UI CETL - Lightboard

The goal of the project is to design and create an easy to use and cost effective lightboard for CETL at the University of Idaho.

=Problem Definition=

Background
Main Purpose

A lightboard is an apparatus that is used in many universities today. It is primarily used in online and flip classes where the main form of information obtention is done by watching videos or lectures online. The lightboard is a preferred method of teaching by some professors because it provides a more personal experience than either a normal whiteboard or a document camera. The lightboard will especially shine in the University of Idaho's Engineering Outreach program and other classes like it because of the professor's ability to answer real time questions about topics while still looking into the camera and being able to write. It will also allow professors to prerecord lectures that they want to do and edit them into such a way that there is more information and less filler time.

How it Works

The lightboard will function using a principle called frustrated total internal reflection. This principle states that light within a medium will internally reflect because of the differences in two indices of refraction. However, when you put a marker on the glass, it will disrupt the angle at which the light will reflect, frustrating it. The frustrated light will then both reflect internally and emit light out of the glass, giving the marker the illuminated look that the lightboard is known for.

Deliverables
The Lightboard must act as a see-through, portable whiteboard that can be used in tandem with a filming system so that instructors may teach online and filmed classes while looking directly at the camera. The Lightboard must be produced for a fraction the price of a complete one that can be purchased online. The design must also be able to easily be transported around campus for wide use.

Specifications
Functionality/Usability


 * Writing on the board must be bright and easily visible as a result of “frustrated total internal reflection”


 * Writing on the lightboard should be comfortable for a wide range of users


 * An easily accessible area for notes, books, resources, and marker storage will be integrated into the design of the lightboard


 * LED lights must be dimmable and easily adjusted by the user without leaving the viewing area.


 * Thin sheets of frosted plastic can be attached to the viewer side of the glass in multiple locations for projections to be utilized

Mobility


 * The lightboard can be moved around on flat ground by a single user safely


 * Components of the board must be capable of fitting through a standard door (6’8” x 2’6”) without substantial disassembly or time investment
 * The Enclosure shall fit within the following:


 * Length < 8 ft


 * Width < 5 ft


 * Height < 7 ft

Safety


 * The frame design shall be sturdy enough to support the glass pane with a generous factor of safety


 * The Lightboard should resist tipping when a reasonable force it applied to the upper regions of the board


 * All electrical safety regulations will be met.

Cost Effectiveness


 * Cost to build a Lightboard prototype shall not exceed $2000

=Design Considerations=

Final Design

 * All dimensions shown are in inches.

Design Points
There are three main points to this design: the frame, the shelf, and the glass.

Design Points
The prototype is a double light board on a smaller scale. It is made from 8020 t-slot extruded aluminum and fastened together with laser cut pieces of wood and screws. There are two different panes of glass inserted into it: Starphire Glass and Window Glass. The LEDs were strung around all four sides of each pane of glass and connected to a dimmer so that the amount of light present in the glass can be controlled. The prototype was made to be easily taken apart so that the LEDs can be rearranged. This prototype directly compares the two pieces of glass under the same conditions, something that is not able to be found anywhere on the internet.

Testing
We tested and are testing our prototype in many different ways. The planned tests included choosing which glass to use for our final design, how different the intensity of the markers show up when the lighting arrangements are done, and lastly the effectiveness of projecting an image onto the lightboard. Our goal was to measure each test in three different ways: how it looks in person, how it looks on camera, and how it looks on a video.

Glass Comparison

This test was conducted fairly easily because all we needed to do was turn on the lights and write on the board. The difference between the Starphire glass and window glass was evident right away. Starphire glass produced a clearer and more vibrant color than the window glass did. The Starphire glass' ability to let light penetrate it created a more consistent color across the entire board and did not let the markers fade further away from the source of the light. In a photograph, it is also easily discernible which pane is the Starphire and which is just the window glass.

(Insert photo)

Lighting Arrangements

Our prototype has LEDs wrapped around all four sides of the glass panes, and this allows for the most amount of light to penetrate into the pane. However, we are curious about how the writing would show up if the glass were to be lit up by only one or two sides. Our plan for this test is to run LEDs through the glass in different arrangements to see how the marker vibrancy changes.


 * One side


 * We know that with one side illuminated there will be a noticeable difference and the lightboard will not be very effective. However, our plan for that arrangement is to measure the difference in vibrancy of the colors as it travels away from the light source. Our hopes with this test is that we will be able to see how far the light travels through each pane of glass and whether or not there is a "dead zone" where the light doesn't touch in the pane that will make the marker look worse than it would with all four sides illuminated. If there is an obvious "dead zone" then we should be able to measure it and have a reasonable expectation for the final 4'x6' sheet of glass.


 * Two sides


 * Illuminating edges, which will most likely be the top and bottom, is a way for us to test how important the illumination of the sides are. If the sides prove to be detrimental to the overall quality of the lightboard then we will plan on incorporating all four sides of the pane. At this time, however, this is simply a test to see what we can learn about each type of glass.

Projection

For this test, we plan on putting a piece of frosted plastic, or something similar, on the lightboard and projecting an image onto it. This proves to be useful because it would allow the user to keep something permanent and neat that they can continuously reference on the lightboard while teaching. We are not sure how well the the projected image will show up, or whether the user would be able to mark up the image. Our test will be comprised of the actual projection and its clarity as well as the ability to write on or around the projected image.

=Project Learning=

=Final Design=

=Validation=

=Team Members=

=Additional Documentation=

Project Schedule



Meeting Minutes



Presentations



Client Interview