Author_Institution :
Dept. of Electr. & Comput. Eng., Michigan Technol. Univ., Houghton, MI, USA
Abstract :
The Pierre Auger Cosmic Ray Observatory employs a large array of Surface Detector (SD) stations to detect the secondary particle showers generated by Ultra High Energy Cosmic Rays. The operational Auger South site uses a tower-based wireless network for communication between SD stations and the observatory campus. Plans for a larger Auger North array call for a similar system. However, a variety of factors render direct station-to-tower routing infeasible in Auger North. Thus, we have adopted a new peer-to-peer paradigm, the Wireless Architecture for Hard Real-Time Embedded Networks (WAHREN), designed specifically for highly reliable message delivery over fixed networks, under hard real-time deadlines. This paper introduces the topologies, protocols, performance, formal verification, and reliability modeling of WAHREN. It also presents the adaptation of WAHREN to Auger North, including its embedding in the SD array, hardware development, and plans for an in-situ Research and Development Array.
Keywords :
cosmic ray apparatus; cosmic ray showers; Auger North array; Pierre Auger cosmic ray observatory; direct station-to-tower routing; formal verification; hard real-time deadlines; message delivery; observatory campus; operational Auger South site; real-time wireless network; secondary particle showers; surface detector stations; tower-based wireless network; ultra high energy cosmic rays; Arrays; Peer to peer computing; Protocols; Real time systems; Time division multiple access; Topology; Wireless sensor networks; Communication system fault tolerance; real time systems; time division multiaccess; wireless LAN;
