Main development happens at https://github.com/ZeusWPI/OBUS/
Find a file
2022-02-15 19:38:29 +01:00
.github/workflows Implement caching in docs build 2021-07-31 05:55:15 +02:00
docs Always include csquotes 2022-02-15 16:53:14 +01:00
lib C is stupid 2022-02-10 17:43:45 +01:00
misc Reverse engineered and wired up R455 timer 2022-02-01 12:56:09 +01:00
moana add Counter/Timer model 1772 2022-02-15 16:16:43 +01:00
pcb Some more notes for new PCB design 2022-02-11 21:15:08 +01:00
python Show strikes on controller 2022-02-11 23:05:09 +01:00
src add Counter/Timer model 1772 module 2022-02-15 19:37:42 +01:00
.editorconfig Add editorconfig 2020-08-10 15:34:15 +02:00
LICENSE Add MIT license, approved by all previous contributors 2020-08-28 03:32:33 +02:00
README.md Add controller screenshot 2022-02-15 19:23:35 +01:00

Ontmijnen van een Bom vereist Uitstekende Samenwerking

You see an armed time bomb but don't know how to disarm it. Your friends found a manual to defuse the bomb and you have them on call. This is the premise of the game OBUS, a hardware project by Zeus WPI. Inspired by the amazing software game Keep Talking and Nobody Explodes.

Get started writing a module

These are the instructions for building your own OBUS module with an Arduino Nano v3 and the custom PCB. If you're using other hardware, you might need to do some things differently.

  1. Read the "Getting started guide" to get a general idea of how OBUS works.
  2. Install the Arduino IDE.
  3. Clone this repository with Git in a permanent location on your drive.
  4. Symlink the library: ln -s /ABSOLUTE/PATH/TO/REPO/lib /PATH/TO/Arduino/libraries/obus (on most Linux distro's, this the Arduino folder is in $HOME/Arduino)
  5. Follow these steps to install the CAN library
  6. Execute ./src/new_module.sh to create a new module. When asked for a type, you'll probably want to choose 'puzzle'.
  7. Edit the newly generated .ino file, either in the Arduino IDE or in your own editor.
  8. In the Arduino IDE, select the correct board (Arduino Nano) and processor (ATmega328P (Old Bootloader)). After that, flash your code to the Arduino and test it out.
  9. On some Linux distributions, you'll need to prevent BRLTTY from taking over the serial adapter because BRLTTY thinks it's a Braille keyboard. You can do this by uninstalling it (pacman -R brltty) or by disabling it and then rebooting.
  10. If you get permission errors, try adding yourself to the dialout or uucp (Arch Linux) group

A screenshot of the OBUS controller web page, showing a countdown timer, a list of connected modules and the strikes

Background

Game

The game is played by at least two players. The goal is to defuse a bomb, this is accomplished by defusing every module on that bomb before the bomb timer runs out.

There are two roles:

  • Expert: this person can read the manual about how to defuse the bomb, but cannot see nor interact with the bomb
  • Defuser: this person can see and interact with the bomb, but cannot read the manual

These two roles can communicate with each other. To successfully defuse the bomb, they must communicate efficiently and clearly. If a mistake is made, the team gets a strike. If they get too many strikes or the timer runs out, the bomb explodes.

Implementation goals

  • It should be easy to add new modules, both hardware- and software-wise
  • It should be easy to build your own module and get it working with the rest of the game
  • Every run of the game should be different
  • It should be possible for multiple people at the same time to develop a new module

The idea is to have one bomb controller that keeps track of the timer, the amount of strikes and of whether the bomb has been successfully disarmed, and to have multiple modules that have one or more challenges on them that need to be solved.