Smart Card File System (ISO 7816-4) - PowerPoint PPT Presentation

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Smart Card File System (ISO 7816-4)

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... The antenna captures the tag ID number...first as analog RF waves, then it is ... Are All Tags The Same? Basic Types: Active. Tag transmits radio signal ... – PowerPoint PPT presentation

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Title: Smart Card File System (ISO 7816-4)


1
Smart Card File System (ISO 7816-4)
2
Smart Card File Names (ISO 7816-4)
Reserved FIDs 3F00 MF root directory 0000 EF
PIN and PUK 10100 EF PIN and PUK 2 0001 EF
application keys0011 EF management keys 0002
EF manufacturing info0003 EF card ID
info0004 EF card holder info0005 EF chip
info 3FFF file path selection FFFF reserved for
future use
3
Smart Card Internal File Structure
  • Header file structure info, access control
    rights, pointer to data body
    content changes never or seldom, protected from
    erasure
  • Body data, content might change often, many
    write operations

4
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5
MULTOS
  • A high security architecture
  • Apps needing high security can reside next to
    apps needing low security
  • Co-residence of multiple, inter-operable,
    platform independent applications
  • Dynamic remote loading and deletion of
    applications over the lifetime of a card
  • Achieved using the language MEL (MULTOS
    Executable Language)

6
PC/SC
  • Architecture designed to ensure the following
    work together even if made by different
    manufacturers
  • smart cards
  • smart card readers
  • computers
  • Differs from OpenCard because it offers API
    interoperability rather than uniform API
  • Designed for Windows environment with development
    in Visual C

7
Java card
  • The Java Card specifications enable Java
    technology to run on smart cards and other
    devices
  • Multi-Application Capable
  • - Java Card technology enables multiple
    applications to co-exist securely on a single
    smart card
  • Dynamic
  • - New applications can be installed securely
  • Secure
  • - relies on the inherent security of the Java
    programming language to provide a secure
    execution environment.
  • - platform's proven industry deployments and
    security evaluations ensure that card issuers
    benefit from the most capable and secure
    technology available today.

8
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9
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10
How can the SMART card help in new channels?
11
Proprietary Smart Card Operating Systems
  • Proprietary Chip OS developed in native code -
    specific to underlying silicon - to access chip
    functions. OS often dedicated to performing a
    single specific function e.g. EMV

Data
Data
Data
Data
E2
E2
ROM
ROM
  • OS code is fixed in the ROM of the chip, and
    cannot be changed after the chip is made.

Chip Hardware A
Chip Hardware B
  • Limited number of programmers able to make
    adaptations to proprietary OS impact on time to
    market if changes / new functions required.
  • In order to multi-source silicon, native code
    must be redeveloped from scratch for new chip.

Chip Hardware A
Chip Hardware B
12
KILLER Applications
13
Operating System Options
Logical Physical Access
WIM SIM
Loyalty E-Purse
Credit/Debit
Open Platform (Card Manager Security Domain) API
MULTOS by Mondex International and MAOSCO Council
Windows for Smart Card by Microsoft and Global Pla
tform
Java Card by Sun Micro and Global Platform
or
or
Multos
14
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15
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16
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17
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18
Proximity Solutions for MULTOS
  • 2 types of MULTOS Dual-Interface cards
    supporting communication with the chip via both
    the contact plate and the contactless interface
    based on Proximity Standard - ISO 14443
  • Hitachi/DNP Contactless MULTOS 36K EEPROM, Type
    B contactless interface, Available now
  • Supports both versions of Paypass transaction
    (contactless M/Chip 4, or Contactless Track 2
    data) and in fact can execute ANY existing MULTOS
    application over the contactless interface.
  • Keycorp / Philips Contactless MULTOS, 16K
    EEPROM, MIFARE Type A contactless interface,
    Prototypes available now
  • Supports Mifare ticketing only. Full contactless
    MULTOS application execution planned for Q3 2004

250K issued for Japan Residential ID card
19
Smart Card Corporate ID E-Purse
Multi-application system
20
Smart toolz File creation utility
21
What is RFID?
  • RFID is an ADC technology that uses
    radio-frequency waves to transfer data between a
    reader and a movable item to identify,
    categorize, track...
  • RFID is fast, reliable, and does not require
    physical sight or contact between reader/scanner
    and the tagged item

22
What is RFID
  • Tag enters RF field
  • RF signal powers tag
  • Tag transmits ID, plus data
  • Reader captures data
  • Reader sends data to computer
  • Computer determines action
  • Computer instructs reader
  • Reader transmits data to tag

Radio Frequency Identification
Label (Transponder)
Reader/Antenna (Interrogator)
Computer
23
RFID Primer
  • RFID Diagram

Antenna
RF Module
Reader
Host Computer
Note The host is the software database...
24
RFID Primer
Antenna
RF Module
Reader
Host Computer
Note The RF module creates radio frequency (RF).
It receives and transmits RF through the antenna
25
RFID Primer
Antenna
RF Module
Reader
Host Computer
Note The RF module creates radio frequency (RF).
It receives and transmits RF through the antenna
26
RFID Primer
Antenna
RF Module
Tag
Reader
Host Computer
Note Tag (transponder) is interrogated by the
antenna....
27
RFID Primer
(Tag ID Communication)
Antenna
RF Module
Tag
Reader
Host Computer
Note The antenna captures the tag ID
numberfirst as analog RF waves, then it is
converted to digital information.
28
An RFID Tag Is A Portable Database
Interrogation Unit
Micro
Tag
Antenna
Tx/Rx
Computer
Computer Network
  • A sophisticated computing and communications
    device
  • A wireless extension of Information Systems

29
What is RFID? -- The Tags
  • Tags can be read-only or read-write
  • Tag memory can be factory or field programmed,
    partitionable, and optionally permanently locked
  • Bytes left unlocked can be rewritten over more
    than 100,000 times

30
What is RFID? -- The Tags
  • Tags can be attached to almost anything
  • pallets or cases of product
  • vehicles
  • company assets or personnel
  • items such as apparel, luggage, laundry
  • people, livestock, or pets
  • high value electronics such as computers, TVs,
    camcorders

31
Are All Tags The Same?
  • Basic Types
  • Active
  • Tag transmits radio signal
  • Battery powered memory, radio circuitry
  • High Read Range (300 feet)
  • Passive
  • Tag reflects radio signal from reader
  • Reader powered
  • Shorter Read Range (4 inches - 15 feet)

32
Are All Tags The Same?
  • Variations
  • Memory
  • Size (16 bits - 512KBytes )
  • Read-Only, Read/Write or WORM
  • Type EEProm, Antifuse, FeRam
  • Arbitration (Anti-collision)
  • Ability to read/write one or many tags at a time
  • Frequency
  • 125KHz - 5.8 GHz
  • Physical Dimensions
  • Thumbnail to Brick sizes
  • Price (0.50 to 250)

33
Types of Tags - Memory Segmentation
  • Read Only (Factory Programmed)
  • WORM - Write Once, Read Many times
  • Reprogrammable (Field Programmable)
  • Read/Write (In-Use Programmable)

34
What is RFID? -- The Readers
  • Readers (interrogators) can be at a fixed point
    such as
  • Entrance/exit
  • Point of sale
  • Warehouse
  • Readers can also be mobile -- tethered,
    hand-held, or wireless

35
lt150 kHz (125 kHz 134 kHz )
  • Advantages
  • Uses normal CMOS processing basic and
    ubiquitous
  • Relative freedom from regulatory limitations
  • Well suited for applications requiring reading
    small amounts of data at slow speeds and
    minimal distances
  • Penetrates materials well (water, tissue, wood,
    aluminum)

36
lt150 kHz (125 kHz 134 kHz )
  • Disadvantages
  • Does not penetrate or transmit around metals
    (iron, steel)
  • Handles only small amounts of data
  • Slow read speeds
  • Large Antennas -- compared to higher frequencies
  • Minimal Range

37
lt150 kHz (125 kHz 134 kHz )
  • Disadvantages
  • Tag construction
  • is thicker (than 13.56 MHz)
  • is more expensive (than 13.56 MHz)
  • more complex (requires more turns of the
    induction coil)

38
RFID PrimerFrequencies
RFID Smart Cards
  • Inductive Magnetic
  • Field Coupling
  • 13.56 MHz
  • (Popular Smart Card
  • Frequency)

Mid. Freq. EAS
AM
CB
10 MHz
1 MHz
39
13.56 MHz
  • Advantages
  • Uses normal CMOS processing--basic and ubiquitous
  • Well suited for applications requiring reading
    small amounts of data and minimal distances
  • Penetrates water/tissue well
  • Simpler antenna design (fewer turns of the coil)
    lower costs to build
  • Higher data rate (than 125 kHz--but slower than
    higher MHz systems)
  • Thinner tag construction (than 125 kHz)

40
13.56 MHz
  • Disadvantages
  • Government regulated frequency (U.S. versus
    Europe)
  • Does not penetrate or transmit around metals
    (unless very thick)
  • Large Antennas (compared to higher frequencies)
  • Larger tag size than higher frequencies
  • Tag construction requires more than one surface
    to complete a circuit
  • Minimal Range

41
Bar Codes vs. RFID
42
RFID Applications
  • Petrol Service Stations
  • In Singapore, the Mobil petrol service stations
    has already introduced RFID technology to
    implement their Speed Pass system to enable
    drivers to fill up the petrol and drive away.
    All information will be gathered automatically
    through RFID smart tags and customers bills can
    be settled through GIRO.

43
RFID Application in Petrol Service Station

44
RFID Application in a Factory Canteen
  • In the video, it is very interesting to notice
    that in the factory canteens environment, RFID
    tags are attached at the bottom of the plates to
    identify the cooked food and its price.
  • The staff of the factory need only to pick up the
    food on the tray and place the tray on top of a
    RFID reader.
  • The RFID reader will identify the products and
    its price. The staff need only to place the cash
    card to pay for the food.
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