Ex Parte 6542660 et alDownload PDFPatent Trial and Appeal BoardJun 27, 201495001148 (P.T.A.B. Jun. 27, 2014) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE 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 APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 95/001,148 02/19/2009 6542660 5145-CIRREX-RI148 2485 27571 7590 06/30/2014 Ascenda Law Group, PC 84 W. Santa Clara St. Suite 550 San Jose, CA 95113 EXAMINER NGUYEN, TUAN H ART UNIT PAPER NUMBER 3992 MAIL DATE DELIVERY MODE 06/30/2014 PAPER 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. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ________________ CISCO SYSTEMS, INC. Requester and Cross-Appellant v. GRAYWIRE LLC Patent Owner and Appellant ________________ Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 Technology Center 3900 ________________ Before JOHN A. JEFFERY, DAVID M. KOHUT, and JEREMY J. CURCURI, Administrative Patent Judges. CURCURI, Administrative Patent Judge. DECISION ON APPEAL Patent Owner appeals the Examiner’s decision to reject claims 1-24, 26-31, 34-37, 39-41, 45, 48, 55, 56, 60, 61, 65, 66, 68, and 71. PO App. Br. 2. Requester cross-appeals the Examiner’s determination not to make a Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 2 proposed rejection of claims 1-19. 3PR App. Br. 2. We have jurisdiction under 35 U.S.C. §§ 134 and 315, and heard the appeal on April 30, 2014. Claims 1-24, 26-31, 34-37, 39-41, 45, 48, 55, 56, 60, 61, 65, 66, 68, and 71 are rejected on various grounds; the Examiner has not adopted proposed rejections of claims 1-19 on various grounds. See RAN 5-90. We affirm. STATEMENT OF THE CASE This proceeding arose from a request by Cisco Systems, Inc. for an inter partes reexamination of U.S. Patent 6,542,660, titled “Method and System for Increasing a Number of Information Channels Carried by Optical Waveguides” (the “’660 patent”). The ’660 patent is involved in litigation. The case is captioned Graywire, LLC v. Ciena Corp. et al.; Case No. 1:08- cv-02993. On July 17, 2009, the case was stayed. PO App. Br. 2; see also 3PR App. Br. 2. The ’660 patent describes “[a]n optical add/drop multiplexing (OADM) device can increase the number of information channels carried by an optical waveguide by utilizing different wavelength regions of light.” Abstract. Claims 1, 6, and 14 are illustrative. Claims 1, 6, and 14 are reproduced below: 1. An optical add-drop multiplexing (OADM) device comprising: a wavelength adapter module for transforming unstabilized non- monochromatic or monochromatic light energy into one or more channels of stabilized monochromatic light energy having one or more predefined wavelength regions; and Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 3 a filter module for at least one of dropping, adding, and recombining one or more channels of stabilized monochromatic light energy having one or more predefined wavelength regions, whereby information traffic carried by an optical waveguide is substantially increased; and wherein the OADM device is part of a SONET optical network. 6. An optical network comprising: a SONET network; and a plurality of optical add-drop multiplexing (OADM) devices connected to a plurality of SONET network terminals; each OADM device comprising: a wavelength adapter module for transforming unstabilized non- monochromatic or monochromatic light energy into one or more channels of stabilized monochromatic light energy having one or more predefined wavelength regions; and a filter module for at least one of dropping, adding, and recombining one or more channels of stabilized monochromatic light energy having one or more predefined wavelength regions. 14. The optical network of claim 6, wherein the wavelength adapter module further comprises a optical feedback assembly coupled to an optical waveguide. Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 4 SELECTED REFERENCES Chang et al., “Multiwavelength Reconfigurable WDM/ATM/SONET Network Testbed,” Journal of Lightwave Technology, Vol. 14, No. 6, June 1996 (“Chang”). M. G. Young et al., “A 16 X 1 Wavelength Division Multiplexer with Integrated Distributed Bragg Reflector Lasers and Electroabsorption Modulators,” IEEE Photonics Technology Letters, Vol. 5, No.8, Aug. 1993 (“Young Article”). Published PCT Application WO 97/30495 A1, published Aug. 21, 1997 (“the ’495 PCT Application”). Published PCT Application WO 97/07608 A1, published Feb. 27, 1997 (“the ’671 PCT Application”). Wagner et al., “MONET: Multiwavelength Optical Networking,” Journal of Lightwave Technology, Vol. 14, No. 6, June 1996 (“Wagner”). Walter J. Goralski, SONET: A Guide to Synchronous Optical Networks, McGraw-Hill, 1997 (“SONET Guide”). US 6,295,306 B1; issued Sep. 25, 2001 (“Asami”). Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 5 ANALYSIS THE INDEFINITENESS REJECTION OF CLAIMS 21, 24, 29, 37, AND 41 The Examiner rejects claims 21, 24, 29, 37, and 41 as being indefinite. RAN 81-84. Patent Owner does not present arguments regarding the indefiniteness of claims 21, 24, 29, 37, and 41. We, therefore, summarily sustain the Examiner’s rejection of claims 21, 24, 29, 37, and 41 as indefinite. THE ANTICIPATION REJECTION OF CLAIMS 1-12, 14-17, AND 20 BY CHANG Claims 1-12, 16, and 17 The Examiner finds Chang describes all limitations of claims 1 and 6. RAN 14-17, 22-23. The Examiner relies on Chang’s (Fig. 1) network testbed architecture, including Chang’s (Fig. 2) network access nodes, for describing the recited OADM device being part of a SONET optical network. RAN 16. Patent Owner makes the following principal arguments: (i) The “Examiner erred in concluding that the Chang Article discloses a SONET network as that term is properly construed for the ’660 patent.” PO App. Br. 33. (ii) “[T]he proper construction for the term “SONET network” would be an optical network originally designed to operate using SONET protocols and time division multiplexing --and not merely a network connected to a SONET terminal.” PO App. Br. 34. (iii) Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 6 The Chang Article discloses a network testbed that is able to receive information from an ATM/SONET terminal that complies with the bit rates for SONET OC-3 information and retransmit that information over the testbed. The mere fact that the ATM/SONET terminal transmits information in accordance with certain SONET protocols to the data link receivers does not make the testbed a “SONET network” as that term is used in the ’660 patent specification. The testbed was not operated under time division multiplexing. It merely is connected to an ATM/SONET terminal. PO App. Br. 34; see also PO Reb. Br. 5-6. We agree with the Examiner that Chang’s (Fig. 1) network testbed architecture, including Chang’s (Fig. 2) network access nodes, describes the recited OADM device being part of a SONET optical network. We agree with the further elaboration by Third Party Requester and adopt as our own Third Party Requester’s analysis: The described ATM/SONET terminals generate signals in the SONET protocol, and those signals use the SONET protocol from origin to destination throughout the network. A person of ordinary skill in the art would have considered a network using some, but not necessarily all, SONET network elements to be a SONET optical network. The network described in the Chang Article falls easily within the definition of a SONET network as that term is understood by a person of ordinary skill in the art. 3PR Resp. Br. 15 (citing 3PR Resp. Br. Ex. E3, Declaration of W. John Tomlinson, Ph.D., Sept. 30, 2011, ¶ 12). We are not persuaded of Examiner error. Contrary to Patent Owner’s arguments (i), (ii), and (iii), the ’660 patent Specification does not define the term “SONET network.” For example, the ’660 patent (col. 7, ll. 12-14) describes “FIG. 3 illustrates an exemplary optical network 300 that includes a SONET network overlayed Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 7 with optical add/drop multiplexing (OADM) devices 310 of the present invention.” The ’660 patent (col. 8, ll. 20-23) further describes “both SONET protocol and non-SONET information channels can be propagated simultaneously on the same access network.” Thus, a broad, but reasonable, construction of the term “SONET network” includes a network using some, but not necessarily all, SONET network elements, such as Chang’s (Fig. 1) network testbed architecture, including Chang’s (Fig. 2) network access nodes. The evidence of record supports the Examiner’s findings, and explains that Chang discloses a SONET network. See 3PR Resp. Br. Ex. E3, Declaration of W. John Tomlinson, Ph.D., Sept. 30, 2011, ¶ 12. We, therefore, sustain the Examiner’s rejection of claims 1 and 6 as anticipated by Chang, as well as claims 2-5, 7-12, 16, and 17, which are not argued with particularity. Claims 14, 15 and 20 The Examiner finds Chang describes all limitations of claims 14 and 20. RAN 18-20, 24-25. The Examiner relies on Chang’s distributed feedback laser (DFB laser) for describing the recited optical feedback assembly. RAN 18-19 (citing Chang, Fig. 2). Patent Owner makes the following principal arguments: (i) The “Examiner erred in concluding that a distributed feedback laser (‘DFB laser’) satisfies the ‘optical feedback assembly’ recitation in Claims 14 and 20.” PO App. Br. 7. (ii) As can be seen from the proper construction of the term “optical feedback assembly,” the structure requires at least two Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 8 aspects: 1) the structure is outside the active region of the laser device and 2) the structure feeds light energy back into the active region of the laser device to stabilize the wavelength of light energy emitted from the laser. The grating of the DFB laser fails to provide either of these two aspects. PO App. Br. 10; see PO App. Br. 8-10 (citing the ’660 patent, Fig. 4, col. 9, ll. 31-44; the ’523 patent, col. 2, ll. 28-42, col. 2, ll. 66 - col. 3, l. 9, col. 4, ll. 28-31, col. 8, ll. 5-11; PO App. Br. Ex. 1, Declaration of Donald D. Davis, Jr., Ph.D., May 28, 2010, ¶¶ 15, 17); see also PO Reb. Br. 6-7. We agree with the Examiner that Chang’s distributed feedback laser (DFB laser) describes the recited optical feedback assembly. We agree with the further elaboration by Third Party Requester and adopt as our own Third Party Requester’s analysis: [T]he Examiner correctly looked to the specification to provide a definition for the term “optical feedback assembly.” Finding no express definition, he properly applied the broadest reasonable interpretation standard to find that DFB lasers include optical feedback assemblies. 3PR Resp. Br. 4. “[A] person skilled in the art would have understood that the gratings of the DFB lasers taught by [] Chang [] form an optical feedback assembly.” 3PR Resp. Br. 4 (citing 3PR Resp. Br. Ex. E2, Declaration of W. John Tomlinson, Ph.D., Oct. 9, 2009, ¶ 14). We have considered the arguments (PO App. Br. and PO Reb. Br.) and evidence (PO App. Br. Evidence Appendix) presented by Patent Owner, including the declarations by Donald D. Davis, Jr., Ph.D, and we are not persuaded of Examiner error. Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 9 Contrary to Patent Owner’s argument (i), the evidence of record supports the Examiner’s findings, and explains that “[i]n a DFB laser, such as the type disclosed in [] Chang [], the grating would have been understood by a person of ordinary skill in the art as an assembly that provides optical feedback and is coupled to the optical waveguide of the laser gain region.” 3PR Resp. Br. Ex. E2, Declaration of W. John Tomlinson, Ph.D., Oct. 9, 2009, ¶ 14. Contrary to Patent Owner’s argument (ii), the ’660 patent Specification and U.S. Pat. No. 6,496,523 (the ’523 patent) (incorporated by reference in the ’660 patent) describe embodiments, and do not define the term “optical feedback assembly.” For example, the ’660 patent (col. 6, ll. 4-6) explains that Fig. 4 illustrates an exemplary OADM device; the ’660 patent (col. 9, ll. 34-36) (emphasis added) describes “[a]n optical feedback assembly 430 can comprise a filtering device in combination with a partial reflecting device.” Thus, a broad, but reasonable, construction of the term “optical feedback assembly” includes a distributed feedback laser (DFB laser). We, therefore, sustain the Examiner’s rejection of claims 14 and 20 as anticipated by Chang, as well as claim 15, which is not argued with particularity. THE OBVIOUSNESS REJECTION OF CLAIMS 18 AND 19 OVER CHANG AND YOUNG ARTICLE The Examiner finds Chang and Young Article teach all limitations of claim 18. RAN 29, 33 (citing Request, Ex. M). The Examiner explains Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 10 it would have been obvious to one of ordinary skill in the art, based upon Chang Article in view of the Young Article to construct the wavelength adapter module and the filter module as a unitary structure because the Young Article discloses that the laser, optical feedback assembly, and filter structure (combiner) can be formed on a single chip to eliminate alignment issues. RAN 33. Patent Owner makes the following principal arguments: (i) The “Examiner erred in concluding that the Young Article discloses a wavelength adapter module and filter module forming a unitary structure in rejecting Claim 18.” PO App. Br. 18. (ii) Young Article’s combiner does not teach the recited filter module, and Young Article’s laser and grating structure does not teach the recited wavelength adapter module. See PO App. Br. 18-20. We agree with the Examiner that Chang and Young Article collectively teach the recited unitary structure. We agree with the further elaboration by Third Party Requester and adopt as our own Third Party Requester’s analysis: [T]he Examiner’s rejection incorporated by reference the Request and Exhibits M and N thereto which explain that the Chang Article or the Pirelli Specification discloses the wavelength adapter module and filter module (See, Claim 6) and the Young Article discloses that the modules can form a unitary structure. As explained in the Request at Exhibits M and N for claim 18, it would have been obvious to one of ordinary skill in the art, based upon the Chang Article or the Pirelli Specification in view of the Young Article to construct the wavelength adapter module and the filter module as a unitary structure because the Young Article discloses that the lasers, optical feedback assemblies, and filtering structures can Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 11 be formed on a single chip to eliminate alignment issues. (Young Article, p. 908). 3PR Resp. Br. 9. Contrary to Patent Owner’s arguments (i) and (ii), the combined teachings of Chang and Young Article teach the recited limitations. The test for obviousness is not whether the features of a secondary reference may be bodily incorporated into the structure of the primary reference; nor is it that the claimed invention must be expressly suggested in any one or all of the references. Rather, the test is what the combined teachings of the references would have suggested to those of ordinary skill in the art. In re Keller, 642 F.2d 413, 425 (CCPA 1981)(citations omitted). Here, the Examiner relies on Chang for teaching the wavelength adapter module and the filter module, and relies on Young for teaching the forming of a unitary structure. The Examiner explains why the combined teachings suggest all recited limitations. See RAN 29, 33; Request, Ex. M, pp. 53-54. We, therefore, sustain the Examiner’s rejection of claim 18 as obvious over Chang and Young Article, as well as claim 19, which is not argued with particularity. THE OBVIOUSNESS REJECTION OF CLAIM 26-31, 36, 37, 55, AND 71 OVER CHANG AND THE ’495 PCT APPLICATION The Examiner finds Chang and the ’495 PCT Application teach all limitations of claim 28. RAN 107. The Examiner explains Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 12 [i]t is agreed with the Requester Comments After First, and Second ACP, p. 25, and 26 respectively that the ’495 PCT Application discloses that Fabry-Perot lasers and DFB lasers (as taught in the Chang Article) are alternative implementations as explained on page 44 of the Requester October 2009 Comments. It would be obvious in view of the teaching of the ’495 PCT Application to modify the optical feedback assembly of the Chang Article using a Fabry-Perot laser. RAN 107. Patent Owner makes the following principal arguments: (i) The “Examiner erred in concluding that the ’495 PCT Application discloses a laser device comprising a Fabry-Perot laser as required by Claim 28.” PO App. Br. 31. (ii) “The entire objective of the ’495 PCT Application is to develop a suitable laser device that overcomes the deficiencies of a Fabry-Perot laser. It would not have been obvious to one of ordinary skill in the art to “simply substitute” a Fabry-Perot laser in for the laser device disclosed in the ’495 PCT Application.” PO App. Br. 32. (iii) “The ’495 PCT Application actually teaches away from such a substitution.” PO App. Br. 32. We agree with the Examiner that Chang and the ’495 PCT Application teach all limitations of claim 28. We agree with the further elaboration by Third Party Requester and adopt as our own Third Party Requester’s analysis: The ’495 PCT Application plainly discloses, “Fabry-Perot (FP) lasers typically emit in multiple longitudinal modes and have large output bandwidths.” (p. 1, 1. 23) The reference further discloses that the low cost Fabry-Perot lasers and the more complex DFB lasers are both “common implementations” of semiconductor diode lasers. The simple substitution of one Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 13 semiconductor diode laser for another, based upon cost and complexity considerations for the implementation, yields entirely predictable results. Although the ’495 PCT Application does disclose improvements over the Fabry-Perot and DFB lasers, the MPEP admonishes, “’[a] known or obvious composition does not become patentable simply because it has been described as somewhat inferior to some other product for the same use.’ In re Gurley, 27 F.3d 551, 554 ... (Fed. Cir. 1994).” (See, MPEP §2145.X.D.1.) Thus, the ’495 PCT Application’s teaching of improvements over the well-known Fabry-Perot laser does not constitute a teaching away from combination with the Chang Article. 3PR Resp. Br. 13. We are not persuaded of Examiner error. Contrary to Patent Owner’s arguments (i) and (ii), as explained above, the ’495 PCT Application discloses Fabry-Perot lasers and distributed feedback lasers (DFB) as common laser implementations. See the ’495 PCT Application, p. 1, l. 20 - p. 2, l. 6. Contrary to Patent Owner’s argument (iii), while an alternative may be inferior to or less desirable than another, that alone is insufficient to teach away from the inferior alternative unless the disclosure criticizes, discredits, or otherwise discourages that alternative. In re Fulton, 391 F.3d 1195, 1200- 01 (Fed. Cir. 2004). Here, we agree with Third Party Requester that the ’495 PCT Application’s teaching of improvements over the well-known Fabry- Perot laser does not constitute a teaching away. We, therefore, sustain the Examiner’s rejection of claim 28 as obvious over Chang and the ’495 PCT Application, as well as claims 26, 27, 29-31, 36, 37, 55, and 71, which are not argued with particularity. Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 14 THE OBVIOUSNESS REJECTION OF CLAIMS 21, 22, 24, 34, 35, AND 39-41 OVER CHANG, THE ’495 PCT APPLICATION, AND THE ’671 PCT APPLICATION The Examiner finds Chang, the ’495 PCT Application, and the ’671 PCT Application teach all limitations of claim 39. RAN 84 (citing Requester Comments dated Oct. 12, 2009, p. 50); see also Requester Comments dated Oct. 12, 2009, p. 37 (Discussing claim 21, limitation [21.6]: “Thus, one skilled in the art would recognize that it would [have been] obvious to replace the interference filter with an etalon filtering device [of the ’495 PCT Application]. Doing so would have involved nothing more than a simple substitution of one known element for another to obtain predictable results.”), Requester Comments dated Oct. 12, 2009, p. 39 (Discussing claim 21, limitation [21.8]: “[A Bragg grating] is disclosed by the ’671 PCT Application. Replacing the DFB laser of the Chang Article with a Fabry- Perot laser would have been obvious in view of the ’495 PCT as described above with respect to claim portion [21.2].” Further discussing claim 21, limitation [21.8]: It would have been obvious to use a Bragg grating as taught by the ’671 PCT Application to further stabilize the light provided by the wavelength adaptor module. Thus, it would have been obvious to one of ordinary skill in the art to use a Bragg grating [of the ’671 PCT Application] to partially reflect light emitted from the semiconductor gain medium. ). Patent Owner makes the following principal arguments: (i) The “Examiner has provided no articulate reasoning with rational underpinning to combine the three references to arrive at the claimed invention of Claim 39.” PO App. Br. 30. Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 15 (ii) The Requester had already argued that the laser device of Claim 21 is satisfied by the laser of the ’495 PCT Application, which emits light in a narrow wavelength band. There would be absolutely no reason “to further stabilize the light provided by the wavelength adaptor module” -- the entire purpose of the laser disclosed in the ’495 PCT Application is to generate such stabilized light energy. PO App. Br. 30-31. (iii) “[T]here would be absolutely no reason ‘to further stabilize the light provided by the wavelength adaptor module’ of the light energy emitted from the laser device of the Chang Article. The DFB laser emits a narrow wavelength of light energy.” PO App. Br. 31. We agree with the Examiner that Chang, the ’495 PCT Application, and the ’671 PCT Application teach all limitations of claim 39. We agree with the further elaboration by Third Party Requester and adopt as our own Third Party Requester’s analysis: As explained in the TPR Comments (filed Oct. 12, 2009) at p. 50, the prior art disclosure for new claim 39 and the rationale for combining the disclosures was originally explained at claim limitations 21.6 and 21.8 (which references limitation 21.2). TPR Comments at 21.2 explain that the ’495 PCT Application provides motivation to replace DFB lasers (such as those of the Chang Article) with more stable laser assemblies. TPR Comments at 21.8 provide the rationale for combining the teachings of the ’671 PCT Application which suggests replacing a DFB laser (e.g., the DFB laser of the Chang Article) with a laser transmission system (e.g., the laser assembly of the ’495 PCT Application) that is further controlled by a Bragg grating. Combining these prior art elements to replace the DFB laser of the Chang Article, as both the ’671 PCT Application and the ’495 PCT Application suggest, yield the predicted result of improved stability of generated wavelengths. Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 16 3PR Resp. Br. 13. We are not persuaded of Examiner error. Contrary to Patent Owner’s arguments (i), (ii), and (iii), as explained above, the Examiner’s combining the teachings of Chang, the ’495 PCT Application, and the ’671 PCT Application is supported by articulated reasoning with some rational underpinning to justify the Examiner’s obviousness conclusion. See Requester Comments dated Oct. 12, 2009, pp. 37, 39, 50); see also 3PR Resp. Br. 13. We, therefore, sustain the Examiner’s rejection of claim 39 as obvious over Chang, the ’495 PCT Application, and the ’671 PCT Application, as well as claims 21, 22, 24, 34, 35, 40, and 41, which are not argued with particularity. THE OBVIOUSNESS REJECTION OF CLAIMS 65, 66, AND 68 BY CHANG AND APPLICANTS’ ADMITTED PRIOR ART The Examiner finds Chang and Applicants’ Admitted Prior Art (AAPA) teach all limitations of claim 65. RAN 89 (citing Requester Comments dated Oct. 12, 2009, p. 60 (citing Request, Ex. M, pp. 34-35)). Patent Owner makes the following principal arguments: (i) The “Examiner erred in concluding that the Chang Article inherently discloses protection switching as recited in Claim 65.” PO App. Br. 28. (ii) “[T]he operation of a SONET network does not require the use of protection switching -- that is, protection switching is not a necessary component of a SONET network.” PO App. Br. 29; see PO App. Br. Ex. 1, Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 17 Declaration of Donald D. Davis, Jr., Ph.D., May 28, 2010, ¶ 20; PO App. Br. Ex. 4, Declaration of Donald D. Davis, Jr., Ph.D., Sep. 8, 2011, ¶¶ 12-15; PO App. Br. Ex. 5, Declaration of Donald D. Davis, Jr., Ph.D., July 6, 2009, ¶¶ 37-39. (iii) Nothing in the disclosure of the Chang Article suggests that the testbed was operated with protection switching, or provides any reason why one would operate a testbed with protection switching. The testbed is not an actual working network -- it is a platform to test a concept. The proper test for inherency in this case is whether protection switching is necessarily present in the system disclosed in the Chang Article, not whether it is inherent in SONET networks (which it is not) nor whether it possibly or probably [is] employed in a SONET network generally. There is no support for the conclusion that protection switching is inherent in the testbed system of the Chang Article. PO App. Br. 29. We agree with the Examiner that Chang and AAPA teach the recited (claim 65) “wherein the OADM device is part of a SONET network comprising a protection switching scheme that operates irrespective of the plurality of OADM devices.” We agree with and adopt as our own Third Party Requester’s analysis: The Chang Article teaches transparent operation of conventional SONET protocols in a SONET ring, see [1.3], which would include conventional SONET ring protection switching schemes. Just as in the ’660 Patent, the Wavelength Division Multiplexing (WDM) technology taught by the Chang Article does not interfere with the underlying SONET protocol: “We have demonstrated an optical network that exploits WDM optical switching and transport device technologies to create a network which is rearrangeable at the optical layer and Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 18 transparent to data formats and protocols.” (Ex. B, Chang Article, 1320) (emphasis added)[.] Request, Ex. M, p. 35; see also Request, Ex. M, pp. 8-9 ([1.3] describing an OADM device is part of a SONET network). Thus, Chang teaches an OADM device is part of a SONET network, and protocols that operate irrespective of the plurality of OADM devices (Chang’s WDM network is transparent to data formats and protocols). With further regard to the recited protection switching scheme, the ’660 patent, in the Background of the Invention section, describing AAPA, states “[i]n the event of a single fiber or ADM transceiver failure, the information traffic is automatically redirected around the SONET ring 70A, using a protection fiber 210 in accordance with the UPSR automatic protection switching (APS) feature.” The ’660 patent, col. 2, ll. 48-53. Thus, AAPA teaches the recited protection switching scheme. We also agree with and adopt as our own Third Party Requester’s analysis that: Chang Article describes a SONET network that inherently comprises the claimed protection switching scheme, even if the full functionality of that scheme is not utilized for a particular application. As explained, the OADMs of the Chang Article would not interfere with the operation of the inherent SONET protection switching scheme and thus, the scheme operates “irrespective” of the OADMs. 3PR Resp. Br. 12 (citing 3PR Resp. Br. Ex. E2, Declaration of W. John Tomlinson, Ph.D., Oct. 9, 2009, ¶ 12). We have considered the arguments (PO App. Br.) and evidence (PO App. Br. Evidence Appendix) presented by Patent Owner, including the Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 19 declarations by Donald D. Davis, Jr., Ph.D, and we are not persuaded of Examiner error. Contrary to Patent Owner’s arguments (i), (ii), and (iii), the evidence of record supports the Examiner’s findings, and explains that SONET network elements, by definition, are capable of implementing automatic protection switching (APS). The Chang Article demonstrated an optical network that was “transparent to data formats and protocols” which means that features of the SONET protocol, such as APS, could be implemented irrespective of the optical add-drop multiplexers. Protection switching is performed electronically by SONET switching elements, and a person of ordinary skill would understand that this function would be performed independently of the optical add-drop multiplexers described in the Chang Article since the article explains that the network was transparent to the features of the SONET protocol. 3PR Resp. Ex. E2, Declaration of W. John Tomlinson, Ph.D., Oct. 9, 2009, ¶ 12. We, therefore, sustain the Examiner’s rejection of claim 65 as obvious over Chang and AAPA, as well as claims 66 and 68, which are not argued with particularity. THE OBVIOUSNESS REJECTION OF CLAIM 13 OVER CHANG AND THE ’671 PCT APPLICATION; THE OBVIOUSNESS REJECTION OF CLAIM 23 OVER CHANG, THE ’495 PCT APPLICATION, THE ’671 PCT APPLICATION, AND WAGNER; THE ANTICIPATION REJECTION OF CLAIM 45 OVER CHANG; THE OBVIOUSNESS REJECTION OF CLAIM 48 OVER CHANG AND SONET GUIDE; THE OBVIOUSNESS REJECTION OF CLAIM 56 OVER CHANG, THE ’495 PCT Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 20 APPLICATION, AND ASAMI; THE OBVIOUSNESS REJECTION OF CLAIMS 60 AND 61 OVER CHANG AND ASAMI Patent Owner does not argue claims 13, 23, 45, 48, 56, 60, and 61 with particularity. We, therefore, sustain the obviousness rejection of claim 13 over Chang and the ’671 PCT Application; the obviousness rejection of claim 23 over Chang, the ’495 PCT Application, the ’671 PCT Application, and Wagner; the anticipation rejection of claim 45 over Chang; the obviousness rejection of claim 48 over Chang and SONET Guide; the obviousness rejection of claim 56 over Chang, the ’495 PCT Application, and Asami; and the obviousness rejection of claims 60 and 61 over Chang and Asami. THE REMAINING REJECTIONS OVER THE PRIOR ART Review of alternative prior art bases for rejection to claims, which have already been determined to be appropriately rejected over the prior art, is discretionary. See, e.g., In re Gleave, 560 F.3d 1331, 1338 (Fed. Cir. 2009) (not reaching rejections based on obviousness when claims already rejected as anticipated). We exercise our discretion and decline to reach the merits of the remaining rejections over the prior art. We also exercise our discretion and decline to reach the merits of the remaining rejections under 35 U.S.C. § 112. In addition, we need not reach the propriety of the Examiner’s determination not to make a proposed rejection of claims 1-19. Appeal 2014-001734 Reexamination Control 95/001,148 Patent 6,542,660 B1 21 ORDER The Examiner’s decision rejecting claims 1-24, 26-31, 34-37, 39-41, 45, 48, 55, 56, 60, 61, 65, 66, 68, and 71 is affirmed. Requests for extensions of time in this inter partes reexamination proceeding are governed by 37 C.F.R. § 1.956. See 37 C.F.R. § 41.79. In the event neither party files a request for rehearing within the time provided in 37 C.F.R. § 41.79, and this decision becomes final and appealable under 37 C.F.R. § 41.81, a party seeking judicial review must timely serve notice on the Director of the United States Patent and Trademark Office. See 37 C.F.R. §§ 90.1 and 1.983. AFFIRMED PATENT OWNER: ASCENDA LAW GROUP, PC 84 W. SANTA CLARA ST., STE. 550 SAN JOSE, CA 95113 THIRD PARTY REQUESTER: DAVID L. McCOMBS HAYNES and BOONE, LLP 2323 V ICTORY AVENUE SUITE 700 DALLAS, TX 75219 Copy with citationCopy as parenthetical citation
