Title :
A Hardware-In-the-Design Methodology for Wireless Sensor Networks Based on Event-Driven Impulse Radio Ultra-Wide Band
Author :
Bonanno, Alberto ; Sanginario, Alessandro ; Crepaldi, Marco ; Demarchi, Danilo
Author_Institution :
Center for Space Human Robot. @Polito, Ist. Italiano di Tecnol., Turin, Italy
Abstract :
This paper conceptualizes and comments an Hardware-In-the-Loop-based methodology for the design and test of wireless links based on Impulse-Radio UWB. The paper analyses standard HDL simulation EDA tools for interfacing compatibility with the physical peripherals in a generic HIL configuration to define a general Hardware-In-the-Design methodology, i.e. the HIL validation in the first steps of a standard design flow. Our concept has been compared with AMS-HDL models and standard simulation flows and with real-time simulations on a flexible platform (e.g. FPGA). The design methodology is applied to a Wireless Sensor Network design based on event-driven IR-UWB (one-way node-to-node communication). Advantages of the introduced HIDF technique compared to standard design flows are presented and discussed.
Keywords :
electronic design automation; hardware description languages; logic simulation; radio links; ultra wideband communication; wireless sensor networks; AMS-HDL model; EDA tool; HDL simulation; HIDF technique; analog and mixed signal circuits; event-driven IR-UWB; event-driven impulse radio ultra-wide band; generic HIL configuration; hardware description language; hardware-in-the-design flow methodology; hardware-in-the-loop-based methodology; interfacing compatibility; real-time simulation; standard simulation flow; wireless sensor networks; Computational modeling; Field programmable gate arrays; Hardware; Hardware design languages; Integrated circuit modeling; Real-time systems; Standards; AMS design flow; ASIC design-validation flow; HIL simulation; IR-UWB testing platform;
Conference_Titel :
Digital System Design (DSD), 2012 15th Euromicro Conference on
Conference_Location :
Izmir
Print_ISBN :
978-1-4673-2498-4
