1. A tileable display panel, comprising:
an array of display pixels to output a screen image, the array of display pixels including central display pixels near a center of the array of display pixels having a center pixel pitch and perimeter display pixels along a perimeter of the array of display pixels; and
a perimeter region surrounding the array of display pixels, the perimeter region having a first side that is joinable to a second side of another instance of the tileable display panel to form a multi-panel display,
wherein the perimeter region has a width that is greater than at least half the center pixel pitch such that a gap between adjacent perimeter display pixels of the tileable display panel and the other instance of the tileable display panel when forming the multi-panel display is greater than the center pixel pitch,
wherein the gap is visually masked by increasing a characteristic of the perimeter display pixels adjacent to the gap relative to the same characteristic of the central display pixels.
2. The tileable display panel of claim 1, wherein the characteristic increases according to a non-linear function with distance from a center of the array of display pixels.
3. The tileable display panel of claim 2, wherein the characteristic is constant across a center portion of the array of display pixels and increases proximate to the perimeter display pixels.
4. The tileable display panel of claim 1, wherein the characteristic of the display pixels is a brightness bias of the display pixels such that the perimeter display pixels along the gap have an increased brightness bias relative to the central display pixels.
5. The tileable display panel of claim 4, further comprising:
a controller coupled to determine whether a given side of the array of display pixels abuts another instance of the tileable display panel and coupled to increase the brightness bias of the perimeter display pixels determined to be adjacent to another instance of the tileable display panel.
6. The tileable display panel of claim 4, wherein the brightness bias of the display pixels is increased by increasing a size of an emission aperture of the perimeter display pixels relative to the central display pixels.
7. The tileable display panel of claim 6, wherein pixel circuitry coupled to control a transparency of each the perimeter display pixels is disposed external to each of the perimeter display pixels in the perimeter region.
8. The tileable display panel of claim 4, wherein the central display pixels and the perimeter display pixels have commonly sized emission apertures and wherein the brightness bias of the display pixels is increased by biasing drive signals of the perimeter display pixels differently relative to the central display pixels.
9. The tileable display panel of claim 1, wherein the characteristic of the display pixels is a pixel pitch of the display pixels such that a perimeter pixel pitch of the perimeter pixels is greater than the center pixel pitch.
10. The tileable display panel of claim 9, wherein the perimeter pixel pitch of the perimeter pixels is approximately equal to the gap between adjacent perimeter display pixels of the tileable display panel and the other instance of the tileable display panel when forming the multi-panel display.
11. The tileable display panel of claim 1, wherein both a brightness bias and a pixel pitch are increased for the perimeter display pixels relative to the central display pixels.
12. The tileable display panel of claim 11, wherein a perimeter pixel pitch of the perimeter display pixels is greater than the center pixel pitch but less than the gap between the adjacent perimeter display pixels of the tileable display panel and the other instance of the tileable display panel when forming the multi-panel display.
13. A tileable display panel, comprising:
an array of display pixels to output a screen image, the array of display pixels including central display pixels near a center of the array of display pixels having a center pixel pitch and perimeter display pixels along a perimeter of the array of display pixels; and
a perimeter region surrounding the array of display pixels, the perimeter region having a first side that is joinable to a second side of another instance of the tileable display panel to form a multi-panel display,
wherein the perimeter region has a width that is greater than at least half the center pixel pitch such that a gap between adjacent perimeter display pixels of the tileable display panel and the other instance of the tileable display panel when forming the multi-panel display is greater than the center pixel pitch,
wherein the gap is visually masked by increasing a brightness bias of the perimeter display pixels adjacent to the gap relative to the brightness bias of the central display pixels.
14. The tileable display panel of claim 13, wherein the brightness bias is constant across a center portion of the array of display pixels and increases proximate to the perimeter display pixels.
15. The tileable display panel of claim 13, further comprising:
a controller coupled to determine whether a given side of the array of display pixels abuts another instance of the tileable display panel and coupled to increase the brightness bias of the perimeter display pixels determined to be adjacent to another instance of the tileable display panel.
16. The tileable display panel of claim 13, wherein the brightness bias of the perimeter display pixels is increased by increasing a size of an emission aperture of the perimeter display pixels relative to the central display pixels.
17. The tileable display panel of claim 16, wherein pixel circuitry coupled to control a transparency of each the perimeter display pixels is disposed external to each of the perimeter display pixels in the perimeter region.
18. The tileable display panel of claim 13, wherein the central display pixels and the perimeter display pixels have commonly sized emission apertures and wherein the brightness bias of the perimeter display pixels is increased by biasing drive signals of the perimeter display pixels differently relative to the central display pixels.
19. The tileable display panel of claim 13, wherein a pixel pitch of the display pixels changes across the array of display pixels such that a perimeter pixel pitch of the perimeter pixels is greater than the center pixel pitch.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. An enhanced food comprising a food contacted with a substantially surfactant-free dispersion of particles of edible hydrophobic agent(s) in an aqueous fluid, wherein the average particle size of the dispersion is 100 to 999 nm, and wherein the edible hydrophobic agent(s) of the dispersion comprise about 0.1% wt to about 70% of the dispersion.
2. The enhanced food of claim 1, wherein the dispersion comprises about 0.01% wt. to about 15% wt. of a rheological modifying agent.
3. The enhanced food of claim 1, which is a meat.
4. The enhanced food of claim 3, wherein the meat is chicken.
5. The enhanced food of claim 3, wherein the dispersion comprises a denaturant.
6. The enhanced food of claim 1, which is a beverage, soup or sauce.
7. The enhanced food of claim 1, which is a grain flour.
8. A enhanced baked food product comprising the flour of claim 7.
9. The enhanced food of claim 1, wherein about 85% or more by volume of the edible hydrophobic agent particles of the dispersion have a size from about 100 nm to about 999 nm.
10. The enhanced food of claim 1, wherein the average particle size of the dispersion is about 100 nm to about 500 nm.
11. The enhanced food of claim 1, wherein about 85% or more by volume of the edible hydrophobic agent particles of the dispersion have a size from about 100 nm to about 500 nm.
12. The enhanced food of claim 1, wherein the edible hydrophobic agent(s) of the dispersion comprise about 0.01% wt to about 50% wt of the dispersion.
13. The enhanced food of claim 1, wherein the edible hydrophobic agent(s) of the dispersion comprise about 10% wt to about 30% wt of the dispersion.
14. The enhanced food of claim 1, wherein the edible hydrophobic agent(s) of the dispersion comprise about 30% wt to about 70% wt of the dispersion.
15. A method of enhancing food comprising contacting the food with a substantially surfactant free dispersion of particles of edible hydrophobic agent(s) in an aqueous fluid, wherein the average particle size of the dispersion is 100 to 999 nm, and wherein the edible hydrophobic agent(s) of the dispersion comprise about 0.1% wt to about 70% of the dispersion.
16. The method of claim 15, wherein the food is chicken.
17. The method of claim 15, where the food is one adapted to be prepared by hydration, and edible hydrophobic agent dispersion is contacted with the food during hydration.
18. The method of claim 17, where the food is pasta, grain, dried fruit or vegetable, or freeze-dried meal.
19. The method of claim 14, comprising:
providing a first substantially surfactant free dispersion of particles of edible hydrophobic agent(s) average particle size of the dispersion is 100 to 999 nm, wherein the edible hydrophobic agent(s) of the first dispersion comprise about 30% wt to about 70% wt of the first dispersion,
diluting the first dispersion to form a second dispersion of edible hydrophobic agents with average particle size of 100 to 999 nm, wherein the second dispersion is more dilute than the first, and
thereafter conducting the food contacting using the second dispersion.
20. A kit comprising (a) a food is one adapted to be prepared by hydration and (b) an edible hydrophobic agent dispersion comprising: a substantially surfactant-free dispersion of particles of edible hydrophobic agent(s) in an aqueous fluid, wherein the average particle size by volume is 100 to 999 nm, and wherein the edible hydrophobic agent(s) comprise about 0.01% wt to about 70% of the dispersion.
21. The kit of claim 20, where the food is pasta, grain, dried fruit or vegetable, or freeze-dried meal.