U.S. patent application number 17/023159 was filed with the patent office on 2021-03-11 for systems and methods for displaying representative images.
This patent application is currently assigned to Duelight LLC. The applicant listed for this patent is Duelight LLC. Invention is credited to Adam Barry Feder, Brian J. Kindle, William Guie Rivard.
Application Number | 20210074051 17/023159 |
Document ID | / |
Family ID | 1000005227332 |
Filed Date | 2021-03-11 |
United States Patent
Application |
20210074051 |
Kind Code |
A1 |
Feder; Adam Barry ; et
al. |
March 11, 2021 |
SYSTEMS AND METHODS FOR DISPLAYING REPRESENTATIVE IMAGES
Abstract
A system, method, and computer program product for displaying
representative images within a collection viewer is disclosed. The
method comprises displaying two or more representative images
within a collection viewer at a first orientation, receiving an
indication of a second orientation for the collection viewer, in
response to the indication, displaying a clockwise animation
sequence for each of the two or more representative images, and
displaying the two or more representative images within a
collection viewer at the second orientation.
Inventors: |
Feder; Adam Barry; (Mountain
View, CA) ; Kindle; Brian J.; (Sunnyvale, CA)
; Rivard; William Guie; (Menlo Park, CA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Duelight LLC |
Sunnyvale |
CA |
US |
|
|
Assignee: |
Duelight LLC
Sunnyvale
CA
|
Family ID: |
1000005227332 |
Appl. No.: |
17/023159 |
Filed: |
September 16, 2020 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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16147206 |
Sep 28, 2018 |
10810781 |
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17023159 |
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15622520 |
Jun 14, 2017 |
10109098 |
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16147206 |
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14340557 |
Jul 24, 2014 |
9741150 |
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15622520 |
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61958324 |
Jul 25, 2013 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
G06T 1/20 20130101; G06F
3/0484 20130101; G06F 3/0485 20130101; G06F 3/0482 20130101; G06F
2200/1637 20130101; G06T 3/60 20130101; G09G 2340/0492 20130101;
G06F 3/0346 20130101; G09G 5/37 20130101; G06T 13/80 20130101; G06F
2200/1614 20130101 |
International
Class: |
G06T 13/80 20060101
G06T013/80; G06F 3/0484 20060101 G06F003/0484; G06F 3/0346 20060101
G06F003/0346; G06T 3/60 20060101 G06T003/60; G09G 5/37 20060101
G09G005/37 |
Claims
1. A method, comprising: displaying, on a display unit, two or more
representative images within a collection viewer at a first
orientation, where: each one of the two or more representative
images is displayed at a respective location relative to a physical
origin for the display unit, and each one of the two or more
representative images is displayed in one of two different
orientations based on the physical origin; receiving an indication
of a second orientation for the collection viewer; in response to
the indication, displaying a clockwise animation sequence for each
of the two or more representative images, wherein the clockwise
animation sequence negates a physical rotation of the display unit,
and the clockwise animation is timed independently of the physical
rotation; and displaying, on the display unit, the two or more
representative images within a collection viewer at the second
orientation.
2. The method of claim 1, wherein the indication comprises a
message in an object-based message passing system.
3. The method of claim 1, wherein the indication is generated in
response to a measurement of a physical force associated with a
mobile computing device.
4. The method of claim 1, wherein displaying the two or more
representative images comprises identifying representative images
that are visible within the collection viewer.
5. A computer program product embodied in a non-transitory
computer-readable medium that, when executed by a processor, causes
the processor to perform a method comprising: displaying, on a
display unit, two or more representative images within a collection
viewer at a first orientation, where: each one of the two or more
representative images is displayed at a respective location
relative to a physical origin for the display unit, and each one of
the two or more representative images is displayed in one of two
different orientations based on the physical origin; receiving an
indication of a second orientation for the collection viewer; in
response to the indication, displaying a clockwise animation
sequence for each of the two or more representative images, wherein
the clockwise animation sequence negates a physical rotation of the
display unit, and the clockwise animation is timed independently of
the physical rotation; and displaying, on the display unit, the two
or more representative images within a collection viewer at the
second orientation.
6. The computer program product of claim 5, wherein the indication
comprises a message in an object-based message passing system.
7. The computer program product of claim 5, wherein the indication
is generated in response to a measurement of a physical force
associated with a mobile computing device.
8. The computer program product of claim 5, wherein displaying the
two or more representative images comprises identifying
representative images that are visible within the collection
viewer.
9. A mobile computing device comprising: a display unit configured
to display a collection viewer; and a processing unit in
communication with the display unit and configured to: display, on
the display unit, two or more representative images within a
collection viewer at a first orientation, where: each one of the
two or more representative images is displayed at a respective
location relative to a physical origin for the display unit, and
each one of the two or more representative images is displayed in
one of two different orientations based on the physical origin;
receive an indication of a second orientation for the collection
viewer; in response to the indication, display a clockwise
animation sequence for each of the two or more representative
images, wherein the clockwise animation sequence negates a physical
rotation of the display unit, and the clockwise animation is timed
independently of the physical rotation; and display, on the display
unit, the two or more representative images within a collection
viewer at the second orientation.
10. The mobile computing device of claim 9, wherein the indication
comprises a message in an object-based message passing system.
11. The mobile computing device of claim 9, wherein the indication
is generated in response to a measurement of a physical force
associated with the mobile computing device.
12. The mobile computing device of claim 9, wherein displaying the
two or more representative images comprises identifying
representative images that are visible within the collection
viewer.
Description
CROSS-REFERENCES TO RELATED APPLICATIONS
[0001] The present application is a continuation of, and claims
priority to, U.S. patent application Ser. No. 16/147,206, filed
Sep. 28, 2018, entitled "SYSTEMS AND METHODS FOR DISPLAYING
REPRESENTATIVE IMAGES," which in turn is a continuation of, and
claims priority to, U.S. patent application Ser. No. 15/622,520,
filed Jun. 14, 2017, entitled "SYSTEMS AND METHODS FOR DISPLAYING
REPRESENTATIVE IMAGES," which is a continuation of, and claims
priority to, U.S. patent application Ser. No. 14/340,557, filed
Jul. 24, 2014, entitled "SYSTEMS AND METHODS FOR DISPLAYING
REPRESENTATIVE IMAGES," now U.S. Pat. No. 9,741,150, which in turn
claims priority to U.S. Provisional Application No. 61/958,324,
entitled "Systems and methods for digital photography," filed Jul.
25, 2013. The foregoing applications and/or patents are herein
incorporated by reference in their entirety for all purposes.
FIELD OF THE INVENTION
[0002] Embodiments of the present invention relate generally to
user interface design, and more specifically to systems and methods
for displaying representative images.
BACKGROUND
[0003] A typical mobile computing device, or simply "mobile
device," such as a smartphone or tablet computer, includes a
computation subsystem, and a display screen configured to display a
user interface (UI) comprising elements such as control widgets and
representative images of files accessible through the UI. A
representative image may comprise a thumbnail image associated with
an application, script, or data file residing within a file system
or file database. One example of a representative image is an image
thumbnail. Another example of a representative image is a file
icon. Representative images are typically presented to a user
within a collection viewer that is configured to allow the user to
browse, select, view, execute, and otherwise interact with
corresponding objects. One example of a collection viewer is a file
browser, which may be configured to show users a list of files
within a file system depicted as icons. Another example of a
collection viewer is an image browser, configured to show users a
list of images within a file system or image database depicted as
thumbnails.
[0004] A UI for a mobile device typically includes a collection
viewer for files and may include a collection viewer for images. A
collection viewer for digital images may similarly present
thumbnails associated with digital images residing within an image
database or within a file system folder of digital images. The
collection viewer enables the user to browse thumbnails, and to
open a digital image by performing a touch gesture on a
corresponding thumbnail.
[0005] Mobile computing devices, or simply "mobile devices" may
include an arbitrarily large number of files and corresponding
icons that need to be presented within a collection viewer for
files. Similarly, mobile devices may include an arbitrarily large
number of digital images and corresponding thumbnails that need to
be presented within a collection viewer for digital images. Typical
collection viewers enable users to view a collection of
representative images as a two-dimensional grid of representative
images. The representative images are conventionally positioned
within the grid according to a specific sequence, such as a file
sequence number, a sort sequence number, or an image sequence
number. The grid is populated with representative images frequently
forming a tall, narrow form factor regardless of device
orientation. Width of the grid is associated with horizontal screen
width, which may be different in landscape versus portrait
orientations. As a consequence, the physical location of a specific
representative image may change when device orientation changes
because the collection viewer typically needs to alter the grid
layout and specific sequence of the representative images.
[0006] In conventional operation of a collection viewer, the user
may locate a desired representative image by scrolling the grid
vertically into an appropriate screen position. However, if the
user then rotates their mobile device, the screen position of the
desired representative image typically changes in response to the
change in grid width, forcing the user to once again locate their
desired representative image within the grid. Forcing the user to
locate the desired representative image a second time after
rotation introduces inefficiency and confusion in the user
experience.
[0007] As the foregoing illustrates, there is a need for addressing
this and/or other related issues associated with the prior art.
SUMMARY
[0008] A system, method, and computer program product for
displaying representative images within a collection viewer is
disclosed. The method comprises displaying two or more
representative images within a collection viewer at a first
orientation, receiving an indication of a second orientation for
the collection viewer, in response to the indication, displaying a
clockwise animation sequence for each of the two or more
representative images, and displaying the two or more
representative images within a collection viewer at the second
orientation.
BRIEF DESCRIPTION OF THE DRAWINGS
[0009] So that the manner in which the above recited features of
the present invention can be understood in detail, a more
particular description of the invention, briefly summarized above,
may be had by reference to embodiments, some of which are
illustrated in the appended drawings. It is to be noted, however,
that the appended drawings illustrate only typical embodiments of
this invention and are therefore not to be considered limiting of
its scope, for the invention may admit to other equally effective
embodiments.
[0010] FIG. 1 illustrates a flow chart of a method for displaying a
collection of representative images, according to one embodiment of
the present invention;
[0011] FIG. 2A illustrates a front view of a mobile device
comprising a display unit, according to one embodiment of the
present invention;
[0012] FIG. 2B illustrates a block diagram of a mobile device
comprising a display unit, according to one embodiment of the
present invention;
[0013] FIG. 3A illustrates a collection viewer configured in a
portrait orientation, according to one embodiment of the present
invention;
[0014] FIG. 3B illustrates a collection viewer configured in a
landscape orientation, according to one embodiment of the present
invention;
[0015] FIG. 3C illustrates one representative image in two
different orientations as viewed by a user with respect to a
physical up direction, according to one embodiment of the present
invention;
[0016] FIG. 3D illustrates one representative image in two
different orientations with respect to a physical display origin,
according to one embodiment of the present invention; and
[0017] FIG. 3E depicts an animation sequence of frames for one
representative image transitioning between two different
orientations, according to one embodiment of the present
invention.
DETAILED DESCRIPTION
[0018] Embodiments of the present invention enable a mobile device
to present a consistent location of representative images
regardless of device orientation within a user interface (UI). A
collection viewer refers to a collection of software modules that
generate a depiction of data objects within a UI. Displayed UI
elements generated by the software modules may also be referred to
generally as a collection viewer. A collection viewer is configured
to present representative images of the data objects, such as file
icons and image thumbnails to a user. A collection viewer may
comprise a file browser, an image browser, or any other type of
data object browser configured to depict data objects as
representative images. When the user rotates the mobile device, the
collection viewer generates an in-place rotation animation for each
representative image. Keeping each representative image in
substantially the same physical screen location regardless of
device orientation allows the user to visually track a given
representative image through device rotation, thereby providing a
more efficient and intuitive user experience. Animating rotation of
the representative images to maintain proper viewing orientation
provides an intuitive visual cue, further improving the user
experience.
[0019] FIG. 1A illustrates a flow chart of a method 100 for
displaying a collection of representative images, according to one
embodiment of the present invention. Although method 100 is
described in conjunction with the systems of FIGS. 2A-2B, persons
of ordinary skill in the art will understand that any system that
performs method 100 is within the scope and spirit of embodiments
of the present invention. In one embodiment, a mobile device, such
as mobile device 270 of FIGS. 2A-2B, is configured to perform
method 100. by executing a collection viewer, implemented as a
software module within mobile device 270.
[0020] Method 100 begins in step 110, where the collection viewer
receives a notification indicating that the mobile device has been
repositioned into a new orientation. In one embodiment, the
notification indicates one of four orthogonal orientations, where a
first orientation is associated with a generally upright portrait
orientation, a second orientation is associated a clockwise
rotation from the first orientation to a landscape orientation, a
third orientation is associated with an upside down portrait
orientation, and a fourth orientation is associated a
counterclockwise rotation from the first orientation to a landscape
orientation. Each of the four orientations represents an
approximation of a physical orientation of the mobile device to the
nearest ninety degrees. In other embodiments, the approximation of
a physical orientation may comprise angular increments of less than
ninety degrees to provide a finer approximation granularity. In
certain embodiments, angular increments are substantially uniform,
while in other embodiments, angular increments are non-uniform.
[0021] In one embodiment, physical orientation is generated from
measurements performed by a sensor device, such as one of sensor
devices 242. For example, an accelerometer, comprising sensor
devices 242, may provide a physical measurement of a force vector
corresponding to physical forces on the mobile device. When mobile
device is held generally still, such as when a user is holding the
mobile device, this measured force vector is generally aligned with
a gravity force vector. When the measured force vector is aligned
vertically and pointing from the top of the mobile device to the
bottom of the mobile device, the mobile device is likely being held
in an upright portrait orientation. When the measured force vector
is rotated by approximately ninety degrees about a normal vector to
display unit 212, the device is likely being held in a landscape
orientation, and so forth. While approximating orientation is
described herein based on a measured force vector, other techniques
of approximating orientation may be performed without departing the
scope and spirit of embodiments of the present invention.
[0022] Any technically feasible technique may be implemented for
sending a notification to the collection viewer. For example, the
notification may comprise a message in an object message passing
system. In this example, an instance of the collection viewer is
configured to receive a new orientation message when the mobile
device changes to a new orientation. A software module, such as a
system service module, is configured to approximate device
orientation, for example, by monitoring an accelerometer within
sensor devices 242. The new orientation message may specify a new
orientation, or the new orientation message may specify that the
device is in a new orientation and trigger the collection viewer to
determine the new orientation. The new orientation message may
indicate that the device has changed orientation beyond a specified
angular threshold, enabling the collection viewer to determine an
orientation for display, such as in embodiments that implement
finer rotational granularity than ninety degree granularity. The
system service module may include a kernel process configured to
monitor hardware circuits comprising the sensor devices 242, an
application programming interface (API) configured to respond to
the kernel process, a process executing in application space that
is configured to monitor sensor devices 242 and generate messages
based on specified criteria, or any other technically feasible
mechanism for providing orientation notifications to the collection
viewer.
[0023] In one embodiment, hysteresis is applied to an orientation
approximation, so that a change in physical orientation needs to
surpass a certain rotational threshold to trigger generation of the
notification of a new orientation. In such an embodiment, the
system services module applies hysteresis to physical orientation
measurements so that a notification is generated only after a
specified orientation threshold is exceeded. In other embodiments,
the collection viewer is configured to apply hysteresis to
notifications, such as notifications for changes of less than
ninety degrees or less than an orientation change threshold.
[0024] In step 120, the collection viewer, or a helper function to
the collection viewer, computes a current animation state for a
current animation sequence. A current animation sequence may
include a scroll animation, a rotation animation, or a combination
thereof triggered by a physical change in device orientation. A
given current animation sequence is initiated in response to
receiving the notification. In one embodiment, the current
animation sequence defines a sequence of frames, as discussed in
greater detail below in FIG. 3E. In one embodiment, a given
animation sequence completed before a subsequent animation sequence
is initiated. The current animation state may define a current
scroll position and a current rotation angle for a collection of
representative images being animated in the current animation
sequence. The current animation state may determine which
representative images are visible within view panel 311.
[0025] In step 130, the collection viewer, or a helper function to
the collection viewer, identifies representative images to render
in a current animation frame. Any technically feasible technique
may be used to identify representative images to render. In one
embodiment, only visible representative images are identified to
render in the current frame. In one embodiment, a visible
representative image includes geometry that intersects at least one
pixel within view panel 311. In another embodiment, visible
representative images and at least one non-visible representative
image are identified to render in a current animation frame. In one
embodiment, when a representative image is newly visible in a
current animation frame, that representative image is instantiated
for display and the instantiated representative image instance is
sent a message to render an associated representative image
according to the current animation state. Other representative
image instances may be sent a substantially similar message to
render an associated representative image according to the current
animation state. In certain embodiments, a representative image
instance that is no longer visible is de-allocated at the
completion of the animation sequence.
[0026] In step 140, the collection viewer, or a helper function to
the collection viewer, generates an animation frame comprising
rendered representative images. In one embodiment, the animation
frame includes one rendered representative image. In another
embodiment, the animation frame includes two or more rendered
representative images. Each rendered representative image includes
a representative image that has been translated, rotated, or both
translated and rotated in accordance with the current animation
state. At least a portion of each rendered representative image may
be presented within view panel 311. In one embodiment, the
generated animation frame is displayed on display unit 212 of FIG.
2A. In one embodiment, each animation frame is rendered by a
graphics processing unit (GPU) within processor complex 210 of FIG.
2B.
[0027] If, in step 150, the current animation frame is the last
animation frame, then the method terminates. Otherwise, the method
proceeds back to step 120.
System Overview
[0028] FIG. 2A illustrates a front view of a mobile device 270
comprising a display unit 212, according to one embodiment of the
present invention. Display unit 212 is configured to display user
interface (UI) elements associated with software applications
configured to execute on mobile device 270. The UI elements may
include representative images, such as file icons and image
thumbnails.
[0029] FIG. 2B illustrates a block diagram of mobile device 270,
according to one embodiment of the present invention. Mobile device
270 includes a processor complex 210 coupled to display unit 212.
Mobile device 270 may also include, without limitation, a digital
camera 230, a strobe unit 236, a set of input/output devices 214,
non-volatile memory 216, volatile memory 218, a wireless unit 240,
and sensor devices 242, each coupled to processor complex 210. In
one embodiment, a power management subsystem 220 is configured to
generate appropriate power supply voltages for each electrical load
element within mobile device 270, and a battery 222 is configured
to supply electrical energy to power management subsystem 220.
Battery 222 may implement any technically feasible battery,
including primary or rechargeable battery technologies.
Alternatively, battery 222 may be implemented as a fuel cell, or
high capacity electrical capacitor.
[0030] In one usage scenario, strobe illumination 237 comprises at
least a portion of overall illumination in a scene being
photographed by digital camera 230. Optical scene information 239,
which may include strobe illumination 237 reflected from objects in
the scene, is focused onto an image sensor 232 as an optical image.
Image sensor 232, within digital camera 230, generates an
electronic representation of the optical image. The electronic
representation comprises spatial color intensity information, which
may include different color intensity samples for red, green, and
blue light.
[0031] Display unit 212 is configured to display a two-dimensional
array of pixels to form a digital image for display. Display unit
212 may comprise a liquid-crystal display, an organic LED display,
or any other technically feasible type of display. Input/output
devices 214 may include, without limitation, a capacitive touch
input surface, a resistive tablet input surface, buttons, knobs, or
any other technically feasible device for receiving user input and
converting the input to electrical signals. In one embodiment,
display unit 212 and a capacitive touch input surface comprise a
touch entry display system, and input/output devices 214 comprise a
speaker and microphone.
[0032] Non-volatile (NV) memory 216 is configured to store data
when power is interrupted. The NV memory 216 therefore implements a
non-transitory computer-readable medium. In one embodiment, NV
memory 216 comprises one or more flash memory devices. NV memory
216 may be configured to include programming instructions for
execution by one or more processing units within processor complex
210. The programming instructions may include, without limitation,
an operating system (OS), user interface (UI) modules, imaging
processing and storage modules, and modules implementing one or
more embodiments of techniques taught herein. In particular, the NV
memory 216 may be configured to store instructions that implement
method 100 of FIG. 1. The instructions, when executed by processing
units within processor complex 210, cause the processing units to
perform method 100. One or more memory devices comprising NV memory
216 may be packaged as a module that can be installed or removed by
a user. In one embodiment, volatile memory 218 comprises dynamic
random access memory (DRAM) configured to temporarily store
programming instructions, image data, and the like needed during
the course of normal operation of mobile device 270. Sensor devices
242 include sensors configured to detect at least device
orientation of the mobile device 270. For example sensor devices
242 may include an accelerometer to detect motion and orientation,
an electronic gyroscope to detect motion and orientation, or a
combination thereof. Sensor devices 242 may also include, without
limitation, a magnetic flux detector to detect orientation, a
global positioning system (GPS) module to detect geographic
position, or any combination thereof.
[0033] Wireless unit 240 may include one or more digital radios
configured to send and receive digital data. In particular,
wireless unit 240 may implement wireless standards known in the art
as "WiFi" based on institute for electrical and electronics
engineers (IEEE) standard 802.11, and may implement digital
cellular telephony standards for data communication such as the
well-known "3G" and long term evolution ("LTE"), or "4G" suites of
standards. In one embodiment, mobile device 270 is configured to
transmit one or more digital photographs residing within either NV
memory 216 or volatile memory 218 to an online photographic media
service via wireless unit 240. In such an embodiment, a user may
possess credentials to access the online photographic media service
and to transmit the one or more digital photographs for storage and
presentation by the online photographic media service. The
credentials may be stored or generated within mobile device 270
prior to transmission of the digital photographs. The online
photographic media service may comprise a social networking
service, photograph sharing service, or any other web-based service
that provides storage and download of digital photographs. In
certain embodiments, mobile device 270 is configured to receive one
or more incoming digital photographs via wireless unit 240, and
store the incoming digital photographs in the NV memory 216, or the
volatile memory 218, or a combination thereof.
Collection Viewer
[0034] FIG. 3A illustrates a collection viewer 310 configured in a
portrait orientation, according to one embodiment of the present
invention. As shown, a physical display origin 312 is disposed in
an upper left corner, and a scroll axis 314 is aligned vertically.
That is, the scroll axis 314 is generally aligned with respect to a
physical "up" direction 316.
[0035] In one embodiment, collection viewer 310 allows a user to
scroll a collection of representative images 320, along scroll axis
314 in response to an input scroll command. The collection of
representative images 320 may be organized in a grid, with a
portion of the representative images 320 visible within a view
panel 311. A swipe gesture performed on a capacitive input device
within display unit 212 may serve as the input scroll command. In
one embodiment, view panel 311 is configured to have a rectangular
form, including a larger dimension and a smaller dimension. In such
an embodiment, the term "portrait orientation" refers to an
orientation for view panel 311 with the larger dimension generally
oriented along the up direction 316. The term "landscape
orientation" refers to an orientation for view panel 311 with the
smaller dimension generally oriented along the up direction 316. In
other embodiments, view panel 311 may be square. In such
embodiments, "portrait orientation" and "landscape orientation"
comprise arbitrary but orthogonal orientations of view panel
311.
[0036] While collection viewer 310 is illustrated here as a UI
element having a view panel 311, the term "collection viewer" is
defined broadly herein to include a software module configured to
generate the UI element and display representative images 320
within view panel 311.
[0037] When a user rotates mobile device 270 into a new position,
the collection viewer may reconfigure presentation of
representative images 320 by causing the representative images 320
to rotate to an angle consistent with the new position. For
example, the user may initially hold mobile device 270 in a
portrait orientation. The user may then rotate the device
orientation into a landscape orientation. In this example, mobile
device 270 may detect a sufficient change in orientation and cause
collection viewer 310 to transition from a portrait orientation to
a landscape orientation, illustrated below in FIG. 3B. In other
embodiments, different orientations may be implemented according to
arbitrary angles having finer granularity than orthogonal angles.
Detecting a sufficient change may include a hysteresis function in
device orientation.
[0038] FIG. 3B illustrates collection viewer 310 configured in a
landscape orientation, according to one embodiment of the present
invention. As shown, the physical display origin 312 is disposed in
a lower left corner, and a scroll axis 314 is aligned
horizontally.
[0039] In a typical usage scenario, a user holds their head in an
upright position, and therefore prefers to view representative
images 320 rendered according to the physical up direction 316. As
shown, representative images 320 are rotated to be viewed in an
orientation consistent with the up direction 316. In one
embodiment, representative images 320 are rotated in place. In one
embodiment, rotation in place comprises performing an animation,
such as a rotation animation, fade animation, or other transition
animation, for each representative image 320. In one embodiment,
animation for all representative images 320 is performed
substantially synchronously, so that all displayed representative
image 320 appear to move together. By rotating representative
images 320 in place, collection viewer 310 is able to present a
physical metaphor of the representative images 320 that is
consistent with a physical device rotation. By contrast, prior art
systems typically rearrange thumbnails, leading to user confusion
and breaking any perceived consistency with physical device
rotation.
[0040] FIG. 3C illustrates representative image 320(0,0) of FIG. 3A
in two different orientations as viewed by a user, according to one
embodiment of the present invention. A portrait to landscape
transform 330 is implemented to animate a clockwise rotation of
representative image 320(0,0) from a portrait orientation to a
landscape orientation. Additional transforms may be similarly
implemented to animate transitions between each different discrete
rotation position. Here, representative image 320(0,0) is rotated
ninety degrees in a clockwise direction to compensate for a ninety
degree counter-clockwise rotation of physical display origin 312.
As shown, representative image 320(0,0) is rotated to be viewable
in a generally upright orientation regardless of orientation of
physical display origin 312. In other embodiments, finger-grain
discrete rotation positions may be similarly implemented.
[0041] FIG. 3D illustrates representative image 320(0,0) in two
different orientations with respect to the physical display origin
312 of FIG. 3A, according to one embodiment of the present
invention. As described above, portrait to landscape transform 330
implements a rotation of representative image 320(0,0). As shown,
representative image 320(0,0) is rotated relative to physical
display origin 312.
[0042] FIG. 3E depicts an animation sequence 340 of frames 360 for
one representative image transitioning between two different
orientations, according to one embodiment of the present invention.
As shown, a representative image 342 is rotated in sequential
frames 360(N) to 360(N+4) to generate a rotation animation of
representative image 342. The rotation animation depicts a
rotational movement of the representative image 342 from an initial
position at time T0, to a new position at time T4. In this example,
a user rotates mobile device 270 counter-clockwise from a portrait
orientation to a landscape orientation between time T0 and time T1,
thereby triggering a clockwise animation of representative image
342. In the process, a new physical up direction is established. A
new up direction 352 consequently replaces an old up direction 350.
The animation sequence depicts rotational movement of
representative image 342 to generally negate the physical rotation
of mobile device 270. In one embodiment the animation sequence is
timed independently of physical rotation once a rotation event is
detected. In other embodiments, the animation sequence is timed to
substantially track physical rotation once a rotation event is
detected.
[0043] Representative image 342 may be rendered in each rotational
position associated with each incremental frame 360. Although three
intermediate frames 360(N+1), 360(N+2), and 360(N+3) are shown,
animation sequence 340 may implement an arbitrary number of
intermediate frames. In one embodiment, animation sequence 340 is
initiated and completed during a time span of less than one second,
but more than ten milliseconds. In certain implementations,
duration of animation sequence 340 may be measured as an integral
multiple of a number of frame times needed to display intermediate
frames as refresh frames on display device 212. In one embodiment,
each representative image being displayed within view panel 311 is
animated substantially synchronously, so that each animation step
for each representative image is completed together. For example,
animation frame 360(N+1) is rendered and displayed at or before
time T2 for each representative image 320 of FIG. 3A. In other
embodiments, looser synchronization may be implemented, so that
each representative image 220 completes a respective animation
sequence within a specified maximum number frame times, such as
less than five frame times, or less than sixty frame times. In
certain embodiments, an animation sequence models certain physical
behaviors or properties, such as momentum, oscillation, friction,
and the like. For example, an animation sequence may depict the
representative images overshooting their rotation and springing
back into proper position. An arbitrary rotation function may be
applied with respect to time to provide such effects.
[0044] In alternative embodiments, transition effects other than a
rotation animation may be implemented. For example, one alternative
transition effect to a rotation animation is an alpha fade
animation between representative image 342 depicted in frame 360(0)
and representative image 342 depicted in frame 360(N+4). Another
alternative transition effect animates representative image 342
depicted in frame 360(0) collapsing to a dot and re-emerging as
representative image 342 depicted in frame 360(N+4). These and
other in-place transition effects may be implemented without
departing the scope and spirit of the present invention.
[0045] In one embodiment, frames 360 are rendered by a graphics
processing unit (GPU) within processor complex 210 of FIG. 2B.
[0046] While the techniques disclosed herein are described in
conjunction with a mobile device, persons skilled in the art will
recognize that any compute platform may be configured to perform
these techniques.
[0047] While the foregoing is directed to embodiments of the
present invention, other and further embodiments of the invention
may be devised without departing from the basic scope thereof, and
the scope thereof is determined by the claims that follow.
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