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<title>15&nbsp; The Procedures of Monte Carlo Simulation (and Resampling) – Resampling statistics</title>
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  <li><a href="#a-definition-and-general-procedure-for-monte-carlo-simulation" id="toc-a-definition-and-general-procedure-for-monte-carlo-simulation" class="nav-link active" data-scroll-target="#a-definition-and-general-procedure-for-monte-carlo-simulation"><span class="header-section-number">15.1</span> A definition and general procedure for Monte Carlo simulation</a></li>
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<h1 class="title"><span id="sec-monte-carlo" class="quarto-section-identifier"><span class="chapter-number">15</span>&nbsp; <span class="chapter-title">The Procedures of Monte Carlo Simulation (and Resampling)</span></span></h1>
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<p>Until now, the steps to follow in solving particular problems have been chosen to fit the specific facts of that problem. And so they always must. Now let’s generalize what we have done in the previous chapters on probability into a general procedure for such problems, which will in turn become the basis for a detailed procedure for resampling simulation in statistics. The generalized procedure describes what we are doing when we estimate a probability using Monte Carlo simulation problem-solving operations.</p>
<section id="a-definition-and-general-procedure-for-monte-carlo-simulation" class="level2" data-number="15.1">
<h2 data-number="15.1" class="anchored" data-anchor-id="a-definition-and-general-procedure-for-monte-carlo-simulation"><span class="header-section-number">15.1</span> A definition and general procedure for Monte Carlo simulation</h2>
<p>This is what we shall mean by the term <em>Monte Carlo simulation</em> when discussing problems in probability: <em>Using the given data-generating mechanism (such as a coin or die) that is a model of the process you wish to understand, produce new samples of simulated data, and examine the results of those samples</em>. That’s it in a nutshell. In some cases, it may also be appropriate to amplify this procedure with additional assumptions.</p>
<p>This definition fits both problems in pure probability as well as problems in statistics, but in the latter case the process is called <em>resampling</em>. The reason that the same definition fits is that <em>at the core of every problem in inferential statistics lies a problem in probability</em> ; that is, the procedure for handling every statistics problem is the procedure for handling a problem in probability. (There is related discussion of definitions in <a href="probability_theory_1a.html" class="quarto-xref"><span>Chapter 8</span></a> and <a href="framing_questions.html" class="quarto-xref"><span>Chapter 20</span></a>.)</p>
<p>The following series of steps should apply to all problems in probability. I’ll first state the procedure straight through without examples, and then show how it applies to individual examples.</p>
<ul>
<li><strong>Step A</strong> <em>Construct a simulation “universe”</em> of cards or dice or some other randomizing mechanism whose composition is similar to the universe whose behavior we wish to describe and investigate. The term “universe” refers to the system that is relevant for a single simple event.</li>
<li><strong>Step B</strong> <em>Specify the procedure</em> that produces a pseudo-sample which simulates the real-life sample in which we are interested. That is, specify the procedural rules by which the sample is drawn from the simulated universe. These rules must correspond to the behavior of the real universe in which you are interested. To put it another way, the simulation procedure must produce simple experimental events with the same probabilities that the simple events have in the real world.</li>
<li><strong>Step C</strong> <em>Describe any composite events</em>. If several simple events must be combined into a composite event, and if the composite event was not described in the procedure in step B, describe it now.</li>
<li><strong>Step D.</strong> <em>Calculate the probability</em> of interest from the tabulation of outcomes of the resampling trials.</li>
</ul>
<p>Now let us apply the general procedure to some examples to make it more concrete.</p>
<p>Here are four problems to be used as illustrations:</p>
<ol type="1">
<li><strong>Three percent gizmos</strong> — if on average 3 percent of the gizmos sent out are defective, what is the chance that there will be more than 10 defectives in a shipment of 200?</li>
<li><strong>Three girls, 106 in 206</strong> — what are the chances of getting three or more girls in the first four children, if the probability of a female birth is 106/206?</li>
<li><strong>Less than 20 baskets</strong> — what are the chances of Joe Hothand scoring 20 or fewer baskets in 57 shots if his long-run average is 47 percent?</li>
<li><strong>Same birthday in 25</strong> — what is the probability of two or more people in a group of 25 persons having the same birthday — i. e., the same month and same day of the month?</li>
</ol>
</section>
<section id="apply-step-a-construct-a-simulation-universe" class="level2" data-number="15.2">
<h2 data-number="15.2" class="anchored" data-anchor-id="apply-step-a-construct-a-simulation-universe"><span class="header-section-number">15.2</span> Apply step A — construct a simulation universe</h2>
<p>As a reminder:</p>
<ul>
<li><strong>Step A</strong> <em>Construct a simulation “universe”</em> of cards or dice or some other randomizing mechanism whose composition is similar to the universe whose behavior we wish to describe and investigate. The term “universe” refers to the system that is relevant for a single simple event.</li>
</ul>
<p>For our example problems:</p>
<ol type="1">
<li><em>Three percent gizmos</em>: A random drawing with replacement from the set of numbers 1 through 100 with 1 through 3 designated as defective, simulates the system that produces 3 defective gizmos among 100.</li>
<li><em>Three girls, 106 in 206</em>: You could take two decks of cards, from which you take out both Aces of spades, and replace these with a Joker. You now have 103 cards (206 / 2), of which 53 (106 / 2) are red, counting the Joker as red. You could also use a random drawing from two sets of numbers, one comprising 1 through 106 and the other 107 through 206. Either universe can simulate the system that produces a single male or female birth, when we are estimating the probability of three girls in the first four children. Notice that in this universe the probability of a girl remains the same from trial event to trial event — that is, the trials are independent — demonstrating a universe from which we sample with replacement.</li>
<li><em>Less than 20 baskets</em>: A random drawing with replacement from a bucket containing a hundred balls, 47 red and 53 black, simulates the system that produces 47 percent baskets for Joe Hothand.</li>
<li><em>Same birthday in 25</em>: A random drawing with replacement from the numbers 1 through 365 simulates the system that produces a birthday.</li>
</ol>
<p>This step A includes two operations:</p>
<ol type="1">
<li>Decide which symbols will stand for the elements of the universe you will simulate.</li>
<li>Determine whether the sampling will be with or without replacement. (This can be ambiguous in a complex modeling situation.)</li>
</ol>
<p>Hard thinking is required in order to determine the appropriate “real” universe whose properties interest you.</p>
</section>
<section id="apply-step-b-specify-the-procedure" class="level2" data-number="15.3">
<h2 data-number="15.3" class="anchored" data-anchor-id="apply-step-b-specify-the-procedure"><span class="header-section-number">15.3</span> Apply step B — specify the procedure</h2>
<ul>
<li><strong>Step B</strong> <em>Specify the procedure</em> that produces a pseudo-sample which simulates the real-life sample in which we are interested. That is, specify the procedural rules by which the sample is drawn from the simulated universe. These rules must correspond to the behavior of the real universe in which you are interested. To put it another way, the simulation procedure must produce simple experimental events with the same probabilities that the simple events have in the real world.</li>
</ul>
<p>For example:</p>
<ol type="1">
<li><em>Three percent gizmos</em>: For a single gizmo, you can draw a single number from an infinite universe. Or one can use a finite set with replacement and shuffling.</li>
<li><em>Three girls, 106 in 206</em>: In the case of three or more daughters among four children, you could use the deck of 103 cards, from Step A, of which 53 count as red. To simulate one child, you can draw a card and then replace it, noting female for a red card or a Joker. Or if you are using random numbers from the computer, the random numbers automatically simulate replacement. Just as the chances of having a boy or a girl do not change depending on the sex of the preceding child, so we want to ensure through sampling with replacement that the chances do not change each time we choose from the deck of cards.</li>
<li><em>Less than 20 baskets</em>: In the case of Joe Hothand’s shooting, the procedure is to consider the numbers 1 through 47 as “baskets,” and 48 through 100 as “misses,” with the same other considerations as the gizmos.</li>
<li><em>Same birthday in 25</em>. In the case of the birthday problem, the drawing must be with replacement, because the fact that you have drawn — say — a 10 (10<sup>th</sup> day in year), should not affect the chances of drawing 10 for a second person in the room.</li>
</ol>
<p>Recording the outcome of the sampling must be indicated as part of this step, e.g., “record ‘yes’ if girl or basket, ‘no’ if a boy or a miss.”</p>
</section>
<section id="apply-step-c-describe-any-composite-events" class="level2" data-number="15.4">
<h2 data-number="15.4" class="anchored" data-anchor-id="apply-step-c-describe-any-composite-events"><span class="header-section-number">15.4</span> Apply step C — describe any composite events</h2>
<ul>
<li><strong>Step C</strong> <em>Describe any composite events</em>. If several simple events must be combined into a composite event, and if the composite event was not described in the procedure in step B, describe it now.</li>
</ul>
<p>For example:</p>
<ol type="1">
<li><em>Three percent gizmos</em>: For the gizmos, draw a sample of 200.</li>
<li><em>Three girls, 106 in 206</em>: For the three or more girls among four children, the procedure for each simple event of a single birth was described in step B. Now we must specify repeating the simple event four times, and counting whether the outcome is or is not three girls.</li>
<li><em>Less than 20 baskets</em>: In the case of Joe Hothand’s shots, we must draw 57 numbers to make up a sample of shots, and examine whether there are 20 or more misses.</li>
</ol>
<p>Recording the results as “ten or more defectives,” “three or more girls” or “two or less girls,” and “20 or more misses” or “19 or fewer,” is part of this step. This record indicates the results of all the trials and is the basis for a tabulation of the final result.</p>
</section>
<section id="apply-step-d-calculate-the-probability" class="level2" data-number="15.5">
<h2 data-number="15.5" class="anchored" data-anchor-id="apply-step-d-calculate-the-probability"><span class="header-section-number">15.5</span> Apply step D — calculate the probability</h2>
<ul>
<li><strong>Step D.</strong> <em>Calculate the probability</em> of interest from the tabulation of outcomes of the resampling trials.</li>
</ul>
<p>For example: the proportions of “yes” and “no,” and “20 or more” and “19 or fewer” estimate the probability we seek in step C.</p>
<p>The above procedure is similar to the procedure followed with the analytic formulaic method except that the latter method constructs notation and manipulates it.</p>
</section>
<section id="summary" class="level2" data-number="15.6">
<h2 data-number="15.6" class="anchored" data-anchor-id="summary"><span class="header-section-number">15.6</span> Summary</h2>
<p>This chapter gives a more general description of the specific steps used in prior chapters to solve problems in probability.</p>


</section>

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