Students: Reese Seals, Yahir Levario, Peyton Cavalier, Mason lefrance Sensors & Devices: Arduino, Raspberry Pi, Keyboard, Raspberry Pi 7” Touch Screen LCD, 3 Solenoid Locks, RC522 RFID Students: Carson Barnhill, William (Kade) Klink, Lawson PetersĪn at-home prescription container that keeps track of your prescriptions keeps your prescriptions private and separate from others, and keeps your prescriptions safe. Sensors & Devices: Heart Rate Sensor, MyoWare Muscle Sensor, HC-05 Bluetooth Module, Raspberry Pi, and Arduino This information can then be used to keep professionals updated about an individual’s overall health and help the individual maintain steady bodily conditions. Duino so special is the fact that is can send this information wirelessly to your device (in our case, our raspberry pi), which can then be sent to loved ones and personal doctors/therapists. Duino is a personal medical device used to measure a person’s heartbeat, muscle contractions, and temperature in real-time, while also having the capabilities of tracking an individual’s height and weight to track their Body Fat Percentage through BMI. Students: Ethan Roberts, Nathan Vanhoof, Ethan Ennisĭr. Sensors & Devices: One DHT22 Temperature and Humidity Sensor, One Raspberry Pi There is also a menu containing settings for acceptable temperature ranges, reread intervals, how long to keep log data, email settings, email confirmation, and temperature scale. There is also the ability to clear log data. This button allows the user to take a temperature reading before the reread interval is up for when a quick read is needed. Another additional feature includes a button. This Temperature Monitor sends emails via Gmail API. This acceptable range can also be configured by the user in the GUI. The TempWatch Smart Temperature Monitor also sends a warning to the user via email if the temperature or humidity falls outside of an acceptable range. It also stores that information in a log file that can be viewed in graph form at any time. This amount of time can be configured by the user through the program itself through the use of a GUI. The TempWatch Smart Temperature Monitor takes readings from the DHT22 sensor after a specified amount of time. The TempWatch Smart Temperature Monitor displays the current temperature and humidity on the Raspberry Pi display. TempWatch Smart Temperature Monitor is only comprised of a Raspberry Pi and a DHT22 temperature and humidity sensor, but it offers plenty of features. Students: Cullen Duval, Aiden Plauche, Cade Ruttley Sensors & Devices: Weight Sensor (Quarters), Weight Sensor (Nickels), Weight Sensor (Pennies), Weight Sensor (Dimes), Raspberry Pie, Arduino Each cup will sit on a weight sensor and will be weighed and will calculate the value in each cup for the consumer to read. Each compartment will have a small cup at the bottom that the coins will fall in with easy access for the consumer to extract the coins will need. The funnel will have the coins roll down a slope and will be deposited into separate compartments based on the diameter of each coin. This will work by having a funnel that the consumer can put the coins in. Our project will give the consumer a compact way to manage the clutter of change in their cars and have an easy way to show how much change they have and provide easy extraction of the money. This made our cars cluttered and was full of wasted money that we very rarely used. As a group, one thing that we found very annoying in high school was all of the spare change that we would accumulate every time we would go out to eat with friends and teammates. Students: Thomas Wick, Andrew Posey, Garrett Sepulvado, Elizabeth Woodardįor our freshman design project, our group decided to build an automatic coin sorter with the intention of placing it in a car’s console. Expo ScheduleĤ:30 – 5:15 Official judging of assigned teams (13 minutes per team, 2 minutes transition time)ĥ:15 – 6:10 Open judging (all judges circulate to observe all projects)Ħ:10 – 7:00 Judges meet in IESB 318 to select winnersħ:00 – 7:15 Presentation of awards Expo Location Integrated Engineering and Science Building First Floor Feel free to browse the “smart products” that have been conceived, designed, and prototyped by our students. Each student participant owns and maintains their own equipment, providing a mechanism for boosting hands-on learning for large numbers of students our hope is that this project-based approach will make our students more competent, confident, and innovative. The products you see here are the culmination of a year-long, project-based learning experience where the Arduino microcontroller is used for sensing and control applications. Welcome to the Spring 2022 First-Year Engineering Design Expo.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |