Clark Bowman
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View article: Distinct Circadian Assessments From Wearable Data Reveal Social Distancing Promoted Internal Desynchrony Between Circadian Markers
Distinct Circadian Assessments From Wearable Data Reveal Social Distancing Promoted Internal Desynchrony Between Circadian Markers Open
Mobile measures of human circadian rhythms (CR) are needed in the age of chronotherapy. Two wearable measures of CR have recently been validated: one that uses heart rate to extract circadian rhythms that originate in the sinoatrial node o…
View article: Data-driven prediction and origin identification of epidemics in population networks
Data-driven prediction and origin identification of epidemics in population networks Open
Effective intervention strategies for epidemics rely on the identification of their origin and on the robustness of the predictions made by network disease models. We introduce a Bayesian uncertainty quantification framework to infer model…
View article: Characterizing the Human Heart Rate Circadian Pacemaker through Widely Available Wearable Devices
Characterizing the Human Heart Rate Circadian Pacemaker through Widely Available Wearable Devices Open
Summary The effects of real-world stimuli and how they vary across individuals remains largely unknown for lack of a continuous real-world circadian marker. Here, we show how an underlying circadian rhythm in heart rate (CRHR) can be extra…
View article: Detection of arterial wall abnormalities via Bayesian model selection
Detection of arterial wall abnormalities via Bayesian model selection Open
Patient-specific modelling of haemodynamics in arterial networks has so far relied on parameter estimation for inexpensive or small-scale models. We describe here a Bayesian uncertainty quantification framework which makes two major advanc…
View article: Dissipative particle dynamics simulation of critical pore size in a lipid bilayer membrane
Dissipative particle dynamics simulation of critical pore size in a lipid bilayer membrane Open
We investigate with computer simulations the critical radius of pores in a lipid bilayer membrane. Ilton et al. (Ilton et al. 2016 Phys. Rev. Lett. 117 , 257801 ( doi:10.1103/PhysRevLett.117.257801 )) recently showed that nucleated pores i…
View article: Detection of arterial wall abnormalities via Bayesian model selection
Detection of arterial wall abnormalities via Bayesian model selection Open
Patient-specific modeling of hemodynamics in arterial networks has so far relied on parameter estimation for inexpensive or small-scale models. We describe here a Bayesian uncertainty quantification framework which makes two major advances…
View article: Bayesian uncertainty quantification for epidemic spread on networks
Bayesian uncertainty quantification for epidemic spread on networks Open
While there exist a number of mathematical approaches to modeling the spread of disease on a network, analyzing such systems in the presence of uncertainty introduces significant complexity. In scenarios where system parameters must be inf…
View article: Data-driven prediction and origin identification of epidemics in\n population networks
Data-driven prediction and origin identification of epidemics in\n population networks Open
Effective intervention strategies for epidemics rely on the identification of\ntheir origin and on the robustness of the predictions made by network disease\nmodels. We introduce a Bayesian uncertainty quantification framework to infer\nmo…
View article: Dissipative particle dynamics simulation of critical pore size in a\n lipid bilayer membrane
Dissipative particle dynamics simulation of critical pore size in a\n lipid bilayer membrane Open
We investigate with computer simulations the critical radius of pores in a\nlipid bilayer membrane. Ilton et al. (2016) recently showed that nucleated\npores in a homopolymer film can increase or decrease in size, depending on\nwhether the…
View article: A Novel Synthetic Yeast for Enzymatic Biodigester Pretreatment
A Novel Synthetic Yeast for Enzymatic Biodigester Pretreatment Open
Lignin, a complex organic polymer, is a major roadblock to the efficiency of biofuel conversion as it both physically blocks carbohydrate substrates and poisons biomass degrading enzymes, even if broken down to monomer units. A pretreatmen…