DESCRIPTION

Related Applications

[Para 1 ] This PCT application claims the benefit of U.S. Application Serial Numbers

1 1 /069,645, filed March 1 , 2005, 1 1 /069,644, filed March 1 , 2005, and 1 1 /069,653, filed

March 1 , 2005.

Field of Invention

[Para 2] The present invention relates to the field of classic Silhouette Theater wherein actors act out a performance between a light source and a rear projection surface, and the audience watches the performance from the opposite side of the screen in the form of a moving shadow. More particularly, this invention relates to creating three dimensional shadows using anaglyph technology. The present invention also overcomes problems encountered in partially lit or partially reflective environments.

[Para 3] The present invention provides a three dimensional system that can be used in the home.

[Para 4] The present invention provides a portable three dimensional system that can be worn on a person.

Background of Invention

[Para 5] Ever since the invention of light, people have enjoyed creating shadows on the wall. Closely on the heels of this came the use of rear screen projection, which puts the audience of the shadow theater on the opposite side of a translucent screen. Now the actor

is free to execute his or her craft or artistry on the side of the light projector and move about in such a way as to create shadowy form and movement that will be appreciated by the audience on the opposite side of the screen.

[Para 6] The use of anaglyph technology to provide a three dimensional shadow effects is best utilized in perfectly dark and non-reflective areas. If the projection and viewing area are not perfectly dark or the surrounding walls or ceilings are reflective, the ability to perceive the three dimensional effect is diminished. The use of simple ordinary open filtered or colored light sources fails to provide highly defined shadows that are acceptable for large partially lit viewing areas, such as cabarets, dance halls, bars, comedy clubs, or auditoriums. [Para 7] The ability to provide a child-safe system also limits the use of high powered electrical equipment. Current systems fail to provide highly defined shadows in combination with a device that is safe for children's use that can be used in a bedroom, playroom, living room, or similar home environments.

[Para 8] Current systems fail to provide highly defined shadows in combination with a portable device that can be worn on a person that is safe for children's use that can also be used in a bedroom, playroom, living room, or similar environments.

Summary of Invention

[Para 9] The invention exploits the binocular nature of human sight, by using two light sources mounted horizontally approximately three inches apart as the light source. In addition, the lights are color-filtered red on the left and blue on the right. When an actor performs in the space between the light and the screen, the dual light source produces a shadow with a ridge of red on the left and a ridge of blue on the right side of the shadow. The effect of a 3D shadow is achieved when the audience views this shadow on the opposite side of the screen wearing anaglyph red and blue 3D glasses.

[Para 10] The effect of a 3D shadow is achieved when the audience views this shadow through anaglyph red and blue 3D glasses on either the same side or the opposite side of the screen as the projector.

[Para 1 1 ] One aspect of the invention includes a shadow projection system having a projector including a two point light source with each light source having corresponding light filters, a translucent screen, a pair of filtered viewing lenses corresponding to the corresponding light filters of the two point light source, such that a viewer looking through the pair of filtered viewing lenses perceives a three dimensional perception shadow caused by two shadows cast on the translucent screen of an object placed between the two point light source and the translucent screen. The light sources may be pinpoint light sources that are high wattage. The light sources may be light bulb or lamp elements that are less than 0.5 inches in height and less than 0.25 inches in width and have a wattage of approximately 200 watts to approximately 600 watts. The light sources may create three dimensional shadowing effects in conditions with partial light. The projector may include an enclosure for damping reflected light and include non-reflective coating. The translucent screen may obscure the projector and the object from the viewer and provide balance in the overall projected light. The translucent screen may be comprised of polyethylene. [Para 12] Another aspect of the invention includes a projector for a shadow projection system having a two point pinpoint high wattage light source with each light source having corresponding light filters such that a viewer looking through a pair of corresponding filtered viewing lenses perceives a three dimensional perception shadow caused by two shadows cast on a translucent screen of an object placed between the two point light source and the translucent screen, wherein the projector includes an enclosure for damping

reflected light, and wherein the light sources create three dimensional shadowing effects in conditions with partial light.

[Para 1 3] Another aspect of the invention includes a method of creating a three dimensional shadow including: Providing a projector having a two point light source, each light source having corresponding light filters, a translucent screen having a projection side and a viewing side, a pair of filtered viewing lenses corresponding to the corresponding light filters of the two point light source; placing and moving an object between the translucent screen and the projector; projecting a pair of shadows of the object with the projector on the projection side of the translucent screen; creating a pair of shadows of the object on the viewing side of the screen; and causing a viewer looking through the pair of filtered viewing lenses to perceive a moving three dimensional perception shadow caused by two shadows created on the viewing side of the translucent screen of an object placed between the two point light source and the translucent screen. The method may include three dimensional shadowing effects created in conditions with partial light. The method may further include obscuring the projector and the object from the viewer with the translucent screen and balancing the overall projected light with the translucent screen. [Para 14] Another aspect of the invention includes a shadow projection system including a projection means for providing a two point filtered light source, screen means for providing a viewing medium for a viewing shadow, viewing means for filtering a portion of a viewing shadow, wherein a viewer looking through the viewing means perceives a three dimensional perception of an object placed between the projection means and the screen means by viewing shadows cast on the screen means in conditions with partial light. The shadow projection system may include a projection means having an enclosure for damping reflected light and a two point pinpoint high wattage light source, each light source having

corresponding light filters, and wherein the light sources create three dimensional shadowing effects in partial light.

[Para 1 5] One aspect of the invention includes a shadow projection system having a projector including a two point light source with each light source having corresponding light filters, a translucent screen, a pair of filtered viewing lenses corresponding to the corresponding light filters of the two point light source, such that a viewer looking through the pair of filtered viewing lenses perceives a three dimensional perception shadow caused by two shadows cast on the translucent screen of an object placed between the two point light source and the translucent screen. The light sources may be pinpoint light sources such as LEDs, halogen bulbs or small incandescent bulbs. The light sources may be pinpoint light sources with non-reflective components so that the light source projects light in a generally single, parallel direction with minimal amounts of reflected light. The light sources may be light bulb or lamp elements that are less than 0.5 inches in height and less than 0.25 inches in width and have uniform projection of light with non-perceptible shadows or distortions. The light sources may create three dimensional shadowing effects in conditions in a home environment. The projector may include an enclosure for damping reflected light and include a non-light emitting heat vent. The translucent screen may obscure the projector and the object from the viewer and provide balance in the overall projected light. The translucent screen may be comprised of polyethylene. [Para 16] Another aspect of the invention includes a projector for a shadow projection system having a two point pinpoint light source with each light source having corresponding light filters such that a viewer looking through a pair of corresponding filtered viewing lenses perceives a three dimensional perception shadow caused by two shadows cast on a translucent screen of an object placed between the two point light source and the translucent screen, wherein the projector includes an enclosure for damping

reflected light, and wherein the light sources create three dimensional shadowing effects in a home environment.

[Para 1 7] Another aspect of the invention includes a method of creating a three dimensional shadow including: Providing a projector having a two point light source, each light source having corresponding light filters, a translucent screen having as projection side and a viewing side, a pair of filtered viewing lenses corresponding to the corresponding light filters of the two point light source; placing and moving an object between the translucent screen and the projector; projecting a pair of shadows of the object with the projector on the projection side of the translucent screen; creating a pair of shadows of the object on the viewing side of the screen; and causing a viewer looking through the pair of filtered viewing lenses to perceive a moving three dimensional perception shadow caused by two shadows created on the viewing side of the translucent screen of an object placed between the two point light source and the translucent screen. The method may include three dimensional shadowing effects created in a home environment. The method may further include obscuring the projector and the object from the viewer with the translucent screen and balancing the overall projected light with the translucent screen. [Para 1 8] Another aspect of the invention includes a shadow projection system including a projection means for providing a two point filtered light source, screen means for providing a viewing medium for a viewing shadow, viewing means for filtering a portion of a viewing shadow, wherein a viewer looking through the viewing means perceives a three dimensional perception of an object placed between the projection means and the screen means by viewing shadows cast on the screen means in conditions with partial light. The shadow projection system may include a projection means having an enclosure for damping reflected light and a two point pinpoint light source, each light source having corresponding

light filters, and wherein the light sources create three dimensional shadowing effects in a home environment.

[Para 1 9] One aspect of the invention includes a shadow projection system having a portable projector including a two point light source with each light source having corresponding light filters, a screen, a pair of filtered viewing lenses corresponding to the corresponding light filters of the two point light source, such that a viewer looking through the pair of filtered viewing lenses perceives a three dimensional perception shadow caused by two shadows cast on the screen of an object placed between the two point light source and the screen. The light sources may be pinpoint light sources such as LEDS, halogen bulbs, or small incandescent bulbs. The light sources may be pinpoint light sources with non-reflective components so that the light source projects light in a generally single, parallel direction with minimal amounts of reflected light. The light sources may be light bulb or lamp elements that are less than 0.5 inches in height and less than 0.25 inches in width and have uniform projection of light with non-perceptible shadows or distortions. The light sources may create three dimensional shadowing effects. The projector may include an enclosure for damping reflected light and be worn on a person. The screen may be translucent and obscure the projector and the object from the viewer and provide balance in the overall projected light. The translucent screen may be comprised of polyethylene. The screen may also be opaque such as a wall.

[Para 20] Another aspect of the invention includes a portable projector for a shadow projection system having a two point pinpoint light source with each light source having corresponding light filters such that a viewer looking through a pair of corresponding filtered viewing lenses perceives a three dimensional perception shadow caused by two shadows cast on a screen of an object placed between the two point light source and the

screen, wherein the projector includes an enclosure for clamping reflected light, and wherein the light sources create three dimensional shadowing effects. [Para 21 ] Another aspect of the invention includes a method of creating a three dimensional shadow including: Providing a portable projector having a two point light source, each light source having corresponding light filters, a screen, a pair of filtered viewing lenses corresponding to the corresponding light filters of the two point light source; placing and moving an object between the screen and the projector; projecting a pair of shadows of the object with the projector on the projection side of the screen; and causing a viewer looking through the pair of filtered viewing lenses to perceive a moving three dimensional perception shadow caused by two shadows created on the screen of an object placed between the two point light source and the screen. The method may include creating a pair of shadows _. of the object on the viewing side of the screen. The method may include three dimensional shadowing effects. The method may further include obscuring the projector and the object from the viewer with the screen and balancing the overall projected light with the translucent screen.

[Para 22] Another aspect of the invention includes a shadow projection system including a projection means for providing a portable two point filtered light source, screen means for providing a viewing medium for a viewing shadow, viewing means for filtering a portion of the viewing shadow, wherein a viewer looking through the viewing means perceives a three dimensional perception of an object placed between the projection means and the screen means by viewing shadows cast on the screen. The shadow projection system may include a projection means having an enclosure for damping reflected light and a two point pinpoint light source, each light source having corresponding light filters, and wherein the light sources create three dimensional shadowing effects. The shadow projection system may include a projection means worn on a person.

Brief Description of the Drawings

[Para 23] Figure 1 is a three dimensional drawing of a three dimensional shadow system from the projection side of the screen.

[Para 24] Figure 2 is a three dimensional drawing of a three dimensional shadow system from the viewing side of the screen.

[Para 25] Figure 3 is a three dimensional drawing of a three dimensional shadow system from the projection side and above the screen.

[Para 26] Figure 4 is a three dimensional drawing of a three dimensional shadow system from above the screen.

[Para 27] Figure 5 is three dimensional drawing of the alternate projector of a three dimensional shadow system.

[Para 28] Figure 6 is three dimensional drawing of the alternate projector of a three dimensional shadow system with the front panel removed.

[Para 29] Figure 7 is three dimensional drawing of the alternate projector of a three dimensional shadow system.

[Para 30] Figure 8 is three dimensional drawing of the alternate projector of a three dimensional shadow system with the front panel and lamps removed.

[Para 31 ] Figure 9 is three dimensional drawing of the alternate projector of a three dimensional shadow system.

[Para 32] Figure 1 0 is a three dimensional cut-away drawing of the alternate projector of a three dimensional shadow system.

[Para 33] Figure 1 1 is three dimensional drawing of the alternate projector of a three dimensional shadow system using a solid viewing surface.

Description of the Preferred Embodiment

[Para 34] Generally, one embodiment of the three dimensional shadow projection system consists of a two point source of lamps positioned horizontally approximately three inches apart, and four feet off the floor. The left lamp has a red gelatin filter and the right lamp has a blue gelatin filter. Both lamps project approximately six to ten feet in a single direction, in parallel towards a white rear translucent surface. Actors with props performing directly in the path of the dual lamps' projection on the screen cast shadows on the rear side of the projection screen.

[Para 35] The three inch displacement of the lamps produces a shadow cast by the actors and their props on the screen that has a ridge of red on the left edge and a ridge of blue on the right edge.

[Para 36] The audience members stand on the opposite side of the rear screen _ projection surface approximately six to ten feet away from the screen looking towards the screen wearing red and blue anaglyph three dimensional glasses. The left eye of the viewer looks at the shadow through a red filter and only sees the blue shadow. The right eye looks through the blue lens and only sees the red shadow. The viewer perceives a single shadow. Due to the blocking effect of the red filter, the left eye is actually seeing a slightly different reveal of the actor's shadow than the right eye sees. These two slightly different reveals of the actor's shadow are fused together in the viewers mind much the same way that actual three dimensional objects are fused by anyone with normal binocular vision. What makes the effect so exceptional is that the shadow appears to be an integrated translucent gray volume that mimics the form of the actor on the opposite side of the screen. The second feature of this effect is that the orientation of the 3D shadow on the viewer side of the screen is the reverse of the actor on the projector side of the screen. So when the actor has

his or her back to the audience and faces the projection lamps, the appearance of the shadow on the viewer side is facing the audience.

[Para 37] Referring now to Fig. 1 , one embodiment of the three dimensional shadow projection system 100 includes a projector 1 10. Projector 1 10 comprises a two point light source 1 1 1 of a left lamp 1 1 2 and a right lamp 1 14 spaced and positioned horizontally to each other a lamp spacing L of approximately three inches apart, and an elevation distance E of approximately four feet off the floor. Projector 1 10 is located a projection distance P from the screen 200. Lamp spacing L may be variable from approximately one inch to approximately 4 inches depending on the projection distance P and the overall shadow effect desired. Projection distance P is approximately six to ten feet. Left lamp 1 1 2 has a red gelatin light filter 1 1 3 and right lamp 1 14 has a blue gelatin light filter 1 1 5. Both lamps 1 1 2 and 1 14 project in a generally single, parallel direction towards screen 200. Screen 200 is comprised of a white translucent surface that has a projection surface 210 facing the projector 1 10 and a viewing surface 220 facing the audience A. Objects O, such as actors with props, located between the projector 1 1 0 and the screen 200 cast shadows on projection surface 210.

[Para 38] The lamp spacing L of the two point light source 1 1 1 of projector 1 1 0 causes a projection shadow 310 cast by object O on the projection surface 210. Projection shadow 31 0 comprises two parts, a red projection shadow 312 and a blue projection shadow 314. Red projection shadow 31 2 and blue projection shadow 314 overlap so that projection shadow 310 has a ridge of red or exposed red shadow component 316 on the left edge 31 3 of projection shadow 310 and a ridge of blue or exposed blue shadow component 318 on the right edge 31 5 of projection shadow 310. Note that the red projection shadow 31 2 and the blue projection shadow 514 are not symmetrical due to the lamp spacing L of the two point light source.

[Para 39] The audience A stands on the opposite side of the screen 200 as the projector 1 1 0 and the object O. Audience A faces viewing surface 220 of screen 200 and is positioned a viewing distance V from screen 200. Viewing distance V is approximately six to ten feet. Audience A views the viewing surface 220 through glasses 400 towards screen 200. Glasses 400 comprise anaglyph three dimensional lenses comprising a left lens 402 having a red filter 403 and right lens 404 having a blue filter 405 that correspond to red light filter 1 1 3 and blue light filter 1 1 5.

[Para 40] Now referring to Fig, 2, Screen 200 is comprised of a white translucent material so that projection shadow 310 passes through screen 200 to viewing surface 220 facing the audience A creating viewing shadow 51 0 on viewing surface 220. Screen 200 may be comprised of different types of materials such as 4 mil polyethylene or typical rear monochrome projection screen material varying from white to gray to black so long as a shadow is projected through the screen. In most applications, some opacity of screen 200 is desired to obscure the actor or object O from the audience A as well as obscuring the light projector 1 1 0. The screen 200 also preferably provides enough diffusion of the two point light source 1 1 1 to reduce hot spots in the lighting and provide balance in the overall projected light.

[Para 41 ] The viewing shadow 510 comprises two parts, a red viewing shadow 512 and a blue viewing shadow 514. Red viewing shadow 512 and blue viewing shadow 514 overlap so that viewing shadow 510 has a ridge of red or exposed red shadow component 516 on the right edge 51 5 of viewing shadow 510 and a ridge of blue or exposed blue shadow component 51 8 on the left edge 51 3 of viewing shadow 510. Note that red projection shadow 31 2 is on the left side of projection surface 210, but red viewing shadow 51 2 is on the right side of viewing surface 220.

[Para 42] Referring again to glasses 400 with a left lens 402 having a red filter 403 and right lens 404 having a blue filter 405, the left eye of the audience A looks at viewing shadow 51 0 through red filter 403 and only sees the blue viewing shadow 514. The right eye of Audience A looks through the blue filter 405 and only sees the red viewing shadow 51 2. This results in the audience perceiving a single perception shadow 600. Note that the red viewing shadow 51 2 and the blue viewing shadow 514 are not symmetrical so that the perception shadow 600 appears as a three-dimensional image to the audience A when viewed through glasses 400.

[Para 43] Referring now to Fig 3 and Fig 4, note that as object O is moved about the area between projector 1 10 and screen 200, perception shadow 600 moves about the area between screen 200 and audience A at the same time in real time. Perception shadow 600 appears as a three-dimensional image due to the left eye actually seeing a slightly different reveal of the viewing shadow 510 than the right eye sees. These two slightly different reveals of the perception shadow 600 are caused by the non-symmetrical nature of the two different colored shadows 512, 514 of viewing shadow 51 0 as they are fused together in the viewers mind much the same way that actual three dimensional objects are fused by anyone with normal binocular vision. What makes the effect so exceptional is that the perception shadow 600 appears as an integrated translucent gray volume that mimics the form of the object O on the opposite side of screen 200. The second feature of this effect is that the orientation of the perception shadow 600 on the viewer or audience side of screen 200 is the reverse of the object O on the projector side of screen 200. So when the actor or object O has his or her back to the audience and faces the projector 1 10, the appearance of the perception shadow 600 on the viewer side is facing audience A.

[Para 44] The three-dimensional shadow effect can also be created by reversing the red and blue colors or by using different color combinations instead of red and blue such as red

and cyan, red and green, or by using opposed Polaroid filters such as vertical and horizontal.

[Para 45] Referring now to Fig 5, an alternative embodiment projector 710 of the three dimensional shadow projection system 100 is shown. Projector 710 comprises an enclosure 730, a two point light source 71 1 , and filters 716, 71 8. The two point light source 71 1 comprises a left lamp 712 and a right lamp 714 spaced and positioned horizontally to each other a lamp spacing L of approximately three inches apart, and an elevation distance E of approximately four feet off the floor. Projector 710, similar to projector 1 10, is located a projection distance P from the screen 200 as previously indicated in Fig 1. Lamp spacing L may be permanently or temporarily variable from approximately one inch to approximately 4 inches depending on the projection distance P and the overall shadow effect desired. In some cases more exaggeration, hyper realization, under realization, or ghosting effect is desired and can be accomplished by adjusting the lamp spacing L Projection distance P is approximately six to ten feet. Left lamp 712 has a red filter 716 and right lamp 714 has a blue filter 718. Lamps 712 and 714 project light in a generally single, parallel direction towards screen 200. Lamps 712, 714 are high watt bulbs of approximately 200 watts to approximately 600 watt clear glass bulbs. The wattage of the bulbs is preferably about 400 watts. Exceeding 600 watts is possible, but the extra heat would require additional cooling, such as a fan. A pinpoint light source is desired, such as that created by bulb element or filament 720 that may be up to about 0.25 inch in width and 0.5 inch in width so as to provide a minimal amount of distortion and blurring of the three-dimensional perceived image 600. A tall or long filament reduces top to bottom clarity, a wide filament reduces side to side clarity. Regular household light bulbs typically have elements that are too large or have frosted glass that creates a diffuse light source that is not a pinpoint light source.

Typical household bulbs also do not have the necessary lighting intensity to overcome partially lit lighting conditions such as cabarets, bars, comedy clubs, etc. [Para 46] Filters 716, 71 8 may be a gelatin type filter material or other type of colored medium that corresponds to filters 403, 405 in lenses 402, 404 as previously described in Fig. 1. Note that the color for right lamp 714 matches the color for the left filter 403 and lens 402 of glasses 400.

[Para 47] Referring now to Fig. 6, Projector 710 is shown with the filters 716, 71 δ and the front panel of enclosure 730 removed. Projector 710 includes an enclosure 730 that surrounds lamps 71 2, 714 except for the portion in front of lamps 71 2, 714 so that lamps 71 2 and 714 can project light in a generally single, parallel direction towards screen 200. Enclosure 730 captures light that is not directed toward the screen. The inside of enclosure 730 is painted a flat black such as a high temp flat black paint such as that used for fireplaces and wood stoves to diminish reflected light. A high temp paint withstands the high temperature of the enclosure caused by the high wattage lamps 712, 714. The shape of the enclosure may also be designed to capture and minimize reflected light. A back panel 732 that is angled, for example, may be used to reflect light in a downward direction, [Para 48] Referring now to Fig 7, an alternative embodiment projector 710 of the three dimensional shadow projection system 1 00 is shown. Projector 710 comprises an enclosure 730, a two point light source 71 1 , and filters 71 6, 718. The two point light source 71 1 comprises a left lamp 712 and a right lamp 714 spaced and positioned horizontally to each other a lamp spacing L of approximately three inches apart. Projector 710, similar to projector 1 10, is located a projection distance P from the screen 200 as previously indicated in Fig 1. Lamp spacing L may be permanently or temporarily variable from approximately one inch to approximately 4 inches depending on the projection distance P and the overall shadow effect desired. In some cases more exaggeration, hyper realization, under

realization, or ghosting effect is desired and can be accomplished by adjusting the lamp spacing L Projection distance P is approximately six to ten feet. Left lamp 712 has a red filter 71 6 and right lamp 714 has a blue filter 718. Lamps 71 2 and 714 project light in a generally single, parallel direction towards screen 200. Lamps 71 2, 714 are low wattage bulbs, such as halogen, small incandescent or LED bulbs, LED bulbs are preferred. A pinpoint light source with a uniform projection is desired without caustic light shadows created by some LED bulbs. A light source that does not introduce shadows or hot spots that are perceptible by the viewer is desired. The bulb element or filament 720 may be up to about 0.25 inch in width and 0.5 inch in width so as to provide a minimal amount of distortion and blurring of the three-dimensional perceived image 600. A tall or long filament reduces top to bottom clarity, a wide filament reduces side to side clarity. Some light bulbs, such as those typically used in the home, have elements that are too large or have frosted glass that creates a diffuse light source that is not a pinpoint light source. [Para 49] Filters 716, 718 may be a gelatin type filter material or other type of colored medium that corresponds to filters 403, 405 in lenses 402, 404 as previously described in Fig 1 . Note that the color for right lamp 714 matches the color for the left filter 403 and lens 402 of glasses 400.

[Para 50] Lamps 71 2, 714 are partially surrounded by non-reflective components 720 and 722 that reduce the amount of reflected light. Non-reflective components may be simply a high temperature non-reflective coating or may be an inserted component that is positioned between the bulb and the remainder of the projector 710 so that the light source projects light in a generally single, parallel direction with minimal amounts of reflected light. Projector may be either battery powered or AC powered and supplied via power connector 740. Power connector 740 may be either an AC cord plug or a DC adapter. Power to the projector can be turned on by switch 750.

[Para 51 ] Referring now to Fig 8, Projector 710 is shown with the filters 71 6, 71 8 and the front panel of enclosure 730, and lamps 712, 714 removed. Projector 710 includes an enclosure 730 that surrounds lamps 71 2, 714 except for the portion in front of lamps 71 2, 71 4 so that lamps 712 and 714 can project light in a generally single, parallel direction towards screen 200. Enclosure 730 captures light that is not directed toward the screen. The enclosure 730 is light tight to diminish reflected light. The enclosure may be comprised of plastic material. The shape of the enclosure may also be designed to capture and minimize reflected light and allow heat from the bulbs to safely escape, A back panel 732 may have a vent opening, for example, to be used to relieve the buildup of heat without letting light escape.

[Para 52] Generally, the three dimensional shadow projection system can be used either as a rear projection system with the viewing shadow created on a reaj>pτojection screen and viewed from the opposite side of the screen as the projector or as a front projection system with the viewing shadow created on a front projection screen (that can be an opaque surface) and viewed from the same side as the projector.

[Para 53] Referring now to Fig 9, an alternative embodiment projector 710 of the three dimensional shadow projection system 100 is shown. Projector 710 comprises an enclosure 730, a two point light source 71 1 , and filters 716, 718. The two point light source 71 1 comprises a left lamp 712 and a right lamp 714 spaced and positioned horizontally to each other a lamp spacing L of approximately one inch apart. Projector 710, similar to projector 1 1 0, is located a projection distance P from the screen 200 as previously indicated in Fig 1 . Lamp spacing L may be permanently or temporarily variable from approximately one inch to approximately 4 inches depending on the projection distance P and the overall shadow effect desired. In some cases more exaggeration, hyper realization, under realization, or ghosting effect is desired and can be accomplished by adjusting the lamp spacing L.

Projection distance P is approximately two to eight feet. Left lamp 712 has a blue filter 716 and right lamp 714 has a red filter 71 8. Lamps 712 and 714 project light in a generally single, parallel direction towards screen 200. Lamps 712, 714 are low wattagebulbs, such as halogen, small incandescent or LED bulbs, Led bulbs are preferred. A pinpoint light source is desired without caustic light shadows created by some LED bulbs. A light source that does not introduce shadows or hot spots that are perceptible by the viewer are desired. The bulb element or filament 720 may be up to about 0.25 inch in width and 0.5 inch in width so as to provide a minimal amount of distortion and blurring of the three- dimensional perceived image 600. A tall or long filament reduces top to bottom clarity, a wide filament reduces side to side clarity. Some light bulbs, such as those typically used in the home, have elements that are too large or have frosted glass that creates a diffuse light source that is not a pinpoint light source. _

[Para 54] Filters 716, 718 may be a gelatin type filter material or other type of colored medium that corresponds to filters 403, 405 in lenses 402, 404 as previously described in Fig 1. Note that the color for right lamp 714 matches the color for the right filter 403 and lens 402 of glasses 400 to provide for viewing on the same side as projection. This also allows for projection onto solid surfaces such as walls. Rear projection viewing can be accomplished by reversing either the color of the lenses in the glasses, or reversing the color of the filters in the projector.

[Para 55] Projector 710 includes an enclosure 730 that surrounds lamps 712, 714 except for the portion in front of lamps 71 2, 714 so that lamps 712 and 714 can project light in a generally single, parallel direction towards screen 200. Enclosure 730 captures light that is not directed toward the screen. The enclosure 730 is light tight to diminish reflected light. The shape of the enclosure may also be designed to capture and minimize reflected light

and allow heat from the bulbs to safely escape. A back panel 732 that has a vent opening, for example, may be used to relieve the buildup of heat without letting light escape. [Para 56] Lamps 712, 714 are partially surrounded by non-reflective components 720 and 722 that reduce the amount of reflected light. Non-reflective components may be simply a high temperature non-reflective coating or may be an inserted component that is positioned between the bulb and the remainder of the projector 71 0 so that the light source projects light in a generally single, parallel direction with minimal amounts of reflected light.

[Para 57] Referring now to Fig. 10, alternative projector 710 is shown in a cut-away view, removing part of enclosure 730 to show batteries 760. Power is provided by three AA batteries, however, other battery sizes may be used as power demands permit. Power switch 770 is also shown. _

[Para 58] Referring to Fig 1 1 , the viewer or audience A is wearing projector 710, positioned on the viewer's chest and held in place with positioning means or strap 750. The object O is positioned in front of the projector 710 casting projection shadow 31 2 and viewing shadow 512 on a wall or screen 200. For this embodiment the projection shadow 31 2 and the viewing shadow 51 2 are the same allowing screen 200 to be a solid wall or any opaque or translucent surface. Audience A views projection shadow 512 through glasses 400 with lenses 402 (left, red) and 404 (right, blue) and seeing perceived shadow 600 between the screen 200 and the object O.

[Para 59] The projector may also be used as a rear screen projector as previously described by using a translucent screen 200, and reversing either the color of the lenses in the glasses 400 or reversing the color of the filters in the projector 710. [Para 60] It is to be understood that the above description is intended to be illustrative, and not restrictive. Many other embodiments will be apparent to those of skill in the art

upon reviewing the above description. The scope of the invention should, therefore, be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled.