POORNIMA COLLEGE OF ENGINEERING A SEMINAR ON

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POORNIMA COLLEGE OF ENGINEERING A SEMINAR ON

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GUIDED BY: MS. SHIKHA BHARDWAJ LECTURER,ECE BY: VISHWAS MEHTA VIII SEM,ECE-B www.powerpointpresentationon.bogspot.com Thank you for your attention! 41 Technological ... – PowerPoint PPT presentation

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Title: POORNIMA COLLEGE OF ENGINEERING A SEMINAR ON

1
POORNIMA COLLEGE OF ENGINEERING A SEMINAR ON
ZIGBEE

GUIDED BY
MS. SHIKHA BHARDWAJ
LECTURER,ECE

BY VISHWAS MEHTA VIII SEM,ECE-B
www.powerpointpresentationon.bogspot.com
2
WHAT IS ZIGBEE?

Technological Standard Created for Control and
Sensor Networks
Based on the IEEE 802.15.4 Standard
Created by the ZigBee Alliance

3
SENSOR/CONTROL NETWORK REQUIREMENTS

Large networks (large number of devices and large
coverage area) that can form autonomously and
that will operate very reliably for years without
any operator intervention
Very long battery life (years off of a AA cell),
very low infrastructure cost (low device setup
costs) and very low complexity and small size
Device data rate and QoS needs are low
Standardized protocols are necessary to allow
multiple vendors to interoperate

3
4
WHY ZIGBEE?

Reliable
Mesh networking
Low data-rate applications
Very long battery life
Secure
Scalable
Low cost
Global applicability

4
5
HOW DOES ZIGBEE WORK?

Engineers feel Wi-Fi and Bluetooth may be
unsuitable. This spawned the idea of digital
radio networks via direct-sequence spread
spectrum coding.
ZigBee-compliant radios may operate on one of
three different radio bands the 800 MHz, 900
MHz, or 2.4 GHz frequencies.
Follows the internationally recognized radio
standard for the MAC and PHY Layer.

6
TARGET MARKETS
?
TV
?
VCR
?
Monitors
Consumer Electronics
?
Sensors
?
DVD
Industrial Commercial
?
CD
?
Automation
?
Remote
?
Control
PC Peripherals
?
Mouse
Low Data Rate Radio Devices
?
Keyboard
Personal Healthcare
?
Joystick
Gamepad
?
?
Monitors
?
Diagnostics
?
Security
?
Sensors
Home Automation
?
PETs
?
HVAC
Toys Games
?
Gameboys
?
Lighting
?
Educational
?
Closures
7
PC And Peripherals

Desktop PCs and Home Entertainment Systems (Home
Theatre TV)
Computer peripherals
HID devices
Video conference equipment
Remote control
Video gaming equipment
Multi-player PC video games
Remote controls for audio and video equipment

7
7
8
Human Input Devices (HID)

Keyboard
Mouse / Pointing Device
Remote Controls (controls for audio video
equipment)
Gaming device
Double Joystick

8
8
9
PATIENT MONITORING
graphic

May allow more patient freedom
Monitors vital statistics and sends via internet
Patient can remain in their own home
Lowers cost and improves comfort
Can be used in hospice care
Patients are allowed greater movement
Reduced staff to patient ratio
Light way to bathroom when they get out of bed
Reduces patient confusion

graphic
1010
10
LIGHTING CONTROL

Wireless Lighting Control
Dimmable ballasts
Light switches anywhere
Customizable lighting schemes
Energy Saving on bright days

12
11
(No Transcript)
12
ZIGBEE VS BLUETOOTH
13
ZIGBEE AND BLUETOOTH
Optimized for different applications

Bluetooth
Larger packets over small network
Ad-hoc networks
File transfer
Screen graphics, pictures, hands-free audio,
Mobile phones, headsets, PDAs, etc.

ZigBee
Smaller packets over large network
Mostly Static networks with many, infrequently
used devices
Home automation, toys, remote controls, etc.

17
14
WIRELESS TECHNOLOGY COMPARISON CHART
15
ZIGBEE AND BLUETOOTH
Address Different Needs

Bluetooth is a cable replacement for items like
Phones, Laptop Computers, Headsets
Bluetooth expects regular charging
Target is to use lt10 of host power

19
16
ZIGBEE AND BLUETOOTH
Address Different Needs

ZigBee is better for devices Where the battery is
rarely replaced
Targets are
Tiny fraction of host power
New opportunities where wireless not yet used

20
17
CONCLUSION
ZigBee and Bluetooth

ZigBee targets applications not addressable by
Bluetooth or any other wireless standard
ZigBee and Bluetooth complement for a broader
solution

21
18
TOPOLOGY MODELS

Allows users to balance system cost, reliability
battery life

Mesh

Reliability
Extended Range
No Battery Life
Routing Complexity

Star

Simplicity
Low Cost
Long Battery Life
Single Point of Failure

Hybrid (Cluster Tree)
PAN coordinator
Full Function Device

Flexibility
Reliability/Range of Mesh
Battery Life of Star
Design Complexity

Reduced Function Device
24
19
ZIGBEE MESH NETWORKING
25
20
ZIGBEE MESH NETWORKING
26
21
ZIGBEE MESH NETWORKING
27
22
ZIGBEE MESH NETWORKING
28
23
ZIGBEE MESH NETWORKING
29
24
IEEE 802.15.4

IEEE 802.15.4 is a standard defined by IEEE for
low rate, wireless personal area network.
The standard defines the Physical layer and
Medium Access Layer

30
25
IEEE 802.15.4 CONTINUED

PHY- It defines low power spread spectrum radio
operating at 2.4 GHz with a basic data rate of
250 kbps
MAC -defines how multiple 802.15.4 radios
operating in the same area will share the
airwaves. The MAC supports several architectures,
including a star topology, tree topologies and
mesh topologies

31
26
THE ZIGBEE PLATFORM
End developer applications, designed using
application profiles
ZA1
ZA2

ZAn
IA1
IAn
API
UDP
Application interface designed using general
profile
ZigBee NWK
IP
Topology management, MAC management, routing,
discovery protocol, security management
802.2 LLC
MAC
Channel access, PAN maintenance, reliable data
transport
IEEE 802.15.4 MAC
IEEE 802.15.4 PHY
Transmission reception on the physical radio
channel
32
27
DATA TRANSFER MODEL
Coordinator to Device
Device to Coordinator
Beacon Enabled Mode
Non-Beacon Enabled Mode
33
28
THE 802 WIRELESS SPACE
WWAN
IEEE 802.22
IEEE 802.20
WMAN
WiMax IEEE 802.16
Range
WLAN
WiFi 802.11
ZigBee 802.15.4
802.15.3 802.15.3a 802.15.3c
Bluetooth 802.15.1
WPAN
0.01
0.1
1
10
100
1000
Data Rate (Mbps)
29
PROS AND CONS