mHealth in China and the United States: How Mobile Technology is Transforming Healthcare in the World's Two Largest Economies

In this paper, we explore ways mobile technology can help with these difficulties. Specifically, we look at avenues through which mobile devices boost productivity, aid communications, and help providers improve affordability, access, and treatment. Using data drawn from China and the United States as well as global trends, we look at recent developments andemerging opportunities in mobile health, or mHealth. We argue that mobile technology assists patients, health providers, and policymakers in several different respects. It helps patients by giving them tools to monitor their health conditions and communicate those results to physicians. It enables health providers to connect with colleagues and offers alternative sources of information for patients. It is also an important tool to inform policymakers on health delivery and medical outcomes

2-Phenyl­imidazolium nitrate monohydrate

In the title hydrated mol­ecular salt, C9H9N2 +·NO3 −·H2O, the dihedral angle between the aromatic rings in the cation is 11.09 (8)°. In the crystal, the components are linked into chains propagating in [101] by N—H⋯O and O—H⋯O hydrogen bonds

A modified coupled map car-following model considering a nonconstant driver sensitivity

AbstractOwing to the real traffic in which the drivers’ sensitivities are different under different speeds and road conditions, a modified car-following model is put forward. This model is related to the headway of cars and the velocity difference as well as the variation of the sensitivity. A small parameter is added to the original sensitivity. Based on the stability theory of Hurwiz, the allowable variation range of this parameter, especially in the case of different velocities, is obtained. It can be concluded that the model with the term of velocity difference can increase the stability of traffic flow

(Acetato-κO)(2-bromo-6-{[3-(dimethyl­aza­nium­yl)propyl­imino-κN]meth­yl}phenolato-κO)(thio­cyanato-κN)zinc

In the title compound, [Zn(CH3COO)(NCS)(C12H17BrN2O)], the ZnII atom is four-coordinated in a distorted tetra­hedral geometry, binding to a phenolate O and an imine N atom of the Schiff base ligand, the O atom of an acetate ligand and one thio­cyanate N atom. In the crystal, mol­ecules are linked via pairs of N—H⋯O hydrogen bonds, forming inversion dimers