| An Empirical Evaluation of TinyOS RF Networking, and Beyond: Context, particularly location, is an important source of information for human-computer interaction. In our project, we examine hardware, networking, and systems issues for a location sensing infrastructure. We present a thorough empirical analysis of the TinyOS RF motes. |
| Berkeley WEbS: Wireless Embedded Systems: Berkeley resources for DARPA Project: Secure Language-Based Adaptive Platform for Network Embedded Systems. |
| Brainy Buildings Conserve Energy: Discusses saving energy in buildings by distributed sensor networks featuring TinyOS. |
| Large Scale Deeply Embedded Networks: Graduate seminar on dense collections of smart sensors, processors, and actuators, networked to form self-configuring teams. Provides basis for new computing paradigm that challenges many classical approaches to distributed systems. |
| Largest Tiny Network Yet: Short article with very good descriptions, several photographs, some links. |
| SourceForge: TinyOS: Project summary, downloads, administrator contacts. Because size DOES matter. |
| TinyOS: Event-based operating environment/framework designed for use with embedded networked sensors, to support concurrency intense operations needed by sensor networks, with minimal hardware requirements. Documents, publications, slide shows, downloads. [Open Source, BSD] |
| TinyOS: An Operating System for Networked Sensors: Project page of project participant Jason Hill. Explanations and diagrams: mote active messages and ad hoc routing, CompGlue graphical system to graphically connect and include components via VHDL hardware design tools. |
Classical
