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Claims  |
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What is claimed is:
1. A method of providing a display control mechanism in a data processing
system, comprising:
displaying information in a display area on a display in said data
processing system;
displaying a cursor on said display;
determining a direction in which said display area may be scrolled to view
additional information on said display;
displaying an indicator adjacent to said cursor indicating said direction;
and
moving said indicator in tandem with said cursor, wherein an intuitive
scrolling indicator is provided for a graphical user interface to said
data processing system.
2. The method of claim 1 wherein said step of displaying an indicator
adjacent to said cursor in said direction further comprises displaying a
graphical image representative of a mechanism for scrolling said display
area in said direction.
3. The method of claim 1 wherein:
said step of determining a direction in which said display area may be
scrolled to view additional information on said display further comprises
determining each direction in which said display area may be scrolled to
view additional information; and
said step of displaying an indicator adjacent to said cursor further
comprises displaying a plurality of indicators, one indicator within said
plurality of indicators adjacent to said cursor in each direction in which
said display area may be scrolled to view additional information.
4. The method of claim 1, further comprising:
responsive to a user moving an input device controlling said cursor,
determining a location of said cursor within said display area;
determining whether said indicator extends beyond an edge of said display
area; and
responsive to determining that said indicator extends beyond an edge of
said display area, scrolling said display area in said direction.
5. The method of claim 4, further comprising:
subsequent to said step of scrolling said display area in said direction,
determining whether additional information may be viewed by additional
scrolling of said display area in said direction; and
responsive to determining that no additional information may be viewed by
additional scrolling of said display area in said direction, removing said
indicator from said display.
6. An apparatus for providing a display control mechanism in a data
processing system, comprising:
first display means for displaying information in a display area on a
display in said data processing system;
second display means for displaying a cursor on said display;
determination means for determining a direction in which said display area
may be scrolled to view additional information on said display;
third display means for displaying an indicator adjacent to said cursor in
said direction; and
movement control means for moving said indicator in tandem with said
cursor, wherein an intuitive scrolling indicator is provided for a
graphical user interface to said data processing system.
7. The apparatus of claim 6 wherein said third display means further
comprises means for displaying a graphical image representative of a
mechanism for scrolling said display area in said direction.
8. The apparatus of claim 6 wherein:
said determination means further comprises means for determining each
direction in which said display area may be scrolled to view additional
information; and
said third display means further comprises means for displaying a plurality
of indicators, one indicator within said plurality of indicators adjacent
to said cursor in each direction in which said display area may be
scrolled to view additional information.
9. The apparatus of claim 6, further comprising:
second determination means, responsive to a user moving an input device
controlling said cursor, for determining a location of said cursor within
said display area;
third determination means for determining whether said indicator extends
beyond an edge of said display area; and
scrolling means, responsive to determining that said indicator extends
beyond an edge of said display area, for scrolling said display area in
said direction.
10. The apparatus of claim 9, further comprising:
fourth determination means for determining, after a scrolling of said
display area in said direction, whether additional information may be
viewed by additional scrolling of said display area in said direction; and
fourth display means, responsive to determining that no additional
information may be viewed by additional scrolling of said display area in
said direction, for removing said indicator from said display.
11. A graphical user interface for a data processing system, comprising:
a display area displaying a portion of information contained within a
memory in said data processing system; and
a cursor displayed in said display area and moved within said display area
by a pointing device; and
an indicator displayed in said display area adjacent to said cursor in a
direction in which said display area may be scrolled to view additional
information contained within said memory, said indicator moving in tandem
with said cursor and representative of a mechanism for scrolling said
display area in said direction, wherein said display area contains a
scrolling indicating cursor.
12. The graphical user interface of claim 11, further comprising:
a plurality of indicators displayed in said display area, one indicator
within said plurality of indicators adjacent to said cursor in each
direction in which said display area may be scrolled to view additional
information contained within said memory, said plurality of indicators
moving in tandem with said cursor.
13. The graphical user interface of claim 11, wherein movement of said
cursor to a region of said display area where said indicator extends
beyond an edge of said display area actuates said mechanism for scrolling
said display area in said direction.
14. A computer program product for use with a data processing system,
comprising:
a computer usable medium;
first instructions on said computer usable medium, for each direction in
which a display area displaying information contained in a memory in said
data processing system may be scrolled to view additional information in
said display area, for displaying an indicator adjacent to a cursor in
said direction, said indicator representative of a mechanism for scrolling
said display area in said direction;
second instructions on said computer usable medium, responsive to a user
manipulating an input device to move said cursor, for moving said
indicator in tandem with said cursor;
third instructions on said computer usable medium, responsive to the user
moving said cursor to a position in which said indicator extends beyond an
edge of said display area, for scrolling said display area in said
direction; and
fourth instructions on said computer usable medium, responsive to a
determination, after scrolling said display area in said direction, that
no additional information may be viewed in said display area by addition
scrolling of said display area in said direction, for removing said
indicator from said display.
15. The computer program product of claim 14, wherein the computer computer
usable medium is a hard disk drive.
16. The computer program product of claim 14, wherein the computer computer
usable medium is a floppy disk.
17. The computer program product of claim 14, wherein the computer computer
usable medium is a CD-ROM. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
1. Technical Field
The present invention relates in general to data processing systems and in
particular to control mechanisms for graphical user interfaces to data
processing systems. Still more particularly, the present invention relates
to an intuitive scrolling or window display control mechanism for a
graphical user interface.
2. Description of the Related Art
The Internet has become a cultural fixture as a source of both information
and entertainment. Many businesses are creating Internet sites as an
integral part of their marketing efforts, informing consumers of the
products or services offered by the business or providing other
information seeking to engender brand loyalty. Many federal, state, and
local government agencies are also employing Internet sites for
informational purposes, particularly agencies which must interact with
virtually all segments of society such as the Internal Revenue Service and
secretaries of state. Operating costs may be reduced by providing
informational guides and/or searchable databases of public records online.
The largest segment of the consuming public does not currently have access
to these resources. Such consumers are typically either unable or
unmotivated to acquire both the requisite hardware and software and the
necessary computer skills for taking advantage of these resources. There
is a need for low cost data processing systems which are simple to
operate, allowing users without computer skill s the opportunity to access
the Internet. This need is being addressed, to some extent, by "WebTV"
systems.
In designing a low cost, simple data processing system, however, it is
necessary to presume that the target user is unsophisticated and/or
inexperienced. Therefore the operation of the data processing system must
be both simple and intuitive, requiring little or no technical
sophistication on the part of the user. In this regard, it would be
advantageous to provide an intuitive mechanism for scrolling or window
display control. Some users of these data processing systems will not be
aware that more information is available for viewing when the display
cannot contain all available information.
Conventionally scroll bars, such as those depicted in FIG. 7, are employed
in the graphical user interface of a data processing system. These scroll
bars may appear vertically, horizontally, or both. Typically the scroll
bars contain arrows at either end for scrolling in the direction of the
arrow and a slider for quickly moving the display to a given portion of
the total available information.
Computer literate users are familiar with the scroll bar, its significance,
and its operation. However, novice or inexperienced users who are
utilizing a data processing system simply to access the Internet may have
little or no computer knowledge and are unlikely to understand the scroll
bar mechanism. Children, in particular, will tend to lack sufficient
experience or intuitive capacity to learn to operate the scroll bar
mechanism without external assistance. Additionally, television sets
typically do not have the display resolution of a computer monitor,
limiting the amount of viewable area on a screen at one time. Scroll bars
are undesirable as they consume display real estate, which is already
limited.
Unformatted text typically does not require scrolling capacity. However,
information available on the Internet consists largely of spatially
arranged information, including tables, graphical images, and iconic
controls. The spatial arrangement of this information is typically
provided using the hypertext markup language (HTML).
It is critical in data processing systems intended for non-computer users
or novice users to eliminate the scroll bar and provide the user with an
intuitive, meaningful mechanism for controlling the display contents of a
graphical user interface in a data processing system. It would be
desirable for such a mechanism to both intrinsically inform the user that
more information is available for viewing in a particular direction and
enable the user to intuitively operate the mechanism.
SUMMARY OF THE INVENTION
It is therefore one object of the present invention to provide an improved
data processing system.
It is another object of the present invention to provide an improved
control mechanism for a graphical user interface to a data processing
systems.
It is yet another object of the present invention to provide an intuitive
scrolling or window display control mechanism for a graphical user
interface in a data processing system.
The foregoing objects are achieved as is now described. Conventional scroll
bars in a graphical user interface are replaced by a scroll indicating
cursor. A customary cursor is augmented with indicators that appear to the
sides of the cursor in the directions in which scrolling will allow
additional information to be displayed. Scrolling is actuated by moving a
cursor to an edge of the display in the direction of a visible indicator
until the indicator is at least partially beyond the edge of the display.
Less display area is required than with scroll bars and the nature of the
scrolling indicator is more intuitive.
The above as well as additional objects, features, and advantages of the
present invention will become apparent in the following detailed written
description.
BRIEF DESCRIPTION OF THE DRAWINGS
The novel features believed characteristic of the invention are set forth
in the appended claims. The invention itself however, as well as a
preferred mode of use, further objects and advantages thereof, will best
be understood by reference to the following detailed description of an
illustrative embodiment when read in conjunction with the accompanying
drawings, wherein:
FIGS. 1A-1D depicts various pictorial representations of a data processing
system in which a preferred embodiment of the present invention may be
implemented;
FIG. 2 is a block diagram for the major components of data processing unit
in accordance with a preferred embodiment of the present invention;
FIG. 3 depicts pictorial representations of scroll indicating cursors in
accordance with a preferred embodiment of the present invention;
FIGS. 4A-4B are pictorial representations of a graphical user interface
employing a scroll indicating cursor in accordance with a preferred
embodiment of the present invention;
FIG. 5 depicts a high level flowchart for a process for providing a scroll
indicating cursor in accordance with a preferred embodiment of the present
invention;
FIG. 6 is a high level flowchart for a process for employing a scroll
indicating cursor in accordance with a preferred embodiment of the present
invention; and
FIG. 7 depicts a prior art graphical user interface.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
With reference now to the figures, and in particular with reference to
FIGS. 1A through 1D, various pictorial representations of a data
processing system in which a preferred embodiment of the present invention
may be implemented are depicted. FIG. 1A is a pictorial representation of
the data processing system as a whole. Data processing system 100 in the
depicted example provides, with minimal economic costs for hardware to the
user, access to the Internet. Data processing system 100 includes a data
processing unit 102. Data processing unit 102 is preferably sized to fit
in typical entertainment centers and provides all required functionality,
conventionally found in personal computers, to enable a user to "browse"
the Internet. Additionally, data processing unit 102 may provide other
common functions such as, for example, serving as an answering machine,
transmitting or receiving facsimile transmissions, or providing voice mail
facilities.
Data processing unit 102 is connected to television 104 for display of
graphical information. Television 104 may be any suitable television,
although color televisions with an S-Video input will provide better
presentations of the graphical information. Data processing unit 102 may
be connected to television 104 through a standard coaxial cable
connection. A remote control unit 106 allows a user to interact with and
control data processing unit 102. Remote control unit 106 emits infrared
(IR) signals, preferably modulated at a different frequency than the
normal television, stereo, and VCR infrared remote control frequencies in
order to avoid interference. Remote control unit 106 provides the
functionality of a pointing device in conventional personal computers,
including the ability to move a cursor on a display and select items.
FIG. 1B is a pictorial representation of the front panel of data processing
unit 102 in accordance with a preferred embodiment of the present
invention. The front panel includes an infrared window 108 for receiving
signals from remote control unit 106 and for transmitting infrared
signals. Data processing unit 102 may transmit infrared signals to be
reflected off objects or surfaces, allowing data processing unit 102 to
automatically control television 104. Volume control 110 permits
adjustment of the sound level emanating from a speaker within data
processing unit 102 or from television 104. A plurality of light-emitting
diode (LED) indicators 112 provide an indication to the user of when data
processing unit 102 is on, whether the user has messages, whether the
modem/phone line is in use, or whether data processing unit 102 requires
service.
FIG. 1C is a pictorial representation of the rear panel of data processing
unit 102 in accordance with a preferred embodiment of the present
invention. A three wire (ground included) insulated power cord 114 passes
through the rear panel. Standard telephone jacks 116 and 118 on the rear
panel provide an input to a modem from the phone line and an output to a
handset (not shown). The rear panel also provides a standard computer
keyboard connection 120, mouse port 122, computer monitor port 124,
printer port 126, and an additional serial port 128. These connections may
be employed to allow data processing unit 102 to operate in the manner of
a conventional personal computer. Game port 130 on the rear panel provides
a connection for a joystick or other gaming control device (glove, etc.).
Infrared extension jack 132 allows a cabled infrared LED to be utilized to
transmit infrared signals. Microphone jack 134 allows an external
microphone to be connected to data processing unit 102.
Video connection 136, a standard coaxial cable connector, connects to the
video-in terminal of television 104 or a video cassette recorder (not
shown). Left and right audio jacks 138 connect to the corresponding
audio-in connectors on television 104 or to a stereo (not shown). If the
user has S-Video input, then S-Video connection 140 may be used to connect
to television 104 to provide a better picture than the composite signal.
If television 104 has no video inputs, an external channel 3/4 modulator
(not shown) may be connected in-line with the antenna connection.
FIG. 1D is a pictorial representation of remote control unit 106 in
accordance with a preferred embodiment of the present invention. Similar
to a standard telephone keypad, remote control unit 106 includes buttons
142 for arabic numerals 0 through 9, the asterisk or "star" symbol (*),
and the pound sign (#). Remote control unit also includes "TV" button 144
for selectively viewing television broadcasts and "Web" button 146 for
initiating "browsing" of the Internet. A pointing device, which is
preferably a trackpoint or "button" pointing device, is included on remote
control unit 106 and allows a user to manipulate a cursor on the display
of television 104. "Go" and "Back" buttons 148 and 150, respectively,
allow a user to select an option or return to a previous selection. "Menu"
button 152 causes a context-sensitive menu of options to be displayed,
while home button 154 allows to user to return to a default display of
options. "PgUp" and "PgDn" buttons 156 and 158 allows the user to change
the content of the display in display-sized blocks rather than by
scrolling. The message button 160 allows the user to retrieve messages. In
addition to, or in lieu of, remote control unit 106, an infrared keyboard
(not shown) with an integral pointing device may be used to control data
processing unit 102. The integral pointing device 147 is preferably a
trackpoint or button type of pointing device. A wired keyboard (also not
shown) may also be used through keyboard connection 120, and a wired
pointing device such as a mouse or trackball may be used through mouse
port 122. When a user has one or more of the remote control unit 106,
infrared keyboard, wired keyboard and/or wired pointing device operable,
the active device locks out all others until a prescribed period of
inactivity has passed.
Referring now to FIG. 2, a block diagram for the major components of data
processing unit 102 in accordance with a preferred embodiment of the
present invention is portrayed. As with conventional personal computers,
data processing unit 102 includes a motherboard 202 containing a processor
204 and memory 206 connected to system bus 208. Processor 204 is
preferably at least a 486 processor operating at or above 100 MHz. Memory
206 includes read only memory (ROM) 206a containing a basic input/output
services (BIOS) routine and may include cache memory and/or video RAM.
Video/TV converter 210 on motherboard 202 and connected to system bus 208
generates computer video signals for computer monitors, a composite
television signal, and an S-Video signal. The functionality of video/TV
converter 210 may be provided utilizing commercially available video and
converter chips. Keyboard/remote control interface unit 212 on motherboard
202 receives keyboard codes through controller 214, regardless of whether
a wired keyboard/pointing device or an infrared keyboard/remote control is
being employed. Infrared remote control unit 106 transmits signals which
are ultimately sent to the serial port as control signals generated by
conventional mouse or pointing device movements. Two buttons on remote
control unit 106 are interpreted identically to the two buttons on a
conventional mouse, while the remainder of the buttons transmit signals
corresponding to keystrokes on an infrared keyboard. Thus, remote control
unit 106 has a subset of the functions provided by an infrared keyboard.
Connectors/indicators 216 on motherboard 202 provide the connections and
indicators on data processing unit 102 described above.
External to motherboard 202 in the depicted example are power supply 218,
hard drive 220, modem 222, and speaker 224. Power supply 218 is a
conventional power supply except that it receives a control signal from
controller 214 which effects shut down of all power to motherboard 202,
hard drive 220, and modem 222. In some recovery situations, removing power
and rebooting is the only guaranteed method of resetting all of these
devices to a known state. Thus power supply 218, in response to a signal
from controller 214, is capable of powering down and restarting data
processing unit 102.
Hard drive 220 contains operating system and applications software for data
processing unit 102, which preferably includes: IBM DOS 7.0, a product of
International Business Machines Corporation in Armonk, N.Y.; Windows 3.1,
a product Microsoft Corporation in Redmond, Wash.; and Netscape Navigator,
a product of Netscape Communications Corporation in Mountain View, Calif.
Data may also be stored on hard drive 220. Modem 222, inserted into a slot
mounted sideways on motherboard 202, is preferably a 33.6 kbps modem
supporting the V.42bis, V34bis, V.34, V.17 Fax, MNP 1-5, and AT command
sets.
Controller 214 is preferably one or more of the 805x family controllers.
Controller 214 is continuously powered and, when data processing unit 102
is turned on, monitors the system for a periodic "ping" indicating that
data processing unit 102 is operating normally. In the event that
controller 214 does not receive a ping within a prescribed timeout period,
controller 214 removes power from the system and restarts the system. This
may be necessary, for example, when the system experiences a general
protection fault. If multiple attempts to restart the system prove
unsuccessful, controller 214 shuts off data processing unit 102 and
signals that service is required through indicators 216. Thus, data
processing unit 102 is capable of self-recovery in some circumstances
without involvement by a user.
Controller 214 also receives and processes input from infrared remote
control 106, infrared keyboard, wired keyboard, or wired mouse. When one
keyboard or pointing device is used, all others are locked out (ignored)
until none have been active for a prescribed period. Then the first
keyboard or pointing device to generate activity locks out all others.
Controller 214 also directly controls all LED indicators except that
indicating modem use and specifies the boot sector selection during any
power off-on cycle.
Those skilled in the art will recognize that the components depicted in
FIGS. 1A-1D and 2 and described above may be varied for specific
applications or embodiments. Such variations in which the present
invention may be implemented are considered to be within the spirit and
scope of the present invention.
With reference now to FIG. 3, pictorial representations of scroll
indicating cursors in accordance with a preferred embodiment of the
present invention are depicted. The mechanisms for generating display of
objects such as scroll indication cursor 302 on a screen is well known
within the art. Scroll indicating cursor 302 includes a cursor 304 and
indicators 306a-306d. The scroll indicating cursor of the present
invention is not intended to replace a cursor, merely to augment existing
cursors by providing the user with additional information. Cursor 304 and
indicators 306a-306d may be generated and controlled separately or,
alternatively, in a combined fashion. Cursor 304 includes a hotpoint for
designating where selection is made, such as the arrow tip of the cursor
304 or the center of "bullseye" cursor within scroll indicating cursor 310
depicted in FIG. 3. Indicators 306a-306d are only displayed when
additional information may be displayed by scrolling in the direction of
the indicator. Thus indicator 306a is only displayed when additional
information may be viewed by scrolling upward, indicator 306b is only
displayed when additional information may be viewed by scrolling to the
right, indicator 306c is only displayed when additional information may be
viewed by scrolling downward, and indicator 306d is only displayed when
additional information may be viewed by scrolling to the left. If all
available information may be displayed on a screen, indicators 306a-306d
are not displayed and only cursor 304 of scroll indicating cursor 302 is
displayed. In this manner, the user is provided with intuitive information
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