COVID-19, Humans, Contact Tracing, Communicable Diseases, Article, small-world network

Abstract

Background: Most of the mathematical modeling studies on COVID-19 transmission are based on continuous deterministic models that do not consider the characteristics of social network. Methods: The effect of contact tracing on mitigating COVID-19, and other infectious diseases in general, is studied in a small-world network. This network has its advantages over the commonly used continuous deterministic mathematical models in that the characteristics of social networks can be properly incorporated. Results: Simulation results show that for the original strain of SARS-CoV-2, contact tracing can play an important role to reduce and delay the peak daily new cases. New cases can be reduced by using symptom onset to isolate tracked individuals, but the benefit can be greatly enhanced by testing asymptomatic and pre-symptomatic individuals on the 6th to 8th day of infection. For the delta variant, or other variants of much higher infectivity, contact tracing alone cannot significantly lower the number of daily new cases but is able to delay the peaks greatly, thus affording more time to explore and implement pharmaceutical interventions. Conclusions: Contact tracing can be a very powerful tool to combat COVID-19 caused by the original strain or any variant of SARS-CoV-2. In order to make contact tracing effective, every effort is needed to expand the pool of contact tracing and provide all necessary support to the self-quarantined.

Published

2021

3. Contact tracing as a measure to combat COVID-19 and other infectious diseases.

Author

Du, Marvin

Abstract

• Continuous deterministic models underestimate the effectiveness of contact tracing. • Small-world network models provide a better alternative. • Contact tracing can greatly reduce the spread of the original strain of SARS-CoV-2. • For the Delta variant contact tracing remains effective although to a lesser extent. • Every effort is needed to expand the contact tracing pool to make it work. Most of the mathematical modeling studies on COVID-19 transmission are based on continuous deterministic models that do not consider the characteristics of social networks. The effect of contact tracing on mitigating COVID-19, and other infectious diseases in general, is studied in a small-world network. This network has its advantages over the commonly used continuous deterministic mathematical models in that the characteristics of social networks can be properly incorporated. Simulation results show that for the original strain of SARS-CoV-2, contact tracing can play an important role in reducing and delaying the peak daily new cases. New cases can be reduced by using symptom onset to isolate tracked individuals, but the benefit can be greatly enhanced by testing asymptomatic and presymptomatic individuals on the sixth to eighth day of infection. For the delta variant, or other variants of much higher infectivity, contact tracing alone cannot significantly lower the number of daily new cases but is able to delay the peaks greatly, thus affording more time to explore and implement pharmaceutical interventions. Contact tracing can be a very powerful tool to combat COVID-19 caused by the original strain or any variant of SARS-CoV-2. In order to make contact tracing effective, every effort is needed to expand the pool of contact tracing and provide all necessary support to the self-quarantined. [ABSTRACT FROM AUTHOR]

Published

2022

4. Windows of opportunity for daily physical activity

Author

Du, Marvin

Subjects

Atmospheric Science, Air pollution, Social Sciences, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Geographical locations, California, 0302 clinical medicine, Time windows, Medicine and Health Sciences, Psychology, General pattern, Public and Occupational Health, 030212 general & internal medicine, Materials, Air Pollutants, Multidisciplinary, Environmental resource management, Pollution, Los Angeles, Sports Science, Circadian Rhythm, Chemistry, Particulates, Physical Sciences, Medicine, Research Article, Schedule, Science, Materials Science, Physical activity, Air Quality, 03 medical and health sciences, Ozone, Air Pollution, medicine, Environmental Chemistry, Humans, Sports and Exercise Medicine, Exercise, Air quality index, 0105 earth and related environmental sciences, Pollutant, Behavior, business.industry, Ecology and Environmental Sciences, Diurnal temperature variation, Chemical Compounds, Biology and Life Sciences, Physical Activity, United States, Physical Fitness, Atmospheric Chemistry, Mixtures, North America, Earth Sciences, Environmental science, Diurnal Variations, People and places, business

Abstract

Air pollution is a serious concern to people who want to engage in physical activities to improve and maintain their health. However, air quality data collected at the nearest monitoring site may not be the best source of information because the data may be incomplete (e.g., some pollutants are not monitored) or not representative. This paper puts forward a method that uses air quality data from a large area to derive a diurnal profile of air quality variation for that area and identify the time window in which the air quality is typically the best during a day. If people exercise in that time window then they can minimize their exposure to air pollution. Three years' worth of air quality data in five California counties were analyzed to identify the general pattern of diurnal variation of air quality. The analysis shows the pattern of air quality variation is very similar among those five counties which represent diverse geographical and meteorological conditions. The analysis further reveals that in California air quality is generally the best in early mornings; as such, people should exercise in the early morning if their daily schedule allows it. A similar analysis can be performed for other areas to help people choose the best time window to exercise.

Published

2020

5. Combustion as a measure to mitigate greenhouse gas emissions from natural gas well blowouts.

Author

Du M

Subjects

Greenhouse Effect, Humans, Methane analysis, Natural Gas, Oil and Gas Fields, Greenhouse Gases

Abstract

Natural gas well blowouts can release a large amount of methane along with other greenhouse gases. According to the Intergovernmental Panel on Climate Change, the global warming potential (GWP) of fossil methane is 30 times higher than that of carbon dioxide in a 100-year time horizon. Here, we show that combustion can be used as a means to significantly reduce the global warming effect of greenhouse emissions from gas well blowouts: up to 90 percent of the effect can be eliminated by combusting the released natural gas. The 2015 Aliso Canyon storage well blowout is used as an example.

Published

2021