JP2001506012A - Apparatus for enhancing visual perception of selected objects in recreational and sports activities - Google Patents

Abstract

(57) [Summary] In order to make it easier to see the yellow tennis ball (706) while playing or watching tennis, it is attached between the ball (706) and the competitor (704) or the spectator (708). Watch tennis through an optical filter. The optical filter has a predetermined transmission with a pronounced heake centered between about 500 nm and 600 nm. The filter passes a high percentage of the incident light reflected from the tennis ball (706) and the fluorescent light of the tennis ball, but passes a much lower percentage of the light in the rest of the visible spectrum.

Description

Description: FIELD OF THE INVENTION The present invention relates generally to optical devices for sports-related activities in recreational and sporting activities. The phrase "Keep your eyes away from the ball" has been repeatedly said by competitors. To be successful in these activities, it is necessary for competitors to be able to accurately recognize moving objects. Exercise has been the traditional method for improving the ability to keep an eye on the ball. However, practice requires time and patience. Many people do not have the time or the motivation to practice and have no talent to solve the limitations of nature. In some sports, even professional players who have a good season fail to recognize moving objects. This is particularly the case when the speed of the object has been pushed to a point beyond the normal ability of the player to accurately recognize the object, due to the skill of the competitor. In sports, especially those that have to chase high-speed moving objects, further progress of the competitors slows down and fans, referees, coaches and other sports watchers find it more difficult to follow activities. Became. BACKGROUND ART The present invention enhances the visual perception of the background of an object used in an activity, i.e. makes the object more visible with respect to the background. The present invention can be used while practicing, playing, and watching activities and does not require special training. The present invention provides an opportunity to enhance a competitor's ability to visually recognize a selected object, such as a ball, and thus improve the competitor's ability. DISCLOSURE OF THE INVENTION In accordance with the present invention, a specifically adapted optical filter is provided to a race-competitor or viewer of an activity to support a predetermined position between the spectator's eye and the activity, and to provide such a filter with such activity. Make the used selected object more visible with respect to the object background. The surface of the selected object primarily reflects or emits light within one or more relatively narrow predetermined wavelength ranges in the visible spectrum. The optical filter is selected to pass much of the reflected light, the emitted light, or the incident light at a wavelength that overlaps with either of these wavelengths from the object. The moving object is easier to see with respect to the background for spectators or competitors. According to another aspect of the invention, an eyewear for competitors or spectators is a lens (corrective or non-corrective) treated with a dye or optical multilayer interference coating that transmits light in the visible spectral range. ) Or other substantially transparent and solid elements. One extreme of the visible spectral range is close to and includes the spectrum corresponding to the object's predominant color characteristics. In one preferred embodiment, the clear yellow lens is colored with blue dye to enhance the visibility of the optical yellow tennis ball. The invention is applicable to other activities. These activities include, for example, racquetball, squash, golf, baseball, and other activities in which a moving or stationary object must come into contact with an object held by a player's hand. It is. Further, the present invention is useful in improving safety in activities such as water skiing, hunting, and military training. This improvement is achieved by providing eyewear to the viewer of the activity, with a dominant color characteristic that is prominent in the garment or other wearable object of the participant and making such clothing or the object more visible. These and other features and advantages of the present invention will become apparent from the following description of the accompanying drawings, which shows a preferred embodiment of the invention. FIG. 1 is a graph showing the relative reflectance of visible light from a standard fluorescent yellow tennis ball as a function of wavelength. FIG. 2 is a graph showing the relative intensity of fluorescence at a visible wavelength from a standard fluorescent yellow tennis ball as a function of wavelength. FIG. 3 is a graph showing the transmittance (%) with respect to wavelength of a typical prior art sunglass lens specially treated to attenuate ultraviolet rays. FIG. 4 is a graph showing the transmission (%) at visible wavelengths of an optical filter attached to a lens according to a preferred embodiment of the present invention to make the optical yellow tennis ball easier to see. FIG. 5 is a graph showing the transmittance (%) at a visible wavelength through a second lens having a second optical filter according to the present invention. FIG. 6 shows standard eyewear incorporating a lens having an optical filter according to the present invention. FIG. 7 shows spectator seats and activities showing that a particularly transparent surface provided between the spectator and the activity area is provided with an optical filter for facilitating viewing of objects having primary color characteristics. It is a schematic diagram. Embodiments In the following description, the same parts have the same reference numerals. Referring to FIG. 1, curve 100 shows the relative reflectivity of electromagnetic radiation in the visible spectrum from a typical fluorescent yellow tennis ball. In the green-yellow region of the visible spectrum, there is a radiation peak 102 centered at about 500 nm to 525 nm. The term "peak", as referred to herein, is a local maximum in intensity, with a local minimum in which the intensity is significantly less than the peak intensity. The relative reflectivity falls off rapidly on each side of this peak. The relative reflectivity drops to almost zero at about 450 nm toward the blue side of the peak. However, on the red side of the peak, the reflectance curve does not decrease so rapidly to much lower levels in the 600 nm range. As used herein, the bandwidth of an incident radiation or light intensity peak is the range of wavelengths between the half-power points of the intensity curves on each side of the peak. However, if the intensity on the side of the peak does not decrease to a level below the half-power point, the edge of the bandwidth on that side of the peak will be at the 50% point between the peak and the local minimum. is there. Next, reference is made to FIG. The optical yellow coating on the tennis ball, in addition to reflecting visible light, also emits light in the visible range by fluorescence. Graph 200 shows that the fluorescence of a typical fluorescent yellow tennis ball exhibits a distinct beak 202 between about 500 nm and 525 nm. This beak drops rapidly on each side. The bandwidth of peak 202 substantially correlates or overlaps the bandwidth of peak 102 (see FIG. 1) for reflectivity. Referring now to FIG. 3, curve 300 shows a typical transmission characteristic for a sunglass lens that has been treated on the surface of the lens with an optical coating that attenuates ultraviolet light. As shown by curve 300, the transmittance of the sunglass lens (measured by the percentage of incident light transmitted through the lens) remains approximately constant over the visible range, but of one region relative to another region of the spectrum. Imbalance may give a slight hue. However, it does not have a clear peak in any particular range. Referring now to FIGS. 1, 2 and 4, curve 400 is a graph showing the percentage of incident light as a function of wavelength transmitted through a lens having an optical filter according to the present invention. As used herein, the term "lens" refers to a conventional ophthalmic lens for vision correction or non-correction made of a substantially transparent solid material, in terms of shape and size. Is not limited, and supports an optical filter disposed between the eye and the object to be viewed, through which the object is viewed. The transmission of the lens has a sharp peak 402 centered around 500 nm to 525 nm. On each side of the peak is a wavelength of transmission 50% of the peak transmission. The range of wavelengths between these two 50% peak transmission points is referred to herein as the peak bandwidth. The bandwidth of the peak transmission 402 correlates with and / or partially overlaps the reflectance peak 202 of the reflectance beak 102 shown in FIG. 1 and the fluorescent yellow tennis ball shown in FIG. And the peaks 102 and 202 of the curves are located substantially within the band path of curve 404 and are in close proximity to one edge of the band path of curve 400. The bandwidth of the reflectance peak 102 and the fluorescence peak 202 of the tennis ball is preferably within the filter spectrum and close to either the upper or lower edge of the filter spectrum, whereby the ball It is perceived by the user as having its true color, and its background takes on a slightly different color that is adjacent in the spectrum. The transmission of the lens drops relatively quickly on each side of its peak 402 and approaches zero toward the limit of the visible spectrum in each direction. Thus, the lens reflects or emits light relatively evenly across the visible spectrum, or against a major portion of the visible spectrum outside of the tennis ball reflectance peak 102 and fluorescence peak 202. , Tend to increase awareness of tennis balls. In tennis, as in many other exercises, it is desirable to see at least some of the background. Therefore, the rest of the visible spectrum outside peak 402 is not completely attenuated. In addition, tennis is often played outdoors in intense sunlight, and the lenses reduce some of the light in the peak range to protect the eyes of competitors or spectators from the sun. To make the tennis ball more easily recognizable, the transmission of the lens is reduced considerably more rapidly on the red side of the curve than on the blue side of the curve, as shown by curve 400, and down to almost zero on the red side. . The transmission in the blue region stops above zero, so that the background seen through this filter has an overall bluish tint. As can be seen by the portion 104 of the curve 100, the yellow tennis ball actually reflects a large amount of red light but is not as strong as light in the green-yellow region of the spectrum. Reducing the transmission in the red region of the spectrum enhances mainly the yellow-green color of the ball, while at the same time eliminating the orange and lower wavelengths primarily associated with the background, thus making the tennis ball more recognizable. At the same time, the transparency of other parts of the visible spectrum is sufficiently maintained to properly view the background. One example of a suitable optical filter is a polycarbonate labeled "Peacock Blue" HT-115 manufactured and sold by Lee Panavision International, Inc. of Andover, Hampshire, UK under the name of Lee Filters. It is a thin film-shaped filter made of. This filter, when applied to a neutral substantially transparent solid support element such as a glass lens, is very close to the desired transmission shown in FIG. 4, and thus is a typical background encountered during tennis. The recognition of the yellow tennis ball as desired. Referring now to FIGS. 1, 2 and 5, in another embodiment of the present invention, the second transmission for an optical filter supported by a lens is shown by curve 500. FIG. The filter has a peak 502 that is substantially correlated with a peak 102 of reflectance of the tennis ball and a peak 202 of fluorescence of the tennis ball. Unlike the transmittance curve 400 shown in FIG. 4, the transmittance curve 502 drops significantly to a plateau 504 where each side of the peak is substantially flat. Thus, the transmission of the lens can predominantly emphasize the yellow-green appearance of the ball, while transmitting a large amount of the remaining visible spectrum. The tennis ball is easy to see without significantly attenuating the light reflected and emitted by the background. Referring now to FIG. 6, eyeglass 600 includes two lenses 602 mounted on frame 604 to support lens 602 in the field of view of the person wearing frame 604. The glasses are suitable for supporting a lens in front of the eyes of a competitor who must move during exercise, for example, a player of a tennis game. The particular design of the frame and the shape and size of the lens will depend on the preferences of the wearer. Each lens 602 is made of transparent natural glass. A thin plastic film layer is adhered to one surface of the glass lens. The thin plastic film is impregnated with a dye having a transmittance substantially as shown in FIG. 4 or FIG. Another embodiment of the dye can be mixed with a plastic substrate and molded into a rigid plastic lens. Other types of optical filters can be applied to the surface of the glass. One type of well-known optical filter is an optical interference coating that includes several layers of antireflective material deposited on the surface of a glass lens. The structure and thickness of the layers are selected to refract and reflect a predetermined wavelength of light in a predetermined manner to create a predetermined constructive and destructive interference pattern. In a variant, other forms of eyewear, such as goggles and contact lenses, instead of eyeglasses, can be treated in a similar manner with dyes or interference coatings, making objects with predetermined primary color characteristics easier to see with respect to the background. And the desired transmittance characteristics illustrated in FIG. Next, referring to FIG. 7, the spectator stand 700 is disposed adjacent to a court 702 where a player 704 plays tennis using a tennis ball 706. The stand is provided with a sheet of substantially transparent material, such as a glass or plastic plate, supported between the audience 708 and the coat 702. The transparent material includes an optical filter having the transmittance characteristics shown in the graph of FIG. 4 or FIG. Thus, the audience sitting on the stand can easily see the tennis ball. The spectator stand can be adapted to view different types of play areas, and attenuate or reflect colors in the visible spectrum outside the primary color to make it easier to see objects in the play area with the primary color. Substantially transparent materials can be applied to include optical filters with properties. The above description is that of a preferred embodiment of the invention, and is intended only to illustrate the invention without limiting it. The scope of the invention is set forth in the appended claims.

────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Jay Paul Moore             66209, Kansas, USA             Land Park, West One Hand             Red and Twenty Nine strike             REET 5500 (72) Inventor David V. Kerns, Jr.             37205, Tennessee, U.S.A.             Newville, Brookmont Terrace 6626

Claims (1)

[Claims] 1. Viewing to make a given target object easier to see against a background made of other objects In view equipment,   a. Across the wavelength spectrum within the visible spectrum that defines the filter spectrum Having lens means for transmitting light to each eye of the user at a high percentage,   b. The lens means has a filter spectrum wider than the target spectrum. Wavelength outside the filter spectrum so as to be narrower than the visible spectrum. Optical filter means for attenuating the light of the Having an upper edge and a lower edge defined by a length, within the visible spectrum and Significantly attenuates light outside the upper and lower edges compared to the center point of the filter spectrum In the optical filter means, a slight color bleeding can be seen by a user. ,   c. The target spectrum is the authenticity of the object emitted from the target object. Including a spectrum of wavelengths of light that defines the color of the target spectrum, Coincides with a relatively narrow portion of the visible spectrum wavelength, and the target spectrum is , Further, at least coincident with a point of light peak intensity in the target spectrum. Is also defined by one target wavelength, and the target within the target spectrum is Light intensity above and below the get wavelength is reduced compared to the target wavelength The target spectrum;   d. Said optical filter means, wherein the target wavelength is within the filter spectrum; And update the light so that it is close to either the upper or lower edge of the filter spectrum. Attenuates the target object so that the target object is substantially And the background object is almost the same as the color blur of the optical filter. Recognizing that it has a contrasting color,   e. Ensure that the visual perception of the target object is enhanced simultaneously by each eye of the user. Support means for positioning the positioning means between the user and the target object. Do   A view-viewing device, characterized in that: 2. The lens means is provided in close proximity to the corresponding left and right eyes of the user. The viewing apparatus according to claim 1, further comprising a first lens and a second lens supported by the first lens and the second lens. 3. The target object has a yellow-green color with a target wavelength of 510 nm to 540 nm. A color tennis ball, wherein the optical filter means has a wavelength of 400 nm to a target wavelength. Light is transmitted more than light of a wavelength equal to or greater than the target wavelength. The attenuation of light at wavelengths shorter than the target wavelength is Reduced compared to the attenuation, which allows the user to shift the target object to a yellow-green Claiming that the object is recognized as an object, and the background object is recognized as having a bluish tint. The viewing device according to 1. 4. The lens unit includes an optical sheet material and a support unit, and the support unit includes: There is a play area containing the target object and one or more users in the seat. 2. The viewing apparatus according to claim 1, including means for positioning between the viewing area and the viewing area.