Thats the Spot!

Thats the Spot!

 

Hardware Components Used

  • 1 Green LED
  • 2 Yellow LED
  • 3 330 Ω Resistors
  • 2 10k Resistors
  • 1 Servo Motor
  • Arduino Uno Board
  • Breadboard
  • 5-volt power
  • Soft Potentiometer
  • Flex sensor
  • Cardboard
  • Ducktape
  • Piezo Buzzer
  • 14 wires

Concept

 

Description:

That’s the Spot! is an interactive game where the interactor controls a servo motor with a soft potentiometer. The motor head collides and bends a flex sensor. As the flex sensor bends, the LEDs will light up from yellow to green. If the interactor discovers the “spot” and holds the position, the piezo buzzer will play a jingle. After the interaction, the system resets and a new spot is selected for a different experience.

As they interact, the interactor should feel determined. They should feel the struggle to find the correct spot to complete the sequence. The personal value of the piece was the challenge of the flex sensor and the board design. Since the breadboard is small, I struggled to create a smooth interaction between the servo and flex sensor. Besides the design, the flex sensor sensitivity is short. I mapped and constrained the values for the interaction to work correctly.

Possible idea for the structure:

I envision this piece as being contained within an acrylic structure with one side being brass. The side of brass would be the interface with the soft pot and LEDs connected too. The rest of the piece would be a clear shell which will allow the interactor to view all the working parts interacting with itself. The style would be a mix of steampunk and sciFi.

To fill the negative space within the shell, there would be a mess of colorful wires. Example: 

 

Scifi Decal Panels – Substance

SciFi Decal Panels Substance

Software

  • Allegorithmic Substance Designer
  • Unity Engine

Substance Graph

Features

Description:

SciFi Decal Panels is a procedural material created in Substance Designer. With so many features, the material can be used in numerous applications and environments such as space stations/ships, futuristic environments, Decals for ceilings, floors, or walls, etc. The texture is using PBR metalness/roughness workflow and was created with realism in mind.

The goal of the project was to create a “kit” that could be used to help designers speed up detailing a environment with a many different panel decals in a instant. As well as exploring and understanding the use of procedural kits using Substance Designer.

Spotter #7

Spotter #7

 

Hardware Components Used

  • 1 Photo-resistor
  • 2 Green LEDs
  • 1 Cardboard cutout
  • 2 330Ω Resistors
  • 1 10k Resistor
  • 1 Servo Motor
  • Arduino Uno Board
  • Breadboard
  • 5-volt power
  • 11 wires
  • Light

Concept

 

Description:

Spotter#7 is a little cardboard robot endlessly sweeps 180 looking for a friend.  When it finds a friend, it stops and blinks to show that it has spotted the person. If the person moves away fast, it will continue with its path and keep sweeping. If the person remains for longer time and then moves, the robot will shake back and forth in disapproval. After the reaction, it will begin sweeping endlessly to find a friend.

The emotional response expected from this piece is compassion towards the little robot. The personal value of the piece was the challenge of designing the interaction. Originally, it was designed to use a temperature sensor to detect the interaction. Plans changed when the only sensor I had was damaged and I had to rework the piece. I decided to swap out the sensor for a photo-resistor. Even with the redesign, the piece is enjoyable.

Other Technical Information:

This interactive piece is using a servo and a photo-resistor. It requires a spotlight to light the “friend”. Since the lighting is important with this piece, the photo-resistor can be set for either, back lit or front lit, to make it work correctly. The servo motor has a sweep from 0 to 180. The speed of the sweep is randomized after every completed rotation to break up the repetitions of the piece.

Floating Pyramid

Floating pyramid

 

Description

Floating pyramid is an acrylic pyramid filled with magnetic fluid and water that is attached to a stand. The pyramid’s rotation can be manipulated 360 degrees by the user. Within the pyramid contains magnetic fluid called ‘ferrofluid’ and water (or some type of liquid that allows the ferrofluid flow freely). To control the ferrofluid, there are 6 electro-magnets that the viewer can stick on the pyramid. The power of the magnets can be individually controlled using 6 potentiometers.

Everyone is an artist and the goal of the piece is to allow the viewer to create their own unique art piece by using the pyramid and the use of the shadows created by the fluid.

 

Inspirational Images/Components used in my Design

https://i2.wp.com/ae01.alicdn.com/kf/UT8b72EXWJbXXagOFbXQ/Free-Shipping-Ferrofluid-A-Bottle-Magnetic-Liquid-Neodymium-Magnet-Office-Toys-Science-Decompression-Novelty-Creative-Toys.jpg

https://images.vat19.com/covers/large/ferrofluid-in-a-bottle-display.jpg

https://sc02.alicdn.com/kf/HTB15ukkLXXXXXXWaXXXq6xXFXXXY/china-supplier-new-style-wholesale-acrylic-plexiglass.jpg_350x350.jpg

 

Sketch

Components Needed

  • Ferrofluid
  • Acrylic container aka the pyramid
  • Spotlight
  • Potentiometers
  • Electro-Magnets
  • Arduino board
  • Metal/Plastic structural pieces

Simon Says…PhotoResistor

Simon Says … Photo-resistor

Hardware Components Used

  • 1 Photo-resistor
  • 1 RGB LED
  • 1 Yellow LED
  • 4 330 Ω Resistors
  • 2 10k Resistors
  • 1 Switch
  • 10 Wires
  • Arduino Uno Board
  • 1 Breadboard
  • 5 volt power

Concept

 

Description:

Simon says…Photo-resistor is an interactive game using a photo-resistor as the main input for the experience. As the user presses the button, the game begins. The RGB turns white and begins the blue blinking a randomized sequence. The number of blinks is the required number of times the user needs to flash a light towards the photo-resistor to win the game. During the “input” phase, the RGB led light blinks RED and GREEN indicating the time left. If the player fails to complete the sequence, the RGB LED will turn RED indicating they failed. If the player completes the sequence, the RGB LED will turn GREEN indicating they have won.  After the complete phase, either win or lose, the game will reset and idle until the button is pushed to start again.

As this piece resembles a game, the emotional response would be excitement, panic, and joy. The personal value of the piece was the challenge of coding and using a photo-resistor. As it was the first time I would have worked with one, I ran into some issues with calibration. Ultimately, I believe this piece was sacksful. It allowed me to push myself and try something different that was out of my comfort-zone.