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| [[File:Topic Cover - 4.1 Signal and Noise.png|thumb]]
| | {{Cover|4.1 Signal and Noise}} |
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| The challenges of finding the information we want amidst messy data.
| | To make sense of this complex world, how do we confidently identify a meaningful pattern amongst a myriad of distractions? Scientists call the pattern "signal" and the distractions "noise." We clarify this subtle distinction and introduce techniques to make the signal stand out from the noise, such as with the use of filters. |
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| == The Lesson in Context == | | == The Lesson in Context == |
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| We introduce the concept of signal and noise in "detection problems" and teach students how to identify the signal and various sources of noise in diverse scenarios. This foreshadows the [[5.1 False Positives and Negatives|ethical considerations in deciding how strong a signal must be to be counted as a "positive"]]. | | We introduce the concept of signal and noise in "detection problems" and teach students how to identify the signal and various sources of noise in diverse scenarios. This foreshadows the [[5.1 False Positives and Negatives|ethical considerations in deciding how strong a signal must be to be counted as a "positive"]]. |
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| <!-- Expandable section relating this lesson to earlier lessons. --> | | <!-- Expandable section relating this lesson to other lessons. --> |
| {{Expand|Relation to Earlier Lessons| | | {{Expand|Relation to Other Lessons| |
| | '''Earlier Lessons''' |
| {{ContextLesson|2.2 Systematic and Statistical Uncertainty}} | | {{ContextLesson|2.2 Systematic and Statistical Uncertainty}} |
| {{ContextRelation|Both systematic and statistical uncertainties introduce noise to every measurement.}} | | {{ContextRelation|Both systematic and statistical uncertainties introduce noise to every measurement.}} |
| {{ContextLesson|3.1 Probabilistic Reasoning}} | | {{ContextLesson|3.1 Probabilistic Reasoning}} |
| {{ContextRelation|The presence of noise, which sometimes disguises as a signal, is inevitable in any measurement. The identification of a signal always comes with a roughly quantifiable level of confidence.}} | | {{ContextRelation|The presence of noise, which sometimes disguises as a signal, is inevitable in any measurement. The identification of a signal always comes with a roughly quantifiable level of confidence.}} |
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| <!-- Expandable section relating this lesson to later lessons. -->
| | '''Later Lessons''' |
| {{Expand|Relation to Later Lessons|
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| {{ContextLesson|4.2 Finding Patterns in Random Noise}} | | {{ContextLesson|4.2 Finding Patterns in Random Noise}} |
| {{ContextRelation|In addition to the signal-to-noise ratio, there are other statistical tools (e.g. <math>p</math>-value) to quantify the strength of the signal amidst all the noise.}} | | {{ContextRelation|In addition to the signal-to-noise ratio, there are other statistical tools (e.g. <math>p</math>-value) to quantify the strength of the signal amidst all the noise.}} |
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| {{ContextRelation|The detection of a "statistically significant" difference between conditions in an RCT is the identification of a signal. The random variations that exist between experimental subjects are a source of noise.}} | | {{ContextRelation|The detection of a "statistically significant" difference between conditions in an RCT is the identification of a signal. The random variations that exist between experimental subjects are a source of noise.}} |
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| == Takeaways == | | == Takeaways == |
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| </tabber> | | </tabber> |
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| == Useful Resources ==
| | {{#restricted:{{Private:4.1 Signal and Noise}}}} |
| | | {{NavCard|chapter=Lesson plans|text=All lesson plans|prev=3.2 Calibration of Credence Levels|next=4.2 Finding Patterns in Random Noise}} |
| <tabber>
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| |-|Lecture Video=
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| <br /><center><youtube>S2AIAv_sTq8</youtube></center><br />
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| |-|Discussion Slides=
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| {{LinkCard | |
| |url=https://docs.google.com/presentation/d/1xwdRq6FVkyz4dgdygAitSZLx-kZt54njGHrWF4lc2mg/
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| |title=Discussion Slides Template
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| |description=The discussion slides for this lesson.
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| }}
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| <br />
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| |-|Handouts and Activities=
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| {{LinkCardInternal | |
| |url=:File:Guess the Message Game - Complete.pdf
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| |title=Guess the Message Game
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| |description=Worksheet for the signal and noise game.}}
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| <br />
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| </tabber>
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| == Recommended Outline ==
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| === Before Class ===
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| Print the [[#Useful Resources|handouts]] for [[#Guess the Message Game|Guess the Message Game]].
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| === During Class ===
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| {| class="wikitable" style="margin-left: 0px; margin-right: auto;"
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| |5 Minutes
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| |Introduce the lesson and go over the plan for the day. Make sure people have groups, spokespeople, etc.
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| |5 Minutes
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| |Review the definitions for this lesson. Make sure to emphasize signal-to-noise ratio.
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| |10 Minutes
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| |Have the students do the [[#Warm-up Question|warm-up question]].
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| |30 Minutes
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| |Go through several scenarios in the [[#Scenario Analysis|scenario analysis]] activity.
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| |30 Minutes
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| |Play the [[#Guess the Message Game|guess the message game]].
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| |}
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| == Lesson Content ==
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| === Warm-up Question ===
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| How can we definitely tell if a ''single'' stimulus is signal or noise?
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| <ol style="list-style-type:lower-alpha">
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| <li>By improving the sensitivity of the instrument.</li>
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| <li>The stimulus is definitely a signal if it is stronger than most of the previous stimuli.</li>
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| <li>{{Correct|It is impossible to tell for sure if a single stimulus is a signal or noise.}}</li>
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| </ol>
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| {{BoxAnswer|title=Explanation|Noise can masquerade itself as signal, and random fluctuations can sometimes produce a single strong stimulus. For a given stimulus, we can only come up with a likelihood for whether it is signal or noise. We then have to determine the confidence level we need in order to classify stimuli appropriately. Any ''single'' supposed signal might be a rare (or not-so-rare) spike in noise.}}
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| === Scenario Analysis ===
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| For each of [[#Scenarios|several scenarios]], have the students answer the following questions about signal and noise.
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| # What is the sense/instrument that you are using?
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| # What does the sense/instrument actually measure?
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| # What is the signal from the sense/instrument you are expecting?
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| # What sources of noise do you anticipate in this measurement? List two or more if you can.
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| # (Optional) How would you reduce these sources of noise?
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| ==== Example Scenario ====
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| Members of the Bajau people of Southeast Asia collecting shellfish for food.
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| <ol start="1"><li>What is the sense/instrument that you are using?</li></ol>
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| {{BoxAnswer|Their eyes.}}
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| <ol start="2"><li>What does the sense/instrument actually measure?</li></ol>
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| {{BoxAnswer|Visual light reflecting off nearby surfaces.}} | |
| <ol start="3"><li>What is the signal from the sense/instrument you are expecting?</li></ol>
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| {{BoxAnswer|A shell shape/pattern.}}
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| <ol start="4"><li>What sources of noise do you anticipate in this measurement? List two or more if you can.</li></ol>
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| {{BoxAnswer|Murky water, low light, creatures and rocks that look like shellfish.}}
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| <ol start="5"><li>(Optional) How would you reduce these sources of noise?</li></ol>
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| {{BoxAnswer|Clean the water, dive during the day, etc.}}
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| ==== Scenarios ====
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| # Catching gossip about you from across the room at a party. What about understanding what the person you're talking to is saying?
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| # Detecting a metal knife in the luggage of someone boarding an airplane.
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| # Detecting an ongoing earthquake in Berkeley.
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| # Determining if your arch nemesis put cyanide in your almond milk.
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| # Determining whether there are birds around you on your weekly birding expedition, then determining whether owls are in the mix.
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| # Is that a creepy crawly on your neck right now?
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| # Identifying a budding new wave of COVID in the US. (Suppose you're a health official provided with daily updates of the following data from hospitals across the country: rates of people coming into the ER with fever, coughs, broken bones, wounds, diarrhea, and cardiac arrest...)
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| === Guess the Message Game ===
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| In this game the students will write a message and corrupt it to varying degrees. Each student will have a partner with whom they shared the corrupted messages. Each student will try and decode the messages from the other student from most to least corrupted. Full instructions are available in the handout.
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| {{LinkCardInternal
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| |url=:File:Guess the Message Game - Complete.pdf
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| |title=Guess the Message Game
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| |description=Worksheet for the signal and noise game.}}
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| {{BoxCaution|The 140 page handout for this game is designed to work with up to 35 students (each student gets four pages). The last of the four pages has a different randomized pair of letter and number grids for each student. Hence, the handout is ''slightly'' different for each student. If you have more than 35 students, you'll have to print more copies.}}
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| {{BoxCaution|Students should not share the messages nor the decoding process until the game is done.}}
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| ==== Instructions ====
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| {| class="wikitable" style="margin-left: 0px; margin-right: auto;"
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| |2 Minutes
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| |Hand out the students a copy of the [[:File:Guess the Message Game - Complete.pdf|worksheet]]. It has the full instructions in it.
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| |5 Minutes
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| |Explain the game as per the instructions linked above. Make sure the students know not to share their uncorrupted messages with each other until the game is complete.
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| |20 Minutes
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| |Have students pair up and play the game.
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| |3 Minutes
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| |Ask the [[#Guess the Message Questions|discussion questions]] below.
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| |}
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| ==== Guess the Message Questions ====
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| # What was the highest corruption level at which you could understand the message?
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| # What are the factors affecting the signal-to-noise ratio?
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| {{BoxAnswer|The quantity of letters corrupted increases the noise to affect the ratio. The strength of the original message is also important. If the original message is short, then this also lowers the signal-to-noise ratio. Furthermore, if you have a very obscure message (that another student might not be likely to recognize) to begin with, then the signal would also be less clear.}}
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| ==== Takeaway ====
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| * The ratio of signal to noise determines how easy it is to distinguish between true signal and the noise that "pretends" to be signal.
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| * We could have a poor ratio because the signal is very low or because the noise is very high.
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| * Example: Why is it hard to have a conversation at a cocktail party?
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| ** Signal: Increase the sound of your voice.
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| ** Noise: Go outside to get away from the background conversations.
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| <!-- == Overflow ==
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| <div class="toccolours mw-collapsible mw-collapsed" style="overflow:auto;">
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| <div style="font-weight:bold;line-height:1.6;">Extra content that's not currently part of the official lesson plan.</div>
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| <div class="mw-collapsible-content">
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| === Changemaker ===
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| # {{Changemaker|Session 7 discusses the research by Julia Rozovsky at Google to learn what makes the perfect team. The authors note that, "the only thing worse than not finding a pattern is finding too many of them". In Rozovsky's work, what was the signal they were looking for and what created noise? }}
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| </div></div> -->{{NavCard|prev=3.2 Calibration of Credence Levels|next=4.2 Finding Patterns in Random Noise}}
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| [[Category:Lesson plans]] | | [[Category:Lesson plans]] |
