Ex Parte Banerjee et alDownload PDFPatent Trial and Appeal BoardOct 24, 201813572071 (P.T.A.B. Oct. 24, 2018) Copy Citation UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 13/572,071 08/10/2012 Debasish Banerjee 63796 7590 10/26/2018 DINSMORE & SHOHL LLP 900 Wilshire Drive Suite 300 TROY, MI 48084 UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www .uspto.gov ATTORNEY DOCKET NO. CONFIRMATION NO. TTC-50407/08 9277 EXAMINER CHANG, AUDREY Y ART UNIT PAPER NUMBER 2872 NOTIFICATION DATE DELIVERY MODE 10/26/2018 ELECTRONIC Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): MichiganPatTM@dinsmore.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte DEBASISH BANERJEE, MINJUAN ZHANG, SONGTAO WU, and MASAHIKO ISHII Appeal 2016-006338 Application 13/572,071 Technology Center 2800 Before JEREMY J. CURCURI, KARA L. SZPONDOWSKI, and MATTHEW J. McNEILL, Administrative Patent Judges. SZPONDOWSKI, Administrative Patent Judge. DECISION ON APPEAL 1 Appellants appeal under 35 U.S.C. § 134(a) from the Examiner's Final Rejection of claims 1-9, 21, and 22. Oral arguments were heard on October 16, 2018. A transcript of the hearing will be added to the record in due course. We have jurisdiction under 35 U.S.C. § 6(b ). We AFFIRM. 1 The Appeal Brief states Toyota Motor Engineering & Manufacturing North America is the real party in interest. App. Br. 1. Appeal2016-006338 Application 13/572,071 STATEMENT OF THE CASE Appellants' invention is directed to "an omnidirectional reflector that is a structural color and is made from materials having relatively low indices of refraction." Spec. ,r 2. Claim 1, reproduced below with the disputed limitation in italics, is representative of the claimed subject matter: 1. A process for designing and manufacturing an omnidirectional structural color (OSC) multilayer stack, the process compnsmg: providing a computer with a digital processor; providing a table of index of refraction values corresponding to different materials useable for manufacturing an OSC multilayer stack; providing an initial design for the OSC multilayer stack, the initial design OSC multilayer stack having at least one layer with an index of refraction selected from the table of index of refraction values; adding at least one additional layer to the initial design OSC multilayer stack to create a modified OSC multilayer stack, the at least one additional layer having the same or a different index of refraction as the at least one material of the initial design; and calculating the thickness of each layer of the modified OSC multilayer stack using the computer and needle optimization to optimize a merit function until an optimized OSC multilayer stack has been calculated, the optimized OSC multilayer stack operable to reflect a narrow band of electromagnetic radiation with a width of less than 200 nanometers and a shift of equal to or less than 40 nanometers when illuminated with broad band electromagnetic radiation in the form of white light and viewed from angles between O to 45 degrees. 2 Appeal2016-006338 Application 13/572,071 REJECTI0NS 2 Claims 1, 2, 5-9, 21, and 22 stand rejected under pre-AIA 35 U.S.C. § 103(a) as being unpatentable over the combination of Falicoff (US 7,859,754 B2; issued Dec. 28, 2010) and Uyama et al. (US 5,700,550; issued Dec. 23, 1997) ("Uyama"). Claims 3 and 4 stand rejected under pre-AIA 35 U.S.C. § 103(a) as being unpatentable over Falicoff, Uyama, and Shirai (US 6,310,905 B 1; issued Oct. 30, 2001 ). ANALYSIS Issue: Did the Examiner err in finding the combination of Falicoff and Uyama teaches or suggests calculating the thickness of each layer of the modified OSC multilayer stack ... the optimized multilayer stack operable to reflect a narrow band of electromagnetic radiation with a width of less than 200 nanometers and a shift of equal to or less than 40 nanometers while illuminated with broad band electromagnetic radiation in the form of white light and viewed from angles between O to 45 degrees, as recited in independent claim 1? The Examiner relies on the combination of Falicoff and Uyama to teach or suggest the disputed limitation. Final Act. 5---6; Ans. 5-8. Appellants contend "Falicoff is directed to a wideband dichroic filter and discloses data only for viewing angles between Oto 25 degrees." App. Br. 9. According to Appellants, "[ t ]herefore, a shift of less than 40 nanometers when illuminated with broad band electromagnetic radiation in 2 The Examiner withdrew rejections to claims 1-9, 21, and 22 under 35 U.S.C. § 112(a) and 35 U.S.C. § 112(b) in the Answer. Ans. 2. 3 Appeal2016-006338 Application 13/572,071 the form of white light and viewed from angles between O to 45 degrees is not disclosed or fairly suggested in this reference." App. Br. 9. Appellants' argument is not persuasive because the Examiner relies on both Falicoff and Uyama to teach or suggest this limitation, and specifically on Uyama to teach viewing angles between O to 45 degrees. Final Act. 5-6 ( citing Uyama, col. 8; Falicoff, Fig. 3). The Examiner notes Falicoff only teaches viewing angles between Oto 25 degrees. Final Act. 5. Appellants' arguments directed solely to Falicoff are, therefore, not persuasive. See In re Keller, 642 F.2d 413,426 (CCPA 1981) ("[O]ne cannot show non-obviousness by attacking references individually where ... the rejections are based on combinations of references."). With respect to Uyama, Appellants argue: Uyama et al. is directed to a transparent hologram seal and also fails to disclose reflection of a narrow band of electromagnetic radiation with a width of less than 200 nanometers and a shift of equal to or less than 40 nanometers when illuminated with broad band electromagnetic radiation in the form of white light and viewed from angles between O to 45 degrees. App. Br. 9-10. Specifically, Appellants argue Uyama "is directed to optical multi-layered films that prevent forgery by changing color," whereas Appellants' OSC multilayer stack is "angle independent," and therefore, does not change color when viewed at "angles between O and 45 degrees." Reply Br. 2. Appellants further argue "[t]he alternating layers 6 and 8 shown in FIG. 1 [ofUyama] below are transparent and do not 'reflect a narrow band of electromagnetic radiation' as recited in claim 1." Reply Br. 2. Finally, Appellants argue Uyama "teaches 'transparent hologram seal[s]' 4 Appeal2016-006338 Application 13/572,071 (title) that absorb wavelengths of visible light, not multilayer stacks that 'reflect a narrow band of electromagnetic radiation."' Reply Br. 3. In the Answer, the Examiner provides a detailed explanation of the teachings in both Uyama and Falicoff. See Ans. 5-8. For example, the Examiner finds Uyama's hologram seal includes a multilayer stack (the transparent evaporated layer 10) having alternating high refractive and low refractive index layers. Ans. 5 ( citing Uyama, Fig. 1 ); see also Final Act. 5---6. The Examiner finds a change of the optical path length of this Uyama's multilayer stack creates a color or wavelength shift of the specified wavelength range that is transmitted or reflected when the multilayer stack is viewed at different angles. Ans. 5 (citing Uyama, Fig. 1, col. 5:62---6:36). The Examiner further finds "the multilayer stack can be and is observed under the illumination of ambient light which is essentially a broad band electromagnetic radiation in the form of whi[t]e light." Ans. 5. The Examiner notes the multilayer stack and its color shift properties are independent from the hologram layer, and it is these specific teachings that are relied upon for the rejection. Ans. 5. The Examiner further finds Uyama's multilayer stack reflects or transmits a narrow electromagnetic radiation bandwidth of less than 100 nm and about 65 to 70 nm when measured at 50% transmittance or reflectance. Ans. 5---6 (citing Uyama, Figs. 2, 7, 12, 13); see also Final Act. 5-6. In addition, the Examiner finds Uyama teaches a wavelength shift of the reflectance peaks from the zero degree incidence (at 550 nm, solid curve) to 45 degrees incidence (dotted curve) of less than 40 nm. Ans. 6 (citing Uyama Figs. 1, 7, 12, 13, 5 Appeal2016-006338 Application 13/572,071 col. 8:1-9, col. 10:63-11:2, col. 15:53-16:7); see also Ans. 7; Final Act. 5---6. With respect to Falicoff, the Examiner finds Falicoff teaches an OSC multilayer stack, which is operated to reflect a narrow band of electromagnetic radiation with a width of less than 200 nm, when measured at 50% reflection or transmission. Ans. 6-7 (citing Falicoff, cols. 10, 11, and Fig. 3); see also Final Act. 5. Specifically, the Examiner relies on Figure 3 of Falicoff, and finds "Falicoff teaches that the wavelength shift is about 40 nanometers when the viewing angle changes from zero degree[s] to about 25 degrees." Ans. 7; see also Final Act. 5. The Examiner then provides several reasons to combine the references including reasons to modify Falicoff with the teachings of Uyama. Ans. 7-8. In both the Appeal Brief and the Reply Brief, Appellants argue against Uyama without taking into account the Examiner's reliance on Falicoff, or, alternatively, do not wholly address the Examiner's findings with respect to Uyama. For example, Appellants argue Uyama does not teach or suggest "reflecting a narrow band of electromagnetic radiation," (Reply Br. 2) but the Examiner also relies on Falicoff to teach or suggest this limitation (Ans. 6-7). Appellants have not addressed the Examiner's reliance on Figure 3 of Falicoff. Similarly, Appellants' argument that Uyama teaches a transparent hologram seal that absorbs wavelengths of visible light, not multilayer stacks that "reflect a narrow band of electromagnetic radiation," (Reply Br. 3) ignores that the Examiner is not relying on the hologram seal disclosure in Uyama (Ans. 5), and does not sufficiently address 6 Appeal2016-006338 Application 13/572,071 the Examiner's reliance on Figures 7, 12, and 13 ofUyama (Ans. 6-7) which depict transmittance or reflectance percentage in the vertical axis. Further, Appellants' argument that Uyama's optical multi- layered film changes color (Reply Br. 2) does not sufficiently address the Examiner's findings that Falicoff teaches or suggests a shift of about 40 nm (Ans. 7) and Uyama teaches or suggests a shift of less than 40 nm (Ans. 6-7). 3 Accordingly, on this record, we do not find Appellants' arguments persuasive. Appellants further argue Uyama and Falicoff are not analogous art. App. Br. 10, Reply Br. 4. We do not find Appellants' arguments persuasive. A reference is analogous art to the claimed invention if: (1) the reference is from the same field of endeavor as the claimed invention ( even if it addresses a different problem); or (2) the reference is reasonably pertinent to the problem faced by the inventor ( even if it is not in the same field of endeavor as the claimed invention.) In re Oetiker, 977 F.2d 1443, 1447 (Fed. Cir. 1992). The Examiner finds both Falicoff and Uyama "teach multilayer stacks having the same interference filter structure (i.e. alternating layers of high and low refractive indices)," which is in the same field of endeavor as Appellants' invention. Ans. 8. Appellants argue the field of endeavor of the claimed invention is "omnidirectional reflectors that are structural colors, i.e., angle independent reflectors that provide (reflect) a structural (sharp) color." Reply Br. 4. 3 Appellants' Specification describes a "change in color" as a "shift in band reflection." See Spec. ,r 70. The Examiner finds the term "'omnidirectional' is understood in the art as none or small wavelength shift in the reflection/transmission spectrum when the viewing angle changes." Ans. 8. 7 Appeal2016-006338 Application 13/572,071 According to Appellants, Falicoff's field of endeavor is "wide-band filters for combining LED-phosphor beams, particularly wide-band filters for combining a blue LED spectrum with a yellow phosphor spectrum into a single white output beam" and Uyama's field of endeavor is "transparent hologram seals that change color when viewed at different angles." Reply Br. 4. We agree with the Examiner, and find Appellants have described Falicoff and Uyama's fields of endeavor too narrowly. F alicoff is directed to "multilayer interference filters with thin-film specifications designed by a computer optimization program," which has alternating layers of high and low refractive index material. Falicoff, col. 1 :22-24. Similarly, Uyama, and specifically the teachings the Examiner relies upon in Uyama, is directed to "an optical multi-layered film" with alternating high and low refractive index layers. Uyama, col. 1:5---6, 5:62---65. We find these are sufficiently close to Appellants' field of endeavor of a multilayer stack that provides omnidirectional structural color and made from high- and low-refractive materials. Spec. 2-3, 12. Alternatively, a reference is reasonably pertinent if, even though it may be in a different field from that of the inventor's endeavor, it is one which, because of the matter with which it deals, logically would have commended itself to an inventor's attention in considering his problem. In re Clay, 966 F. 2d 656, 659 (Fed. Cir. 1992). The Examiner identifies Appellants' problem as "the wavelength shift of the interference filter or multilayer stack when 8 Appeal2016-006338 Application 13/572,071 viewed at different angles." Ans. 8. Appellants argue, "neither Falicoff nor Uyama et al. are pertinent to the problem of providing a multilayer stack that reflects an omnidirectional structural color." Reply Br. 4. Appellants have essentially argued the field of endeavor and problem faced by applicant are the same. We agree with the Examiner that the problem faced by the applicant is slightly narrower, and is directly related to the omnidirectionality of the multi-layer structure, specifically related to viewing the wavelength shift at different angles. E.g., Spec. 14. As set forth above, both Falicoff and Uyama address viewing a multi-layer structure at different angles and, therefore, would have logically commended themselves to an inventor's attention in considering this problem. Therefore, we are not persuaded by Appellants' arguments. Accordingly, on this record, we are not persuaded the Examiner erred. We, therefore, sustain the Examiner's 35 U.S.C. § 103(a) rejection of independent claim 1. For the same reasons, we sustain the Examiner's 35 U.S.C. § 103(a) rejection of dependent claims 2--4, 9, 21, and 22, which were not argued separately. With respect to claims 5-8, which recite that "the optimized OSC multilayer stack has 7 or less total layers," Appellants argue "Falicoff discloses multilayer stacks having 80 and 82 layers (Tables 1--4) and thus actually teaches away from a multilayer stack having at most 7 layers." App. Br. 10. Here, again, Appellants arguments are not persuasive because the Examiner relies on Uyama, not Falicoff to teach a multilayer stack having 7 or less total layers. Final Act. 6; Ans. 8 ( citing Uyama, col. 9 Appeal2016-006338 Application 13/572,071 7:6, col. 10:6, col. 13:5). Appellants have not addressed the Examiner's reliance on Uyama. Accordingly, on this record, we are not persuaded the Examiner erred. We, therefore, sustain the Examiner's 35 U.S.C. § 103(a) rejection of dependent claims 5-8. DECISION We affirm Examiner's 35 U.S.C. § 103(a) rejection of claims 1-9, 20, and 21. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(l )(iv). AFFIRMED 10 Copy with citationCopy as parenthetical citation
