# Divergence rate function

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## divergence estimator also achieves the rate n−α/(2α+d). In abstract terms, an f- divergence can be viewed as an integral functional of a pair of densities.

the q-divergence is naturally derived from the formulation of the generalized binomial distribution (q-binomial distribution), which results in an appearance of the q-divergence as the rate function in our main result (i.e., Theorem 14). Thus our approach and its results are quite different from [9]. The paper (D) Random motility coefficient as a function of the divergence angle of diverging micropatterns. All quantification results show that the diverging micropatterns can control the direction and rate of cell movement in a passive way, and the troughs of the diverging micropatterns are more effective to control cell movement than the ridges. The divergence of F at a point in a fluid is a measure of the rate at which the fluid is flowing away from or towards that point. A positive divergence is indicating a flow away from the point. Physically divergence means that either the fluid is expanding or that fluid is being supplied by a source external to the field. Divergence and curl are two measurements of vector fields that are very useful in a variety of applications. Both are most easily understood by thinking of the vector field as representing a flow of a liquid or gas; that is, each vector in the vector field should be interpreted as a velocity vector. The rate of change of a function of several variables in the direction u is called the directional derivative in the direction u. Here u is assumed to be a unit vector. Assuming w=f(x,y,z) and u=, we have Convergence of a power function form. Suppose is a real number. We say that the sequence converges to a limit with order of convergence if the following holds: In other words, if we were to try to construct a function that approximately predicted in terms of , the order of zero of a the function at zero would be . Note that convergence of this

## 29 Mar 2016 In this study, only the CCD rate monitor is of concern. as a function of the divergence and the differential error are used for compliance

1 Jul 2019 Moving Average Convergence Divergence (MACD) is defined as a that shows the relationship between two moving averages of a security's price. of the MACD line, which can function as a trigger for buy and sell signals. 1 Aug 1987 With all two-loop diagrams included, the decay rate of the nS state is the divergence of the wave function at the origin in leptonic decay rates. Divergence, In mathematics, a differential operator applied to a three- dimensional vector-valued function. The result is a function that describes a rate of change. 11 May 2014 Based on these combinatorial considerations, it is shown that \alpha-divergence ( or q-divergence) is appeared as the generalized rate function

### 31 May 2018 In this section we will discuss in greater detail the convergence and divergence of infinite series. We will illustrate how partial sums are used to

Divergence is a measure of source or sink at a particular point. – In other words, how much is flowing into or out of a point. Hence, it is only defined for vector fields and outputs a scalar. Below is an example of a field with a positive divergence.

### The divergence of F at a point in a fluid is a measure of the rate at which the fluid is flowing away from or towards that point. A positive divergence is indicating a flow away from the point. Physically divergence means that either the fluid is expanding or that fluid is being supplied by a source external to the field.

Think of it as the rate of flux expansion (positive divergence) or flux and even less explanations (“divergence measures the change of vector function in its

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Keywords: Divergence measure; Csiszar's family of measures; Cox model; proportional Lethx(x) = f(x)/F(x) and hy(x) = g(x)/G(x) be the hazard rate functions. divergence estimator also achieves the rate n−α/(2α+d). In abstract terms, an f- divergence can be viewed as an integral functional of a pair of densities. In vector calculus, divergence is a vector operator that operates on a vector field, producing a scalar field giving the quantity of the vector field's source at each point. More technically, the divergence represents the volume density of the outward flux of a vector field from an infinitesimal volume around a given point. Divergence, In mathematics, a differential operator applied to a three-dimensional vector-valued function. The result is a function that describes a rate of change. The result is a function that describes a rate of change.