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확률및공학통계 (Probability and Engineering Statistics) 이시웅.

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Presentation on theme: "확률및공학통계 (Probability and Engineering Statistics) 이시웅."— Presentation transcript:

1 확률및공학통계 (Probability and Engineering Statistics) 이시웅

2 교재 주교재 – 서명 : Probability, Random Variables and Random Signal Principles – 저자 : P. Z. Peebles, 역자 : 강훈외 공역 보조교재 – 서명 : Probability, Random Variables and Stochastic Processes, 4 th Ed. – 저자 : A. Papoulis, S. U. Pillai

3 Introduction to Book Goal –Introduction to the principles of random signals –Tools for dealing with systems involving such signals Random Signal –A time waveform that can be characterized only in some probabilistic manner –Desired or undesired waveform(noise)

4 1.1 Set Definition Set : a collection of objects - A Objects: Elements of the set - a If a is an element of set A : If a is not an element of set A : Methods for specifying a set 1.Tabular method 2.Rule method Set –Countable, uncountable –Finite, infinite –Null set(=empty) : Ø : a subset of all other sets –Countably infinite

5 A is a subset of B : : If every element of a set A is also an element in another set B, A is said to be contained in B A is a proper subset of B : : If at least one element exists in B which is not in A, Two sets, A and B, are called disjoint or mutually exclusive if they have no common elements

6 A : Tabularly specified, countable B : Tabularly specified, countable, and infinite C : Rule-specified, uncountable, and infinite D and E : Countably finite F : Uncountably infinite D is the null set? A is contained in B, C, and F B and F are not subsets of any of the other sets or of each other A, D, and E are mutually exclusive of each other

7 Universal set : S –The largest set or all -encompassing set of objects under discussion in a given situation Example 1.1-2 –Rolling a die S = {1,2,3,4,5,6} A person wins if the number comes up odd : A ={1,3,5} Another person wins if the number shows four or less : B = {1,2,3,4} Both A and B are subsets of S –For any universal set with N elements, there are 2 N possible subsets of S Example : Token –S = {T, H} –{}, {T}, {H}, {T,H}

8 1.2 Set Operations Venn Diagram –C is disjoint from both A and B –B is a subset of A Equality : A = B –Two sets are equal if all elements in A are present in B and all elements in B are present in A; that is, if A  B and B  A. S A B C

9 Difference : A - B –The difference of two sets A and B is the set containing all elements of A that are not present in B –Example: A = {0.6< a  1.6}, B = {1.0  b  2.5} A-B = {0.6 < c < 1.0} B-A = {1.6 < d  2.5}

10 Union (Sum): C = A  B –The union (call it C) of two sets A and B –The set of all elements of A or B or both Intersection (Product) : D = A  B –The intersection (call it D) of two sets A or B –The set of all elements common to both A and B –For mutually exclusive sets A and B, A  B = Ø The union and intersection of N sets A n, n = 1,2,…,N :

11 Complement : –The complement of the set A is the set of all elements not in A –

12 Example –Applicable unions and intersections –Complements B 2,9,10,11 6,7,8 5,12 A 1,3 4 C S

13 Algebra of Sets –Commutative law: –Distributive law –Associative law

14 De Morgan’s Law –The complement of a union (intersection) of two sets A and B equals the intersection (union) of the complements and

15 Example 1.2-2

16 Example 1.2-3

17 1.3 Probability Introduced Through Sets and Relative Frequency Definition of probability 1.Set theory and fundamental axioms 2.Relative frequency Experiment : Rolling a single die –Six numbers : 1/6 Sample space (S) –The set of all possible outcomes in any experiments Universal set –Discrete, continuous –Finite, infinite All possible outcomes likelihood

18 Mathematical model of experiments 1.Sample space 2.Events 3.Probability Events –Example : Draw a card from a deck of 52 cards -> “draw a spade” –Definition : A subset of the sample space –Mutually exclusive : two events have no common outcomes –Card experiment Spades : 13 of the 52 possible outputs events –Discrete or continuous

19 –Events defined on a countably infinite sample space do not have to be countably infinite Sample space: {1, 3, 5, 7, …}event: {1,3,5,7} –Sample space:, event: A= {7.4<a<7.6} Continuous sample space and continuous event –Sample space:, event A = {6.1392} Continuous sample space and discrete event

20 Probability Definition and Axioms –Probability To each event defined on a sample space S, we shall assign a nonnegative number Probability is a function It is a function of the events defined P(A): the probability of event A The assigned probabilities are chosen so as to satisfy three axioms 1. 2. S:certain event, Ø: impossible event 3. for all m  n = 1, 2, …, N with N possibly infinite The probability of the event equal to the union of any number of mutually exclusive events is equal to the sum of the individual event probabilities

21 Obtaining a number x by spinning the pointer on a “fair” wheel of chance that is labeled from 0 to 100 points –Sample space –The probability of the pointer falling between any two numbers : –Consider events Axiom 1: Axiom 2: Axiom 3: Break the wheel’s periphery into N continuous segments, n=1,2,…,N with x 0 =0, for any N,

22 –If the interval is allowed to approach to zero (->0), the probability Since in this situation, Thus, the probability of a discrete event defined on a continuous sample space is 0 Events can occur even if their probability is 0 Not the same as the impossible event

23 Mathematical Model of Experiments –A real experiment is defined mathematically by three things 1.Assignment of a sample space 2.Definition of events of interest 3.Making probability assignments to the events such that the axioms are satisfied

24 Observing the sum of the numbers showing up when two dice are thrown –Sample space : 6 2 =36 points –Each possible outcome: a sum having values from 2 to 12 –Interested in three events defined by

25 –Assigning probabilities to these events Define 36 elementary event, i = row, j = column A ij : Mutually exclusive events-> axiom 3 The events A, B, and C are simply the unions of appropriate events

26 Probability as a Relative Frequency – Flip a coin: heads shows up n H times out of the n flips –Probability of the event “heads”: –Relative frequency: –Statistical regularity: relative frequencies approach a fixed value(a probability) as n becomes large

27 Example 1.3-3 –80 resistors in a box:10  -18, 22  -12, 27  -33, 47  -17, draw out one resistor, equally likely –Suppose a 22  is drawn and not replaced. What are now the probabilities of drawing a resistor of any one of four values?

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