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`Filed: April 25, 2019
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`UNITED STATES PATENT AND TRADEMARK OFFICE
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`____________________
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`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`
`____________________
`
`LG ELECTRONICS INC.
`Petitioner
`
`v.
`
`CYWEE GROUP LTD.
`Patent Owner
`
`____________________
`
`Case IPR2019-00560
`Patent No. 8,552,978
`____________________
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`
`PATENT OWNER PRELIMINARY RESPONSE
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`IPR2019-00560
`U.S. Patent No. 8,552,978
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`Table of Contents
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`I. SUMMARY ........................................................................................................ 1
`II. PETITIONER SHOULD NOT BE ALLOWED TO JOIN THE GOOGLE
`IPR, AND THE PETITION SHOULD BE DISMISSED AS TIME
`BARRED ........................................................................................................... 2
`III. BACKGROUND .............................................................................................. 8
`IV. REFERENCES RELIED ON BY THE PETITIONER ............................. 16
`A. U.S. Patent 7,089,148 to Bachmann (Bachmann, Exhibit 1004) .. 16
`B. U.S. Patent Application Pub. No. 2004/0095317 to Zhang (Zhang,
`Exhibit 1005) ..................................................................................... 20
`Zhang has been interpreted by the USPTO in various ex
`i.
`parte examinations against relevant parties ........................ 22
`C. U.S. Patent 7,158,118 to Liberty (Liberty, Exhibit 1006) .............. 23
`Liberty has been interpreted by the USPTO in various ex
`i.
`parte examinations against relevant parties ........................ 24
`V. CHALLENGES .............................................................................................. 26
`VI. CLAIM CONSTRUCTION .......................................................................... 28
`A.
`“3D pointing device” ........................................................................ 30
`B.
`“spatial reference frame”/ “spatial reference frame associated
`with the 3D pointing device” ........................................................... 33
`“rotation output” .............................................................................. 33
`C.
`VII. BACHMANN DOES NOT QUALIFY AS ANALGOUS ART ................. 33
`VIII. THE REFERENCES DO NOT DISCLOSE ALL LIMITATIONS OF
`THE CHALLENGED INVENTIONS ................................................................ 38
`A. Ground 1 –Zhang in view of Bachmann ......................................... 38
`i.
`Claim 1 .................................................................................... 40
`ii.
`Claim 12 .................................................................................. 45
`B. Ground 2 –Liberty in view of Bachmann ........................................ 45
`i.
`Claim 10 .................................................................................. 47
`ii.
`Claim 12 .................................................................................. 49
`IX. CONCLUSION .............................................................................................. 49
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`IPR2019-00560
`U.S. Patent No. 8,552,978
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`
`Table of Authorities
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`
`Cases
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`Applications in Internet Time, LLC v. RPX Corp.,
` 897 F.3d 1336 (Fed. Cir. 2018) ............................................................................. 6
`
`Graham v. John Deere Co.,
` 383 U.S. 1 (1966). ............................................................................................... 27
`
`In re Clay,
` 966 F.2d 656 (Fed. Cir. 1992) ............................................................................. 35
`
`In re Dembiczak,
` 175 F.3d 994 (Fed. Cir. 1999) ............................................................................. 28
`
`In re Gurley,
` 27 F.3d 551 (Fed. Cir. 1994) ............................................................................... 28
`
`KSR Int’l Co. v. Teleflex Inc.,
` 550 U.S. 398 (2007) ...................................................................................... 27, 28
`
`Personal Web Techs., LLC v. Apple, Inc.,
` 848 F.3d 987 (Fed. Cir. 2017) ....................................................................... 39, 46
`
`Richardson-Vicks Inc. v. Upjohn Co.,
` 122 F.3d 1476 (Fed. Cir. 1997) ........................................................................... 27
`
`Smith & Nephew, Inc. v. Hologic, Inc.,
` 721 Fed. Appx. 943 (Fed. Cir. 2018). ................................................................. 35
`
`Ventex Co., Ltd. v. Columbia Sportswear N.A., Inc.,
` IPR2017-00651, Paper 148 (PTAB January 24, 2019) ......................................... 6
`
`W.L. Gore & Assoc., Inc. v. Garlock, Inc.,
` 721 F.2d 1540 (Fed. Cir. 1983) ........................................................................... 27
`
`Statutes
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`35 U.S.C. § 103 ................................................................................................. 27, 35
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`35 U.S.C. § 315 ..................................................................................................... 3, 8
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`IPR2019-00560
`U.S. Patent No. 8,552,978
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`List of Exhibits
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`RESERVED
`RESERVED
`Claim Construction Opinion and Order (Doc. 117), Cywee
`Group Ltd. v. Samsung Elecs. Co., Ltd., C.A. No. 2:17-CV-
`00140-WCB-RSP (E.D. Tex., July 9, 2018)
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`
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`
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`Expert Declaration of Dr. Joseph LaViola, Ph.D., in Support
`of Patent Owner Response
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`Curriculum Vitae of Dr. Joseph LaViola, Ph.D.
`
`Order (Doc. 153), Cywee Group Ltd. v. Samsung Elecs. Co.,
`Ltd., C.A. No. 2:17-CV-00140-WCB-RSP (E.D. Tex., Aug.
`14, 2018)
`
`Memorandum Opinion (Doc. 55), CyWee Group Ltd. v.
`Motorola Mobility LLC, C.A. No. 17-780-RGA (D. Del.,
`Dec. 21, 2018)
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`File History of U.S. Application No. 10/396,439
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`File History of U.S. Application No. 12/413,722
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`File History of U.S. Application No. 13/367,058
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`Google’s Responses to CyWee’s Requests for Production,
`CyWee Group Ltd. v. Google, Inc., No. 1:18-cv-00571 (D.
`Del.) (Sep. 4, 2018)
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`iii
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`2001
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`2002
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`2003
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`2004
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`2005
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`2006
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`2007
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`2008
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`2009
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`2010
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`2011
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`I. SUMMARY
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`Petitioner has challenged the patentability of Claims 10 and 12 of U.S.
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`Patent No. 8,552,978 (the “‘978 Patent”) based solely on obviousness grounds.
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`Petitioner cannot meet its burden of showing that any of the claims are
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`unpatentable over the asserted combination for at least the following reasons:
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`• Petitioner’s challenges rely on two different combinations of references—
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`Zhang in view of Bachmann, and Liberty in view of Bachmann—neither of
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`which teaches or suggests all the claim limitations.
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`• The Bachmann (Ex. 1004) device is not a “3D pointing device;” it is not a
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`handheld device used to control actions on a display and does not point to
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`anything at all. Bachmann merely measures movements of an articulated rigid
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`object such as limbs of a human body. Tellingly, neither Petitioner nor the
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`Board alleges that Bachmann discloses a “3D pointing device.” As such,
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`Bachmann is not analogous art to the ‘978 Patent. See infra Section VI.
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`• Petitioner’s challenges based on the combination of Zhang (Ex. 1005) and
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`Bachmann and the combination of Liberty (Ex. 1006) and Bachmann rely on
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`references that would not be combined by one of ordinary skill in the art. Dr.
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`LaViola, a PHOSITA with extensive experience in the relevant art, has
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`concluded that one of skill in the art would not be motivated to combine the
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`references because they provide no reason for why they can be combined and,
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`1
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`in
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`fact,
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`teach away
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`from such combination, would
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`require undue
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`experimentation to achieve an operable combination according to the express
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`requirements and teachings of the references, and a PHOSITA would therefore
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`have no reasonable expectation of success
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`in achieving an operable
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`combination. See infra Section VII.A and VII.B.
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`For at least these reasons, the Board should deny the Petition.
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`
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`II. PETITIONER SHOULD NOT BE ALLOWED TO JOIN THE GOOGLE
`IPR, AND THE PETITION SHOULD BE DISMISSED AS TIME
`BARRED
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`Petitioner has submitted a Motion for Joinder to Google LLC v. CyWee
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`Group Ltd., IPR2018-001258 (the “Google IPR”) along with its Petition in the
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`present IPR.1 Petitioner’s Motion for Joinder should be denied, and its Petition
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`should be dismissed as time barred, for at least the following reasons.
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`First, Petitioner is attempting to game the IPR system in a concerted effort
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`with Google to sidestep the related district court action, which had already
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`progressed considerably before being stayed, and circumvent the time bar
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`preventing it from filing its own petition. Second, LG is merely one of four parties
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`now seeking joinder to the Google IPRs; this abusive deluge of joinder petitions
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`
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`1 Petitioner has also filed a petition and motion to join Google LLC v. CyWee
`Group Ltd., IPR2018-001258 regarding related U.S. Patent 8,441,438 (IPRs 2018-
`001257 and 001258 are referred to collectively as the “Google IPRs”).
`2 Bachmann is not directed towards such devices, but instead to sensors attached to
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`2
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`raises new questions of fact regarding the real parties in interest (“RPIs”) and will
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`require additional discovery from multiple parties. Third, Petitioner’s actions thus
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`far indicate that it will not truly be taking a “silent understudy” role in the Google
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`IPR. Fourth, LG and Samsung have made binding representations to the USPTO
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`regarding prior art references asserted in the Google IPR that are contrary to the
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`positions they seek to take in the Google IPR proceeding.
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`The Board recently issued a precedential opinion denying joinder in
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`Proppant Express Investments, LLC, et al., v. Oren Tech., LLC, IPR2018-00914,
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`Paper 38 (PTAB, March 13, 2019). Proppant makes clear that the discretionary
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`nature of joinder is designed to avoid gamesmanship and prejudice to the Patent
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`Owner. Congress’ intent in establishing the AIA proceedings was “to provide a
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`cheaper, faster alternative to district court litigation” that could “be used instead of,
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`rather than in addition to, civil litigation.” 157 Cong. Rec. S1363 (daily ed. Mar. 8,
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`2011) (statement of Sen. Schumer).
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` Where a time bar under 35 U.S.C. § 315(b) exists, the Board will only
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`exercise its discretion to grant joinder under § 315(c) in limited circumstances.
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`Proppant, IPR2018-00914, Paper 38 at 16. This narrow exercise may be justified
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`where, for example, a patent owner has taken certain actions in a co-pending
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`litigation (e.g., the late addition of newly asserted claims). Id. at 19. No such action
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`has been taken here by the Patent Owner, CyWee. Rather, Petitioner seeks to
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`circumvent the § 315(b) time bar through its Petition and Motion for Joinder to the
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`Google IPR. CyWee served its patent infringement complaint on LG on June 6,
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`2017, in the Southern District of California. Petitioner’s Motion for Joinder comes
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`nearly eight months after the § 315(b) deadline to file an IPR petition of its own.
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`LG waited on the sidelines until after Google filed its IPRs and used its after-the-
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`fact request to join the IPRs to stay the district court action. The stay significantly
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`prejudices Patent Owner.
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`Based on the available facts, it appears that LG has acted in concert with
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`Google to attempt to circumvent the time bar under § 315. Four parties now seek
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`joinder to the Google IPRs—Samsung, LG, ZTE, and Huawei (collectively, the
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`“Joinder Petitioners”). All of the Joinder Petitioners utilize Google’s Android
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`operating system in their respective accused infringing devices. They are thus
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`common members of the “Android Ecosystem” with the mutual goal of selling
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`more devices, including the accused devices, to more users. See Android
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`Compatibility Program Overview, ANDROID OPEN SOURCE PROJECT available at
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`https://source.android.com/compatibility/overview#android-compatibility-is-free-
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`and-its-easy. In the corresponding district court action against it, Google was
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`requested to produce any licensing, joint defense, joint interest, and/or other
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`agreements between Google and Samsung. Ex. 2011, Responses to RFPs 3, 4, and
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`5. Google refused to produce such agreements, but, tellingly, did not deny their
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`existence. This tacit admission that such agreements exist means that granting
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`joinder will necessitate additional discovery in the Google IPRs regarding such
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`agreements between Google, Samsung, and the other Joiner Petitioners, as well as
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`any other third parties that may have an interest in the outcome of those IPRs.
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`As but one example of such agreements, Google has entered into the
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`“Android Networked Cross-License” agreement (the “PAX”) with Samsung, LG,
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`and HTC and other Android-based device makers in order to “collectively defend
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`themselves against patent lawsuits.” Google and Top Android Partners Agree to
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`Share Software Patents, THE VERGE (April 3, 2017, 3:16PM) available at
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`https://www.theverge.com/2017/4/3/15164556/pax-google-samsung-htc-lg-patent-
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`peace-group. According to Google’s VP of Business Operations for Android, the
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`members of PAX have pooled resources (e.g., patents) and entered into cross-
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`licenses with the express purpose of growing the Android Ecosystem. Introducing
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`PAX: the Android Networked Cross-License Agreement, Jamie Rosenberg, The
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`Keyword, GOOGLE (April 3, 2017) available at https://blog.google/outreach-
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`initiatives/public-policy/introducing-pax-android-networked-cross-license-
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`agreement/. These parties therefore have a “mutual interest in the continuing
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`commercial and financial success of each other.” See Ventex Co., Ltd. v. Columbia
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`Sportswear N.A., Inc., IPR2017-00651, Paper 148 (PTAB January 24, 2019).
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`The facts here closely parallel those in Ventex, a decision recently
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`designated as precedential by the Board. In that decision, the Board dismissed the
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`petition because the petitioner—a supplier of an accused infringing material—
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`failed to disclose as an RPI an otherwise time-barred defendant—a manufacturer
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`that
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`incorporated
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`the
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`infringing material
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`into
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`its products—in a related
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`infringement suit. Id. at 3, 7. Here, Google likewise conspicuously failed to name
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`LG as an RPI in filing its petitions. According to its petitions, Google knew of
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`Patent Owner’s suit against LG as a related matter in which the same patents were
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`being asserted. Had Google named LG as an RPI, its petitions—filed June 14,
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`2018—would have been dismissed as time barred under § 315(b). Huawei, the
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`only party Google did name as an RPI, on the other hand, did not present such an
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`issue for Google. It is apparent on these facts that Google and LG have thus acted
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`with concerted gamesmanship to create a loophole that would allow Samsung to be
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`involved in the Google IPRs without triggering the § 315(b) time bar. In sum, LG
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`should not now be permitted to game the system by joining in its partner’s petition
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`after it was time-barred from filing its own petition. See id. at 6 (the § 315(b) time
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`bar serves “to safeguard patent owners from having to defend their patents against
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`belated administrative attacks by related parties”) (quoting Applications in Internet
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`Time, LLC v. RPX Corp., 897 F.3d 1336, 1350 (Fed. Cir. 2018)).
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`Patent Owner also now faces the piling on of the four Joinder Petitioners to
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`each of the Google IPRs. Joinder by these petitioners raises several new and
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`significant issues that were not originally at issue in the Google IPRs.
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`As Patent Owner already mentioned in its Opposition to Petitioner’s Motion
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`for Joinder, it is impossible to believe that the Joinder Petitioners will be willing to
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`take understudy roles in the Google IPRs. The Joinder Petitioners appear to be
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`making concerted efforts in their actions thus far. The four Joinder Petitioners
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`moved to join at the same time, all of them using virtually identical motions for
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`joinder with nearly identical language. Congress granted the Office discretion over
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`granting joinder precisely to prevent this kind of cumulative and harassing practice
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`by providing a “safety valve [to] allow the Office to avoid being overwhelmed...
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`[by] a deluge of joinder petitions in a particular case.” Unified Patents, Inc. v.
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`PersonalWeb Tech., LLC, et al., IPR2014-00702, Paper 12 at 4 (quoting 157 Cong.
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`Rec. S1376 (daily ed. Mar. 8, 2011) (statement of Sen. Kyl)).
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`Furthermore, as will be discussed below, LG has made representations and
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`responded to findings made by the USPTO regarding Liberty during the
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`prosecution of its own applications for patents. As to Google, these representations
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`are indicative of how a PHOSITA would understand the inventions of Liberty.
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`However, as to LG, these representations should be binding as an admission of a
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`party opponent. See Fed. R. Evid. 801(d)(2). As will be discussed in Section
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`IV.B.i, LG’s statements to the USPTO are entirely inconsistent with Google’s
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`position that Liberty is analogous art to Bachmann. Because the representations
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`made to and/or by the USPTO during examination of LG’s patent applications will
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`have a different effect on some of the Petitioners than they will on others, for this
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`reason alone, joinder should not be granted.
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`For the reasons above as well as those explained in Patent Owner’s
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`Opposition to Petitioner’s Motion for Joinder (Paper 6), Petitioner should not be
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`allowed to join the Google IPRs, and the Petition should be dismissed as time
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`barred by § 315(b).
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`III. BACKGROUND
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`U.S. Patent 8,553,978 (the “‘978 Patent”) (Ex. 1001) issued on October 8,
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`2013, with 18 claims including independent claims 1 and 10. Of these claims,
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`independent claim 10, as well as dependent claim 12—which depends from claim
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`10—are subject to the Petition.
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`The claims subject to the Petition are directed to a 3D pointing device and an
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`enhanced method for compensating the movement thereof. Ex. 1001, Abstract. As
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`will be discussed infra in Section V.A, a 3D pointing device is “a handheld device
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`that detects the motion of said device in three-dimensions and is capable of
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`translating the detected motions to control an output on a display.” Declaration of
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`Dr. Joseph LaViola, Ex. 2004, ¶ 53.
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`The 3D pointing device of the ‘978 Patent utilizes a nine-axis sensor module
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`that may include sensors known in the art. These sensors include sensors for
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`detecting axial acceleration (i.e., accelerometers) along three spatial axes, sensors
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`for detecting the angular velocity of rotation (i.e., gyroscopes) about those same
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`three axes, and sensors for detecting magnetic field (i.e., magnetometers) about the
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`same three axes. Exhibit 1001, 4:15-32. The invention applies a novel “enhanced
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`comparison method” to reduce and compensate for errors and noise in the sensor
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`readings that normally accumulate over time in order to better map the movements
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`of the device and have the capability to more precisely control a display. Id. at
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`4:33-57.
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`After taking readings of a first signal set comprising the axial accelerations
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`along the three axes from the accelerometer and a second signal set comprising the
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`magnetic fields about the three axes from the magnetometer and the rotation output
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`comprising the angular velocities about the three spatial axes, the claimed method
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`fuses the three signal sets, and maps the movements of the 3D pointing device onto
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`the display frame of a screen. Id. Claim 10, Fig. 10-11; Ex. 2004, ¶ 32. Claim 10,
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`Fig. 10-11.
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`The ‘978 Patent describes the 3D pointing device to be a handheld portable
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`electronic device such as a controller, smartphone, or navigation equipment. Ex.
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`1001, 8:38-42, 13:5-16, Figs. 3 and 6. The optional display on which the pointing
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`device’s movements can be mapped may be attached or integrated with the
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`pointing device itself, such as in a mobile gaming system or a smartphone. Id. at
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`13:5-16, Fig. 6.
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`10
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`The 3D pointing device and enhanced comparison method of the ‘978 Patent
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`utilizes at least three types of motion sensors: accelerometers, magnetometers, and
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`rotation sensors such as gyroscopes. Ex. 2004, ¶ 34. Accelerometers are used to
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`measure axial accelerations. Id. For example, car airbags use accelerometers to
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`trigger release when a sudden deceleration is detected. Id. Accelerometers can also
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`be used to measure the forces exerted by the acceleration due to gravity. Id.
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`Gyroscopes are used to measure angular velocity, the rate of rotation about an axis.
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`11
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`Id. Magnetometers measure magnetism such as the strength of a magnetic field
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`along a particular direction. Id. Each kind of sensor suffers from inaccuracies. Id.
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`For instance, gyroscopes are subject to a small, added bias. Id. This bias is an
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`offset from the true value that accumulates over time and eventually amasses to a
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`potentially very large drift error. Id. Magnetometers suffer from interference from
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`magnetic fields generated by various natural and manmade sources (e.g., powered
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`electronics). Id. Each sensor typically only takes measurements along a single axial
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`direction. Id. In order to accurately measure motion and orientation in a three-
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`dimensional reference frame, three sensors of a kind must be grouped together and
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`arranged orthogonally to one another. Id. A set of three sensors aligned at right
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`angles like this is referred to as a three-axis sensor. Id.
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`The ‘978 Patent discloses and claims technology for combining different
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`kinds of sensors to incorporate their data and to correct for the errors generated by
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`the various sensors. Id. at ¶ 35. Specifically, the ‘978 Patent discloses and claims
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`an improved nine-axis sensor system and a method for measuring, calculating, and
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`mapping orientation (including deviation angles along three axes) by using
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`measurements from a three-axis accelerometer, a three-axis magnetometer, and a
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`rotation sensor such as a three-axis gyroscope. Ex. 1001, 4:15-32. The ‘978 Patent
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`further discloses and claims an enhanced method for combining or fusing the
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`various signal sets that is capable of reducing the errors and noise that accumulate
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`12
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`over time. Id. at 4:33-57. This technology is capable of accurately representing the
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`orientation and movement of a portable 3D pointing device in three-dimensional
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`space on a two-dimensional display. Id. at 7:55-67; Ex. 2004, ¶ 35. The invention
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`of the ‘978 Patent is capable of mapping deviation angles such as yaw, pitch, and
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`roll of the pointing device relating to its movement onto a display reference frame,
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`such as that of a two-dimensional display screen. Id.; Ex. 1001, 5:12-45. In sum,
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`the ‘978 Patent claims an improved system and method for capturing the motion of
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`a pointing device in a three-dimensional space, compensating or correcting for
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`errors in the sensed motion, and outputting a movement pattern on a display frame
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`to control actions on a display. Ex. 2004, ¶ 35.
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`The invention of the ‘978 Patent corrects for such errors using its novel
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`enhanced comparison method. An embodiment of the method can be found in
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`Figure 10 of the ‘978 Patent. Ex. 1001, Fig. 10. First, a quaternion is taken from a
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`previous timestep t-1 (the first quaternion) and used in conjunction with the
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`angular velocity from the rotation sensor (three-axis gyroscope) and the differential
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`equation described in Equation 1 to compute a current quaternion at time t (the
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`second quaternion). Id. at 16:27-56, Fig. 10; Ex. 2004, ¶ 36. This second
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`quaternion is used to compute predicted axial accelerations with Equations 2-4 and
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`predicted magnetisms with Equations 18-20 in the ‘978 Patent. Ex. 1001, 16:57-
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`17:23, 22:34-23:8; Ex. 2004, ¶ 36. The method then takes the current quaternion
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`(second quaternion), the predicted axial accelerations, the measured axial
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`accelerations (first signal set), the predicted magnetisms, and the measured
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`magnetisms (second signal set) and uses Equations 5-11 to compute an updated
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`quaternion (third quaternion). Ex. 1001, 17:24-18:33; Ex. 2004, ¶ 36.
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`A PHOSITA would understand that Equations 5-11 represent a non-linear
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`recursive estimator which, in the case of this embodiment of the ‘978 Patent,
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`combines elements of an extended Kalman Filter coupled with a weighted vector
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`norm. Id. Equation 5 is the predicted state estimate. Ex. 1001, 17:47-54; Ex. 2004,
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`¶ 37. The predicted covariance estimate is equivalent to the Equation above
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`Equation 6 in the ’978 patent. Ex. 1001, 17:55-67; Ex. 2004, ¶ 37. The state
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`transition Jacobian matrix is equivalent to Equations 6 and 7 in the ‘978 Patent. Id.
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`This state transition Jacobian matrix maps to both Equations 6 and 7 based on
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`which variable is held constant during partial differentiation. Id. Equation 8
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`describes the innovation or measured residual. Ex. 1001, 18:1-6; Ex. 2004, ¶ 37.
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`The innovation or measured residual covariance matrix is Equation 9. Ex. 1001,
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`18:7-17; Ex. 2004, ¶ 37. The observation Jacobian matrix described is equivalent
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`to Equation 10. Id. Finally, the weighted vector norm is presented as Equation 11
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`which ultimately takes the information from the process and measurement models
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`and finds an optimal recursive least squares estimate for the updated quaternion.
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`Ex. 1001, 18:18-24; Ex. 2004, ¶ 37. This procedure (Equations 5-11) effectively
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`combines or fuses the second quaternion, the predicted axial acceleration, the
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`measured axial accelerations, the predicted magnetism, and the measured
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`magnetism to compute the third quaternion (updated state). Ex. 1001, 17:24-18:33,
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`Fig. 10; Ex. 2004, ¶ 37.
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`The orientation information returned by the claimed invention of the ‘978
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`Patent has many potential applications, particularly when applied to mobile cellular
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`devices. Ex. 2004, ¶ 38. These applications include such uses as navigation,
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`gaming, and augmented and virtual reality simulation. Id. Navigation applications
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`can use orientation information from the mobile phone to determine the direction
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`the user is facing and then automatically re-orient the map to align with the
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`cardinal directions. Id. Many mobile games and other applications use the motion
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`of the phone to trigger input commands, for instance, rotating the mobile phone to
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`simulate turning a steering wheel. Id. Augmented and virtual reality simulation
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`applications rely on accurate determination of the device’s orientation to properly
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`render graphics and images at the correct location on the screen. Id. Even small
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`inconsistencies in tracking a device’s orientation and movement in virtual reality
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`simulation can result in severe cybersickness for the user, rendering the simulator
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`unusable. Id.
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`IV. REFERENCES RELIED ON BY THE PETITIONER
`A. U.S. Patent 7,089,148 to Bachmann (Bachmann, Exhibit 1004)
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`Bachmann is directed towards a method and apparatus for motion tracking
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`of articulated rigid bodies. Ex. 1004, Abstract. To this end, Bachmann discloses
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`using a “three-axis magnetometer,” a “three-axis accelerometer,” and a “three-axis
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`angular rate sensor.” Id. at 10:10-14. Bachmann discloses methods for minimizing
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`error. Id. at 7:32-45.
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`Bachmann is not directed towards a 3D pointing device. It is directed to a
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`system and method for tracking the motions of an articulated rigid body, namely a
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`human body. Id. 13:32-41, 48-51, Fig. 4. The multiple sensor devices of Bachmann
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`are placed on the body and are not used to point to anything or control any actions
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`at all. Ex. 2004, ¶ 57. Bachmann merely tracks movement without mapping those
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`movements onto a 2D display frame as a movement pattern for controlling a virtual
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`object on the display. Id. Neither LG nor Google contends that Bachmann
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`discloses a 3D pointing device, and Dr. LaViola agrees that it does not disclose this
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`limitation. Id.
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`Bachmann discloses the ability to mount its various sensor units on
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`articulated rigid bodies, such as various limbs of the human body, to track motion.
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`Id. While Bachmann acknowledges that such sensors may also be used to track
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`movement of handheld props such as “swords, pistols, or simulated weapons,” it
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`explicitly states that it is not directed towards such devices themselves (none of
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`which by themselves are 3D pointing devices, as that claim term has been
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`construed), but is instead a method used to track “the posture of articulated rigid
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`objects” such as human limbs. Id.; Ex. 1004, 13:42-54. Further, Bachmann does
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`not teach that these props are used to control actions on a display. Ex. 2004, ¶ 58.
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`Bachmann only cursorily mentions the ability to incorporate the movements of its
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`sensor units in a virtual environment. Id. at 14:20-39, Fig. 4. The output display
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`signal in Bachmann is not converted into a movement pattern to interact with or
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`control anything on the display; the sensors are only used to track the movement of
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`the devices. Id.; Ex. 2004, ¶ 58.
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`Figure 4 of Bachmann depicts an implementation of the invention in which
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`three sensors are used to track the posture of the human body via attachment of
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`sensors to different limbs. Id. One sensor is attached to each limb segment to be
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`tracked. Ex. 2004, ¶ 59. The sensor information is output to a processing unit that
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`calculates the posture of the body. Ex. 1004, 14:2-5.
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`Bachmann discloses the possibility of outputting a signal to a display to
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`enable a virtual representation of the articulated rigid body to be displayed. Id. at
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`14:20-29, Fig. 4. However, Bachmann is merely concerned with tracking the
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`position and orientation of its multiple sensor devices, which are separately
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`attached to various limbs, and it is capable of rendering the positions of each such
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`device on a display. Ex. 2004, ¶ 60. The ‘978 Patent, on the other hand, is
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`concerned with tracking orientation of its handheld pointing device, translating
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`changes in orientation to a display frame as a movement pattern, and using that
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`orientation information to control actions on a display. Id.
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`Bachmann teaches a device that has multiple housings that are placed at
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`different articulations of a body. Id. Bachmann also teaches that “[t]he individual
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`components [of the MARG sensor] can be integrated using a single integrated
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`circuit board with the accelerometers mounted separately.” Ex. 1001, 14:49-51.
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`Bachmann discloses a method that operates completely differently from that
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`of the ‘978 Patent. Bachmann’s Figure 3 as well as Figures 5 and 6 outline the
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`method. Ex. 1004, Figs. 3, 5-6. Bachmann’s method first gathers sensor
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`information from a three-axis accelerometer, a three-axis magnetometer, and a
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`three-axis gyroscope. Ex. 2004, ¶ 62; Ex. 1004, 9:50-10:12. The angular velocities
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`captured from the three-axis gyroscope are used along with an orientation estimate
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`from a previous iteration to calculate an updated quaternion representing the
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`orientation of some rigid body. Ex. 2004, ¶ 62; Ex. 1004, 16:40-48, Fig. 5. This
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`calculation is an integration of the differential equation marked as 37 in Bachmann.
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`Ex. 2004, ¶ 62; Ex. 1004, Fig. 3. The accelerometer and magnetometer data are
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`combined in a six-dimensional vector (34 in Bachmann) that is used to provide a
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`correction estimate for the updated quaternion. Ex. 2004, ¶ 62; Ex. 1004, 8:37-
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`9:48, 9:50-10:9. Bachmann uses the six-dimensional vector coupled with a
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`computed measurement (35 and 35a in Bachmann) taken from the updated
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`quaternion to compute a six-dimensional error term (marked as 36 in Bachmann).
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`Id. This error term