ECE497 Project Programmable Light Show
Team members: Taylor Purviance
The idea of this project is to have a Beglebone controlling a strand of LEDs and drive the LEDs to flash different colors and patterns. The patterns and colors being displayed will be programmed via a simple web interface, allowing anyone to program the lights.
The system works pretty well with a single user, allowing them to program the lights via web interface and have the lights update. Most issues of the light update speed have been rectified and now updates fast enough.
Somewhere, the first light on the chain isn't always getting set properly for some reason (which I suspect is kernel driver related). Also, there's no support yet for remembering your Blockly program if you accidentally close the tab which you were working in, and every programmer knows irreversibly losing code can be infuriating.
The project is actually in a really good position right now, though it isn't ready yet for public / multiuser access. With a few exceptions, it does what it does well and is enjoyable to use and see used, so the focus of future development can be on any of a plethora of possible new features.
Give step by step instructions on how to install your project.
- Include your github path as a link like this to the read-only git site: https://github.com/MarkAYoder/gitLearn.
- Be sure your README.md is includes an up-to-date and clear description of your project so that someone who comes across you git repository can quickly learn what you did and how they can reproduce it.
- Include a Makefile for you code.
- Include any additional packages installed via opkg.
- Include kernel mods.
- If there is extra hardware needed, include links to where it can be obtained.
1. Run the setup script
- Run the included
- Run the included
2. Start the boneserver
- Start the included
- Start the included
3. Navigate a the page via web browser
- With the boneserver now running, point your web browser to your bone's IP address on port 8080.
4. Drag and drop blocks
- Although there are a plethora of blocks available in blockly, you will likely be interested in the blocks under the "lights" category. One of the blocks if for setting a light at a position to a color. The position value should be between 0 and 159, while the red, green, and blue values should be between 0 and 127. However, this is just queuing up the changes locally. To display the changes you've made, use the send lights block. If you want more than one light to change at the same time, use the set lights block multiple times before using the send lights block. If you're doing some animation, you'll likely want to give it a number of milliseconds to delay after the lights are changed before they will be set again.
5. Click the "run" button
- Once you are ready to see your code run, click the "run" button near the top of the web page. If you get a message saying something about "bad code" make sure that your blockly blocks have all of their input spots filled or simplify your design and try again.
The thing about this project is that it's really just an enabler; it enables anyone that connects to the server to come up with their own ideas about what they want to have the LED string display, and it lets them do it. That being said, here's a video to demonstrate some of the things you can have it do.
PUT VIDEO HERE
In the video there are 3 things demo'd:
- A red sine wave and a shorter-wavelengthed red sine wave
- A single red light the races to the end of the strand and races back blue, then does the same thing but as a group of 10 lights.
- A simplified no-controls version of pacman, which spawns some random white pellets and has a yellow group of pacman lights go down the strand until he's eaten them all, at which point he blinks a few times to show that he's won.
These are just some of the things someone could make. Creativity and time were my limiting factors for this demo, but I hope to see others make more interesting displays with this tool.
Theory of Operation
Here are some of the big accomplishments of the project to date:
- Integrated Blockly (hosted externally) into a web page hosted from the bone
- Added custom blocks to Blockly to 1) track the state of the lights being changed 2) sends the lights that are being changed via the program to the bone via socket.io
- Added some new socket.io message handling to the server.
- Added message queuing to the server code, allowing it to do things like delays in an intelligent way. This is queuing behavior also lays the groundwork for multiuser handling, as well as "recording" and "playing" back light shows, all of which require something other than "just display the lights when we're told".
There's a wealth of possible future features to add, as well as a few bugs to fix:
- Multi-user handling
- There's a number of ways one could go about doing this, but the simplest would be to have the server maintain not one queue of light messages, but to have a mapping of connections to queues so that each users interactions with the bone can be stored in a separate queue so their messages don't interleave and mess up the display for both of them. Deciding when to play animations from which queue is also an interesting problem. One solution is to just play some amount of each user's animation on the bone, measured in number of frames and the amount of delay they use.
- Video sending instead of frame sending
- It may be beneficial performance-wise to send an entire video of animation instead of a single frame, as it currently does. This would allow for entire animations to easily be sent, stored, and played, as well as saving on socket.io overhead. It would also help to protect the server from bad code. If the user made in infinite loop that continually sends frames to the server, the server has to off the messages itself. The server currently has a maximum frame buffer size and maximum allowable delay for this purpose. If the entire message has to be sent at once, the user would just have to deal with his non-terminating loop, as the message would never be sent at the end because their code would never finish, saving the server that much work.
- Add input controls
- Updating localized light visualization
- If users won't be able to be next to the lights all the time, or the lights might not currently be preforming for them but rather performing some other user's code (if multi-user capabilities are added), it could be beneficial to the user experience to allow them to locally view the lightshow with the html canvas I had working before. It wouldn't be hard to do. You could copy exactly what the server does with the socket.io signals it recieves from users, and execute it locally, including the queuing and the delays.
- Add more lights
- Pretty self explanatory. A longer or more densely packed light strand would look better and give the users more to work with, though the strands don't come cheaply. However, adding more lights could slow down the light refresh rate of the strand.
- Fixing the first light
- For some (I'm feeling driver-related) reason, the first light in the strand is not changing to be the correct color all the time.
Give some concluding thoughts about the project. Suggest some future additions that could make it even more interesting.