perception - university of british columbia
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Perception
By Sherman LaiCPSC 533 fall ‘06
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Papers Presented
Level of detail: Varying rendering fidelity by exploiting human changeblindness. Kirsten Cater, Alan Chalmers and Colin Dalton. Proc. 1stInternational Conference on Computer Graphics and InteractiveTechniques in Australia and South East Asia, 2003, pp 39-46.
Perceptual and Interpretative Properties of Motion for InformationVisualization, Lyn Bartram, Proc. 1997 Workshop on New Paradigms inInformation Visualization and Manipulation, 1997, pp 3-7.
Internal vs. External Information in Visual Perception, Ronald A. Rensink.Proc. 2nd Int. Symposium on Smart Graphics, pp 63-70, 2002.
Scope: Providing Awareness of Multiple Notifications at a Glance,Maarten van Dantzich, Daniel Robbins, Eric Horvitz, Mary Czerwinski,Proc. of AVI, 2002.
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Perception
Process of acquiring, interpreting, selecting andorganizing sensory information (wikipedia.org)
Types: Amodal perception Color perception Depth perception Form perception Hepatic perception Speech perception Perception as Interpretation (Vision)
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Vision Basics (pre-attentive processes)
Form: Orientation, length, width,
linear, Size, Curvature,grouping, Blur, extra marks,amount.
Color: Hue, intensity.
Spatial Position: 2D position, stereo depth,
concave / convex. Motion:
Flicker, direction.
Stuff and Things.
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Perception of Motion for InfoVis(Bartram 1997) Large Volume of data; Require screen real-estate; Goal to signal the user correctly:
By pre-attentive visual system. Old static graphical dimensions; Track up to 5 vectors.
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Motion (Bartram 1997)
Traditionally: Motion for time and signaling; Support transitions.
Advantages: Easy to compute; Little screen space; Layered.
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Annunciation (Bartram 1997)
Known facts: Velocity and amplitude (more urgent) Smoothness (less disruptive)
Recommendations: Represent power levels
on software.
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Future (Bartram 1997)
Taxonomy: Basic motion; Patten recognition; Interpretative and relative motion.
Attribute motion: Phase, amplitude, frequency and direction
Selection association.
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Coherence Theory
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Details about theory
Triadic Architecture: Quick; Limited stable objects; Context help scene; Layout+gist intertwined; 20-40 items/second; Unexpected structure problem.
Scene is never constructed
One representation at a time
Cannot be both stable and contain a lot of detail.
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Varying Rendering by ChangeBlindness (Carter 2003) Alter render quality without observersnoticing;
Does this hold for rendered images too?
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The Experiment (Carter 2003)
24 rendered images Judged for interest
(marginal or central); Degree of interest;
240 ms; 290 ms;240 ms for 60 s
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Results (Carter 2003)
Results: Changeblindness occurs incomputer graphicsimages as it does in reallife!
8 times central; 4.5times marginal; 1.5times central interest; .3times marginal interest.
t > 4.07
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Internal vs. external Information in VisualPerception (Rensink 2003)
Just in time perception; Perception without attention is
perception without awareness; Can operate independent of attention; Grasping, reaching, and eye movement.
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How should we display (Rensink2003) Never both detailed and stable; Never constructed, just coordinated; Attention is extremely limited.
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Helpful info (Rensink 2003)
Eye-tracking; Background change; Careful use of change; Proximity / saccades; Background events; Foreground events.
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Helpful info (Rensink 2003) (cont.)
Attention Coercion; High, mid and low level interest. Examples:
Draw attention elsewhere during transition; Email will simply appear by magic.
Non-attentional information Works in parallel; Example:
Change when users gaze elsewhere; Alert the users.
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Scope (van Dantzich 2002)
notification overloadmanagement in onecentral location;
Focus on primarytask;
Glance awareness.
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Scope (vanDantzich 2002)
Radar design; Wedges/Sectors:
Task related: work/home;Item related: todo/email;Configurable.
Visual annotations (iconography); Level of Detail (LOD); Degree of newness; Urgency: “ToMeAlone” property; Interaction.
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Scope (vanDantzich 2002)
Adds awareness without much attention; Needs more user studies;
Stress level?
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Papers presented:
Bartram on motion; Carter on rendered image; Rensink model and advice; Van Dantzich on scope.
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Direction and Future
Helpful research: Un-obtrusive; Another dimension.
Needs more work: Association; Attention and pre-attention.
Direction towards: Ubiquitous computing; Intelligent computing.
Comments?