U.S. patent application number 12/339067 was filed with the patent office on 2009-06-25 for credit, security, debit cards and the like with buttons.
This patent application is currently assigned to DYNAMICS INC.. Invention is credited to Jeffrey D. Mullen, Will Reutzel.
Application Number | 20090159703 12/339067 |
Document ID | / |
Family ID | 40787420 |
Filed Date | 2009-06-25 |
United States Patent
Application |
20090159703 |
Kind Code |
A1 |
Mullen; Jeffrey D. ; et
al. |
June 25, 2009 |
CREDIT, SECURITY, DEBIT CARDS AND THE LIKE WITH BUTTONS
Abstract
A card is provided, such as a credit card or security card, that
may transmit information to a magnetic stripe reader via a magnetic
emulator. The emulator may transmit the information in order to
reduce the amount of circuitry needed to emulate a particular block
of information. Additionally, for example, one or more buttons may
be included on the card. Buttons may be includes, for example, to
provide a control interface to navigate through various options of
the card. Additionally, coding schemes may be selected via buttons.
Furthermore, a card may be locked until a private number is entered
into a card or a number may only be generated (e.g., displayed
and/or emulated) once a particular private number is entered into a
card.
Inventors: |
Mullen; Jeffrey D.;
(Pittsburgh, PA) ; Reutzel; Will; (Pittsburgh,
PA) |
Correspondence
Address: |
JEFFREY D. MULLEN
731 SOUTH NEGLEY, APT. 2
PITTSBURGH
PA
15232
US
|
Assignee: |
DYNAMICS INC.
Pittsburgh
PA
|
Family ID: |
40787420 |
Appl. No.: |
12/339067 |
Filed: |
December 19, 2008 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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61016491 |
Dec 24, 2007 |
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61026846 |
Feb 7, 2008 |
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61027807 |
Feb 11, 2008 |
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61081003 |
Jul 15, 2008 |
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61086239 |
Aug 5, 2008 |
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61090423 |
Aug 20, 2008 |
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61097401 |
Sep 16, 2008 |
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61112766 |
Nov 9, 2008 |
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61117186 |
Nov 23, 2008 |
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61119366 |
Dec 2, 2008 |
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61120813 |
Dec 8, 2008 |
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Current U.S.
Class: |
235/493 |
Current CPC
Class: |
G06Q 30/0641 20130101;
G06K 19/07705 20130101; G06Q 30/0241 20130101; G06Q 20/18 20130101;
G06K 7/10297 20130101; G06K 19/0775 20130101; G06K 19/07773
20130101; G06Q 20/385 20130101; G07F 7/0806 20130101; G06K 7/087
20130101; G06K 9/32 20130101; G06K 19/07 20130101; G06T 2207/30004
20130101; G06K 7/084 20130101; G06Q 20/352 20130101; G06K 19/083
20130101; G06Q 20/34 20130101; G06K 19/0723 20130101; G06K 19/06206
20130101; G06K 19/07345 20130101; G06Q 30/0277 20130101; A61B
5/02042 20130101; G06Q 20/3415 20130101; G06T 7/62 20170101; G06Q
20/401 20130101; G06K 19/06187 20130101; G06K 19/07707 20130101;
G06T 2207/10024 20130101; G06K 19/07766 20130101; A61B 5/02
20130101; G06Q 20/341 20130101; G06K 7/0004 20130101; G06K 19/07703
20130101; G06K 19/07709 20130101; G06Q 20/20 20130101; G06Q 30/0222
20130101; G06K 19/0725 20130101; G06K 19/07749 20130101; G06K
19/07769 20130101; G06F 3/0488 20130101; G06K 19/0704 20130101;
G06K 9/3233 20130101; G06K 19/0702 20130101; G06K 2209/05 20130101;
G07F 7/1008 20130101 |
Class at
Publication: |
235/493 |
International
Class: |
G06K 19/06 20060101
G06K019/06 |
Claims
1. A card comprising: a plurality of buttons, wherein said
plurality of buttons receive a personal identification number; a
processor for determining whether said personal identification
number was correct; and a magnetic stripe emulator communicates a
data block of F2F encoded data after said personal identification
number was determined to be correct.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims the benefit of U.S. Provisional
Patent Application Nos. 61/016,491 filed on Dec. 24, 2007 (Docket
No. JDM/019 PROV), 61/026,846 filed on Feb. 7, 2008 (Docket No.
JDM/019PROV2), 61/027,807 filed on Feb. 11, 2008 (Docket. No.
JDM/020 PROV), 61/081,003 filed on Jul. 15, 2008 (Docket No. D/005
PROV), 61/086,239 filed on Aug. 5, 2008 (Docket No. D/006 PROV),
61/090,423 filed on Aug. 20, 2008 (Docket No. D/007 PROV),
61/097,401 filed Sep. 16, 2008 (Docket No. D/008 PROV), 61/112,766
filed on Nov. 9, 2008 (Docket No. D/009 PROV), 61/117,186 filed on
Nov. 23, 2008 (D/010 PROV), 61/119,366 filed on Dec. 2, 2008
(Docket No. D/011 PROV), and 61/120,813 filed on Dec. 8, 2008, all
of which are hereby incorporated by reference herein in their
entirety.
BACKGROUND OF THE INVENTION
[0002] This invention relates to cards such as payment and security
cards.
SUMMARY OF THE INVENTION
[0003] A card is provided, such as a credit card or security card,
that may transmit information to a magnetic stripe reader via a
dynamic magnetic communications device such as a magnetic emulator
or a magnetic encoder. The emulator may transmit the information
serially, for example, in order to reduce the amount of circuitry
needed to emulate a particular block of information (e.g., payment
information).
[0004] One or more buttons may be included on the card. Buttons may
be included, for example, to provide a control interface to
navigate through various options of the card. Additionally, coding
schemes may be selected via buttons. Furthermore, a card may be
locked until a private number is entered into a card or a number
may only be generated (e.g., displayed and/or emulated) once a
particular private number is entered into a card. Such a number may
be, for example, a dynamic credit card, security card, and/or debit
card number or other number (e.g., security code).
[0005] A card, or other device, having a magnetic emulator may take
the form of, for example, a credit card, debit card, and/or
security card. Accordingly, the dynamic information may be a
dynamic credit card number, a dynamic debit card number, and/or a
dynamic security number. A display may be provided to display the
data, or a portion of the data, communicated through an emulator.
In this manner, a credit card may be provided that includes a
display. All, or a portion of, a credit card number may, for
example, be changed periodically and displayed on the display.
Similarly, this changed information may be emulated via a parallel
or serial emulator or other dynamic magnetic communications device
(e.g., a magnetic encoder).
[0006] A dynamic magnetic communications device (e.g., magnetic
emulators and/or encoders) may be located next to one or more
magnetic stripe segments (e.g., sandwiched between two magnetic
stripe segments from a birds-eye perspective of a card). A magnetic
stripe may be utilized to transmit static information such that
power is conserved. For example, if the beginning bits of a data
block must take a particular form (e.g., start bits followed by
user identification information) then this information may be
embodied as a magnetic stripe. A serial or parallel emulator or
encoder may then be provided to communicate the remaining
information of the block (e.g., dynamic credit card number).
[0007] Numerous types of structures may be utilized to determine
when a read-head of a magnetic stripe reader is reading, or is
about to read, a magnetic stripe or dynamic magnetic communications
device. Such structures may be utilized to turn a magnetic
emulator, ON and OFF. By only turning an emulator ON when the
emulator is in the proximity of a magnetic stripe reader, power may
be conserved. For example, a button may be provided on a card, or
other device, such that a user may provide manual input to instruct
the card, or other device, to turn an emulator ON.
BRIEF DESCRIPTION OF THE DRAWINGS
[0008] The principles and advantages of the present invention can
be more clearly understood from the following detailed description
considered in conjunction with the following drawings, in which the
same reference numerals denote the same structural elements
throughout, and in which:
[0009] FIG. 1 is an illustration of cards constructed in accordance
with the principles of the present invention;
[0010] FIG. 2 is an illustration of cards constructed in accordance
with the principles of the present invention;
[0011] FIG. 3 is an illustration of cards constructed in accordance
with the principles of the present invention;
[0012] FIG. 4 is an illustration of cards constructed in accordance
with the principles of the present invention;
[0013] FIG. 5 is an illustration of process topologies constructed
in accordance with the principles of the present invention;
[0014] FIG. 6 is an illustration of cards constructed in accordance
with the principles of the present invention;
[0015] FIG. 7 is an illustration of a card constructed in
accordance with the principles of the present invention;
[0016] FIG. 8 is an illustration of a card constructed in
accordance with the principles of the present invention; and
[0017] FIG. 9 is an illustration of a personal electronic device
constructed in accordance with the principles of the present
invention.
DETAILED DESCRIPTION OF THE INVENTION
[0018] FIG. 1 shows card 100 that may include a display that may
display dynamic number 110, which may be utilized, for example, as
a credit card number or as part of a credit card number (e.g., with
a static portion of a credit card number that proceeds dynamic
number 110). Persons skilled in the art will appreciate that a
dynamic number may take any forms such as, for example, a dynamic
credit card number, a dynamic verification code number, and/or a
dynamic security code number. For example, card 100 may include a
dynamic credit card number and a dynamic verification code (e.g., a
15 digit credit card number and a 4 digit verification code or a 16
digit credit card number and a 3 digit code).
[0019] Identification information 120 may be provided on card 100.
Accordingly, for example, a dynamic number may be provided for a
particular period of time according to a coding scheme for that
particular period of time. Thus, the identification information,
time, and dynamic information may be transmitted via manual entry
of that information (e.g., through a payment information input
process on an online store) or via a magnetic emulator (e.g.,
through an in-store magnetic stripe reader). A remote server may
receive such information and verify whether the dynamic information
is correct for particular identification information and a
particular period of time. A remote server may look at particular
parts of a payment number (e.g., a static portion of a payment card
number) and may determine whether another part of that payment
number (e.g., a dynamic number) is valid for that particular part
for a particular period of time. A number, or portion of a number,
may be changed based on use (e.g., as a result of a user pressing a
button or a read-head detector determining the presence of a
magnetic stripe read-head).
[0020] Input buttons 130-139 may be provided such that manual input
may be received and processed by card 100. Manual input buttons
130-139 may be utilized in a variety of ways. For example, an
individual may be issued with a private personal identification
number (PIN) to turn the card ON and/or to activate a feature.
Thus, buttons 130-139 may be utilized to confirm that the
individual issued the card is utilizing the card and its various
features. In doing so with a credit card, for example, the amount
of fraud associated with physical card theft may be minimized.
Accordingly, a dynamic credit card number may be generated (e.g.,
coded) upon successful entry of an appropriate PIN. Additionally,
for example, manual input keys 130-139 may be used to navigate
through a list of options or initiate features. For example, button
130 may turn card 100 ON/OFF. Button 131 may turn display 110
ON/OFF. Button 132 may turn an emulator located on card 100 ON/OFF.
Persons skilled in the art will appreciate that a credit card
number may be coded based on time and transmitted with an
identification number to a verification server. In turn, the
verification server may decode the number based on time and
identification number to verify, for example, a credit card
transaction.
[0021] Card 150 may include button 160 which may, for example, be
in the form of an aperture. For example the aperture may be defined
in material 171 and may include sensors 172 to 173 to determine if
a user presses around the aperture. Accordingly, a person pinching
the aperture with two fingers may cause an electrical connection
between sensors 172 and 173 via the skin of two fingers touching
via the aperture. Accordingly, for example, pinching may result in
the recognition of the activation of a button while just touching
one side may not cause the activation of a button. In doing so, the
number of times a button may become active by accident (e.g., while
in a user's wallet) may be decreased.
[0022] Card 200 includes buttons 231-240. Buttons 231-140 may be
aligned vertically or horizontally (e.g., with respect to the
bottom of a card) or, for example, substantially in a block or
circle.
[0023] Card 250 may include buttons 271-275, which may be aligned,
for example, in the shape of a directional up-down/left-right pad
with a centralized button. Accordingly, buttons 271-275 may be used
to navigate through a list of options. Accordingly, for example,
display 260 may include multiple lines of alphanumeric text and
buttons 271-275 may be used to navigate through the test.
Additionally, a personal identification code may be provided and
may be entered via buttons 217-275 (e.g., `A-B-B-D-E-A` may be
entered to turn the card ON or turn a feature ON.
[0024] Card 300 may be included with buttons 310-319. Buttons
310-319 may also be associated with digits 0-8, respectively.
Another button may be added and associated with, for example, digit
9 such that a digit-based keypad is provided. A digit may be
pressed multiple times in succession such that alphanumeric data
may be entered. Button 310 may be utilized to request a new card.
In pressing button 310, or any button, information representative
of this request may be displayed so that the information may be
entered online or transmitted through a reader via a magnetic
emulator. The receipt of such information may cause the desired
action to occur (e.g., a new card may be sent).
[0025] Button 311 may be pressed to display and/or emulate
identification information associated with the user of the card (or
allow a user to LOGIN/LOGOUT of the card so that multiple users can
utilize the card). Button 312 may be used to unlock the card. For
example, button 312 may be pressed, then a personal identification
code may be entered, then button 312 may be pressed again. If the
correct personal identification code was entered, for example, then
a feature (e.g., card unlocking) may occur. A process may, for
example, include determining if button 312 is pressed and the
entrance of a correct personal identification code without, for
example, determining a subsequent entry of button 312. Such a
process may, for example, allow a user to expedite entry of a
personal identification code. If a user enters an incorrect
personal identification code, for example, nothing may happen or
the user may be prompted, via the display, to re-enter the code.
After a particular amount of time waiting for the next manual input
for a code, the processor may return to looking for the first
manual input representative of a correct code (e.g., after 5
seconds). After an incorrect code is received, a processor may
return to looking for the entry of the first manual input
representative of a correct code (e.g., the first button of an
appropriate code). Moreover, for example, a particular number of
codes entered in error may permanently lock the card or may lock
the card until a period of time has passed (e.g., 5 minutes).
Button 313 may be added to present the 1800 number for the card on
the display. Button 314 may be utilized to show, as well as
magnetically emulate the a dynamic number (e.g., the dynamic credit
card number for a period of time and for a particular person).
Button 315 may be utilized for to lock a card. Button 316 may be
utilized to transmit, for example, an emergency alert such as an
alert that the card is about to be stolen or someone is in trouble
(and may, for example, be transmitted upon swiping of a card).
Button 317 may be utilized to display/magnetically emulate battery
status. Button 318 may be utilized to turn the card ON/OFF. Persons
skilled in the art will appreciate that, for example, additional
information (e.g., alerts, battery information, card replacement
requests) may be communicated as discretionary data in communicated
payment information or may be communicated in a separate
information transmission. Similarly, such information may be
embedded in non-discretionary data information in communicated
payment information.
[0026] Card 350 may be utilized. Buttons 360-368 may be provided.
Buttons 360, 363, and 366 may each be associated with a different
coding scheme. Pressing button 360, 363, and 366 may cause a number
(e.g., credit card or security number) to be generated differently.
Thus, for example, a company may issue security cards and may
associate different button switch different levels of security or
may rotate between the coding schemes or may allow for a new coding
scheme to be used if a coding scheme is compromised. Button 361 may
be utilized to upload information at upload locations (e.g., upload
new software). Accordingly, circuitry may be included to receive
information from a swipe.
[0027] Button 364 may be utilized to destroy a card (e.g., burn out
components). Persons skilled in the art will appreciate that the
functions of various buttons may be triggered autonomously upon
particular determinations of a processor. For example, a processor
may determine that someone is trying to break through the casing of
a component (e.g., a memory) and may autonomously burn out
components or perform other tasks (e.g., erase memory) as a result
of the determinations. A processor may write information to a
memory when the processor detects an fraudulent attack on a card
by, for example, erasing a portion of data (e.g., payment card
number(s)), erasing all of the data, or changing the data (e.g.,
replace a payment card number with a number indicative of a
fraudulent activity) on a memory.
[0028] Button 367 may be utilized to show time (e.g., the current
time) on a display. A clock may be provided on card 350 such that
time may be kept. Such a clock may be provided with its own battery
such that the clock may continue to keep track of time even when,
for example, a processor is OFF. Persons skilled in the art will
appreciate that a card may be ON when the card is delivered to a
user but that a processor may be in a hibernation mode.
Accordingly, for example, an ON/OFF button (or an unlock code) may
wake that processor out of such a hibernation mode.
[0029] Button 363 may be utilized to record (e.g., store in
memory), display on a display, and communicate through a dynamic
magnetic communications device (e.g., a magnetic emulator or
encoder) a location of the card or a history of locations of a
card. Accordingly, for example, a locating device (e.g., GPS
receiver) may be provided on a card. A transmitter may be provided
that may communicate a signal that multiple remote receivers may
receive (e.g., mobile phone base stations) such that the location
of a card may be determined (e.g., via a triangulation
process).
[0030] Button 365 may be utilized to change the unlocking
preferences (e.g., change a personal identification code). For
example, a user may be prompted to enter the user's current
personal identification code, then be prompted to enter the user's
new personal identification code, and then be prompted to confirm
entry of the user's new personal identification code. If the two
new personal identification codes match, then, for example, the
personal identification code for a user may be changed. A card may
be provided with a default personal identification code. Button 368
may be utilized on turn a card ON/OFF.
[0031] FIG. 4 shows card 400 which may include buttons 410-418.
Button 410 may include a calorie tracker such that a user can enter
in calories he/she eats per day. Thus, whenever a card is swiped
via a magnetic stripe reader, or otherwise communicates data to a
card reader or device, the calorie information may be entered into
a database which can be utilized to populate a webpage (e.g., a
calorie tracker webpage).
[0032] Button 413 may be utilized as a medicine tracker (e.g., to
track the type and number of pills taken). Information may be
displayed on display 401 that a user may enter such that the
information may be associated with information entered by a user.
For example, display 401 may provide an alphanumeric word
"A342F2432S" that may be associated with, for example, 100 calories
for breakfast and 300 calories for lunch on Dec. 12, 2007. This
word may be entered on a website such that the information
associated with the word may be used to populate the website (e.g.,
the calorie tracker).
[0033] Button 416 may be used to display identification information
(e.g., name and phone number of card user). Accordingly, for
example, someone that finds card 400 may press button 416 to
determine the owner of card 416 as well as other information (e.g.,
phone number and email address).
[0034] Button 411 may be used for payment. Accordingly, for
example, a payment number may be displayed on a display (along with
additional payment data such as a payment security code). A dynamic
magnetic communications device (or other device operable to
communicate to a card reader) may also transmit information that
includes such a payment number and additional payment data.
[0035] Button 414 may be used for security (e.g., an online login).
Accordingly, for example, a user may press button 414 and may be
provided with a code (e.g., an access security code) such that the
user may enter particular portions of a website (e.g., a webpage
associated with a user's banking account). Such an access code may
be displayed to a user such that a user may enter the code into a
keypad at a lock such that the lock is opened upon received of the
correct code. Similarly, such an access security code may be, for
example, communicated via a dynamic magnetic communications device
(e.g., a magnetic emulator or magnetic encoder) as well as other
reader communications devices (e.g., RFIDs and IC chips such as EMV
chips). Such codes may change based on time or based on use (e.g.,
every time button 414 is pressed by a user).
[0036] Button 417 may be used to magnetically emulate information
by holding button 416 such that data may be communicated via a
magnetic emulator to a magnetic stripe reader. For example, button
410 may be pressed and then button 417 may be pressed to emulate
information associated with a calorie tracker. Button 412 may be
used, for example, to turn card 400 ON/OF and/or UNLOCK/LOCK card
400. Button 415 may be utilized as an emergency alert (e.g., a
panic button). Accordingly, for example, a student may press
emergency button 415 and swipe his/her card into a magnetic stripe
reader and the appropriate authorities (e.g., police) may be
alerted of the magnetic stripe reader, and its location, from which
an emergency was initiated (and the identity of the person that
initiated an emergency. In this manner, a police button,
firefighter button, and ambulance button may be utilized.
[0037] Alternatively, for example, a doctor button, a nurse button,
or a food button may be utilized for hospital cards. Button 418 may
be utilized to display information on display 401 while the button
is pressed. Accordingly, for example, calorie tracker 410 may be
utilized and then button 418 may be pressed to display information
associated with calorie tracker 410.
[0038] FIG. 4 shows card 450 that may include, for example, buttons
461-469. Button 461 may be used to display, as well as magnetically
communicate via a magnetic emulator to a magnetic stripe reader,
school identification information. Button 462 may be utilized to
display, as well as communicate through a dynamic magnetic
communications device, school credit information. Button 464 may be
utilized to display, as well as communicate through a dynamic
magnetic communications device, website login information. Button
467 may be utilized to display emulate, for example, time
information. Button 466 may be utilized to show alerts that are
received. For example, a receiver may be included in a card that
may receive wireless alerts. Accordingly, for example, students may
be alerted of a school-related risk/danger/information (e.g., bomb
threat, fire, or school cancelled due to snow) and may be shown
this information via display 451. Button 451 may be utilized to
show, for example, the most recent alert and/or scroll through
alerts. Button 469 may be utilized, for example, to turn card 450
ON/OFF and/or UNLOCK/LOCK card 450.
[0039] FIG. 5 shows flow charts 510, 520, and 530. Flow chart 510
may include, for example, step 511, in which private input (e.g.,
private identification information) is received. This information
may be confirmed, for example, in step 512. Additionally,
confirmation of the correct private number may turn a card ON
(e.g., allow information to be displayed/emulated) in step 513.
[0040] Flow chart 520 may be included. Step 521 may be provided, in
which, for example, private input is received for a particular
feature. This input may be confirmed in step 522. Accordingly, for
example, a feature may be turned ON in step 523. Flow chart 530 may
be included. Step 531 may be provided, in which input indicative of
a particular coding scheme is received. A number (e.g., website
login and/or credit card) may be coded or generated (e.g., from a
hash table associated with a particular input) in step 523. The
coded, generated, and/or retrieved information may be displayed
and/or communicated through a magnetic emulator in step 533.
[0041] Flow chart 540 may be provided and may be utilized, for
example, in conjunction with a medical card and medical information
retrieval system. For example, medical information may be stored on
the memory of a card. Such medical information may be, for example,
a user's height, weight, eye color, blood type, previous medical
conditions, previous medications taken, current medical conditions,
current medications taken, allergies, doctor contact information,
as well as contact information for an emergency contact person.
[0042] Persons skilled in the art will appreciate that a user may
control access to the user's medical information by, for example,
keeping the medical information in his/her pocket and under his/her
control at all times. (e.g., similar to the protection afforded to
car keys and house keys). In the case of an emergency (e.g., a car
accident), first responders may look for the user's medical card in
order to gain access to the user's medical information. Such a
medical card may take the form of, for example, an identification
card (e.g., a driver's license or passport). A sticker may be
placed on a card or device (e.g., a mobile telephone or
identification card) stating that a user has a medical card in
his/her wallet (e.g., as well as the location of the card such as
on the left-hand side of the wallet). A medical card may, for
example, be taken by a first responder and may display a passcode
for the responder to enter onto a website in order for the
responder to obtain the user's medical information. Identification
information may be permanently displayed on the card (e.g., printed
or embossed) and this identification may be entered into a website
along with a user. Instructions for accessing the medical
information may be printed or embossed on a card or other device.
Such an access security code may, for example, change based on time
or use (e.g., press of a particular button or particular buttons).
A first responder may be prompted by a website, for example, to
enter in a responder's username and password such that the
responder can be identified as a responder that may access the
medical information of a user. Medical information stored on a
remote server may include, for example, pictures (e.g., of a birth
certificate and bodily parts at various times), x-rays, medical
reports, as well as any other type of medical information. A
medical card may also store such images and other data.
[0043] Flow chart 540 may include, for example, a card (or other
device) providing a medical access code in step 541. Step 542 may
be included, in which a medical access code is verified (e.g., on a
remote server). Step 543 may be provided, in which medical
information for a user may be provided as the result of the
verification of a correct access code. An access code may be, for
example, a five, six, seven, or eight digit code (e.g., "834699").
Persons skilled in the art will appreciate that a card may include,
for example, medical information. Such medical information may be
displayed, for example, by a user pressing a particular button. The
information may be scrolled left/right as well as up/down using the
same button or additional buttons. For example, a first line of
data may be "Blood Type: B" and a second line of data that can be
scrolled down to using a button may be "Allergies: None"
[0044] Flow chart 550 may be provided. Step 551 may be provided, in
which a user may go to a website or a graphical user interface on a
device and enter in his/her emergency medical information. Such
information may be, for example, pre-populated with the websites
prior knowledge as to the user's emergency medical information.
Such information may be changed by a user. The entry of medical
information may take many forms. For example, the entry of medical
information may be done through the selection of options. For
example, a user may be provided with a list of allergies and may
select those allergies that apply to a user. A user may then, for
example, generate a code in step 552. Such a code may be, for
example, associated with the particular combination of selections
that user made. A user may then, for example, enter this code into
his/her medical card using buttons on that medical card. In this
manner, the medical card may include data on a memory that may
recognize the code and may display, at a user's request, the
medical information associated with that code (e.g., step 554).
Accordingly, for example, a user may customize and update his/her
payment card without having to connect the user's payment card to a
computer (e.g., via a USB port). A card may wait for a request for
emergency medical information (e.g., step 555) and may provide the
emergency medical information as a result of receiving the request
(e.g., step 556).
[0045] FIG. 6 shows card 600 which may include buttons 611, 614,
and 617. Button 611 may be utilized for virtual attendance. A user
may press button 611 and transmit identification information (e.g.,
either wirelessly or via a magnetic emulator) to a server such that
attendance may be recorded. Similarly, button 614 may be utilized
to provide a virtual answer to a question. For example, button 614
may be pressed, a button associated with answer "B" may be pressed,
button 614 may be pressed again, and then a card may be swiped and
information associated with the answer transmitted (e.g., via a
magnetic emulator) to a server for further processing. Buttons
621-625 may be utilized, for example, to enter responses into a
card so that the responses may be displayed visually or
communicated via a magnetic emulator.
[0046] Card 650 may be provided with buttons 670-679 and 681-686.
Button 681 may be utilized, for example, to display medical
information on a display of card 650. Button 682 may be utilized,
for example, to prompt a processor on card 650 that a code
associated with medical information is about to be entered. Button
683 may be utilized, for example, to provide (e.g., via a display)
a code for accessing a user's online medical record. Button 684 may
be utilized, for example, to communicate information (e.g.,
insurance information) in one format to a particular hospital that
accepts that format. Button 685 may be utilized, for example, to
communicate the same information (e.g., the same insurance
information) in a different format to a different hospital that
accepts that different format. Button 686 may be utilized to turn a
card ON/OFF.
[0047] FIG. 7 shows card 700 that may include, for example, one or
more IC chips 730 (e.g., EMV chips), RFID antennas 720, processors
740, displays 750, dynamic magnetic communications devices 810
(e.g., magnetic encoders and/or magnetic emulators), batteries 760,
and buttons 751 and 752. Additional circuitry 798 may be provided
which may be, for example, one or more oscillators or emulator
driving circuits. Persons skilled in the art will appreciate that
button 751 may, for example, be utilized by a user to select one
encryption algorithm for a number displayed on display 750 while
button 752 may be utilized by a user to select a different
encryption algorithm. Persons skilled in the art will appreciate
that the components of card 700 may be provided on either surface
of a card (e.g., a front or rear surface of the card) or inside of
a card. A logo (e.g., of a card issuer) and logo may be provided on
either surface of a card.
[0048] A button, such as button 751, may be utilized, for example,
to display a number. Such a number may be, for example, encrypted
from a secure number based on time or use. For example, one-time
use numbers (e.g., a payment number or code) may be retrieved from
a list of numbers on memory each time button 751 is pressed and
displayed on display 750. A processor may only go through each
number once on a list. A registration process may be provided in
which a user may be requested to enter in a sequence of numbers
such that a remote server may validate the card and learn where in
a sequence of a list a card currently resides. Numbers may be
repeated on a list or may only occur once on a list. All of the
numbers available by the length of the number may be utilized by
the list or only a portion of the numbers available by the length
of the number may be provided by the list. A secret number may be
encrypted on a card and a verification server may also have
knowledge of this secret number. Accordingly, the remote server may
perform the same encryption function as the card on the secret
number and verify that the resultant encrypted number is the same
as the resultant encrypted number on a card. Alternatively, for
example, the remote server may decrypt the received encrypted
number to determine the authenticity of the encrypted number and
validate an activity (e.g., validate a security access request or a
purchase transaction).
[0049] Persons skilled in the art will appreciate, for example,
that a card may include an IC chip (e.g., EMV chip), RFID, and a
dynamic magnetic communications device (e.g., a magnetic emulator
or encoder). The same information may be communicated through, for
example, any number of such devices (e.g., a dynamic magnetic
communications device, RFID, and an EMV chip). A central processor
may cause each device to communicate the information (in the same
format or a different format). Each component may have its own
processor or driving circuitry. Such individual processors or
driving circuitry may be coupled to a central processor. An EMV
chip may be utilized, for example, to provide control signals to
other devices (e.g., circuitry driving a display as well as a
dynamic magnetic communications device). Such an EMV chip may
receive signals provided by one or more buttons to determine, for
example, that a particular button, or sequence of buttons, was
pressed by a user.
[0050] Persons skilled in the art will appreciate that a read-head
housing may include, for example, multiple read-heads. A read-head
detector may, more generally, detect a read-head housing and, in
doing so, detect a read-head.
[0051] FIG. 8 shows card 800 that may include, for example,
signature area 810 that may include a material operable to receive
marks from a pen (e.g., a signature). Card 800 may also include,
for example, displays 820 and 830. Display 820 may, for example,
display a payment number while display 830 displays a security code
(e.g., for online purchase authentication). Display 820 as well as
display 830 may be utilized on the same side as, for example,
dynamic magnetic communications device 810.
[0052] FIG. 9 shows personal electronic device 900 which may be,
for example, a portable telephonic device, portable media player,
or any type of electronic device. Persons skilled in the art will
appreciate that the functionality of a card may be provided on a
personal device and displayed through a graphical user interface.
Personal electronic device 900 may include, for example, user
inputs 940 and display 910. Virtual card 920 may be displayed on
display 920. Display 920 may be a touch-sensitive display such
that, for example, virtual button 930 may be provided on virtual
card 920. Persons skilled in the art will appreciate that cards may
be provided as virtual cards and a user may interact with such
virtual cards in order to provide a variety of functions. Personal
electronic device 900 may communicate to a card reader such as, for
example, an RFID reader.
[0053] A display may be bi-stable or non bi-stable. A bi-stable
display may consume electrical energy to change the information
displayed on the bi-stable display but may not consume electrical
energy to maintain the display of that information. A non bi-stable
display may consume electrical energy to both change and maintain
information on the non bi-stable display. A display driving circuit
may be provided, for example, for a bi-stable display (or a non
bi-stable display). Such a display driving circuit may step-up a
supply voltage (e.g., 1-5 volts) to a larger voltage (e.g., 6-15
volts) such that a bi-stable display may change displayed
information. A controller (e.g., a processor) may be utilized to
control such a display driving circuit. Persons skilled in the art
will appreciate that a display may be configured to display
numerical data or alphanumerical data. A display may also be
configured to display other indicia (e.g., the image of a battery
and its remaining life).
[0054] Persons skilled in the art will appreciate that a dynamic
magnetic communications device (e.g., a magnetic emulator or
magnetic encoder) may be fabricated, either completely or
partially, in silicon and provided as a silicon-based chip. Other
circuitry (e.g., driving circuitry) may also be fabricated on such
a silicon-based chip. A processor, such as a processor for
controlling a magnetic communications device, may be, for example,
a programmable processor having on-board programmable non-volatile
memory (e.g., FLASH memory), volatile memory (e.g., RAM), as well
as a cache. Firmware as well as payment information (e.g., dynamic
numbers) may be, for example, communicated from a programming
device to a processor's on-board programmable non-volatile memory
(e.g., a FLASH memory) such that a card may provide a variety of
functionalities. Such a processor may also have one or more
power-saving operating modes, in which each operating mode turns
OFF a different set of circuitry to provide different levels of
power consumption. One or more power-savings modes may turn OFF,
for example, one or more clocking circuitry provided on a
processor. An Application-Specific Integrated Circuit (ASIC) may
also be included in a card or other device to provide, for example,
processing, dynamic magnetic communications, as well as driving
capabilities.
[0055] Persons skilled in the art will also appreciate that the
present invention is not limited to only the embodiments described.
Instead, the present invention more generally involves dynamic
information. Persons skilled in the art will also appreciate that
the apparatus of the present invention may be implemented in other
ways then those described herein. All such modifications are within
the scope of the present invention, which is limited only by the
claims that follow.
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