Category: Assignments

Problem: Fridges alert users when their fridge door is open by beeping loudly. For users who are hard of hearing, this is not a feasible indicator.

Solution: Fridge flashes a bright light to get the attention of the user to notify them that their fridge door is open

Proof of Concept: Using a ultrasound sensor, an LED and a SparkFun, I created a simple state machine. If the ultrasound sensor is sensing a distance of more than 20 centimeters it begins flashing the LED. Otherwise, the LED remains off.

Video :VID_20190909_231515

Fritzing and Arduino Code

Problem: 

Being distracted by a smartphone when we are walking is really dangerous. We lose our attention and we lose our sight and become “blind”.

General Solution:

I am going to design a smartphone case that is equipped with an ultrasonic distance sensor in front of it. It keeps tracking the surrounding while people are walking using a smartphone. When it detects an object that is closer than a certain distance, it warns the user using lights (or possibly vibration or other methods).

Proof of Concept:

When making a prototype, I chose red and green LEDs to visualize the warning sign. An ultrasonic distance sensor keeps paying attention to the front direction of a user while moving. When there is nothing in front of the sensor, it lights up green led and write “IT’S SAFE” on serial. When there is anything appear less than 10 cm, it lights up red led and write “WATCH OUT!” on serial.

Arduino Code:

SAFE_SMARTPHONE_CASE

Demo Video:

Problem:

Automatic restroom appliances such as faucets and hand dryers are becoming increasingly popular in public and private applications alike. While this technological innovation has many befits in terms of convenience, sanitation, and energy efficiency, it is also the source of a great deal of frustration when things don’t function as intended.

All too often, I’ve found myself waving my hands vigorously underneath an automatic faucet to no avail. One of my main complaints about the interaction is that there’s no way to know which part of the state machine isn’t functioning properly. Could it be that the sensor isn’t seeing my hands because I didn’t position them properly? Is there simply a delay before water begins to dispense? Or is the sensor malfunctioning altogether?

Proposed Solution:

To solve this problem, I propose implementing a visual feedback system (using multicolored LEDs) to inform users whether any malfunction is due to their own error, or if it is a fault in the electronic system.

Proof of Concept:

I wired two different colored LEDs (green and red) to serve as a simple, intuitive, visual representation of the states of an automatic faucet. The LED s are directly linked to the infrared distance sensor that serves as an input to the system. If the green LED turns on, the sensor sees the user’s hands. If the red LED is on, the distance sensor is reading a value outside of its range, indicating that the electronic system is broken. In the case that the green LED turns on but water isn’t dispensing after a few seconds, users will know that there is malfunction in the hydraulic system.

Brief video demonstration

Assignment 3 ino

Problem: Bedroom floors (especially mine) are usually in constant states of disarray… but they are variable states of disarray. Sometimes I leave my backpack in the middle of the floor or pull my desk chair to the foot of my bed or any number of things. No matter the situation, everyone can relate to tripping on any number of items on the floor of your bedroom because the lights are off in the room… Can someone develop a way-finding system for rooms when the overhead lights are off to 1) avoid waking others in the room and 2) avoid stepping on/tripping over things?

Describe the general solution: In the smart house of five years from now, each floor would be equipped with pressure sensors and pinhole-sized LEDs. As someone wakes up and looks to leave their bed, they can press one button on their bedside monitor to see a softly-lighted, real-time path charted for them on their floor.  

Proof of Concept: Essentially, someone presses and holds the button on the console to turn the device on. While on, the device reads in data from the pressure sensors on the floor – wherever those sensors read in additional weight, those areas get marked as a location where an object was detected and then triggers the corresponding LED to not turn on. In effect, pressing the console’s switch illuminates (with very soft light, as to not wake up others in the room and to be easily identified by your own eyes adjusting to being awake) the locations in the room where someone can step to get to their destination. Eventually, using Machine Learning/AI techniques, the console could plot your best path to a certain destination given the time you wake up and your own tendencies (to the shower if it is 7am or to the fridge for a late night snack at 12:30am).

In this demo, I can press the momentary switch to simulate turning the whole system “on”. With the button pressed, I can apply pressure to one of the 3 round FSR’s which causes its corresponding LED to turn off, signaling that you should not walk in that position.

Assignment 3 (Sketch, Frtizing Files)

If you have any questions, please drop me email and I’ll update this post.

Assignment 3: Visual display of a state that does not have a visual state

Due: 11:59pm, Monday, 9 September, 2019

What to turn in: For now, combine your sketch files and fritzing file in to a zip file and attach that to the post describing your response.

Define a simple state machine in hardware and software representing a real system, use visual information to describe the states.  We are looking for the simplest display to provide a person with what they need to know about the state of a system.

Accessibility is a good place to start looking for a problem.  There are some accessibility issues that effect everyone, say a lack of information about an ongoing task being done by a machine.  My clothes drier has lights to tell me what it’s doing, but I have no idea how long it will be until my clothes are dry.

Example solution:

A dishwasher has three cycles: wash, rinse, and dry.  A state machine for this would have a mechanical switch that starts the state machine, timers that lead it through each state, and some visual indicator of the current state.  One solution would be LEDs representing states and a digital display showing how much time is remaining before the dishes are dry.  Would you need three LEDs for wash, rinse and dry; or would two LEDs for “washing” and “drying” be enough?  If I know it’s in “drying” mode and in a hurry I could open it up, remove an item, then dry it by hand.