BME100 s2015:Group11 12pmL6: Difference between revisions

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<!-- Instructions: Show an image of your TinkerCAD design here -->
<!-- Instructions: Show an image of your TinkerCAD design here -->
| [[Image:FluorometerSlide1.JPG|100px|thumb|The PolymerEase Self-Cleaning Fluorometer Slide]]


<!-- Instructions: Under the image, write a short paragraph describing your design. Why did you choose this design? How is it different from the original OpenPCR design? --><br>
<!-- Instructions: Under the image, write a short paragraph describing your design. Why did you choose this design? How is it different from the original OpenPCR design? --><br>

Revision as of 00:02, 21 April 2015

BME 100 Spring 2015 Home
People
Lab Write-Up 1 | Lab Write-Up 2 | Lab Write-Up 3
Lab Write-Up 4 | Lab Write-Up 5 | Lab Write-Up 6
Course Logistics For Instructors
Photos
Wiki Editing Help


OUR COMPANY

Miranda Kaml
Framarz Alam
Joe Florio
Name: student
Name: student


LAB 6 WRITE-UP

Bayesian Statistics

Overview of the Original Diagnosis System


What Bayes Statistics Imply about This Diagnostic Approach
Calculation 1

Variable Description Value
A frequency of cancer positive conclusion xxxxx
B frequency of positive PCR reaction xxxxx
P(B/A) frequency of positive PCR reaction for cancer positive conclusion xxxxx
P(A/B) probability cancer DNA sequence xxxxx

Calculation 2

Variable Description Value
A frequency of cancer negative conclusion xxxxx
B frequency of negative PCR reaction xxxxx
P(B/A) frequency of negative PCR reaction for cancer negative conclusion xxxxx
P(A/B) probability cancer DNA sequence xxxxx

Calculation 3

Variable Description Value
A frequency of cancer yes diagnoses xxxxx
B frequency of positive DNA test conclusion xxxxx
P(B/A) probability positive given cancer - yes xxxxx
P(A/B) probability devolve cancer xxxxx

Calculation 4

Variable Description Value
A frequency of cancer no diagnoses xxxxx
B frequency of negative DNA test conclusion xxxxx
P(B/A) probability negative given cancer - no xxxxx
P(A/B) probability not devolve cancer xxxxx



Computer-Aided Design

TinkerCAD


Our Design
The PolymerEase Self-Cleaning Fluorometer Slide




Part 1

Assess the original design

Consumables Open PCR Fluorimeter system
Strength Pipettor-cheap Portable and small Compatible with multiple phone types and cheap
Weakness Pipettor-disposable tips Reaction time Drops of PCR solution can leave residue on slides

Part 2

Design a new system

Our Brand Name:

PolymerEase

Branding Positioning Target Markets Messaging Place
efficient easy to use Fluorimeter Fluorimeter cleans itself Bio-Chemist and Dairy market stuff online


Feature 1: Consumables Kit

Feature 2: Hardware - PCR Machine & Fluorimeter

PCR Machine


Fluorimeter
The fluormieter's slide will be hydrophobic. Once the camera is done taking the picture the slide will move up at an angle in order for the drop to travel off the slide. This fix will have the fluorimeter clean itself after each trial.

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