Markov Chain and Stationary distributions
... • In the DBN, we will allow parents only from the previous time point • We allow each node to have at most m parents • The prior distribution decomposes over individual nodes and their possible parent sets ...
... • In the DBN, we will allow parents only from the previous time point • We allow each node to have at most m parents • The prior distribution decomposes over individual nodes and their possible parent sets ...
Dynamic coloring of graphs having no K5 minor
... infer that G[B]∗ has a dynamic 4-coloring or is isomorphic to C5 . If G[B]∗ has a dynamic 4-coloring c∗ , set c2 = c∗ (as a coloring of G[B]). Since x = y in G[B]∗ , we have that c2 (x) = c2 (y), and hence, by permuting colors of c2 , we have that c2 (x) = c2 (y) = 1. On the other hand, if G[B]∗ is ...
... infer that G[B]∗ has a dynamic 4-coloring or is isomorphic to C5 . If G[B]∗ has a dynamic 4-coloring c∗ , set c2 = c∗ (as a coloring of G[B]). Since x = y in G[B]∗ , we have that c2 (x) = c2 (y), and hence, by permuting colors of c2 , we have that c2 (x) = c2 (y) = 1. On the other hand, if G[B]∗ is ...
Slide 1 - CCSS Math Activities
... Rubric: (2 points) The student graphs the boundary lines for a system of linear inequalities correctly and selects the ordered pairs in the solution set. (1 point) The student graphs the boundary lines for a system of linear inequalities correctly or selects the ordered pairs in the solution set. An ...
... Rubric: (2 points) The student graphs the boundary lines for a system of linear inequalities correctly and selects the ordered pairs in the solution set. (1 point) The student graphs the boundary lines for a system of linear inequalities correctly or selects the ordered pairs in the solution set. An ...
On Graphs with Exactly Three Q-main Eigenvalues - PMF-a
... vertex set V(G) = {v1 , v2 , . . . , vn } and edge set E(G). For a graph G the order is |V(G)| = n and the size is |E(G)| = m; by deg(vi ) = di we denote the degree of the vertex vi . The cyclomatic number ω of G is defined as m − n + t where t is the number of connected components of G. If G is a c ...
... vertex set V(G) = {v1 , v2 , . . . , vn } and edge set E(G). For a graph G the order is |V(G)| = n and the size is |E(G)| = m; by deg(vi ) = di we denote the degree of the vertex vi . The cyclomatic number ω of G is defined as m − n + t where t is the number of connected components of G. If G is a c ...
2 +
... conditions. Suppose LORAN stations E and F are located 350 miles apart along a straight shore with E due west of F. When a ship approaches the shore, it receives radio pulses from the stations and is able to determine that it is 80 miles farther from station F than it is from station E. Find the exa ...
... conditions. Suppose LORAN stations E and F are located 350 miles apart along a straight shore with E due west of F. When a ship approaches the shore, it receives radio pulses from the stations and is able to determine that it is 80 miles farther from station F than it is from station E. Find the exa ...
4.1 The Graph of a Linear Equation
... Two types of linear equations are worthy of special attention. Their graphs are lines that are parallel to the x or y axis, and the equations are special cases of the general form ...
... Two types of linear equations are worthy of special attention. Their graphs are lines that are parallel to the x or y axis, and the equations are special cases of the general form ...
5.1 - TeacherWeb
... The highest temperature recorded in the United States was 134°F at Death Valley, California, in 1913. Use only this fact to write and graph an inequality that describes the temperatures in the United States. SOLUTION Let T represent a temperature (in degrees Fahrenheit) in the United States. The val ...
... The highest temperature recorded in the United States was 134°F at Death Valley, California, in 1913. Use only this fact to write and graph an inequality that describes the temperatures in the United States. SOLUTION Let T represent a temperature (in degrees Fahrenheit) in the United States. The val ...
Functions: The domain and range Jackie Nicholas Jacquie
... as elements of X and Y , there is no reason why this must be so. However, in these notes we will only consider functions where X and Y are subsets of the real numbers. In this setting, we often describe a function using the rule, y = f (x), and create a graph of that function by plotting the ordered ...
... as elements of X and Y , there is no reason why this must be so. However, in these notes we will only consider functions where X and Y are subsets of the real numbers. In this setting, we often describe a function using the rule, y = f (x), and create a graph of that function by plotting the ordered ...
Graphs of Sine and Cosine Functions
... • The amplitude is the distance from the middle to the highest or lowest point. You can find the amplitude by sight or by taking ½ (Max – Min). For a standard sine curve, the amplitude is 1. ...
... • The amplitude is the distance from the middle to the highest or lowest point. You can find the amplitude by sight or by taking ½ (Max – Min). For a standard sine curve, the amplitude is 1. ...
Ex.1 linear y = 2x+3
... quadratic relations; • interpret the zeros of a quadratic relation; • represent a quadratic relation algebraically in factored and standard form ...
... quadratic relations; • interpret the zeros of a quadratic relation; • represent a quadratic relation algebraically in factored and standard form ...
Median graph
In graph theory, a division of mathematics, a median graph is an undirected graph in which every three vertices a, b, and c have a unique median: a vertex m(a,b,c) that belongs to shortest paths between each pair of a, b, and c.The concept of median graphs has long been studied, for instance by Birkhoff & Kiss (1947) or (more explicitly) by Avann (1961), but the first paper to call them ""median graphs"" appears to be Nebeský (1971). As Chung, Graham, and Saks write, ""median graphs arise naturally in the study of ordered sets and discrete distributive lattices, and have an extensive literature"". In phylogenetics, the Buneman graph representing all maximum parsimony evolutionary trees is a median graph. Median graphs also arise in social choice theory: if a set of alternatives has the structure of a median graph, it is possible to derive in an unambiguous way a majority preference among them.Additional surveys of median graphs are given by Klavžar & Mulder (1999), Bandelt & Chepoi (2008), and Knuth (2008).