Presentation is loading. Please wait.

Presentation is loading. Please wait.

Introduction to Wireless Sensor Networks

Published byBetty Day Modified over 8 years ago

Similar presentations

Presentation on theme: "Introduction to Wireless Sensor Networks"— Presentation transcript:

1 Introduction to Wireless Sensor Networks

2 Wireless Sensor Networks (WSNs)
Many simple nodes with sensors deployed throughout an environment Sensing + CPU +Radio = Thousands of Potential Applications Ref. [Introduction_1] p

3 Ref. [Introduction_1] p. 102 - 105
WSN Applications Indoor/Outdoor Environmental Monitoring Habitat Monitoring Structural Monitoring Precision Agriculture Triggered Events Detection/Notification Military Applications Battlefield Surveillance Health Monitoring Ref. [Introduction_1] p

4 Some Existing Applications
Create a macroscope Deployed on Redwood Trees Great Duck Island Tracking zebra Monitor volcanic eruptions

5 Operational Challenges of Wireless Sensor Networks
Energy Efficiency Limited storage and computation Low bandwidth and high error rates Errors are common Wireless communication Noisy measurements Node failure are expected Scalability to a large number of sensor nodes Survivability in harsh environments Experiments are time- and space-intensive Ref. [Introduction_1] p

6 Characteristics of Wireless Sensor Networks
Limited in Energy Computation Storage Transmission Range Bandwidth Characteristics Self-organize Random Deployment Cooperating Local Computation Ref. [Introduction_1] p

7 Enabling Technologies
Embed numerous distributed devices to monitor and interact with physical world Network devices to coordinate and perform higher-level tasks Embedded Networked Exploit collaborative Sensing, action Control system w/ Small form factor Untethered nodes Sensing Tightly coupled to physical world Exploit spatially and temporally dense, in situ, sensing and actuation

8 Hardware Constraints Power, size, and cost constrained Small memory
Slow clock cycles of microcontroller

9 One Example Sensor Node - MicaZ Mote
Developed at UC Berkeley Fabricated by Crossbow Inc. Integrated Wireless Transceiver CPU MPR2400, based on Atmega128L 8MHz Memory 4KB of primary memory (SRAM) 128KB of program space (ROM) 512KB Flash Memory Transmit Data Rate 250kbps Transmission Range Outdoor: 75m – 100m Indoor: 20m - 30m Frequency Band 2.4GHz

10 I/O Sub-System The I/O subsystem interface consists of a 51-pin expansion connector eight analog lines, eight power control lines, three pulse-width-modulated lines, two analog compare lines, four external interrupt lines, an I2C-bus from Philips Semiconductor, an SPI bus, a serial port, a collection of lines dedicated to programming the microcontrollers. expansion connector [hardware_1] Page 17

11 One Example Sensor Board - MTS310

12 One More Example of Sensor Board - MTS400/420
Besides the functions of MTS 300, it mainly adds GPS functionality Example GPS Reading

13 Hardware Setup Overview

14 Programming Board (MIB520)

15 TelosB

16 TelosB Architecture [Energy_1]: Figure 2

17 Typical WSN Platforms Ref: [TinyOS_1]: Table 1

18 One Proposed WSN Functional Layer Decomposition
Ref: Fig. 1.1 of J. Polastre Dissertation:

19 Architecture to Build WSN Applications
Ref: Fig. 2.1 of J. Polastre Dissertation:

Download ppt "Introduction to Wireless Sensor Networks"

Similar presentations

A. Romano G.Lipari P.Pagano M.Chitnis

A. Romano G.Lipari P.Pagano M.Chitnis
C TinyOS Platforms Panel: MICAz1UC Berkeley / Feb 11, 2005 Basic Anatomy of a Crossbow Node.

C TinyOS Platforms Panel: MICAz1UC Berkeley / Feb 11, 2005 Basic Anatomy of a Crossbow Node.
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
6LoWPAN Extending IP to Low-Power WPAN 1 By: Shadi Janansefat CS441 Dr. Kemal Akkaya Fall 2011.

6LoWPAN Extending IP to Low-Power WPAN 1 By: Shadi Janansefat CS441 Dr. Kemal Akkaya Fall 2011.
Decentralized Reactive Clustering in Sensor Networks Yingyue Xu April 26, 2015.

Decentralized Reactive Clustering in Sensor Networks Yingyue Xu April 26, 2015.
Presented by : Poorya Ghafoorpoor Yazdi Eastern Mediterranean University Mechanical Engineering Department Master Thesis Presentation Eastern Mediterranean.

Presented by : Poorya Ghafoorpoor Yazdi Eastern Mediterranean University Mechanical Engineering Department Master Thesis Presentation Eastern Mediterranean.
Introduction to Wireless Sensor Networks

Introduction to Wireless Sensor Networks
CSE 5392By Dr. Donggang Liu1 CSE 5392 Sensor Network Security Introduction to Sensor Networks.

CSE 5392By Dr. Donggang Liu1 CSE 5392 Sensor Network Security Introduction to Sensor Networks.
Wireless Sensor Networks: An overview and experiences. Matthew Grove PEDAL Seminar Series, January 9th 2008.

Wireless Sensor Networks: An overview and experiences. Matthew Grove PEDAL Seminar Series, January 9th 2008.
TOSSIM A simulator for TinyOS Presented at SenSys 2003 Presented by : Bhavana Presented by : Bhavana 16 th March, 2005.

TOSSIM A simulator for TinyOS Presented at SenSys 2003 Presented by : Bhavana Presented by : Bhavana 16 th March, 2005.
The Mote Revolution: Low Power Wireless Sensor Network Devices

The Mote Revolution: Low Power Wireless Sensor Network Devices
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.
Mica: A Wireless Platform for Deeply Embedded Networks Jason Hill and David Culler Presented by Arsalan Tavakoli.

Mica: A Wireless Platform for Deeply Embedded Networks Jason Hill and David Culler Presented by Arsalan Tavakoli.
Surrey Space Centre, University of Surrey, Guildford, Surrey, GU2 7XH ESA Wireless Sensor Motes Study George Prassinos, SSC, University of Surrey.

Surrey Space Centre, University of Surrey, Guildford, Surrey, GU2 7XH ESA Wireless Sensor Motes Study George Prassinos, SSC, University of Surrey.
Wireless Sensor Network. A wireless sensor network (WSN) is a wireless network consisting of spatially distributed autonomous devices using sensors to.

Wireless Sensor Network. A wireless sensor network (WSN) is a wireless network consisting of spatially distributed autonomous devices using sensors to.
CS526 Wireless Sensor Networks Instructor: KD Kang.

CS526 Wireless Sensor Networks Instructor: KD Kang.
Agenda 1. Background/vocabulary of WSNs, wireless sensor networks 2. Some applications of WSNs 3. Components of a WSN 4. Setting up a WSN with local mote.

Agenda 1. Background/vocabulary of WSNs, wireless sensor networks 2. Some applications of WSNs 3. Components of a WSN 4. Setting up a WSN with local mote.
Wireless Sensor Networks for Habitat Monitoring Jennifer Yick Network Seminar October 10, 2003.

Wireless Sensor Networks for Habitat Monitoring Jennifer Yick Network Seminar October 10, 2003.
Intel ® Research mote Ralph Kling Intel Corporation Research Santa Clara, CA.

Intel ® Research mote Ralph Kling Intel Corporation Research Santa Clara, CA.
Wireless Sensor Networks

Wireless Sensor Networks

Similar presentations

Ads by Google