Difference between revisions of "Statistics"

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[[PMF Probability Mass Function]]
 
[[PMF Probability Mass Function]]
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[[CDF Cumulative Distribution Function]]
 
[[CDF Cumulative Distribution Function]]
 +
 
[[PDF Probability Distribution Function]]
 
[[PDF Probability Distribution Function]]

Latest revision as of 18:04, 20 May 2020

The changes of state of the system are called transitions. The probabilities associated with various state changes are called transition probabilities. The process is characterized by a state space, a transition matrix describing the probabilities of particular transitions, and an initial state (or initial distribution) across the state space. By convention, we assume all possible states and transitions have been included in the definition of the process, so there is always a next state, and the process does not terminate.

A discrete-time random process involves a system which is in a certain state at each step, with the state changing randomly between steps. The steps are often thought of as moments in time, but they can equally well refer to physical distance or any other discrete measurement. Formally, the steps are the integers or natural numbers, and the random process is a mapping of these to states. The Markov property states that the conditional probability distribution for the system at the next step (and in fact at all future steps) depends only on the current state of the system, and not additionally on the state of the system at previous steps.

Since the system changes randomly, it is generally impossible to predict with certainty the state of a Markov chain at a given point in the future. However, the statistical properties of the system's future can be predicted, and it is these statistical properties that are important.

PMF Probability Mass Function

CDF Cumulative Distribution Function

PDF Probability Distribution Function