Ex Parte Peters et al

Patent Trial and Appeal BoardOct 24, 2012

10177053 (P.T.A.B. Oct. 24, 2012)

UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte FRANK H. PETERS, JONATHAN SIMON, SCOTT CORZINE, and CLIFTON L. ANDERSON ____________ Appeal 2011-007521 Application 10/177,053 Technology Center 2600 ____________ Before JOHN A. JEFFERY, ELENI MANTIS MERCADER, and DENISE M. POTHIER, Administrative Patent Judges. JEFFERY, Administrative Patent Judge. DECISION ON APPEAL This application returns to us after another panel of this Board affirmed the Examiner’s rejection of then-pending claims 1, 5, 7, 9, 14, 15, 19, 20, 25, 26, and 33-37 in part. Ex parte Peters, No. 2009-001724 (BPAI June 2, 2009) (non-precedential). Prosecution was reopened after that decision, and Appellants now appeal under 35 U.S.C. § 134(a) from the Examiner’s subsequent rejection of claims 26 and 33-40. We have jurisdiction under 35 U.S.C. § 6(b). We affirm. Appeal 2011-007521 Application 10/177,053 2 STATEMENT OF THE CASE Appellants’ optical communication system includes light sources, each having light emission elements that transmit signals at different intensities. The signals are coded differently depending on the intensity, combined collectively, and transmitted on a waveguide corresponding to a channel. See generally Spec. ¶¶ 0023-27, 0043-45; Figs. 1-5. Claim 26 is illustrative: 26. An optical communication method, comprising: receiving a plurality of electrical data signals; providing at least first, second and third individual light sources configured in an array, the first, second and third light sources comprising respective discrete light emission elements configured to emit light of first, second and third light intensities only, respectively, the first, second, and third light intensities being different from one another, the first, second and third light sources being configured to transmit optical signals corresponding thereto at the first, second and third light intensities, respectively, into a same optical waveguide in an optical communication medium having first and second ends with no intervening multiplexer or encoder disposed between the array and the second end of the optical communication medium; providing, with a controller, a plurality of control signals responsive to the electrical data signals to each light source individually such that multi- level coding optical signals formed by combining the outputs of the first, second, and third discrete light emission elements are transmitted by the array into the same waveguide and thence into the first end of the optical communication medium, optically coupling the first, second and third optical signals corresponding to the first, second and third light intensities to the same optical waveguide, receiving the plurality of multi-level coding optical signals at the second end of the optical communication medium. Appeal 2011-007521 Application 10/177,053 3 THE REJECTIONS 1. The Examiner rejected claims 26 and 33-40 under 35 U.S.C. § 112, first paragraph as failing to comply with the written description requirement. Ans. 4-5.1 2. The Examiner rejected claims 33-40 under 35 U.S.C. § 112, second paragraph as failing to particularly point out and distinctly claim the subject matter which Appellants regard as the invention. Ans. 5-6. 3. The Examiner rejected claims 26 and 33-40 under 35 U.S.C. § 103(a) as unpatentable over Hietala (US 7,215,721B2; May 8, 2007 (filed Mar. 28, 2002)), Fergusson (US 6,404,533 B1; June 11, 2002), and Tamburelli (US 4,211,929; July 8, 1980). Ans. 7-16. THE WRITTEN DESCRIPTION REJECTION The Examiner finds that the originally-filed disclosure fails to support the recited limitation that no intervening multiplexer or encoder is disposed between the light source array and the second end of the optical communication medium. Ans. 4-5, 17-19. Although the Examiner acknowledges the Specification’s silence regarding this feature, the Examiner nonetheless finds that Appellants’ originally-filed disclosure does not support this negative limitation since there is no discussion regarding the recited exclusion, let alone its advantages or disadvantages or associated alternative embodiments. Id. 1 Throughout this opinion, we refer to (1) the Appeal Brief filed November 16, 2010; (2) the Examiner’s Answer mailed February 1, 2011; and (3) the Reply Brief filed March 24, 2011. Appeal 2011-007521 Application 10/177,053 4 Appellants argue that Figure 1 and Paragraphs 18 and 19 of their disclosure amply support the recited negative limitation. App. Br. 26; Reply Br. 21-23. According to Appellants, not only does Figure 1 show no multiplexers or encoders in media 16 between the source and destination optical devices, but the Specification indicates that optical signals are maintained within their respective channels throughout the media. Id. ISSUE Has the Examiner erred in rejecting claim 26 by finding that it fails to satisfy the written description requirement under § 112, first paragraph? This issue turns on whether the original disclosure reasonably conveys to skilled artisans that Appellants possessed the requirement that no intervening multiplexer or encoder is disposed between the light source array and the second end of the optical communication medium as of the filing date. PRINCIPLES OF LAW To satisfy the written description requirement, the disclosure must reasonably convey to skilled artisans that Appellants possessed the claimed invention as of the filing date. Ariad Pharms., Inc. v. Eli Lilly & Co., 598 F.3d 1336, 1351 (Fed. Cir. 2010) (en banc). ANALYSIS We begin by noting that it is undisputed that the original disclosure does not expressly state the recited negative limitation at issue, namely that no intervening multiplexer or encoder is disposed between the light source array and the second end of the optical communication medium. Rather, this Appeal 2011-007521 Application 10/177,053 5 negative limitation was added to claim 26 during prosecution via an amendment filed December 28, 2009. Nor is it disputed that Appellants’ Figure 1 shows no multiplexers or encoders associated with the optical media between the source and destination optical devices. But as the Examiner indicates, the mere absence of a positive recitation in the original disclosure is not basis to exclude the limitation. Ans. 17 (quoting MPEP § 2173.05). Rather, “[n]egative claim limitations are adequately supported when the specification describes a reason to exclude the relevant limitation.” Santarus, Inc. v. Par Pharm., Inc., -- F.3d - -, Nos. 2010-1360, -1380, 2012 WL 3797966, at *5-6 (Fed. Cir. Sept. 4, 2012) (emphasis added). That is not the case here. Although Appellants’ Specification notes that optical signals are maintained within their respective channels throughout the optical media as Appellants indicate (App. Br. 26; Reply Br. 23 (citing Spec. ¶ 0018; emphasis added)), Appellants have not shown that this somewhat brief disclosure pertaining to an exemplary embodiment explains why intervening multiplexers or encoders are excluded. To be sure, an intervening multiplexer disposed within optical media 16 in Figure 1 would presumably multiplex the optical signals on different channels 15 to a single channel, and arguably run counter to the disclosure’s maintaining optical signals within their respective channels in this exemplary embodiment. But leaving aside the disclosure’s alternative embodiment in the last sentence of Paragraph 0018 where optical signals may be switched from one channel to another (arguably not precluding multiplexing), we nonetheless are unpersuaded by Appellants’ argument even if the claim was limited to Appeal 2011-007521 Application 10/177,053 6 the exemplary embodiment that maintains optical signals within respective channels. That is, we fail to see why this feature excludes intervening encoders, for Appellants have not shown why encoded optical signals would not be maintained within their respective channels according to the exemplary embodiment and as recited in claim 22. In any event, this is not a case where, as in Santarus, skilled artisans would understand from the Specification the disadvantages of a particular alternative that includes the features excluded by the negative limitation. See Santarus, 2012 WL 3797966, at *6. Accord Ans. 18 (noting this omission). Rather, this is a case where Appellants’ excluding intervening multiplexers or encoders in claim 26 using a negative limitation effectively introduces a new concept that is not reasonably supported by the original disclosure. See, e.g., Omega Eng’g, Inc. v. Raytek Corp., 334 F.3d 1314, 1323 (Fed. Cir. 2003) (finding no express disclaimer or independent lexicography in the written description to justify adding negative limitation); Ex parte Grasselli, 231 USPQ 393, 394 (BPAI 1983), aff’d mem., 738 F.2d 453 (Fed. Cir. 1984) (“[T]he express exclusion of certain elements implies the permissible inclusion of all other elements not so expressly excluded. This clearly illustrates that such negative limitations do, in fact, introduce new concepts.”). And to the extent that the recited lack of intervening multiplexers or encoders between the light source array and the second end of the optical communication medium would have been obvious from Appellants’ original disclosure is not dispositive here. Although the written description requirement under § 112 does not demand (1) any particular form of disclosure, or (2) the Specification recite the claimed invention verbatim, a Appeal 2011-007521 Application 10/177,053 7 description that merely renders the invention obvious does not satisfy the requirement. Ariad, 598 F.3d at 1352 (citations omitted). We are therefore not persuaded that the Examiner erred in rejecting representative claim 26, and claims 33-40 not separately argued with particularity. THE § 112, SECOND PARAGRAPH REJECTION Since Appellants concede that the Examiner correctly rejected claims 33-40 under 35 U.S.C. § 112, second paragraph (App. Br. 27; Reply Br. 24), we sustain that rejection. Ans. 5-6, 19. THE OBVIOUSNESS REJECTION Regarding representative claim 26, the Examiner finds that Hietala’s system in Figure 1 receives electrical data signals via transmitter 110 which modulates light source 120 to transmit associated multi-level optical signals into optical waveguide 130 to detector 140 at the other end of the waveguide. Ans. 7-8, 20-21, 23, 29-31. The Examiner acknowledges that Hietala does not (1) have three individual light emission elements in an array with different light intensities; (2) provide control signals to each individual element to form multi-level coding optical signals by combining the elements’ outputs into the same waveguide; and (3) optically couple the elements’ associated optical signals to the same waveguide. Ans. 8-11, 20- 31. The Examiner, however, cites Fergusson as teaching limitation (1), and Tamburelli as teaching limitations (2) and (3) in concluding that the claim would have been obvious. Id. Appeal 2011-007521 Application 10/177,053 8 Appellants argue that the cited prior art does not teach or suggest the last three clauses of claim 26,2 namely (1) providing control signals to each light emission element individually such that multi-level coding optical signals formed by combining the elements’ outputs are transmitted by the array into the same waveguide; (2) optically coupling the optical signals corresponding to the elements’ different intensities to the same waveguide; and (3) receiving multi-level coding optical signals at the optical communication medium’s second end. App. Br. 28-36; Reply Br. 25-27. Appellants add that there is no reason to combine the cited references as the Examiner proposes since, among other things, (1) they do not address the problems solved by the present invention; (2) they teach away from the claimed invention; and (3) the Examiner’s combination is based on impermissible hindsight. App. Br. 28, 31-36; Reply Br. 27-30. ISSUES I. Under § 103, has the Examiner erred in rejecting claim 26 by finding that Hietala, Fergusson, and Tamburelli collectively would have taught or suggested (1) providing control signals to each light emission element individually such that multi-level coding optical signals formed by combining the elements’ outputs are transmitted by the array into the same waveguide; (2) optically coupling optical signals corresponding to the elements’ different intensities to the same waveguide; and (3) receiving 2 Appellants identify particular limitations in the last three clauses of claim 26 as “elements (viii), (ix), (x), and (xi)” to correspond to four of the 11 numbered limitations on pages 24 and 25 of the Brief. See App. Br. 24-25, 30-31; Reply Br. 25-27. Appeal 2011-007521 Application 10/177,053 9 multi-level coding optical signals at the optical communication medium’s second end? II. Is the Examiner’s reason to combine the teachings of these references supported by articulated reasoning with some rational underpinning to justify the Examiner’s obviousness conclusion? ANALYSIS On this record, we find no error in the Examiner’s obviousness rejection of representative claim 26 for the reasons indicated by the Examiner. Ans. 7-11, 19-31. As shown in Hietala’s Figure 1, transmitter 110 modulates light source 120 (e.g., a laser or laser diode) with the incoming multi-channel digital data stream to produce a single multilevel digital signal with 2n levels at the same symbol rate. Hietala, col. 6, ll. 38- 50; Fig. 1. This multilevel signal is sent via an optical waveguide 130 to optical detector 120 coupled to receiver 150 which converts the received multilevel signal to a set of binary inputs or channels. Hietala, col. 6, ll. 51- 60. Although Hietala’s light source is not an array of three individually- controlled light sources with respective elements that emit light with different intensities as the Examiner acknowledges (Ans. 8, 23), we nonetheless see no error in the Examiner’s reliance on Fergusson and Tamburelli for teaching these features. As the Examiner indicates (Ans. 8, 23, 29), Fergusson’s Figure 14 shows an array of optical transmitter transducers 1400 that emit different light intensities to produce 16 different light outputs from only four sources. Fergusson, col. 10, ll. 21-48 (noting that transducers 1404, 1406, and 1408 transmit optical power having two, Appeal 2011-007521 Application 10/177,053 10 four or eight times that of transducer 1402). Notably, not only are these transducers laser light sources as the Examiner indicates (Ans. 23 (citing Fergusson, col. 9, ll. 52-57))—sources similar to those used by Hietala as noted above—the array’s light outputs are combined optically and transmitted through a fiber optic link to a receiver 1100. Fergusson, col. 10, ll. 1-4, 38-42; Fig. 11.3 Based on this functionality, we see no reason why skilled artisans would not have substituted an array of light sources in lieu of the single light source in Hietala to yield predictable results as the Examiner proposes (Ans. 23, 25), namely providing, among other things, a relatively large number of light outputs from few sources. Nor are we persuaded of error in the Examiner’s reliance on Tamburelli merely to show that individually controlling individual light sources of an array as claimed would have been obvious. Ans. 10-11, 24-25, 30. Although Fergusson drives the transducer array with an electronic circuit 1306, Fergusson does not detail this electronic circuit as the Examiner acknowledges. Ans. 24 (citing Fergusson, col. 10, ll. 38-42). To be sure, Fergusson presets each transducer’s ON current to bias their respective light outputs (Fergusson, col. 10, ll. 25-31), but does not specify exactly how the electronic circuit does this. Nevertheless, we see no reason why skilled artisans would not individually control each light source in an array via respective control signals as the Examiner proposes in light of Tamburelli. Tamburelli’s circuitry translates binary electrical pulses into a 3 Although this discussion pertains partly to the embodiment of Fergusson’s Figure 13, it nonetheless applies to the variation of the array in the Figure 14 embodiment. Compare Fergusson, col. 9, l. 65 – col. 10, ll. 1-8 with col. 10, ll. 38-42. Appeal 2011-007521 Application 10/177,053 11 multi-level luminous signal that is produced from various combinations of outputs from light emitters L1-L3 optically coupled to fiber F as shown in Figure 1. Tamburelli, Abstract; col. 2, l. 30 – col. 3, l. 27; Fig. 1. Despite Appellants’ arguments to the contrary (Reply Br. 26), we see no error in the Examiner’s finding that various electrical components and circuitry located upstream from Tamburelli’s light emitters in Figure 1 collectively constitute a “controller” as claimed under the term’s broadest reasonable interpretation. Ans. 24 (listing various elements of Tamburelli’s circuitry as collectively constituting a “controller”).4 The Examiner’s point in this regard is well taken, since this circuitry collectively functions to provide signals to each light emitter to produce various optical output levels. That is, each emitter is effectively individually controlled to achieve this result. See Tamburelli, col. 2, l. 30 – col. 3, l. 27; Fig. 1. We therefore find that enhancing the Hietala/Fergusson system by individually controlling each light source as suggested by Tamburelli merely predictably uses prior art elements according to their established functions—an obvious improvement. See KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 417 (2007). And even assuming, without deciding, that Tamburelli’s emitters have the same intensities as Appellants contend (Reply Br. 26), that argument does 4 To the extent Appellants argue that the multiple elements identified by the Examiner in Tamburelli do not constitute a single controller (i.e., one and only one controller), such arguments are not commensurate with the scope of the claim for nothing precludes multiple elements from collectively constituting a “controller.” Nevertheless, we further note that the indefinite article “a” or “an” means “one or more” in open-ended claims containing the transitional term “comprising” as is the case here, where neither the claim nor the Specification indicates that “a controller” means one and only one controller. See Harari v. Lee, 656 F.3d 1331, 1341 (Fed. Cir. 2011). Appeal 2011-007521 Application 10/177,053 12 not address—let alone persuasively rebut—the Examiner’s reliance on Fergusson for emitters with different intensities. Ans. 8-9, 21. 29. Appellants’ arguments regarding Hietala’s single multi-level optical signal (Reply Br. 27) are likewise unavailing, for they are inapposite to the Examiner’s reliance on the cited references’ collective teachings which at least suggest transmitting multiple multi-level signals as noted above. See In re Merck & Co., Inc., 800 F.2d 1091, 1097 (Fed. Cir. 1986) (noting that individually attacking references does not show nonobviousness where the rejection is based on the references’ collective teachings). Lastly, despite Appellants’ arguments to the contrary (App. Br. 28, 31-36; Reply Br. 27-30), we find ample reason to combine the references as the Examiner proposes for the reasons indicated by the Examiner. Ans. 9- 11, 22-31. The Examiner’s reason to combine the teachings of these references is therefore supported by articulated reasoning with some rational underpinning to justify the Examiner’s obviousness conclusion. We are therefore not persuaded that the Examiner erred in rejecting representative claim 26, and claims 33-40 not separately argued with particularity. CONCLUSION The Examiner did not err in rejecting (1) claims 26 and 33-40 under § 112, first paragraph; (2) claims 33-40 under 35 U.S.C. § 112, second paragraph; and (3) claims 26 and 33-40 under § 103. ORDER The Examiner’s decision rejecting claims 26 and 33-40 is affirmed. Appeal 2011-007521 Application 10/177,053 13 No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED rwk