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`UNITED STATES PATENT AND TRADEMARK OFFICE
`__________
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`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`__________
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`HTC Corporation and
`HTC America, Inc.,
`Petitioners
`
`v.
`
`INVT SPE LLC,
`Patent Owner
`__________
`
`IPR Case No. IPR2018-01555
`U.S. Patent No. 7,848,439
`__________
`
`
`
`
`
`PETITION FOR INTER PARTES REVIEW
`UNDER 35 U.S.C. §311 ET SEQ. AND 37 C.F.R. §42.100 ET SEQ.
`(CLAIMS 1 TROUGH 7 OF U.S. PATENT NO. 7,848,439)
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`EXHIBIT LIST
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`EXHIBIT
`
`DESCRIPTION
`
`DATE
`
`1001
`
`1002
`
`U.S. Patent No. 7,848,439 to She et al.
`(“'439 Patent”)
`
`December 7, 2010
`
`File History of U.S. Patent No.
`7,848,439 to She et al.
`
`n/a
`
`1003
`
`U.S. Patent No. 6,904,283 to Li et al.
`
`June 7, 2005
`
`1004
`
`1005
`
`1006
`
`U.S. Patent No. 7,221,680 to Vijayan
`et al.
`
`May 22, 2007
`
`U.S. Patent No. 6,721,569 to Hashem
`et al.
`
`April 13, 2004
`
`U.S. Patent No. 5,596,604 to Cioffi et
`al.
`
`January 21, 1997
`
`1007
`
`Declaration of Zhi Ding, Ph.D.
`
`n/a
`
`1008
`
`Curriculum Vitae of Zhi Ding, Ph.D.
`
`n/a
`
`1009
`
`1010
`
`1011
`
`1012
`
`U.S. Patent No. 6,167,031 to Olofsson
`et al.
`
`December 26, 2000
`
`Complaint, Inventergy, Inc. v. HTC
`Corporation, and HTC America, Inc.,
`17-cv-200-VAC-CJB (D. Del. 2017)
`
`February 27, 2017
`
`Inventergy’s Voluntary Dismissal
`Without Prejudice
`
`May 25, 2017
`
`Complaint, INVT SPE LLC v. HTC
`Corporation, and HTC America, Inc.,
`2:17-cv-03740-JMV-JBC (D.N.J.
`2017)
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`May 25, 2017
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`SMRH:487558445.5
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`Petition for Inter Partes Review of U.S. Patent No. 7,848,439
`(IPR2018-01555)
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`EXHIBIT
`
`DESCRIPTION
`
`DATE
`
`1013
`
`1014
`
`1015
`
`HTC Corp. and HTC America, Inc.’s
`Motion To Transfer
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`March 9, 2018
`
`INVT’S Opposition to HTC Corp. and
`HTC America, Inc.’s Motion to
`Transfer
`
`March 23, 2018
`
`HTC Corporation and HTC America,
`Inc.’s Reply Brief In Support Of Their
`Motion To Transfer
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`April 2, 2018
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`TABLE OF CONTENTS
`
`Page
`
`I.
`
`INTRODUCTION ........................................................................................... 1
`
`II. MANDATORY NOTICES UNDER 37 C.F.R. §42.8 .................................... 1
`
`A.
`
`B.
`
`C.
`
`D.
`
`Real Parties-In-Interest (§42.8 (b)(1)) ................................................... 1
`
`Related Matters (§42.8 (b)(2)) .............................................................. 1
`
`Lead and Backup Counsel (§42.8 (b)(3)) .............................................. 2
`
`Service Information (§42.8 (b)(4)) ........................................................ 2
`
`III.
`
`FEE FOR IPR (37 C.F.R. §42.15(a) and §42.103) ......................................... 2
`
`IV. REQUIREMENTS FOR IPR UNDER 37 C.F.R. §42.104 ............................. 3
`
`A. Grounds for Standing (§42.104(a)) ....................................................... 3
`
`B.
`
`C.
`
`Identification of Challenged Claims (§42.104(b)(1)) ........................... 3
`
`Grounds of Challenge (§42.104(b)(2)) ................................................. 3
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`V.
`
`PROPOSED GROUNDS ARE NOT REDUNDANT .................................... 3
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`VI. RELEVANT INFORMATION CONCERNING THE ’439 PATENT .......... 4
`
`A.
`
`State of the Art at the Time the ’439 Patent was Filed ......................... 4
`
`1.
`
`2.
`
`3.
`
`Cellular Networks ....................................................................... 4
`
`Orthogonal Frequency Division Multiplexing (OFDM) ............ 4
`
`Adaptive Modulation and Coding ............................................... 5
`
`B.
`
`Overview of the ’439 Patent .................................................................. 6
`
`1.
`
`2.
`
`Prior-Art Systems Alleged in the '439 Patent ............................. 6
`
`The Purported Improvement of the ’439 Patent ......................... 6
`
`C.
`
`D.
`
`Person of Ordinary Skill in the Art (“POSITA”) .................................. 8
`
`Effective Filing Date and Prosecution History of the ’439
`Patent ..................................................................................................... 9
`
`VII. CLAIM CONSTRUCTION—37 C.F.R. §42.104 (b)(3) ..............................10
`
`VIII. PRECISE REASONS FOR RELIEF REQUESTED ....................................12
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`A.
`
`Summary of the Prior Art Applied in This Petition ............................ 12
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`Overview of Li .......................................................................... 12
`
`Overview of Vijayan ................................................................. 16
`
`Overview of Hashem ................................................................ 19
`
`1.
`
`2.
`
`3.
`
`4. Motivation to Combine Li with Vijayan ................................... 21
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`5. Motivation to Combine Li and Vijayan with Hashem .............. 23
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`B.
`
`Li in View of Vijayan and Hashem Renders Claims 1 Through
`7 Obvious ............................................................................................ 24
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`IX. CONCLUSION ..............................................................................................83
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`TABLE OF AUTHORITIES
`
`Page(s)
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`
`Cases
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`Inventergy, Inc. v. HTC Corporation, and HTC America, Inc.
`Civil Action No. 17-cv-200-VAC-CJB (D. Del. 2017) ........................................ 1
`
`INVT SPE LLC v. HTC Corporation, and HTC America, Inc.
`No. 2:17-cv-03740-JMV-JBC (D.N.J. 2017) ....................................................... 1
`
`In re Paulsen
`30 F.3d 1475 (Fed. Cir. 1994) ............................................................................ 10
`
`Phillips v. AWH Corp.
`415 F.3d 1303 (Fed. Cir. 2005) .......................................................................... 10
`
`In re Translogic Tech., Inc.
`504 F.3d 1249 (Fed. Cir. 2007) .......................................................................... 10
`
`Statutes
`
`28 U.S.C. § 1404(a) ................................................................................................... 2
`
`35 U.S.C. §§ 102(a), (b), (e) ........................................................................ 12, 16, 19
`
`35 U.S.C. § 112 ........................................................................................................ 11
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`35 U.S.C. §§ 311-319........................................................................................... 1, 85
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`Other Authorities
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`37 C.F.R., pt. 42 ......................................................................................................... 1
`
`37 C.F.R. § 42.6(e) ................................................................................................... 85
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`37 C.F.R. § 42.8 ......................................................................................................... 1
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`37 C.F.R. § 42.15(a) ................................................................................................... 2
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`37 C.F.R. § 42.24 ..................................................................................................... 84
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`37 C.F.R.§ 42.100 et seq. ......................................................................................... 85
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`37 C.F.R § 42.100(b) ............................................................................................... 10
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`37 C.F.R. § 42.103 ..................................................................................................... 2
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`37 C.F.R. § 42.104 ............................................................................................... 3, 10
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`37 C.F.R. § 42.105(a) ............................................................................................... 85
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`Federal Rules of Civil Procedure, Rule 41(a)(1)(A)(i) .............................................. 1
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`Petition for Inter Partes Review of U.S. Patent No. 7,848,439
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`I.
`
`INTRODUCTION
`
`HTC Corporation and HTC America, Inc. (collectively, “Petitioners” or
`
`“HTC”) petition for Inter Partes Review (“IPR”) under 35 U.S.C. §§311-319 and
`
`37 C.F.R., Part 42, of claims 1 through 7 (“the IPR Claims”) of U.S. Patent No.
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`7,848,439 (“the '439 Patent”), and assert there is a reasonable likelihood that they
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`will prevail with respect to each of the IPR Claims. Therefore, Petitioners
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`respectfully request cancellation of the IPR Claims.
`
`II. MANDATORY NOTICES UNDER 37 C.F.R. §42.8
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`A. Real Parties-In-Interest (§42.8 (b)(1))
`
`The real parties-in-interest are HTC Corporation and HTC America, Inc.
`
`B. Related Matters (§42.8 (b)(2))
`
`As part of a licensing dispute, Patent Owner originally sued Petitioners for
`
`patent infringement in an action styled Inventergy, Inc. v. HTC Corporation, and
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`HTC America, Inc., Civil Action No. 17-cv-200-VAC-CJB (D. Del. 2017), on
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`February 27, 2017. Ex. 1010. On May 25, 2017, Patent Owner filed a voluntary
`
`dismissal without prejudice of the aforementioned action under Rule 41(a)(1)(A)(i)
`
`of the Federal Rules of Civil Procedure. Ex. 1011.
`
`On the same day, Patent Owner sued Petitioners for patent infringement in
`
`an action styled INVT SPE LLC v. HTC Corporation, and HTC America, Inc., No.
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`2:17-cv-03740-JMV-JBC (D.N.J. 2017), asserting the ’439 Patent. Ex. 1012. On
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`March 9, 2018, Petitioners filed a motion to transfer the action to the Northern
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`District of California under 28 U.S.C. §1404(a) (Ex. 1013). Patent Owner opposed
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`the motion on March 23, 2018 (Ex. 1014), and Petitioners filed their reply on April
`
`2, 2018. Ex. 1015. Petitioners’ motion to transfer is currently pending.
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`C. Lead and Backup Counsel (§42.8 (b)(3))
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`HTC appoints Stephen S. Korniczky (Reg. No. 34,853) of Sheppard Mullin
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`Richter & Hampton LLP as Lead Counsel, and appoints Martin R. Bader (Reg. No.
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`54,736), Nam H. Kim (Reg. No. 64,160), Ericka J. Schulz (Reg. No. 60,665), Eric
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`K. Gill (Reg. No. 71,709), Hector A. Agdeppa (Reg. No. 58,238), and Darren M.
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`Franklin (Reg. No. 51,701) of the same firm as Back-Up Counsel. An appropriate
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`Power of Attorney is filed concurrently herewith.
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`D.
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`Service Information (§42.8 (b)(4))
`
`Service of any documents to Counsel can be made via hand delivery to
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`Sheppard Mullin Richter & Hampton LLP, 12275 El Camino Real, Suite 200, San
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`Diego, California 92130. Petitioners consent to service by e-mail at LegalTm-
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`HTC-INVT-IPRs@sheppardmullin.com. Tel: 858.720.8900; Fax: 858.509.3691.
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`III. FEE FOR IPR (37 C.F.R. §42.15(a) and §42.103)
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`Petitioners have paid the required fees. The Office is authorized to charge
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`any fee deficiency, or credit any overpayment, to Deposit Account No. 50-4562.
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`IV. REQUIREMENTS FOR IPR UNDER 37 C.F.R. §42.104
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`A. Grounds for Standing (§42.104(a))
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`Petitioners certify that (1) the ’439 Patent is available for IPR; and (2)
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`Petitioners are not barred or estopped from requesting IPR of the claims of the
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`’439 Patent on the Grounds identified in this Petition.
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`B.
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`Identification of Challenged Claims (§42.104(b)(1))
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`Petitioners request IPR of Claims 1 through 7 of the ’439 Patent, and
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`request that the Patent Trial and Appeal Board cancel those claims as unpatentable.
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`C. Grounds of Challenge (§42.104(b)(2))
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`The Grounds of unpatentability presented in this Petition are as follows.
`
`Ground Basis
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`Reference(s)
`
`Claims Challenged
`
`1
`
`§103 U.S. Patent No. 6,904,283 to Li et al.
`(“Li”), in view of U.S. Patent No.
`7,221,680 to Vijayan et al. (“Vijayan”),
`and in view of U.S. Patent No. 6,721,569
`to Hashem et al. (“Hashem”)
`
`1 through 7
`
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`Li (Ex. 1003), Vijayan (Ex. 1004), and Hashem (Ex. 1005) were not cited
`
`during the prosecution of the ’439 Patent. The invalidity Grounds set forth in this
`
`Petition are confirmed and supported by the Declaration of Zhi Ding, Ph.D. (Ex.
`
`1007), which accompanies this Petition.
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`V. PROPOSED GROUNDS ARE NOT REDUNDANT
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`The Grounds in this Petition are not redundant.
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`VI. RELEVANT INFORMATION CONCERNING THE ’439 PATENT
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`A.
`
`State of the Art at the Time the ’439 Patent was Filed
`
`1. Cellular Networks
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`The ’493 Patent generally concerns technologies related to wireless cellular
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`telephones and operating such phones within a cellular network. In a cellular
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`network, the network coverage area is divided into many cells. Each cell is served
`
`by a base station (BS), which directly communicates with the mobile terminals or
`
`user equipment (UE) within the cell. The signal flow from the BS to the UE is
`
`known as the downlink. The signal flow from the UE to the BS is known as the
`
`uplink. Ex. 1007 ¶32-33.
`
`2.
`
`Orthogonal Frequency Division Multiplexing (OFDM)
`
`There are many ways for a wireless link to use an allocated amount of
`
`bandwidth to transmit and receive data signals. Orthogonal Frequency Division
`
`Multiplexing (OFDM) was one way to transmit data that existed before the priority
`
`date of the '439 Patent. With OFDM, a transmitter (such as a BS or a UE) can
`
`divide its allocated frequency band into a number of orthogonal (non-overlapping)
`
`subcarriers to transmit data-bearing signals in each time slot. Ex. 1001, 1:18-33;
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`Ex. 1007 ¶36-37.
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`3.
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`Adaptive Modulation and Coding
`
`In OFDM systems, the BS can modulate each subcarrier with data using a
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`specific modulation scheme combined with a specific coding scheme. The
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`modulation and coding schemes are chosen based on channel conditions. When
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`the channel quality is high, higher-rate modulation and coding can be applied to
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`achieve a higher data rate while maintaining a sufficiently low bit error rate. When
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`the channel quality is poor, lower-rate modulation and coding must be applied to
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`reduce the data rate and maintain a sufficiently low bit error rate. Ex. 1001, 1:34-
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`52; Ex. 1007 ¶38.
`
`In cellular systems, the channel conditions vary over time because the UEs
`
`are moving. To compensate for this, the UE periodically estimates the downlink
`
`channel quality of its subcarriers. A modulation and coding combination can then
`
`be chosen for each subcarrier or a group of subcarriers based upon the estimated
`
`channel conditions. Adjusting modulation and coding in response to channel
`
`quality is known as adaptive modulation and coding (AMC). AMC was
`
`mainstream technology before the priority date of the '439 Patent. Ex. 1001, 1:34-
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`52; Ex. 1007 ¶40.
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`B. Overview of the ’439 Patent
`
`1.
`
`Prior-Art Systems Alleged in the '439 Patent
`
`To execute AMC on a subcarrier-by-subcarrier basis during downlink
`
`transmissions, channel information for hundreds or thousands of subcarriers needs
`
`to be sent from the UEs to the BS. It was well known, before the priority date of
`
`the '439 Patent, that AMC of subcarrier granularity required too much feedback
`
`signaling overhead. Ex. 1001, 2:4-15; Ex. 1007 ¶41.
`
`In its background, the '439 Patent acknowledges that, to reduce the feedback
`
`overhead, multiple subcarriers can be bundled into subbands—groups of multiple
`
`subcarriers in neighboring positions in the frequency domain—and that this was
`
`done in the prior art. Ex. 1001, 2:12-31, 4:56-60; Ex. 1007 ¶42. With AMC
`
`applied on subband basis, a joint (common) modulation parameter and a joint
`
`(common) coding parameter can be applied to all of the subcarriers in a particular
`
`subband. With less-granular information needing to be sent back from the UE to
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`the BS, the uplink spectrum efficiency (or spectrum utilization rate) can be
`
`improved. Such AMC based on subbands was typically used before the priority
`
`date of the '439 Patent. Ex. 1001, 2:12-31, 4:56-60; Ex. 1007 ¶42.
`
`2.
`
`The Purported Improvement of the ’439 Patent
`
`The '439 Patent alleges that prior-art systems implementing AMC based on
`
`subbands still required too much feedback overhead and thus did not maximize the
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`uplink spectrum utilization rate. Ex. 1001, 5:35-39; Ex. 1007 ¶48. The '439 Patent
`
`purportedly solves this problem by taking the subbands of the prior art, which were
`
`bundles of subcarriers, and further combining these subbands into “subband
`
`groups,” which are groups of subbands. Ex. 1001, 5:40-44, Ex. 1007 ¶49. The
`
`'439 Patent then has a communication apparatus select a joint modulation
`
`parameter and a joint coding parameter for each subband group, instead of
`
`selecting a modulation parameter and a coding parameter for each subband as was
`
`done in the alleged prior art. Ex. 1001, 5:42-44; Ex. 1007 ¶49.
`
`In the '439 Patent, the OFDM subbands are formed into subband groups
`
`based on combination patterns. These combination patterns are stored in pattern
`
`storage sections 601, 605 and 607, shown in FIGS. 6A and 6B. The combination
`
`patterns may involve combining neighboring subbands, combining subbands
`
`spaced at intervals, or combining all of the subbands into a single subband group.
`
`Ex. 1001, 10:21-33; Ex. 1007 ¶53.
`
`Figure 8 of the '439 Patent, reproduced below, shows an example of
`
`combining neighboring subbands on the frequency axis across M time units, each
`
`of which corresponds to an OFDM symbol. This is similar to how neighboring
`
`subcarriers are combined to form subbands. Ex. 1001, 10:33-49; Ex. 1007 ¶54.
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`Subbands having the same shading in this figure belong to the same subband
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`group. Ex. 1001, 10:48-49; Ex. 1007 ¶54.
`
`C.
`
`Person of Ordinary Skill in the Art (“POSITA”)
`
`A person of ordinary skill in the art (“POSITA”) of the '439 Patent at the
`
`time of the alleged invention had a bachelor degree in electrical engineering,
`
`computer science, or an equivalent field, plus at least three years of experience
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`working in the fields of wireless communication systems, communication
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`networks, and signal processing.1 Ex. 1007 ¶61.
`
`D. Effective Filing Date and Prosecution History of the ’439 Patent
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`The ’439 Patent issued from Application No. 11/719,611, filed on May 17,
`
`2007. This application was a national stage filing of PCT/JP2005/021246, filed on
`
`November 18, 2005. The PCT application claimed priority to Chinese Application
`
`No. 2004 1 0094967, filed on November 19, 2004. Ex. 1001, face page.
`
`Therefore, the effective filing date of the IPR Claims is no earlier than November
`
`19, 2004.
`
`During the prosecution of the '439 Patent, an Office Action dated February
`
`2, 2010 rejected original claims 1, 6, 7 and 9-11 as anticipated by the Applicant’s
`
`admitted prior art, but indicated that original claims 2-5, 8 and 12 would be
`
`allowable if rewritten in independent form. The limitation of a pattern storage
`
`section was the only limitation found by the Patent Office to distinguish the cited
`
`references. Ex. 1002 at 233-241. In an Amendment dated April 29, 2010, the
`
`
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` 1
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` Any reference herein to what a POSITA would have known, understood, or been
`motivated to do, and the like, refers to the alleged time of the purported invention.
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`allowable claims were rewritten in independent form per the Office Action. Ex.
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`1002 at 212-223.
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`VII. CLAIM CONSTRUCTION—37 C.F.R. §42.104 (b)(3)
`
`For purposes of this IPR, each challenged claim must be given “its broadest
`
`reasonable construction in light of the specification.” 37 CFR §42.100(b). The
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`broadest reasonable construction or interpretation standard requires that claim
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`terms be “given their ordinary and customary meaning,” as would be understood
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`by a POSITA in the context of the entire disclosure. In re Translogic Tech., Inc.,
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`504 F.3d 1249, 1257 (Fed. Cir. 2007). A special definition for a claim term must
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`be set forth in the specification with “reasonable clarity, deliberateness, and
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`precision.” In re Paulsen, 30 F.3d 1475, 1480 (Fed. Cir. 1994).2
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`Because the standard of claim construction used in an IPR differs from that
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`used in litigation, Petitioners reserve the right to present different constructions of
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`terms in litigation under claim construction standards appropriate for such cases.
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`Accordingly, Petitioners propose the claim constructions below for purposes of this
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` 2
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` Petitioner has addressed claim construction under the current standard for IPR of
`the broadest reasonable interpretation. 37 CFR §42.100(b). To the extent the
`Board adopts a different standard, for example by applying the standard under
`Phillips v. AWH Corp., 415 F.3d 1303, 1312 (Fed. Cir. 2005), Petitioner reserves
`the right to supplement briefing on this issue.
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`Petition only. Any claim terms that are not defined below are presumed to have
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`their plain and ordinary meaning.3
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`A.
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`“subband” (claims 1-6): a group of subcarriers in neighboring
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`positions on the frequency domain. Ex. 1001, 2:19-21 (“[A] subband
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`indicates a subcarrier group comprised of subcarriers in neighboring
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`positions on the frequency domain.”); Ex. 1007 ¶66a.
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`B.
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`“pattern storage section” (claim 1): a memory for storing patterns
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`for selecting subbands. Ex. 1001, FIGS. 6A, 6B (showing
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`combination pattern storage sections 601, 605 and 607); Ex. 1007
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`¶66b. The stored patterns are for selecting subbands to combine into
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`subband groups. Ex. 1001, 10:21-33; Ex. 1007 ¶66b. A POSITA
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`would have understood that the storage would have been implemented
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`in a computer memory because that is how UEs, which are essentially
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`small computers, work. Ex. 1007 ¶66b.
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`C.
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`“patterns for selecting subbands” (claim 1): particular
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`configurations or arrangements of subbands on the frequency and/or
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` 3
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` Petitioners do not concede that any terms meet the statutory requirements of
`35 U.S.C. § 112.
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`time domains. Ex. 1001, 10:21-11:3; Ex. 1007 ¶66c. Figures 8-10 of
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`the '439 Patent show examples of how the subbands can configured or
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`arranged on the frequency and/or time domains to form subband
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`groups. Ex. 1001, FIGS. 8-10; Ex. 1007 ¶66c.
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`D.
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`“modulation parameters with a highest classification” (claim 5):
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`modulation parameters associated with a coding and modulation
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`scheme that allows achieving a highest throughput compared to other
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`modulation parameters that are available to the device. Ex. 1001,
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`10:7-20; Ex. 1007 ¶66d. Table 2 of the '439 Patent shows the highest
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`classification (6) being associated with a coding parameter (2/3
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`Turbo) and a modulation parameter (64QAM) having the highest
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`throughput (4 bps/Hz) of all of the classifications in the table. Ex.
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`1001, 10:7-20; Ex. 1007 ¶66d.
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`VIII. PRECISE REASONS FOR RELIEF REQUESTED
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`A.
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`Summary of the Prior Art Applied in This Petition
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`1. Overview of Li
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`Li issued on June 7, 2005, was published on September 11, 2003, and was
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`filed on April 17, 2001. Li is a continuation-in-part of an application filed on
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`December 15, 2000. Li therefore qualifies as prior art under at least pre-AIA 35
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`U.S.C. §§102(a), (b), (e).
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`At a high level, Li discloses an OFDM system having pre-defined groups of
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`“clusters.” Ex. 1003, Abstract; Ex. 1007 ¶68. The clusters 102, which are shown
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`in Figure 1A of Li, are the same as subbands in the ’439 Patent. Ex. 1003, 5:18-
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`28, FIG. 1A; Ex. 1007 ¶68. In other words, each “cluster” of Li is a bundle of
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`subcarriers that are in neighboring positions in the frequency domain, as Figure 1A
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`of Li makes clear. Ex. 1003, 5:18-28, FIG. 1A; Ex. 1007 ¶68. Groups of clusters
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`in Li thus are the same as subband groups in the '439 Patent. Ex. 1007 ¶68.
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`Li teaches partitioning the subcarriers in the OFDM system “into groups of
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`at least one cluster of subcarriers.” Ex. 1003, Abstract; Ex. 1007 ¶69. The UE,
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`which Li calls a “subscriber,” then “select[s] … one or more groups in the groups,
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`and allocat[es] at least one cluster in the one or more groups of clusters” for the BS
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`to use in communicating with the subscriber. Ex. 1003, Abstract; Ex. 1007 ¶69.
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`Figure 3 of Li (reproduced below) illustrates an embodiment of the
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`subscriber processing at the UE, which includes carrying out a channel estimation
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`on the clusters (channel/interference estimation processing block 301). Ex. 1003,
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`8:54-56, 9:12-15; Ex. 1007 ¶70. Based on the “per cluster” results from block 301
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`at the UE, the cluster ordering and rate prediction processing block 303 decides
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`one or more modulation parameters and one or more coding parameters per cluster
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`group. Ex. 1003, 8:61-65, 9:35-37, 9:43-46; Ex. 1007 ¶70. The cluster request
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`processing block 304 then transmits the modulation and coding parameters back to
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`the BS via an established uplink for the BS to use in modulating and encoding data
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`to be transmitted to the subscriber in the downlink. Ex. 1003, 8:66-9:2, 9:43-46;
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`Ex. 1007 ¶70.
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`Figure 6 of Li (reproduced below) shows the clusters (subbands), which are
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`represented by boxes along the frequency (horizontal) and time (vertical) axes,
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`partitioned into four cluster groups. Ex. 1003, 11:49-52; Ex. 1007 ¶71. The
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`clusters (subbands) constituting the cluster groups shown in Figure 6 are selected
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`according to a pattern—every fourth cluster going along the frequency axis f is
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`selected to form a cluster group. Ex. 1007 ¶71.
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`In Li, one motivation for combining multiple clusters (subbands) into such
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`cluster groups is to “improve[] frequency diversity within each group.” Ex. 1003,
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`11:58-61; Ex. 1007 ¶72. Exploiting diversity between subbands is one of the same
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`motivations stated in the '439 Patent. Ex. 1001, 5:19-20; Ex. 1007 ¶72. Another
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`motivation in Li for “group-based cluster allocation” is to improve the uplink
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`spectrum efficiency and to lower the feedback overhead by “reducing the data bits
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`for cluster indexing, thereby reducing the bandwidth requirements of the feedback
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`channel (information) and control channel (information) for cluster allocation.”
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`Ex. 1003, 11:62-66; Ex. 1007 ¶72. The '439 Patent also states this same
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`motivation of reducing the feedback overhead. Ex. 1001, 5:32-45, 12:17-24; Ex.
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`1007 ¶72.
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`2. Overview of Vijayan
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`Vijayan issued on May 22, 2007, was published on May 17, 2005, and was
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`filed on September 1, 2004, making it prior art under at least pre-AIA 35 U.S.C.
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`§102(e).
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`At a high level, Vijayan discloses an OFDM system where the BS allocates
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`a group of subbands for downlink transmission and applies a common
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`coding/modulation scheme for all subbands in the group. The patent discloses
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`various patterns of subbands for the subband groups, where each subband group
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`comprises multiple subbands.
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`More specifically, Vijayan uses the word “subband,” which is equivalent to
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`a subcarrier in the ’439 Patent. Ex. 1004, 1:29-32 (“With OFDM, each subband is
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`associated with a respective subcarrier that may be modulated with data.”).
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`Vijayan also discloses the concept of a “subband group,” which is equivalent to the
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`concept of a subband in the '439 Patent: “In one subband grouping scheme, each
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`group contains Nspg consecutive usable subbands.” Ex. 1004, 8:16-17.
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`Furthermore, Vijayan discloses the concept of a PLC (physical layer channel),
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`which is equivalent to the concept of a subband group in the ’439 Patent. A PLC is
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`comprised of multiple subbands: “[A]n active PLC may be assigned as many
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`subband groups as possible while conforming to the maximum bit rate.” Ex. 1004,
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`9:64-66; see also id., Ex. 1004, 10:7-13 (“In an embodiment, the rectangular
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`pattern for each active PLC includes contiguous subband groups (in indices) and
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`contiguous symbol periods. This type of assignment reduces the amount of
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`overhead signaling needed to specify the rectangular pattern ….”). Thus, Vijayan
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`discloses an OFDM system where the BS allocates a group of subbands for
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`downlink transmission. Ex. 1007 ¶75.
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`Vijayan also discloses the BS applying a joint modulation parameter and a
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`joint coding parameter for each subband group. The joint modulation and coding
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`parameters are specified by one of eight “modes,” which are shown in Table 1 of
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`Vijayan, reproduced below. Each mode m “is associated with a specific
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`modulation scheme (e.g., QPSK or 16-QAM) and a specific inner code rate Rin(m)
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`(e.g., ⅓, ½, or ⅔).” Ex. 1004, 13:14-16; Ex. 1007 ¶76.
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`In Vijayan, each PLC (i.e., subband group) is assigned a mode m,
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`corresponding to a specific modulation scheme and a specific inner code rate from
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`the second and third columns of Table 1, respectively. “The data stream for each
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`PLC is encoded and modulated based on a coding and modulation scheme selected
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`for that PLC.” Ex. 1004, 4:43-45. In Figure 9B of Vijayan, reproduced below, a
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`specific mode is assigned to each subband group in each symbol period (subband
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`group 1 in symbol period 1 consisting of three subbands at adjacent frequencies is
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`assigned mode 1, and thus all subbands in subband group 1 are assigned the QPSK
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`modulation scheme and a ⅓ inner code rate). Ex. 1004, 13:12-16, 14:40-47; Ex.
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`1007 ¶77.
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`3. Overview of Hashem
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`Hashem issued on April 13, 2004 and was filed on September 29, 2000,
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`making it prior art under at least pre-AIA 35 U.S.C. §§102(a), (b), (e).
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`Hashem generally relates to the transmission of data in a radio-frequency
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`communication system having a BS and a remote unit (i.e., a UE). Ex. 1005,
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`Abstract. As shown in Figure 1 of Hashem, reproduced below, the remote unit (1)
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`receives downlink sub-carrier signals; (2) measures the signal-to-interference ratio
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`(S/I) of each sub-carrier signal; (3) determines acceptable and unacceptable sub-
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`carriers by comparing each measured sub-carrier S/I to a threshold value; and (4)
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`sends a return signal to a BS, including the average S/I of the acceptable sub-
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`carriers and a sequence of index numbers identifying the acceptable sub-carriers.
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