International Quality

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Title: International Quality

1
Ten Essential Stepsin Implementing RFID project

Alfio Grasso
Deputy Director, Auto-ID Lab, Adelaide
General Manager, RFID Automation

2
Overview

RFID Background
RFID in Australia
Standards
Implementation
Assessment Criteria
Reader issues
Tag Issues
Data Issues
Human Issues
Privacy
Champion
RFID Solution Providers
Auto-ID Lab, Adelaide
Australasian Adoption Research Initiative (AARI)
Conclusions

3
RFID Background
4
RFID

Radio Frequency Identification
Automatic Data Capture
Uses RF to communicate
Basic Elements
Tags
Readers/Antennas
Host CPU

5
Tag reading
The black spot
Reader Tx typically 1W, 6dB gain Antenna But
propagation loss, resulting Rx at Tag typically
µW On tag, RF energy used for DC power and
modulation More loss back to Reader Rx Therefore
a very weak reply is obtained
6
RFID Systems

Tags
Attached to objects or items
Contains electronics (chip), and antenna
Most are passive (no power source)
Active tags have a battery
Readers
Contains electronics, Tx, Rx and control
Connected to antenna(s), mostly external
Energise tags (passive tags)
Commands tags (wake up active tags, enables
management of the tag population)
Receive tag replies

7
Examples
8
Gen 2
9
Host CPU

Application
Do something with the tag information
Potential to generate massive amounts of data
Once installed it costs virtually NOTHING to read
a tag!
Real time data gt real time decisions
OHIO (Zero Human Involvement Operations)
Term defined by John Greaves, CHEP International

10
RFID in Australia
11
RFID in Australia closed loop

Vehicle Identification
Passenger and commercial vehicles
Rail
Passenger, Sugar, Minerals, Steel
Waste Management
Domestic and Industrial
Access Control
Time and Attendance, Vehicle
Manufacturing
Library

12
Electronic Toll Collection
13
Extended Read Range
14
Vehicle ID, Sugar Industry
Photos courtesy of Mirrabooka Systems
15
Steel Production
16
Hot-Axle Detection and RFID
Photo courtesy of Sugar Research Institute
17
Location ID
18
Location ID
19
Industrial Waste Management
20
Domestic Waste Management
21
Manufacturing
Photo taken at Hendersons Automotive Technologies
Pty Ltd
22
Library
Photos courtesy of the National Library Board
Singapore
23
Warehouse Management
Photo taken at Carlton United Beverages
24
Warehouse Management
Photo taken at Carlton United Beverages
25
Warehouse Management
26
Paper Roll Identification
27
Vehicle Manufacture
28
Intelligent Tomatoes
29
Standards

EPCglobal
ISO
Regulatory

30
EPCglobal structure
31
Technical Action Groups

Gabriel Philips covered all EPCglobal Standards
HAG
C1G2, Conformance
SAG
Reader Protocol
Reader Management
FilteringCollection
Object Name Service
Security
EPCIS
Capture, Repository, Query
Tag Data
Standards Translation

32
(No Transcript)
33
ISO Standards
34
RF Regulations

Regulators
Classify RFID as Industrial, Scientific and
Medical use
ISM bands
125-134 kHz (ISO 18000-2)
13.56 MHz or HF (ISO 18000-3)
433 MHz (ISO 18000-7)
860 to 960 MHz or UHF (ISO 18000-6)
2.45 GHz (ISO 18000-4)
5.8 GHz (no ISO standard)

35
Other RFID Standards

ISO_IEC_18000-1
Reference architecture and definition of
parameters to be standardized
ISO_IEC_TR_18001
Application requirements profiles
ISO_IEC_18046
RFID Tag and Interrogator Performance Test
Methods
ISO_IEC_TR_18047-2
Test methods for air interface communications
below 135 kHz
ISO_IEC_TR_18047-3
Test methods for air interface communications at
13,56 MHz
ISO_IEC_TR_18047-4
Test methods for air interface communications at
2.45 GHz
ISO_IEC_TR_18047-6
Test methods for air interface communications at
860 to 960 MHz
ISO_IEC_TR_18047-7
Test methods for air interface communications at
433 MHz
ISO_IEC_19762
Harmonised Vocabulary
ISO_IEC_24710

36
Other Relevant ISO Standards

ISO_IEC_15418
EAN/UCC Application Identifiers and Fact Data
Identifiers and Maintenance
ISO_IEC_15424
Data Carrier Identifiers (including Symbology
Identifiers)
ISO_IEC_15434
Transfer syntax for high capacity ADC media
ISO_IEC_15459-Parts 1,2 3
Unique identification of transport units
Part 1 General
Part 2 Registration procedures
Part 3 Unique Item Identification for Supply
Chain Management
ISO_IEC_15961
Data protocol application interface
ISO_IEC_15962
Data protocol data encoding rules and logical
memory functions
ISO_IEC_15963
Unique identification for RF tags

37
EPCglobal submission to ISO

EPCglobal submitted C1G2 V1.0.9 to ISO
PDAM to 18000-6 issued 26 Feb 2005
Preliminary Draft Amendment
C1G2 will be 18000-6 Type C
PDAM Ballot Resolution Meeting
Singapore, 7 June 2005
174 comments resolved
New FPDAM released
15 July 2005
FPDAM Ballot resolution Meeting
Klagenfurt, Austria, 30 November 2005

38
Regulatory Standards
39
UHF

The UHF tags will be able to be read by readers
operating within 860 960 MHz range.
The readers will be restricted to a small subset
of this range depending on where in the world
they are being operated.
There are also regulations on the amount of power
emitted by the readers depending on where the
readers are being used.
Therefore, a tag may be applied to an item and
shipped anywhere in the world, but a reader has
to be specifically set up for the region or
country

40
Map of the ITU regions
41
ITU Region 1 (EU and Africa)EN300-220 EN302-208

CEPT countries
869.4 - 869.65 MHz 500mW erp DClt10
865.6 - 867.6 MHz 2W erp LBT
South Africa
869.4 - 869.65 MHz 500mW erp
915.2 - 915.4 MHz 8 W eirp
Note all of the above operate in lt 250kHz
channels

42
ITU Region 2 (Americas)FCC Part 15.247

USA, Canada and Mexico
902 - 928 MHz 4W EIRP FHSS, 500kHz wide
channels permitted relaxed emission
requirements within the whole band.
Central South America
Generally similar to North America but varies
from country to country.

43
ITU Region 3 (Asia)

Australia
918 - 926 MHz 1W EIRP
920 926 MHz 4W EIRP
Experimental
Strict conditions apply
New Zealand
864 - 868 MHz 4W EIRP
Elsewhere in Asia
Generally follow CEPT some exceptions below
China 917 to 922 2W ERP
Hong Kong 865-868 2W ERP 920-925 4W EIRP
Japan 952 - 954 MHz 4W EIRP (licensed)
Malaysia 919-923 MHz, 2W ERP
Singapore 866-869 MHz 0.5W ERP 923-925 2W ERP
(licence)
South-Korea 910 914 MHz
Taiwan 922-928 1W ERP (indoor) 0.5W (outdoor)

44
Implementation Plan
45
Implementation Plan

Define your RFID implementation metrics
Compliance
Reduce Inventory
Stock Visibility
Reduce Costs
Increase asset utilisation
Reduce shrinkage
Reduce/eliminate shipping errors
Consider existing infrastructure
Vendors
Customers

46
Plan Cont

Investigate world standards ISO or EPC
Choose frequency of operation
13.56 (HF) or 860 to 960 MHz (UHF)
Extensive pilot or test plan
Develop assessment criteria for solution
providers
Minimise scope creep!

47
Business case ROI

Create a cross functional team
Senior Executives from manufacturing, operations,
packaging, warehouse management, security and
finance
Educate the Team
Real RFID performance and expectations
Leverage the data, both internally amongst
operational departments, but eventually with
outside trading partners

Source The Road to ROI, RFID Journal Mar 2005
48
Business case ROI Cont

Identify the problems and opportunities
Resolve issues
Change to processes, packaging etc
Define the scope of the RFID deployment
Concentrate on which macro-level problem will
deliver the most benefits to the organisation
List factors within the companys control that
contribute to that macro-level problem
Narrow the scope, maybe by region, department or
area.
Consider pallet level rather than case or item

49
Business case ROI Cont

Analyse operations and processes
Itemise the business processes, quantifying
processes
Breakdown all processes, not just the clearly
inefficient ones
Prioritise Projects
Could end up with 5 to 7 RFID projects
Can the same RFID infrastructure be used for more
than 1 project?
Related projects most likely to deliver results

50
Business case ROI Cont

Assess financial impact
Benefits as well as costs
Tag and Reader costs
Installation (power, comms, antenna
infrastructure)
Operational Costs
Impact of other projects
Other projects may add to the benefits and yet
reduce costs

51
Business case ROI Cont

Sensitivity Analysis
Cost of components, tags, reader etc.
Mandates
Revisit the business case regularly
As with any plan, review and re-evaluation is key
to its success
Report progress

52
Solution Providers

Evaluate Solution Providers
Tag Manufacturers
Reader Manufactures
IT infrastructure
Installation
Commissioning
Maintenance
Upgrades

53
IT Impacts

IT System impacts
Interface to existing system, or new system!
Accuracy of that data
Accumulation of much more data
Decision processes with that data, making the
data USEFUL!

54
RF Issues

RFID issues in your environment
RF Interference
LAN, Other RFID Readers, EMI, Bluetooth, 802.11
Metal
Moisture
Allow time for experimentation
Expansion
Scope creep or leverage
Duplication

55
RF Issues Cont

RFID Design
Hardware Systems
Fixed or portable RFID readers?
Portable not OHIO (that is not automatic)!
Business processes
Simulation?
RFID Friendly Assets
As infrastructure is upgraded plan on using RF
friendly assets, even if not implementing RFID

56
Purchase/Deploy

Equipment Supply
Development
Manufacture lead times
Engineering work and preparation
Deployment of infrastructure
Readers and Antennas
IT Systems
Ancillary equipment

57
Purchase/Deploy

Tags
Supply
Initialisation (EPC code and data)
Database update
Installation
Verification
Training
Employees, Managers, IT development

58
Integration

Integration into IT systems
Database design
Scalability
New/Existing
Interim period
Exceptions, when no tag applied!
Evaluation of performance
Fine adjustments
Upgrade path

59
Integration Cont

Other partners
Suppliers
Customers
Competitors
Finally Rollout
Duplicate (other sites, divisions)
Expand (RFID applications)
Leverage (RFID infrastructure)

60
When to tag?
Source Deploying RFID with varying levels of
Back-end Systems Integration, Ellen Boerger RFID
Director NCR Corporation
61
Gradual Ramp-Up

Tagging philosophy changes over time.
Tag_at_ship, No Integration with IT Systems
Slap Ship, incur cost but no benefit!
Tag_at_ship, WMS Export and Offline System
Good for low volume, offline system minimises IT
Tag_at_ship, Semi-automated WMS Integration
Online integration with WMS, but manual
operations for some tagging steps, i.e.
programming, application /or verification
Tag_at_pick/Tag_at_receive
Verify at ship
Tag_at_source
Verify at receive, pick, ship
Tag_at_vendor
mandate

62
(No Transcript)
63
Assessment Criteria

Range of Hardware
Tags, Readers, Volume, Vendors, Standards,
Frequency, Host platforms, Ancillary equipment,
Upgrades, Expansion
Range of IT Solutions
Integration into legacy systems
Privacy
Expansion
Services
Global or Local
Site Inspection, Design, Installation,
Commissioning, Maintenance
Partner networks (hardware, middleware)

64
Assessment Criteria Cont

Relevant experience in your industry
Testing
ISO 18047-X Conformance Test Methods
ISO 18046 Performance Test Methods
EPCglobal (Gen 2 V1.0.2) Conformance Test Methods
EPCglobal Certification
Vendor test Facility
Testing your products in your installation(s)
Development/Customisation
Tags and Readers, ancillary sensors
Packaging, Cost, IP issues
Maintenance

65
Reader Issues

Reader location is important, but local
Antenna
Tunnel/Portal (multiple antennas)
Circular Vs Linear
Host Interface, online
Remote restart
Alarm/alerts/Heartbeat
Self diagnostic tests
Upgrades

66
Portal
67
Shielding
Photo courtesy of RFID Journal
68
RF Friendly
69
Neatness Counts!
70
Temporary Conditions
71
Location Location Location

Tag location will be crucial for performance
Want global use for product/tag life
Optimal location for RF Tag may not be the same
as the location for a human readable tag/label
Consider composition of the object
If lots of metal, then look for gaps!
Metal surface can be used to extend the read
range ?/4
Life time environmental exposure

72
Location
Photos courtesy of RFID Journal
73
Courtesy Auto-Id Lab Cambridge
74
Process flow

Consider a change to the process flow
How package is handled, stored and pallet stacked
Change packaging to be RFID friendly
Test tag after application
Metal, moisture, damage
Consider alternative technologies/methods to get
100 reads
Process when items are Single units
Aggregation/Association

75
Single Items
Source RFID Pilot Trial Learnings -
Georgia-Pacific
76
Source RFID Learning RFID Learnings Wal Wal-Mart
77
Association/Verification at stretch-wrap
Source Supply Chain improvement through
EPC/RFID- DHL/Deutsche Post
78
100
Source Compensating for less than 100 case Read
Rates, Joe Doran (The Gillette Co.)
79
Data

RFID data
Once installed, no real additional cost to read a
tag
Sensor data
Temperature, Weight, etc
Middleware (Savants) filters/concentrators
RFID enabled enterprise applications
Database maintenance
Legacy data
Accuracy of data
Exchange data with partners
Vendors and Customers
UCCnet Global Registry
Scalable

80
Human Issues

Privacy
Establish a privacy committee
Consider all users, employees, contractors,
customers, vendors, supply chain personnel
Employees
Explanation
Efficiency, bottom line benefits
Training

81
Privacy - Definition

The interest that individuals have in
sustaining a personal space free from
interference by other people and organisations

Source Roget Clarke of the ANU
82
Privacy - Threats

Association
Personal identity associated with one or more
tags
Transaction
Identity associated with a transaction, even if
paying with cash
Inventory
Reading the tags/hence items on your person
Location
Identifying the location of tagged objects
Preference
Marketers generating a profile based on tagged
goods

Source RFID and the Law John OCallaghan,
Impetus 2005
83
FIP

Fair Information Practices
Origins back to 1973
4 Principles
Notice
Choice
Access
Security

84
Privacy Issues

However, FIP does not go far enough for RFID
Several High Profile RFID trials/tests had to be
withdrawn
Benetton
The InClass RFID system deployed in and local
school in Sutter, California
In 2003 Marks Spencer
Consulted multiple groups
Addressed concerns BEFORE deployment

Source http//wired-vig.wired.com/news/privacy/0
,1848,66554,00.html
85
Privacy

Develop a Privacy Policy and ENFORCE IT!
Engage consumer groups BEFORE implementation
Educate Users
Adverts, Pamphlets, Posters, Internet, Toll free
line.
Disclose the use of RFID
Tags and Readers
Not only the tagged goods, but also the presence
of readers
Consumer acceptance of reader locations
But if hidden readers are used, consumer trust
could be shattered!
EPCglobal Logo
More printed info on the label
Web address for more information

Source Privacy Profits, RFID Journal July 2005
86
Privacy Cont

Inform on the Use of RFID
Even if you are not using RFID, but goods, boxes
etc may come into your facility, tell the
consumer.
Educate/Inform Staff
Management
Public relations
Store personal, in contact with consumers
Direct to customer service or website
Dont write personally identifiable information
to the TAG
Contradiction of FIP
Illegal under the European Unions Directive on
Privacy and Electronic Communication

87
Privacy Cont

Secure the data and limit what you collect
Apply the same level of security to EPC data as
one would apply to any customer data.
Avoid associating the EPC number with the person
purchasing the item.
No clear benefit in knowing what unique item is
being purchased by an individual

88
Privacy Cont

Choice
Kill or remove
Dont tie returns to having an active (working)
tag
Still have discounts and participate in loyalty
programs, even if they choose to kill the tag.
Opt in or Opt out
Do consumers opt in , or do they have to opt out.
Opt in is safer as the consumer has made a
positive choice
Consumer to have the right to view any
information stored about them.
Correct if wrong, or delete
Consumers to have the right to choose to share
that information with 3rd Parties

89
Privacy Cont

Keep Privacy policy up to date
Reflect changes in technology, processes
Reassess the communication strategy to keep
consumers informed

90
Champion

Approval from the TOP
Realistic Expectations
Start small but think big
Small enable fine adjustments (experiment)
Big so as to leverage RFID throughout the
business
Dont oversell
External/Internal expertise
Partner with both suppliers and customers
Possible change to business processes
Other infrastructure
Sensors, EAS, anti-counterfeit, engineering
Periodic assessment

91
C1G2 Features

Tag must be able to communicate from 860 MHz to
960 MHz
Tags must understand 3 different modulation
schemes
Double Sideband Amplitude Shift Keying DSB-ASK
Single Sideband Amplitude Shift Keying SSB-ASK
Phase Reversal Amplitude Shift Keying PR-ASK
Coding is by Pulse Interval Encoding (PIE)
TgtR data rates 40, 80, 160, 320 and 640 kbits
Selection
Access Kill Passwords
EPC up to 256 bits
Dense reader channelised signalling

92
Inventory

Reader Talks First
Sets up communication parameters, defines a round
Round Size (Q value), slots are numbered from 0
to 2Q-1
Tags select a slot within a round to offer a
reply

93
Replies
94
Associations

Auto-ID Lab, Adelaide
autoidlab.eleceng.adelaide.edu.au/
RFID Automation (contract research)
www.rfidautomation.org
Australasian Adoption Research Initiative
alf_at_rfidautomation.org
EPCglobal Australia
www.ean.com.au/services/epcglobal/_epcglobal.asp
GS1 Australia
www.gs1au.org

95
Web

Subscribe to online publications
Journals, Newsletters, Manufacturers, Industry
Associations
Favourites
http//www.rfidjournal.com/
http//www.hightechaid.com/
http//www.abiresearch.com/reports/RFID.html
http//www.rfidtalk.com
Other sources
http//members.surfbest.net/eaglesnest/rfid_mfg.ht
m

96
RFID newshttp//www.umd.com.au/rfid/links_rfid_ne
ws.html
97
RFID Solution Providers (alphabetical order)

Alien Technologies
www.alientechnology.com
Bar Code Data Systems (BCDS)
www.bcds.com.au
Datanet
www.data.net.au
Electro-com
http//www.electrocom.com.au/
Global Licensing Innovation
www.glandi.com
IBM
http//www.ibm.com

98
Cont

iCrystal
www.icrystal.com.au
Intermec
http//www.intermec.com
Magellan Technology
www.magtech.com.au
Mirrabooka Systems
gary_at_mirrabook.com
Radio Terminal Systems
www.radterm.com.au

99
Cont

Sunshine Technologies
www.sunshinetechnologies.com.au
Symbol Technologies
http//www.symbol.com/category.php?category18
Tyco/Sensormatic
http//www.sensormatic.com/home.asp
Unique Micro Design (UMD)
http//www.umd.com.au/rfid/
UPM Rafsec
www.rafsec.com

100
Adelaide, Auto-ID Lab

Contract Research via RFID Automation

101
Background

Established in 2002 by the Auto-ID Center, at the
Massachusetts Institute of Technology (MIT)
One of 7 Auto-ID Labs around the world
Others are in UK, USA, Japan, China, Switzerland
and Korea
Now partially funded by EPCglobal Inc
Contract Research available at the Auto-ID Lab,
Adelaide

102
Auto-ID Lab, Adelaide

Core Research
Applied Research
Integration
Applications
Technical Services
Education

103
Research Projects

The design of cost effective and small footprint
tag antennas, suitable for attachment onto metal
surfaces.
Interference studies in high density reader
environments.
Electromagnetic propagation studies applicable to
European Regulations
High security authentication tags
Dual frequency tags, ones that employ UHF
techniques for supply chain applications and then
HF for item management applications.
Passive RFID chip design (modules for
implementation)
Analysis and measurement of new forms of reader
to tag signalling

104
Research Projects Cont

Analysis of measuring equipment, i.e.
understanding the test regulations with respect
to the forms of signalling employed by RFID
readers
Analysis and development of reader architectures
Autonomously networking tags (Class IV)
Trigger circuits for battery assisted tags.
An analysis of noise sources in RFID readers
Universal Class 2 tags
Filters that may be required to reduce spurious
emissions (Japan and Australia)
The use of LF RFID in applications where HF and
UHF may not provide an adequate RFID solution,
such as in granular media.
Merged EAS and RFID tag

105
Contract Research

Available via RFID Automation
Separate from the EPCglobal funded work
Commercial Infrastructure
Adelaide Research Innovation Pty Ltd
Intellectual Property Protection

106
Australasian Adoption Research Initiative

Established in April 2005
Mechanism for the Auto-ID Lab, Adelaide to
conduct research into RFID that is relevant to
Australian and New Zealand industry.
Foster adoption of the RFID technology being
developed by EPC Global.
Enables participation by companies across a broad
range of industries and applications, to network
and gain access to the wealth of expertise and
experience in RFID.
Act as Industry Reference Group for the adoption
of RFID including consultation and advice to SMEs
and Governments.

107
Benefits of membership

Opportunity to input into the direction of
research programs
Access to hosted visits at the Labs
Invitations to industry networking meetings
designed to
keep you informed of key technical and management
issues and industry developments
enable you to meet your peers in an informal
setting (usually over dinner at a university
site) to facilitate business relationships
Access to technology advances through regular
activity reports issued by the Lab
Receive notices of specialist RFID related
seminars
Receive periodic reports on EPCglobals HAG and
SAG action groups
Priority access to personnel at Auto ID Labs
Adelaide as well as access to extensive test
equipment on agreed basis
Ability to access information on RFID vendors and
solution providers and have the ability to check
their compliance statements
Customised meetings arrange presentations
seminars and laboratory visits for members in
response to requests for university research
contacts