Presentation is loading. Please wait.

Presentation is loading. Please wait.

Hardware Design Experiences in ZebraNet [ZSLM04] - Princeton University Sensys ‘04 Presented By: Jay Taneja.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Hardware Design Experiences in ZebraNet [ZSLM04] - Princeton University Sensys ‘04 Presented By: Jay Taneja."— Presentation transcript:

1 Hardware Design Experiences in ZebraNet [ZSLM04] - Princeton University Sensys ‘04 Presented By: Jay Taneja

2 Mpala Research Centre Application: Animal Tracking - Use collars with GPS to take periodic readings in order to support biologists monitoring the walking patterns of zebras in Kenya

3 ZebraNet Design Space Mobile Sensor System Sparse Network Coverage High Energy Sensors (GPS) ZebraNet is unlike any other deployment, requiring custom hardware and software

4 Goals for ZebraNet Three Primary Goals Collect detailed, accurate position logs of each zebra Have a high data recovery rate (Redwoods?) Autonomous Operation Moo.

5 Hardware Evolution

6 Another Important Evolution Change of  -controller Lower power usage (switching clocks) 750 mA-hr/day, 20 MHz Hitachi SH1 too greedy TI MSP430F149 allows multiple clocks (32 KHz, 8 MHz) Ease of software development (16-bit) Ability to have 100% duty cycle 32 KHz clock consumes 0.05 mA more than sleep

7 Important Features Nodes obtain GPS reading every 8 minutes GPS can sync to global clock allowing for efficient TDMA scheme Nodes attempt to send information over radio (multi-hop) every 2 hours All data logged to onboard flash (local as well as received - latency, shmlatency)

8 % of Successful Receive vs. Distance No spell check on figures

9 Solar Power Analysis

10 A Thousand Words

11 GPS Data for 1 Zebra Over 24 Hours

12 Conclusions Hardware choice worked very well for sparse node-to-node communication Simplicity of software environment dictated  -controller choice Details matter in WSN power management

Download ppt "Hardware Design Experiences in ZebraNet [ZSLM04] - Princeton University Sensys ‘04 Presented By: Jay Taneja."

Similar presentations

Mobile GIS.

Mobile GIS.
Localization with RSSI Method at Wireless Sensor Networks Osman Ceylan Electronics Engineering PhD Student, Istanbul Technical University, Turkiye 28.10.2009.

Localization with RSSI Method at Wireless Sensor Networks Osman Ceylan Electronics Engineering PhD Student, Istanbul Technical University, Turkiye
SELF-ORGANIZING MEDIA ACCESS MECHANISM OF A WIRELESS SENSOR NETWORK AHM QUAMRUZZAMAN.

SELF-ORGANIZING MEDIA ACCESS MECHANISM OF A WIRELESS SENSOR NETWORK AHM QUAMRUZZAMAN.
Sensor Network Applications for Environmental Monitoring Carla Ellis SAMSI 11-Sept-07.

Sensor Network Applications for Environmental Monitoring Carla Ellis SAMSI 11-Sept-07.
ZebraNet Rolf Kristensen & Torben Jensen s022361 s022359.

ZebraNet Rolf Kristensen & Torben Jensen s s
Energy-Efficient Computing for Wildlife Tracking: Design Tradeoffs and Early Experiences with ZebraNet Presented by Eric Arnaud Makita 1232036006

Energy-Efficient Computing for Wildlife Tracking: Design Tradeoffs and Early Experiences with ZebraNet Presented by Eric Arnaud Makita
CS 443 Advanced OS Fabián E. Bustamante, Spring 2005 Implementing Software on Resource-Constrained Mobile Sensors: Experiences with Impala and ZebraNet.

CS 443 Advanced OS Fabián E. Bustamante, Spring 2005 Implementing Software on Resource-Constrained Mobile Sensors: Experiences with Impala and ZebraNet.
Presentation: Energy Efficient Communication Protocol for Wireless Microsensor Networks Wendi Rabiner Heinzelman, Anantha Chandrakasan, and Hari Balakrishnan.

Presentation: Energy Efficient Communication Protocol for Wireless Microsensor Networks Wendi Rabiner Heinzelman, Anantha Chandrakasan, and Hari Balakrishnan.
Presentation on “WSN Application” (ZebraNet) Presented by: Belal Abdullah Abdulmaged 28\11\2011.

Presentation on “WSN Application” (ZebraNet) Presented by: Belal Abdullah Abdulmaged 28\11\2011.
Impala: A Middleware System for Managing Autonomic, Parallel Sensor Systems Ting Liu and Margaret Martonosi Princeton University.

Impala: A Middleware System for Managing Autonomic, Parallel Sensor Systems Ting Liu and Margaret Martonosi Princeton University.
Medium Access Control in Wireless Sensor Networks.

Medium Access Control in Wireless Sensor Networks.
Investigating Mac Power Consumption in Wireless Sensor Network

Investigating Mac Power Consumption in Wireless Sensor Network
Data Collection Storage, and Retrieval with an Underwater Sensor Network SENSYS 2005 I. VasilescuI. Vasilescu K. Kotay D. Rus I. Vasilescu K. Kotay D.

Data Collection Storage, and Retrieval with an Underwater Sensor Network SENSYS 2005 I. VasilescuI. Vasilescu K. Kotay D. Rus I. Vasilescu K. Kotay D.
1 Introduction to Wireless Sensor Networks. 2 Learning Objectives Understand the basics of Wireless Sensor Networks (WSNs) –Applications –Constraints.

1 Introduction to Wireless Sensor Networks. 2 Learning Objectives Understand the basics of Wireless Sensor Networks (WSNs) –Applications –Constraints.
Reconfigurable Sensor Networks Chris Elliott Honours in Digital Systems Charles Greif and Nandita Bhattacharjee.

Reconfigurable Sensor Networks Chris Elliott Honours in Digital Systems Charles Greif and Nandita Bhattacharjee.
Implementing Software on Resource- Constrained Mobile Sensors: Experience with Impala and ZebraNet Ting Liu Christopher M. Sadler Pei Zhang Margaret Martonosi.

Implementing Software on Resource- Constrained Mobile Sensors: Experience with Impala and ZebraNet Ting Liu Christopher M. Sadler Pei Zhang Margaret Martonosi.
7/9/2007 AIIT Summer Course - D# 1 Wireless Embedded Systems and Networking Foundations of IP-based Ubiquitous Sensor Networks Micro-Power Systems David.

7/9/2007 AIIT Summer Course - D# 1 Wireless Embedded Systems and Networking Foundations of IP-based Ubiquitous Sensor Networks Micro-Power Systems David.
Wireless Sensor Networking: The Absolute Basics

Wireless Sensor Networking: The Absolute Basics
David Goldenberg. Network resources include Energy and Space We have developed the first algorithms leveraging node mobility to improve the communication.

David Goldenberg. Network resources include Energy and Space We have developed the first algorithms leveraging node mobility to improve the communication.
CS 441: Charles Durran Kelly.  What are Wireless Sensor Networks?  WSN Challenges  What is a Smartphone Sensor Network?  Why use such a network? 

CS 441: Charles Durran Kelly.  What are Wireless Sensor Networks?  WSN Challenges  What is a Smartphone Sensor Network?  Why use such a network? 

Similar presentations

Ads by Google