Google Inc.v.Network-1 Technologies, Inc.

Patent Trial and Appeal BoardJun 20, 2016

11977202 (P.T.A.B. Jun. 20, 2016)

Trials@uspto.gov Paper 30 571-272-7822 Entered: June 20, 2016 UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ GOOGLE INC. Petitioner, v. NETWORK-1 TECHNOLOGIES, INC., Patent Owner. _______________ Case IPR2015-00345 Patent 8,205,237 B2 ____________ Before KEVIN F. TURNER, LYNNE E. PETTIGREW, and JON B. TORNQUIST, Administrative Patent Judges. TURNER, Administrative Patent Judge. FINAL WRITTEN DECISION Inter Partes Review 35 U.S.C. § 318(a) and 37 C.F.R. § 42.73 I. INTRODUCTION Google Inc. (“Petitioner”) filed a Petition (Paper 1, “Pet.”) requesting inter partes review of claims 1–27, 29, 30, 32–35, 37, 38, and 40 of U.S. Patent No. 8,205,237 B2 (Ex. 1001, “the ’237 Patent”). Network-1 IPR2015-00345 Patent 8,205,237 B2 2 Technologies, Inc. (“Patent Owner”) filed a Preliminary Response to the Petition. Paper 5 (“Prelim. Resp.”). We instituted the instant trial on June 23, 2015, with respect to claims 1–16, 21–27, 29, 30, 33–35, 37, and 38, pursuant to 35 U.S.C. § 314. Paper 6 (“Dec.”). Subsequently, Patent Owner filed a Response (Paper 17, “PO Resp.”), and Petitioner filed a Reply (Paper 20, “Reply”). Further to authorization provided in a conference call, Patent Owner filed a paper identifying allegedly improper arguments in the Reply (Paper 24), and Petitioner filed a response thereto (Paper 25). Oral hearing1 was held on March 9, 2016, and a transcript of the hearing was entered into the record. Paper 29 (“Tr.”). We have jurisdiction under 35 U.S.C. § 6(c). This Final Written Decision is entered pursuant to 35 U.S.C. § 318(a) and 37 C.F.R. § 42.73. For the reasons set forth below, we determine that Petitioner has shown, by a preponderance of the evidence, that claims 9–16, 23, and 24 of the ’237 Patent are unpatentable, but has not shown that claims 1–8, 21, 22, 25–27, 29, 30, 33–35, 37, and 38 of the ’237 Patent are unpatentable. A. Related District Court Proceedings The parties inform us that the ’237 Patent is the subject of the following lawsuit: Network-1 Technologies, Inc. v. Google Inc. and YouTube, LLC, Case No. 1:14-cv-02396 (S.D.N.Y.). Pet. 1. YouTube, LLC is a subsidiary of Petitioner, and is acknowledged as a real party-in-interest. Id. In addition, three additional patents, U.S. Patent Nos. 8,640,179, 8,010,988, and 8,656,441, all issuing from applications related to the ’237 1 The hearings for this review and IPR2015-00343, IPR2015-00347, and IPR2015-00348 were consolidated. IPR2015-00345 Patent 8,205,237 B2 3 Patent, are subject to inter partes reviews, namely IPR2015-00343, IPR2015-00347, and IPR2015-00348, respectively. B. The ’237 Patent The ’237 Patent relates to identifying a work, such as a digital audio or video file, without the need to modify the work. Ex. 1001, 1:31–36, 4:25–31. This identification can be accomplished through the extraction of features from the work, and comparison of those extracted features with records of a database or library. Id. at Abstract. Thereafter, an action may be determined based on the identification determined. Id. at 4:24–25. Figure 1, reproduced below, illustrates the steps of the claimed computer- implemented methods: Fig. 1 of the ’237 Patent illustrating the claimed method IPR2015-00345 Patent 8,205,237 B2 4 C. Illustrative Claims Claim 1 is independent, along with claims 5, 9, 13, 25, and 33. Claims 1, 9, and 25 are considered representative of the claims challenged, and are reproduced below: 1. A computer-implemented method comprising: a) receiving, by a computer system including at least one computer, features that were extracted from a media work by a client device; b) determining, by the computer system, an identification of the media work using the received features extracted from the media work to perform a sub-linear time search of extracted features of identified media works to identify a neighbor; and c) transmitting, by the computer system, information about the identified media work to the client device. 9. A computer-implemented method comprising: a) receiving, by a computer system including at least one computer, features what were extracted from media work by a client device; b) determining, by the computer system, an identification of the media work using the received features extracted from the media work to perform an approximate nearest neighbor search of extracted features of identified media works; and c) transmitting, by the computer system, information about the identified media work to the client device. 25. A computer-implemented method comprising: a) obtaining, by a computer system including at least one computer, media work extracted features that were extracted from a media work, the media work uploaded from a client device; IPR2015-00345 Patent 8,205,237 B2 5 b) determining, by the computer system, an identification of the media work using the media work extracted features to perform a nonexhaustive search of reference extracted features of reference media works to identify a near neighbor; and c) determining, by the computer system, an action based on the determined identification of the media work. Ex. 1001, 25:2–13, 25:62–26:5, 27:11–22 (emphases added). D. Prior Art Relied Upon Based on the instituted grounds, Petitioner relies upon the following prior art references: Reference or Declaration Exhibit No. U.S. Patent No. 7,444,353 (“Chen”) Ex. 1008 U.S. Patent No. 5,874,686 (“Ghias”) Ex. 1010 U.S. Patent No. 6,188,010 ("Iwamura") Ex. 1012 E. Grounds of Unpatentability We instituted the instant trial based on the following grounds of unpatentability (Dec. 21–22): Claims Challenged Basis Reference(s) 1, 3–5, 7–9, 11–13, 15, 16, 21–25, 29, 30, 33, 37, and 38 § 102(e) Iwamura 1–3, 5–7, 9–11, 13–15, and 21–24 § 102(b) Ghias 26, 27, 34, and 35 § 103 Iwamura and Chen II. ANALYSIS A. Claim Construction In an inter partes review, claim terms in an unexpired patent are given their broadest reasonable construction in light of the specification of the IPR2015-00345 Patent 8,205,237 B2 6 patent in which they appear. 37 C.F.R. § 42.100(b); Cuozzo Speed Techs., LLC v. Lee, No. 15–446, slip op. at 13 (U.S. June 20, 2016). Under the broadest reasonable construction standard, claim terms are given their ordinary and customary meaning, as would be understood by one of ordinary skill in the art in the context of the entire disclosure. In re Translogic Tech., Inc., 504 F.3d 1249, 1257 (Fed. Cir. 2007). Any special definition for a claim term must be set forth with reasonable clarity, deliberateness, and precision. In re Paulsen, 30 F.3d 1475, 1480 (Fed. Cir. 1994). In our Institution Decision, we construed the following claim terms specifically: Claim Term(s) Construction “non-exhaustive search” “a search that locates a match without a comparison of all possible matches” “sub-linear search” “a search whose execution time scales with a less than linear relationship to the size of the data set to be searched” “neighbor search,” “near neighbor search” “identifying a close, but not necessarily exact or closest, match” “nearest neighbor search” “identifying a closest, but not necessarily exact match” “approximate nearest neighbor search” “identifying a close match that is not necessarily the closest match” Dec. 5–9. Petitioner and Patent Owner agree largely with the adopted constructions. PO Resp. 2–11; Reply 2–6. Below, we discuss the points raised by the parties with respect to portions of those constructions and how those portions should be interpreted. IPR2015-00345 Patent 8,205,237 B2 7 i) “sub-linear search” With respect to the construction of “sub-linear search,” or “sublinear search,” Patent Owner argues that there are two possible interpretations of that construction, with the “size of the data set” being the records in the data set being searched, or the length of an individual record in the database. PO Resp. 2. Patent Owner argues that the evidence of the Specification of the ’237 Patent and the testimony of the declarants point to the size of the data set being the number of records being searched. Id. at 3–6. Petitioner responds that “size of the data set,” according to its plain meaning, would be “the amount of disk space a data set occupies.” Reply 2. Petitioner argues that the Specification of the ’237 Patent supports this interpretation. Id. at 2- 4 (citing Ex. 1001, 21:14–26; Ex. 1020, 104:13–105:8). We agree with Patent Owner with respect to this claim construction. Although the sections of the Specification of the ’237 Patent cited by Petitioner relate to disk size, that size is a direct result of the number of records in the data set. Claim 1, for example, recites “using the received features extracted from the media work to perform a sub-linear time search of extracted features of identified media works.” For that claim, under our adopted claim construction, the size of the data set would be the number of extracted features of the identified media works. It would not be logical to assume that the size of the data set would be the length of an individual record or the amount of disk space the data set occupies when the number of extracted features would be readily available. Although disk space could be used as a measure, it would be variable with respect to the format of the disk space, for example. Therefore, we are not persuaded that disk space should be used as a determinant of data set size in the construction of “sub-linear IPR2015-00345 Patent 8,205,237 B2 8 search.” As such, the data set would be the number of extracted features, in claim 1, irrespective of the exact number of commercials or frames. ii) “non-exhaustive search” With respect to the claim term “non-exhaustive search,” Patent Owner emphasizes that a non-exhaustive search makes a comparison without all possible matches but does not concern itself with whether all data within all possible matches have been compared. PO Resp. 6–7. Petitioner does not dispute the construction, and we remain persuaded that a “non-exhaustive” search need not consider all data within all possible matches, but rather should be exhaustive or non-exhaustive with respect to the number of records in a database. See Dec. 5–7. iii) “neighbor / near neighbor search” Patent Owner also contends that if a search necessarily identifies an exact or the closest match, it is not a neighbor or near neighbor search because it is not a search that identifies a close, but not necessarily exact or closest, match. PO Resp. 7–8. We disagree with Patent Owner that a neighbor search could not identify an exact or the closest match and still be a neighbor search. Patent Owner, in its Response, appears to take an “exclusive” view of the construction, arguing that if an exact or closest match happens to be obtained in a neighbor or near neighbor search, that search could not be a neighbor or near neighbor search. As discussed at Oral Hearing, Patent Owner agrees that if a neighbor search does produce an exact match, that effect does not necessarily negate the type of search performed. Tr. 57–60 (“MR. DOVEL: If you're doing a neighbor search, one that it's looking and it happens to pull up an exact match, that would still be a neighbor search”). IPR2015-00345 Patent 8,205,237 B2 9 iv) “approximate nearest neighbor search” With respect to the claim limitation “approximate nearest neighbor search,” Patent Owner argues that our construction is incomplete because the Specification of the ’237 Patent requires such a search to be sub-linear and a search that does not always find the closest match. PO Resp. 8–11. Patent Owner cites a section of the Specification reciting that “[o]ne example of a sub-linear time search is an approximate nearest neighbor search . . . [which] does not always find the closest point to the query,” such that if the closest match is guaranteed, the search is not an approximate nearest neighbor search. Id. at 8–9 (citing Ex. 1001, 9:12–19). Patent Owner also alleges that we applied “faulty logic” in excluding any non-linear aspect from the claim construction of “approximate nearest neighbor search.” Id. at 10. Petitioner responds that the statements in the Specification do not rise to the level of lexicography or disavowal. Reply 4–5 (citing Facebook, Inc. v. Pragmatus AV, LLC, 582 F. App'x 864, 868 (Fed. Cir. 2014); Renishaw PLC v. Marposs Societa' per Azioni, 158 F.3d 1243, 1249 (Fed. Cir. 1998)). We agree, given that the cited portion provides that an approximate nearest neighbor search may be an example of a sublinear search, but not that all approximate nearest neighbor searches must be sub-linear. Additionally, Patent Owner has not provided persuasive evidence that all approximate nearest neighbor searches must be sub-linear, other than the citation to the Specification. As well, similar to our discussion of neighbor searches above, we are not persuaded that if an approximate nearest neighbor search happens to arrive at an exact match, that would negate the nature of the search. We are persuaded that an approximate nearest neighbor search would depend on the search methodology and not on the specific results obtained. IPR2015-00345 Patent 8,205,237 B2 10 Additionally, as Petitioner points out, the instant claims confirm that sublinearity is not necessarily required for an approximate nearest neighbor search. Reply 5–6. Claim 33 recites, in part, a “sublinear approximate nearest neighbor search,” whereas claims 9 and 12 simply recite an “approximate nearest neighbor search,” without the sublinear modifier. Interpreting all recitations of approximate nearest neighbor searches as intrinsically sublinear would render the limitation in claim 33 superfluous. Id. (citing Phillips v. AWH Corp., 415 F.3d 1303, 1314 (Fed. Cir. 2005); Digital-Vending Servs. Int’l, LLC v. Univ. of Phoenix, Inc., 672 F.3d 1270, 1274–75 (Fed. Cir. 2012)). For this additional reason, we remain persuaded that an approximate nearest neighbor search corresponds to “identifying a close match that is not necessarily the closest match,” without a requirement of being sublinear. Upon review of the parties’ contentions and the Specification, as well as this entire record, we also discern no reason to modify our claim constructions at this juncture, other than the clarifications we have provided above. B. Principles of Law To prevail in its challenges to the patentability of the claims, Petitioner must prove unpatentability by a preponderance of the evidence. 35 U.S.C. § 316(e); 37 C.F.R. § 42.1(d). A claim is unpatentable under 35 U.S.C. § 102 if a single prior art reference expressly or inherently describes each and every limitation set forth in the claim. See Perricone v. Medicis Pharm. Corp., 432 F.3d 1368, 1375 (Fed. Cir. 2005); Verdegaal Bros., Inc. v. Union Oil Co. of Cal, 814 F.2d 628, 631 (Fed. Cir. 1987). IPR2015-00345 Patent 8,205,237 B2 11 Additionally, a patent claim is unpatentable under 35 U.S.C. § 103(a) if the differences between the claimed subject matter and the prior art are such that the subject matter, as a whole, would have been obvious at the time the invention was made to a person having ordinary skill in the art to which said subject matter pertains. KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 406 (2007). The question of obviousness is resolved on the basis of underlying factual determinations including: (1) the scope and content of the prior art; (2) any differences between the claimed subject matter and the prior art; (3) the level of ordinary skill in the art; and (4) objective evidence of nonobviousness. Graham v. John Deere Co., 383 U.S. 1, 17–18 (1966). In that regard, an obviousness analysis “need not seek out precise teachings directed to the specific subject matter of the challenged claim, for a court can take account of the inferences and creative steps that a person of ordinary skill in the art would employ.” KSR, 550 U.S. at 418; Translogic, 504 F.3d at 1259. We analyze the asserted grounds of unpatentability in accordance with the above-stated principles. C. Anticipation by Iwamura - Claims 1, 3–5, 7–9, 11–13, 15, 16, 21–25, 29, 30, 33, 37, and 38 Petitioner argues that claims 1, 3–5, 7–9, 11–13, 15, 16, 21–25, 29, 30, 33, 37, and 38 are anticipated by Iwamura. Pet. 7–16. Patent Owner disputes this anticipation, arguing that Iwamura does not conduct a sub- linear time search, an approximate nearest neighbor search or a non- exhaustive search, per the independent claims. PO Resp. 11–41. Petitioner counters these arguments. Reply 6–20. As discussed below, we determine that Petitioner has not shown, by a preponderance of the evidence, that IPR2015-00345 Patent 8,205,237 B2 12 claims 1, 3–5, 7, 8, 21, 22, 25, 29, 30, 33, 37, and 38 of the ’237 Patent are anticipated by Iwamura. In contrast, we determine that Petitioner has shown, by a preponderance of the evidence, that claims 9, 11–13, 15, 16, 23, and 24 of the ’237 Patent are anticipated by Iwamura. i) Petitioner’s assertions with respect to Iwamura Iwamura discloses a system for identifying a melody input by a user, whereby the system searches a remote music database for the melody. Ex. 1012, Abstract. After the search, the database server sends back the results in the form of a web page. Id. Iwamura discloses the extraction of features from an electronic work, with the melody input through a microphone, converted into an electronic signal, and analyzed by a Fast Fourier Transform (“FFT”) to obtain frequency spectrum information from the waveform data. Id. at 4:4–14. The extracted features are used to search the remote music database “using a peak or differential matching algorithm” (id. at 12:1–2), although other matching algorithms may be applied, including a Boyer-Moore algorithm. Id. at 9:57–10:3. The web page that the database server sends back can include a link to an on-line music shop, which can enable a user to make a purchase, or can include a sound file to be played by the PC client. Id. at 12:9–13. In addition, Iwamura discloses that “[t]o accelerate the search, computation of the total absolute difference can be stopped when it exceeds a certain limit.” Id. at 7:56–57. Petitioner identifies this as an example of Iwamura’s non-exhaustive searching, in that not all records in the remote music database are necessarily searched. Pet. 10. Also, Iwamura provides for input fault tolerance so that the “search engine will find the closest melody from the database” (Ex. 1012, 9:24–25), where no initial exact result IPR2015-00345 Patent 8,205,237 B2 13 is obtained, which Petitioner argues is equivalent to the claimed “identify[ing] a neighbor,” “identify[ing] a near neighbor,” and “to perform an approximate nearest neighbor search.” Pet. 10–16. ii) Claims 1, 3–5, 7, 8, 21, 22, 33, 37, and 38 Independent claims 1, 5, and 33 all recite, in part, the identification of the media work through the use of a sub-linear or sublinear search. Patent Owner argues that Iwamura does not teach an algorithm that “scales with a less than linear relationship to the size of the data set to be searched” where the data set is either the number of records in the database or “even the length of an individual record.” PO Resp. 11. Patent Owner points out that the Petition relies solely on the disclosure of the “Boyer-Moore algorithm” in Iwamura, which is not sub-linear based on the claim construction adopted above. Id. at 12 (citing Ex. 2005 ¶¶ 113–118). Additionally, Patent Owner argues that Petitioner’s declarant, Dr. Moulin, has acknowledged that sublinear is not “in relation with the size of the query,” but rather in relationship to database size, and that the Boyer- Moore algorithm is linear, as opposed to sublinear. Id. at 12–14 (citing Ex. 2006, 24:1–12, 25:4–12, 26:11–21, 28:4–16, 44:20–46:6, 59:6–9, 61:18– 62:9, 68:25–69:4, 77:14–24). Further, Dr. Moulin acknowledged that his representation in his Declaration was wrong. Id. at 14–16 (citing Ex. 1004 ¶ 72; Ex. 2006, 67:17–21, 74:20–24, 79:9–18). In response, Petitioner argues that Iwamura discloses a sublinear search because “Iwamura's search speed scales at a less than linear relationship to disk space when higher resolution works are added to a reference database of lower resolution works.” Reply 16. This interpretation is based on Petitioner’s view of the claim construction of “sub- IPR2015-00345 Patent 8,205,237 B2 14 linear,” which we do not find to be persuasive and we have not adopted. See Section II.A.i. Even assuming that songs in Imamura would occupy different amounts of disk space, but the same number of notes, we are persuaded that the number of records, i.e., melodies, would remain the same and each would be compared in the search process in Imamura. See Ex. 1012, 7:53–55; Ex. 2005 ¶110. As such, we are not persuaded that Iwamura discloses a sublinear search process; Iwamura, therefore, cannot anticipate claims 1, 5, and 33, which recite such a search aspect. Based on the analysis of independent claims 1, 5, and 33, we are also persuaded that Iwamura fails to anticipate claims 3, 4, 7, 8, 21, 22, 37, and 38, by virtue of their dependence on claims 1, 5, and 33. iii) Claims 9–11, 13–15, 23 and 24 Based on Petitioner’s assertions with respect to Iwamura, discussed above, we are persuaded that Petitioner has demonstrated that independent claims 9 and 13 are anticipated by Iwamura. Iwamura discloses that received features, extracted from a media work, are identified through an approximate nearest neighbor search of extracted features of identified media works, with information about the identified media work transmitted back. We discuss Patent Owner’s arguments against anticipation below. Independent claims 9 and 13 both recite, in part, the identification of the media work through the use of an approximate nearest neighbor search of extracted features of identified media works. Patent Owner argues that Iwamura does not disclose an approximate nearest neighbor search because Iwamura does not disclose “identifying a close match that is not necessarily the closest match.” PO Resp. 19. Patent Owner asserts that because Iwamura discloses a search that always identifies an exact or closest match, IPR2015-00345 Patent 8,205,237 B2 15 it cannot disclose an approximate nearest neighbor search. Id. Additionally, Patent Owner argues that the Petition fails to explain why the fault tolerance capability and skipped portion are relevant to or disclose an approximate nearest neighbor search, or how they enable a search to return a result other than the closest match. Id. at 19–23. We do not agree. As Petitioner demonstrates, the search in Iwamura through “peak notes” does not necessarily consider the closest match, or identify it. Pet. 8, 10, 15; Reply 13–14; Ex. 1012, 7: 37–39, 52–55, 9:36–52, 12:6–9; Ex. 2005 ¶¶ 162–63. As such, if the closest matching melody segment does not occur at a peak alignment, Iwamura will not consider or locate that segment. Therefore, Iwamura will not always locate the closest matching melody segment, and discloses an approximate nearest neighbor search. Patent Owner also argues that an approximate nearest neighbor search is a sub-linear search, and that “there is no evidence that the referenced ‘fault tolerance capability of Iwamura’ teaches a sublinear search.” PO Resp. 25 (Citing Ex. 2005 ¶ 157), id. at 20–23. Given the discussion above that we are not persuaded that an approximate nearest neighbor search must be a sub-linear search, we likewise do not find this argument to be persuasive. With respect to dependent claims 11, 12, 15, 16, 23, and 24, we are persuaded that Petitioner has demonstrated that Iwamura teaches the elements of those dependent claims, as set forth in the Petition. See Pet. 11, 13–14. iv) Claims 25, 29, and 30 Independent claim 25 recites, in part, the identification of the media work through the use of a nonexhaustive search. Patent Owner argues that IPR2015-00345 Patent 8,205,237 B2 16 Iwamura fails to disclose a nonexhaustive search. PO Resp. 25–38. Patent Owner asserts that Iwamura’s peak search algorithm is designed to be more efficient than alternative approaches, such as one in which the entered melody is shifted “note by note” relative to a single reference melody. Id. at 25–26 (citing Ex. 1012, 12:1–2; Ex. 2005 ¶¶ 159–166; see also ¶ 312). According to Patent Owner, Iwamura’s peak note search does not reduce the number of reference melodies (i.e., records in the database) to be searched, but instead speeds up the individual comparison of the work to be identified with each record, by shifting the melody to align peak notes rather than shifting note by note. Id. (citing Ex. 2005 ¶ 163). Each record in the database is searched, and the reference melody that gives the least total absolute difference when compared with the entered melody is returned as a search result. Id. at 26 (citing Ex. 1012, 7:53–55; Ex. 2005 ¶ 163). Accordingly, Patent Owner continues, Iwamura discloses an exhaustive search because it searches all records in the database. Id. (citing Ex. 2005 ¶ 164). Patent Owner cites testimony from Petitioner’s declarant, Dr. Moulin, in which he agrees that Iwamura’s system compares a work to be identified with each reference work in the database. PO Resp. 26–28 (citing Ex. 2006, 207:18–23, 223:2–8, 247:18–20, 269:19–270:2, 271:19–21); see also Tr. 17:17 (Petitioner conceding at oral hearing that “every song is looked at”). Dr. Moulin also acknowledges that if a non-exhaustive search is one that does not look at each of the melodies in the database, Iwamura discloses an exhaustive search rather than a non-exhaustive search. Ex. 2006, 233:24– 234:14; see PO Resp. 27. IPR2015-00345 Patent 8,205,237 B2 17 Despite Dr. Moulin’s testimony and Iwamura’s description of a search that compares an input melody to each melody in the database, Petitioner contends that Iwamura discloses a non-exhaustive search. First, Petitioner submits that Iwamura specifically identifies its peak note search as a non- exhaustive search because the “search speed using peak notes is 20% of a brute force search.” Pet. 9–10 (quoting Ex. 1012, 9:8–11); Reply 7–8 (citing Ex. 1012, 9:7–11; Ex. 2005 ¶ 82; Ex. 2001). We agree with Patent Owner, however, that Iwamura’s peak note search accelerates a search within a single comparison between a work to be identified and an individual record in the database, while still comparing the work to each record in the database. See PO Resp. 29–30. In other words, the peak search technique may improve the efficiency of an individual comparison between an entered melody and a reference melody in the database, but it is still an exhaustive search because it compares the entered melody with each musical work in the database, as confirmed by Petitioner’s declarant, Dr. Moulin. Id. (citing Ex. 2006, 269:19–270:2). Petitioner further argues that Iwamura discloses a non-exhaustive search because the search can be accelerated by stopping the search when computations “exceed[] a certain limit.” Pet. 10 (quoting Ex. 1012, 7:56– 57). We agree with Patent Owner that this disclosure also refers to improving the speed of a comparison between the work to be identified and a single record in the reference database. See PO Resp. 32 (citing Ex. 2005 ¶ 179). As Dr. Karypis explains and Dr. Moulin confirms, when the total absolute difference computed between the entered melody and a particular reference melody exceeds a certain limit, the computation stops, and the search shifts to the next peak range comparison within the same record. IPR2015-00345 Patent 8,205,237 B2 18 Id. at 32–35 (citing Ex. 2005 ¶¶ 180–81; Ex. 2006, 241:24–242:2). Thus, Iwamura’s computation “limit” does not describe a non-exhaustive search because Iwamura still compares a work to be identified with each reference melody in the database. In addition, Petitioner argues that Iwamura discloses non-exhaustive searching because its search skips “portions that should not be searched,” such as “repeated patterns” and “unimportant portion[s].” Pet. 10 (quoting Ex. 1012, 12:6–7, 9:36–45); Reply 13. Again, we agree with Patent Owner that the cited passages refer to techniques for accelerating a search between a work to be identified and a record in the database. PO Resp. 35 (citing Ex. 2005 ¶ 185). As confirmed by Dr. Moulin, the search still compares the work with each musical work in the reference database. Id. at 35–36 (citing Ex. 2006, 267:13–24, 317:2–12); see also Ex. 2005 ¶ 187. Finally, Petitioner contends that Iwamura does not consider all “possible matches”—and therefore does not disclose a “non-exhaustive search”—because the possible matches in Iwamura are melody segments rather than full songs, and Iwamura does not consider all melody segments. Reply 12–13. We are not persuaded by this argument. Iwamura explicitly states that its search returns a reference melody as a search result. Ex. 1012, 7:54–55; see also id. at 1:53–56 (“The invented music search allows a user to search a database and thereby obtain the title of the work only with its melody as input to a search engine . . . .”). Furthermore, Petitioner’s declarant, Dr. Moulin, testifies that the possible matches in Iwamura’s search are the reference melodies in the database. Ex. 2006, 206:12–15, 217:15–18, 247:18–20. Although Petitioner cites deposition testimony of Patent Owner’s declarant, Dr. Karypis, in which he refers to individual IPR2015-00345 Patent 8,205,237 B2 19 comparisons of an entered melody segment to segments in a reference melody as “matches,” Reply 12–13 (citing Ex. 1020, 134:5–135:10), he does not describe the melody segments in the database as “possible matches.” See Tr. 31:19–32:2. For these reasons, we are not persuaded that the possible matches for purposes of determining whether Iwamura’s search is non-exhaustive are melody segments. As discussed, because Iwamura’s search compares a work with every record in the reference database, the search is exhaustive rather than non-exhaustive. Based on the analysis of independent claim 25, we are also persuaded that Iwamura fails to anticipate claims 29 and 30, by virtue of their dependence on claim 25. v) Conclusion We are not persuaded that Petitioner has established by a preponderance of the evidence that claims 1, 3–5, 7, 8, 21, 22, 25, 29, 30, 33, 37, and 38 of the ’237 Patent are unpatentable under 35 U.S.C. § 102 as being anticipated by Iwamura. However, we are persuaded that Petitioner has established by a preponderance of the evidence that claims 9, 11–13, 15, 16, 23, and 24 of the ’237 Patent are unpatentable under 35 U.S.C. § 102 as being anticipated by Iwamura. D. Anticipation by Ghias - Claims 1–3, 5–7, 9–11, 13–15, and 21–24 Petitioner argues that claims 1–3, 5–7, 9–11, 13–15, and 21–24 are anticipated by Ghias. Pet. 39–47. Patent Owner disputes this anticipation, arguing that Ghias does not conduct a sub-linear time search or an approximate nearest neighbor search, per the independent claims. PO Resp. IPR2015-00345 Patent 8,205,237 B2 20 41–55. Petitioner counters these arguments. Reply 20–24. As discussed below, we determine that Petitioner has not shown, by a preponderance of the evidence, that claims 1–3, 5–7, 21, and 22 of the ’237 Patent are anticipated by Ghias. In contrast, we determine that Petitioner has shown, by a preponderance of the evidence, that claims 9–11, 13–15, 23, and 24 of the ’237 Patent are anticipated by Ghias. i) Petitioner’s assertions with respect to Ghias Ghias relates to searching for melodies. Ex. 1010, Abstract. The system of Ghias receives a melody input through a microphone, converts it into a digitized representation based on relative pitch differences between successive notes, and searches a database of such representations for an approximate match. Id. Ghias also provides that a preselected error tolerance may be applied to the search. Id. at 2:50–59. The results of the search are presented as a ranked list of approximately matching melodies, or alternately just one best match. Id. at 2:50–59, 6:60–63. Ghias also discloses that it is desirable to perform key-searching within the database using “an efficient approximate pattern matching algorithm,” where different algorithms have various running times dependent on the number of entries in the database, including search algorithms that are substantially faster than “brute force” searches, with execution times that are proportional to the logarithm of the size of the data set. Id. at 6:7–11, 6:23–35. Ghias also discloses that “a cubic-spline wavelet transform or other suitable wavelet transform” may be used to improve the speed and robustness of the pitch-tracking algorithm. Id. at 5:13–20. As well, Ghias provides that the melody database “may be located apart from computer 16 and suitably connected thereto for communicating.” Id. at 6:13–20. IPR2015-00345 Patent 8,205,237 B2 21 ii) Claims 1–3, 5–7, 21, and 22 Independent claims 1 and 5 recite, in part, the identification of the media work through the use of a sub-linear or sublinear search. Patent Owner argues that Ghias teaches a linear search in which the search time grows linearly in relationship to the size of the data set. PO Resp. 42 (citing Ex. 2005 ¶¶ 213–233). Patent Owner continues that Ghias provides that the user input is compared with all songs, such that the execution time of the search would increase linearly with the size of the data set. Id. (citing Ex. 1010, 5:66-6:2; Ex. 2005 ¶ 213). We agree with Patent Owner that the disclosed searches in Ghias are linear, not sublinear, such that Ghias fails to teach at least one aspect of independent claims 1 and 5. Although Petitioner asserts that Ghias anticipates claims 1 and 5 (Reply 1), Petitioner offers no responsive arguments with respect to claims 1 and 5, or claims dependent thereon. See Reply 20–24. As such, we are not persuaded that Petitioner has demonstrated that Ghias anticipates independent claims 1 and 5. Based on the analysis of independent claims 1 and 5, we are also persuaded that Iwamura fails to anticipate claims 2, 3, 6, 7, 21, and 22 by virtue of their dependence on claims 1 and 5. iii) Claims 9–11, 13–15, 23, and 24 Based on Petitioner’s assertions with respect to Ghias, discussed above, we are persuaded that Petitioner has demonstrated that independent claims 9 and 13 are anticipated by Ghias. Ghias discloses that received features, extracted from a media work, are identified through an approximate nearest neighbor search of extracted features of identified media works, with IPR2015-00345 Patent 8,205,237 B2 22 information about the identified media work transmitted back. We discuss Patent Owner’s arguments against anticipation below. Independent claims 9 and 13 both recite, in part, the identification of the media work through the use of an approximate nearest neighbor search of extracted features of identified media works. Patent Owner argues that Ghias does not disclose an approximate nearest neighbor search because Ghias does not disclose “identifying a close match that is not necessarily the closest match.” PO Resp. 51. Patent Owner argues that Ghias teaches that a search generates three possible outputs, including an exact match, a ranked list, and the single most approximate matching melody, but each of these outputs always identifies the closest match. Id. at 51-53 (citing Ex. 2005 ¶¶ 239–424; Ex. 2006, 341:23–342:1, 345:16–346:11, 352:22–353:2, 356: 2–21). We do not agree. As Petitioner demonstrates, Ghias describes a first search, which considers all reference works, followed by subsequent searches to refine the results. Pet. 42 (citing Ex. 1010, 2:50–59, 6:60–63, 7:5–8; Ex. 1004 ¶ 124); Reply 21–22. The new query for a subsequent search can be a different song or a different part or version of the same song, such that the first search may have excluded works that would be closest matches for the new query. Reply 21 (citing Ex. 2005 ¶ 287; Ex. 1020, 172:5–173:3). As such, the search process in Ghias can locate a close match, but need not always generate an exact or closest match. Therefore, we are persuaded that Petitioner has demonstrated that Ghias discloses an approximate nearest neighbor search. Patent Owner also argues that “Ghias does not disclose a sublinear search.” PO Resp. 53–54 (citing Ex. 2005 ¶ 246). Given the discussion IPR2015-00345 Patent 8,205,237 B2 23 above that we are not persuaded that an approximate nearest neighbor search must be a sub-linear search, we likewise do not find this argument to be persuasive. With respect to dependent claims 10, 11, 14, 15, 23, and 24, we are persuaded that Petitioner has demonstrated that Ghias teaches the elements of those dependent claims, as set forth in the Petition. See Pet. 43–47. iv) Conclusion We are not persuaded that Petitioner has established by a preponderance of the evidence that claims 1–3, 5–7, 21, and 22 of the ’237 Patent are unpatentable under 35 U.S.C. § 102 as being anticipated by Ghias. However, we are persuaded that Petitioner has established by a preponderance of the evidence that claims 9–11, 13–15, 23, and 24 of the ’237 Patent are unpatentable under 35 U.S.C. § 102 as being anticipated by Ghias. E. Obviousness Over Iwamura and Chen - Claims 26, 27, 34, and 35 Petitioner argues that claims 26, 27, 34, and 35 would have been obvious over Iwamura in combination with Chen. Pet. 53–57. This ground is based on the ground of claims 1, 3–5, 7–9, 11–13, 15, 16, 21–25, 29, 30, 33, 37, and 38 being anticipated by Iwamura, discussed above. Pet. 53. Patent Owner argues that Iwamura does not disclose a non-exhaustive search to identify a near neighbor or a sublinear approximate nearest neighbor search, as recited in independent claims 25 and 33 discussed above, and that Petitioner does not rely on Chen for those elements. PO Resp. 56–57. We agree. IPR2015-00345 Patent 8,205,237 B2 24 Claims 26, 27, 34, and 35 depend from independent claims 25 and 33, where, as discussed above, those independent claims recite either that the search is non-exhaustive or sublinear. As we are not persuaded that Iwamura anticipates independent claims 25 and 33, we are likewise unpersuaded that Petitioner has demonstrated that claims 26, 27, 34, and 35 are unpatentable over Iwamura and Chen, with the ground relying on Iwamura to teach or suggest the non-exhaustive or sublinear searching recited in the independent claims. III. CONCLUSION For the foregoing reasons, we conclude that Petitioner has demonstrated, by a preponderance of the evidence, that claims 9–16, 23, and 24 of the ’237 Patent are unpatentable as being anticipated by Iwamura under 35 U.S.C. § 102(e), and that Petitioner has not demonstrated, by a preponderance of the evidence, that claims 1–8, 21, 22, 25–27, 29, 30, 33– 35, 37, and 38 of the ’237 Patent are unpatentable. IV. ORDER In consideration of the foregoing, it is ORDERED that claims 9–16, 23, and 24 of the ’237 Patent have been shown to be unpatentable; FURTHER ORDERED that claims 1–8, 21, 22, 25–27, 29, 30, 33–35, 37, and 38 of the ’237 Patent have not been shown to be unpatentable; and IPR2015-00345 Patent 8,205,237 B2 25 FURTHER ORDERED that, because this is a Final Written Decision, parties to the proceeding seeking judicial review of the decision must comply with the notice and service requirements of 37 C.F.R. § 90.2. IPR2015-00345 Patent 8,205,237 B2 26 For PETITIONER: James J. Elacqua Douglas R. Nemec SKADDEN, ARPS, SLATE, MEAGHER & FLOM DLGOOGLE1N@skadden.com James.Elacqua@skadden.com Douglas.Nemec@skadden.com For PATENT OWNER: Charles R. Macedo Brian A. Comack AMSTER, ROTHSTEIN & EBENSTEIN LLP cmacedo@arelaw.com N1-Google-IPR@arelaw.com Gregory Dovel DOVEL & LUNER, LLP greg@dovellaw.com

Google Inc. v. Network-1 Technologies, Inc.