BME100 s2017:Group3 W8AM L3: Difference between revisions

From OpenWetWare
Jump to navigationJump to search
Line 72: Line 72:
==Design Flaws and Recommendations==
==Design Flaws and Recommendations==


A design flaw the device consisted is the failure to measure temperature accurately, causing the overall product to be not reliable even if the pulse ox works fine. The device can instead provided the user with colors that indicated the range of body temperature or use a more accurate display and measure for body temperature in order to have a quality product.
The primary design flaw that the device consisted of is failure to accurately measure the internal temperature of the user, causing the overall product to be unreliable even if the pulse ox properly functioned without flaws. In order to reduce the error, a solution to the temperature dilemma could be to instead provide the user with colors that indicate the range of body temperature. Overall, by increasing the accuracy or reading of the internal body temperature of the device compared to the original, the overall quality and reliability of the product will drastically increase.


<br><br>
<br><br>

Revision as of 23:46, 21 February 2017

BME 100 Spring 2017 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 TEAM

Name: Anna Deng
Name: Tyler Grenier
Name: Jacqueline Klier
Name: Andy Tang
Name: D'Kiehl Cole-Cash
Name: Robert Arthur

LAB 3 WRITE-UP

Descriptive Stats and Graph





Inferential Stats

A paired t-test was used for both the oral thermometer and pulse ox, due to the comparison of two samples.


Heart Rate

Standard Deviation Pulse Ox Gold Standard : 21.70

Standard Deviation Pulse Ox Spree: 24.27

R-value: 0.78

T-test (p-value): 0.671

Temperature

Standard Deviation Oral Thermometer Gold Standard: 1.92

Standard Deviation Oral Thermometer Spree: 0.87

R-value: 0.193

T-test (p-value): 1.067*10^-21


The Spree device is reliable when calculating heart rate but not temperature according to the t-tests. The oral thermometer yielded a p-value under 0.05, which shows a significance difference in the data and the pulse ox yielded a p-value greater than 0.05, meaning that the data is similar and reliable. This can also be concluded with the r-value. The r-value for the pulse ox is approaching one which shows a high correlation and the r-value for the oral thermometer is very low which shows a low correlation.



Design Flaws and Recommendations

The primary design flaw that the device consisted of is failure to accurately measure the internal temperature of the user, causing the overall product to be unreliable even if the pulse ox properly functioned without flaws. In order to reduce the error, a solution to the temperature dilemma could be to instead provide the user with colors that indicate the range of body temperature. Overall, by increasing the accuracy or reading of the internal body temperature of the device compared to the original, the overall quality and reliability of the product will drastically increase.



Experimental Design of Own Device

For an experiment: Locate people already in need of a mobility enhancing exoskeleton. Give those people our exoskeleton and measure the amount of battery used by certain tasks and overall battery life per day. Then, we would measure both the battery used per task and per day and compare this to our competitor exosuits in order to determine if our exosuit is more efficient. As for actual customer satisfaction, we would compare both our own exoskeleton and our competitors’ exoskeleton with common tests, such as sitting, standing, and walking speed. The results of these will then tell us whether our device is more efficient without sacrificing viability.


Retrieved from "https://openwetware.org/mediawiki/index.php?title=BME100_s2017:Group3_W8AM_L3&oldid=976042"