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WP 3.2. Commercial Mote Hardware Trade-off

WP 3.2. Commercial Mote Hardware Trade-off. Surrey Space Centre, University of Surrey, UK Christopher P. Bridges Friday, 24 th November 2006. Agenda. Requirements Intrasatellite and Intersatellite Comparison Hardware Communications Software/ Cost Analysis Snapshot Recommendations.

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WP 3.2. Commercial Mote Hardware Trade-off

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  1. WP 3.2.Commercial Mote Hardware Trade-off Surrey Space Centre, University of Surrey, UK Christopher P. Bridges Friday, 24th November 2006

  2. Agenda • Requirements • Intrasatellite and Intersatellite • Comparison • Hardware • Communications • Software/ Cost • Analysis Snapshot • Recommendations SSC Internal Meeting

  3. Requirements SSC Internal Meeting

  4. Comparison - Hardware Microcontroller – Want the lowest power requirement. Memory – Important for buffering/ storage whilst communications is in use. Temp – Biggest band as possible. SSC Internal Meeting

  5. Comparison - Communications Frequency – Dependant on application. Lower frequencies travel further than the higher. Power Consumption – Lowest as possible (dependant on hardware used). Data Rates – Highest as possible. Range – Dependant on application. SSC Internal Meeting

  6. Comparison – Software/ Cost Standards – Enabling different network topology options (e.g. multi-hop) Supplied Software – What comes with the package? Cost – Where can we buy from? Price per unit? SSC Internal Meeting

  7. Analysis Snapshot SSC Internal Meeting

  8. Recommendations • Intrasatellite Communications • Crossbow’s Telos Mote (1st/9) • Low power, cheapest, 2.4GHz, large mem, best temp, 802.15.4/Zigbee • Intersatellite Communications • TinyNode (2nd/9) • Large mem, ind temp, 870MHz, TinyOS, EU supplier (€609) • Jennic (4th/9) • 4km range, small mem, ind temp, 2.4GHz, own software, UK supplier (£305) SSC Internal Meeting

  9. Millenial Notes: Ready Made MeshScape is a complete wireless sensor networking system that delivers OEMs and system integrators all of the software, hardware, and tools to quickly and cost-effectively develop and deploy embedded wireless sensor networking applications. Applications: Ready made WSN solutions SSC Internal Meeting

  10. Jennic Notes: Development • Telemetry and utilities(e.g. AMR) • Low cost evaluation platform for wireless sensor networks • Complete SDK and network stack • Unrestricted development environment • Ideal for application development and demonstration • Daintree Networks sensor network analyser package • IEEE802.15.4 packet sniffer and network test application SSC Internal Meeting

  11. DUST Networks Notes: Industry In the industrial automation, building automation, and defense markets They are tailored for use in battery- and line-powered wireless devices for applications that demand proven performance, scalability, and reliability.  SSC Internal Meeting

  12. MultiDAQ SSC Internal Meeting

  13. Ember Notes: Topologies Ember’s communications API facilitates the development of self-organizing, self-healing, peer-to-peer networks targeted to specific customer requirements. It contains libraries for EmberZNet’s mesh-, star-, and hybrid-networks. To achieve efficient messaging in complex networks, the communications API allows developers to build the most effective network for the application SSC Internal Meeting

  14. Zensys Notes: Sensing The ZW0201 is a complete System on Chip (SoC) and consists of an integrated RF transceiver, an 8051 microcontroller, flash and SRAM memory storage and a range of peripherals. For battery-operated devices we are extremely pleased to inform you that ZW0201 has dramatically reduced its power consumption. It is now possible to create Z-Wave products such as sensors, remotes, door locks, etc. that can run for up to 10 years with 2 AAA batteries. SSC Internal Meeting

  15. Crossbow - Telos Notes: Development The TelosB Mote is an open-source platform designed to enable cutting-edge experimentation for the research community. This platform bundles all the essentials for lab studies: USB programming capability, IEEE 802.15.4 radio with integrated antenna, low power MCU with extended memory and an optional sensor suite. This platform is used primarily for low-power research development and wireless sensor network experimentation. SSC Internal Meeting

  16. TinyNode Notes: Development • The TinyNode 584 is an ultra-low power OEM module that provides a simple and reliable way to add wireless communication to sensors, actuators and controllers. • TinyNode 584 is optimized to run TinyOS and packaged as a complete wireless subsystem with 19 configurable I/O pins offering up to 6 analog inputs, up to 2 analog outputs as well as serial interface. SSC Internal Meeting

  17. Sensinode Notes: Development • Sensinode provides flexible wireless sensing prototype platforms and products based on the latest low-power wireless technologies. • ZigBee™-ready IEEE 802.15.4 communications using advanced Chipcon radios • Support for open-source solutions such as FreeRTOS, nanoIP, TinyOS and Linux • The Sensinode NanoStack™ provides a flexible open-source communication stack for Sensinodes along with monitoring and access tools for Windows and Linux PC's SSC Internal Meeting

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