This code, firmware, schematics, and documentation is provided “AS IS” and the responsibility for its operation is yours. You are not permitted to redistribute this code as “Eleven code” after having made changes. If you're going to re-distribute the source, we require that you make it clear in the source that the code was descended from Eleven code libraires, but that you've made changes. No warranties are made regarding the ability of this code to comply with applicable FCC/IC/ETSI or other regulations.
2009
Group Photo [264k]
University of Alberta Student Project using XInC2 by Jian-Lok Chang, Edwin Li, Lu Ma, Lee Richard, and Josh Sparrow. This report outlines the design of an autonomous mini-sumo robot. The robot relies solely on infrared, ultrasonic, encoder and line detector sensors to operate autonomously within a 77cm diameter ring. The robot weights under 500g and has a 10x10cm base.
2009
University of Alberta Student Project using XInC2 by D. Leger, B. Rose, R. Wollenberg, K. Gavrikov. The objective of the project is to wirelessly download music to a mass storage device located in the user’s vehicle within a range of about 25 meters. Based around the XInC2 microcontroller, the data link is composed of two devices. The XInC2 microcontroller serves as the brain behind both devices.
2009
Group Photo [260k]
University of Alberta Student Project using XInC2 by Serguei Klink, Curtis Ostergren, Thomas Schaller, Jon Vandenbrink. The project uses CMOS camera sensor for tracking, two hobby servos for tracker movement, and has a basic user interface provided by an LCD and a keypad. A laser pointer is tracked in order to demonstrate successful completion of the project.
2009
Group Photo [276k]
University of Alberta Student Project using XInC2 by Tyler Born, Habib Halabi, Dale Latin, Marcin Misiewicz. This project involves the design of a home automation system. The system consists of a remote control and two distinct room modules. and it can edit the settings for each user's key-tag. The bedroom module controls lighting, door access, and multipurpose relays.
2009
Group Photo [272k]
University of Alberta Student Project using XInC2 by Arashdeep Brar, Jordon Davis, Will Hatch. This report describes the design and testing of an absolute hovercraft. The hovercraft runs on power supplied by batteries and operates using a XInC2 microprocessor along with wireless capabilities, and a keypad which can act as a limited remote.
University of Alberta Student Project using XInC2 by S. Chow, M. Hui, S. Merryfield, and N. Schwinghamer. This report will present a quick overview of the design, implementation, and results of an Autonomous Sumo Robot (TITAN) developed with an intent to compete in a sumo competition.
2008
Group Photo [296k]
University of Alberta Student Project using XInC2 by K. Green, K. Huggard, T. Matier, and Q. White. This report reveals the design of a quick surround sound calibrator which is used to help home theater consumers improve their surround sound experience. By altering the gain and delay of each speaker in the system to counteract speaker placement constraints and room acoustics that can affect the quality of the audio.
University of Alberta Student Project using XInC2 by C. Ruff, C. Storey, J. Daniels, and D. Hayden. This paper outlines the results of the hardware and firmware design of an operational vehicle detector used in driveways. Using wireless transmission and ultrasonic detectors, a remote unit communicates with a base (home) unit. The base unit alerts homeowners, notifies the incoming vehicle that it is being monitored, and logs data.
2008
Group Photo [305k]
University of Alberta Student Project using XInC2 by A. Greschner, D. Wong, J. Xu, and H. Zeng. The sound mixer board has traditionally been connected with cables to the input consoles. For large sound mixers, these cables can be numerous, long, and a nuisance. Outlined in the following report is a prototype of a wireless sound mixer that will remove the physical connections and allow the user to make adjustments remotely.
2008
Group Photo [257k]
University of Alberta Student Project using XInC2 by Garrett Axani, William Swanson, Xiaoqin Lei, and Yonghui Liang. This report summarizes the design of a wireless power consumption monitor project. The project monitors the power consumed by numerous household electrical devices simultaneously. With a multi-slave/single-master structure, it can track multiple devices and relay the data back to the master control unit and display the data in a monetary format.
04/06/2006
University of Alberta Student Project using WHAM2 modules by Mercier, Koss, Crowley, and Ho. The freedom of a wireless device, combined with the functionality of a computer mouse, allows more interaction and flexibility for digital computer presentations... This paper provides the details of the design, testing, and integration process in the development of a wireless 3D mouse.