`571-272-7822
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`Paper 13
`Entered: June 10, 2016
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`UNITED STATES PATENT AND TRADEMARK OFFICE
`____________
`
`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`____________
`
`TOYOTA MOTOR CORPORATION,
`Petitioner,
`
`v.
`
`SIGNAL IP, INC.,
`Patent Owner.
`____________
`
`Case IPR2016-00291
`Patent 5,732,375
`____________
`
`Before MEREDITH C. PETRAVICK, JEREMY M. PLENZLER, and
`JAMES A. TARTAL, Administrative Patent Judges.
`
`TARTAL, Administrative Patent Judge.
`
`DECISION
`Denying Institution of Inter Partes Review
`37 C.F.R. § 42.108
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`IPR2016-00291
`Patent 5,732,375
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`Petitioner Toyota Motor Corporation filed a Petition requesting an
`inter partes review of claim 11 of U.S. Patent No. 5,732,375 (“the ’375
`patent”). Paper 2 (“Pet.”). Patent Owner Signal IP Inc., filed a Preliminary
`Response. Paper 8 (“Prelim. Resp.”). We have jurisdiction under 35 U.S.C.
`§ 314(a), which provides that an inter partes review may not be instituted
`“unless . . . the information presented in the petition . . . shows that there is a
`reasonable likelihood that the petitioner would prevail with respect to at least
`1 of the claims challenged in the petition.”
`Upon consideration of the Petition and the Preliminary Response, we
`conclude the information presented does not show a reasonable likelihood
`that Petitioner would prevail in showing the unpatentability of the
`challenged claim. Accordingly, we do not authorize an inter partes review
`to be instituted as to claim 11 of the ’375 patent.
`I.
`BACKGROUND
`The ’375 Patent (Ex. 1001)
`A.
`The ’375 patent is titled “Method of Inhibiting or Allowing Airbag
`Deployment” and issued on March 24, 1998. The ’375 patent discloses that
`vehicles may have airbags for protecting passengers in a front passenger seat
`and that it is desirable to inhibit the airbags from deploying if the front
`passenger seat is occupied by a small child or an infant in a rear facing car
`seat. Ex. 1001, 1: 12–29. The ’375 patent, thus, discloses a method of
`detecting a type of seat passenger and determining the seating position of the
`passenger to allow or inhibit airbag deployment. Id. at 1:44–50.
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`The ’375 patent discloses a vehicle passenger seat having an array of
`pressure sensors. The array of sensors is depicted in Figure 7 of the ’375
`patent, and Figure 7 is reproduced below.
`
`Figure 7 depicts the seat having 12 sensors arranged as follows: (1) a left
`pair of sensors 1 and 2; (2) a right pair of sensors 11 and 12; (3) a front pair
`of sensors 6 and 7; (4) a rear pair of sensors 3 and 10; and (5) a center group
`of sensors 4, 5, 8, and 9. Ex. 1001 at 3:21–29.
`Sensors 1–12 are also arranged in the overlapping localized areas as
`follows: (1) sensors 1, 6, 7 and 12 in a front group; (2) sensors 2, 3, 4, 5, 8,
`9, 10, and 11 in a rear group; (3) sensors 1, 2, 3, 4, 5, 6, 8, and 9 in a left
`group; and (4) sensors 4, 5, 7, 8, 9, 10, 11, and 12 in a right group. Id. at
`4:19–24.
`
`An algorithm calculates a set of decision measures 40 based upon the
`output of the sensors. Id. at 3: 48–49; Fig. 4. The first decision measures
`are a total force, which is the sum of the sensor output values, and a fuzzy
`contribution for the total force. Id. at 3:49–67. The second decision
`measures are a load rating for each sensor, a total load rating, and a fuzzy
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`contribution for the total load rating. Id. at 4:1–17. The load rating is a
`measure of whether the sensor is detecting some load, and the total load
`rating is the sum of the load ratings for each sensor. Ex. 1001 at 4:2–4, 9–
`11. The third decision measures are a force and fuzzy contribution for each
`pair of sensors and for the center group. Id. at 4:30–47.
`The algorithm also checks for force concentration. Id. at 4:18. The
`
`’375 patent states:
`[A] check is made for force concentration in a localized area.
`. . . The algorithm determines if the pressure is all concentrated
`in one group by summing the load ratings of the sensors in each
`group and comparing to the total load rating. If the rating sum
`of any group is equal to the total rating, a flag is set for that group
`(all right, all front etc.).
`Id. at 4:18–24. Based upon the set of decision measures, a decision
`algorithm determines whether airbag deployment should be allowed or
`inhibited. Id. at 4:64–66.
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`The decision algorithm is depicted in Figure 8, and Figure 8 is
`reproduced below.
`
`Figure 8 depicts a flow chart of the deployment decision algorithm.
`
`Whenever an inhibit or allow decision is made, that decision is controlling
`and all other conditions lower on the chart are bypassed. Id. at 5:9–11.
`
`First, the decision algorithm determines if rails of an infant seat are
`detected and whether the infant seat is forward or rear facing. Id. at
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`4:65–5:9. Deployment is allowed for a forward facing seat and inhibited for
`a rear facing seat. Id. at 5:1–3.
`
`If rails are not detected <60>, the total force is compared to high
`and low thresholds <68>. If it is above the high threshold
`deployment is allowed and if below the low threshold the
`deployment is inhibited. Otherwise, if the localized force for a
`sensor group is above a threshold and the flag corresponding to
`that group is set <70>, deployment is allowed. If not, the next
`step is to compare the total load rating to high and low thresholds
`<72>. Deployment is allowed if the rating is above the high
`threshold and inhibited if below the low threshold. Each of the
`sensor pairs for front, left, right, and rear are compared to
`threshold values <74–80>. If any of them are above its allowed.
`If not, the center group force is compared to a threshold <82> to
`decide upon allowance. Finally, the total fuzzy value is
`compared to a threshold <84> to allow deployment if it is
`sufficiently high, and if not the deployment is inhibited.
`Id. at 5:12–27.
`
`B. Challenged Claim
`Claim 11 of the ’375 patent is independent and recites:
`11. A method of airbag control in a vehicle having an array
`of force sensors on the passenger seat coupled to a controller for
`determining whether to allow airbag deployment based on
`sensed force and force distribution comprising the steps of:
`measuring the force sensed by each sensor;
`calculating the total force of the sensor array;
`allowing deployment if the total force is above a total
`threshold force;
`assigning a load rating to each sensor based on its measured
`force, said load ratings being limited to maximum value;
`summing the assigned load ratings for all the sensors to derive
`a total load rating; and
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`allowing deployment if the total load rating is above a
`predefined total load threshold, whereby deployment is
`allowed if the sensed forces are distributed over the
`passenger seat, even if the total force is less than the total
`threshold force.
`Ex. 1001, 7:1–20.
`
`Related Proceedings
`C.
`Both parties state that the ’375 patent is the subject of numerous
`district court proceedings, including Signal IP, Inc. v. Toyota Motor North
`America, Inc. et al, Case No. 2-15-cv-05162 in the U.S. District Court for
`the Central District of California. Pet. 1; Paper 3, 2–3.
`The ’375 patent was the subject of Ex Parte Reexamination
`No. 90/013,386; however, claim 11 was not reexamined. See Pet. 14.
`Claims of the ’375 patent other than claim 11 were the subject of a
`petition for inter partes review, which was denied in American Honda
`Motor Co., Inc., v. Signal IP, Inc., Case IPR2015-01003 (Paper 11, October
`1, 2015).
`Claim 11 of the ’375 patent is the subject of a pending petition for
`inter partes review in Aisin Seiki Co., Ltd. v. Signal IP, Inc., IPR2016-00369
`(Paper 1, December 18, 2015).
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`Asserted Grounds of Unpatentability
`D.
`Petitioner contends that claim 11 is unpatentable as obvious under
`35 U.S.C. § 103(a) over: (1) Schousek1 and Tokuyama,2 and (2) Tokuyama
`and Mazur.3 Pet. 4–5.
`
`II. ANALYSIS
`Claim Construction
`A.
`Petitioner acknowledges that the ’375 patent expired on December 1,
`2015. See Pet. 5. “[T]he Board’s review of the claims of an expired patent
`is similar to that of a district court’s review.” In re Rambus, Inc., 694 F.3d
`42, 46 (Fed. Cir. 2012). Specifically, because the expired claims of the
`patent are not subject to amendment, we apply the principle set forth in
`Phillips v. AWH Corp., 415 F.3d 1303, 1312 (Fed. Cir. 2005) (quoting
`Vitronics Corp. v. Conceptronic, Inc., 90 F.3d 1576, 1582 (Fed. Cir. 1996)),
`that “words of a claim ‘are generally given their ordinary and customary
`meaning,’” as understood by a person of ordinary skill in the art in question
`at the time of the invention. “In determining the meaning of the disputed
`claim limitation, we look principally to the intrinsic evidence of record,
`examining the claim language itself, the written description, and the
`prosecution history, if in evidence.” DePuy Spine, Inc. v. Medtronic
`Sofamor Danek, Inc., 469 F.3d 1005, 1014 (Fed. Cir. 2006) (citing Phillips,
`
`
`1 U.S. Patent No. 5,474,327, issued December 12, 1995 (Ex. 1002,
`“Schousek”).
`2 JP 06-022939, published March 25, 1994 (Ex. 1003 and Ex. 1004 (English
`translation) “Tokuyama”).
`3 U.S. Patent No. 5,454,591, issued October 3, 1995 (Ex. 1011, “Mazur”).
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`415 F.3d at 1312–17). Moreover, only terms which are in controversy need
`to be construed, and then only to the extent necessary to resolve the
`controversy. Vivid Techs., Inc. v. Am. Sci. & Eng’g, Inc., 200 F.3d 795, 803
`(Fed. Cir. 1999).
`For purposes of this Decision, the only term requiring specific
`discussion is “load rating,” recited in claim 13. According to Petitioner:
`The ’375 patent does not expressly define the term “load rating.”
`An example is provided in the specification where a “load rating”
`varies between 0 and 4. (See [Ex. 1001] at 4:6–9; see also 6.)
`Claim 11, however, is not limited to this example. Instead, the
`’375 patent confirms that “[t]he load rating is a measure of
`whether the sensor is detecting some load….” (Id. at 4:2–4.)
`Thus, while a load rating can vary between 0 and 4 (or 0 and
`some other number), it can also simply be binary value that varies
`between 0 and 1. In other words, a “load rating” is simply a
`numerical value indicating “whether [each] sensor” in the
`“sensor array” is “detecting some load.” (See Ex. 1009, Andrews
`Dec. at ¶ 34.)
`Pet. 8. Patent Owner does not dispute Petitioner’s proposed construction,
`stating “a load rating, according to the ’375 [p]atent is a measure of whether
`a given sensor is detecting some load.” Prelim. Resp. 3, 13 (citing Ex. 1001,
`4:1–4). For purposes of this decision, we agree with the parties that a “load
`rating” is a measure of whether a given sensor is detecting some load.
`B.
`Asserted Obviousness Over Schousek and Tokuyama
`Petitioner contends claim 11 of the ’375 patent would have been
`obvious over Schousek and Tokuyama. Pet. 23–40. Petitioner provides a
`claim chart identifying how it contends each feature of claim 11 is disclosed
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`by the asserted references, and relies upon the Declaration of Scott Andrews
`for support. Id. at 34–40; see also Ex. 1009.
`Claim 11 requires, among other things, assigning a load rating to each
`sensor based on its measured force, and then “summing the assigned load
`ratings for all the sensors to derive a total load rating” (the “summing
`limitation”). Airbag deployment is allowed if the total load rating is above a
`predefined total load threshold. Petitioner relies only on Tokuyama as
`disclosing the summing limitation. See Pet. 23 (“Schousek discloses all the
`limitations required by claim 11 except the use of “load rating[s],” a “total
`load rating,” or a “total load threshold.”). Our discussion focuses on the
`summing limitation because Petitioner has not adequately shown that
`Tokuyama discloses this feature of the claim.
`Tokuyama describes a “seat load detection apparatus, used in a seat of
`an automobile such as a private vehicle, for detecting the presence or
`absence of sitting by a passenger.” Ex. 1004 ¶ 1.
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`Figure 1 of Tokuyama is reproduced below.
`
`Tokuyama Figure 1 shows automobile seat 1 with load detection body A
`disposed between cushion material 4 and surface sheet 5. Ex. 1004 ¶ 11.
`Load detection body A includes nine load detection units (S1 to S9)
`disposed on the upper surface side of seat unit 2 and three load detection
`units (S10 to S12) disposed near the front edge of seat unit 2. Id. at
`¶¶ 13–14. In determining whether to deploy the airbag, Tokuyama uses a
`microprocessor “by way of an ON-OFF judgment as to whether a current is
`flowing in each load detection unit S1 to S12” to distinguish whether a load
`in the seat is due to a person or something else. See id. at ¶ 29. If all 12 load
`detection units are OFF it is determined that no load is acting on the seat. Id.
`at ¶ 31. If at least one of the load detection units is on, then “it is determined
`whether four or more of the nine load detection units S1 to S9 are ON,” and
`if “fewer than three of the nine load detection units S1 to S9 are ON, it is
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`decided that it is a load due to something other than a person.” Id. More
`particularly, if the set of load decision units S2, S5, and S8, located in a
`vertical row in the middle of the seat, are all OFF, or the set of load decision
`units S4, S5, and S6, located in a horizontal row in the middle of the seat,
`are all OFF, then it is decided that it is a load due to something other than a
`person. Id. Additional determinations concerning the load on the seat are
`made by evaluating the total value of the current flowing between the
`conductors, which corresponds to load pressure. Id., see also id. at
`¶¶ 16–17.
`
`According to Petitioner, Tokuyama’s “ON-OFF judgment”:
`is a binary process: either the sensors are ON (which can be
`thought of as assigning a value of “1” to each sensor) or OFF
`(which can be thought of as assigning a “0”). As explained
`above, a “load rating” is simply [a]n indication of whether a
`sensor is “detecting some load.” [ ] Thus, by converting each
`sensor measurement into an “ON” or “OFF,” Tokuyama’s
`apparatus determines whether each of its sensors is detecting
`some load and “assign[s] a load rating to each sensor based on
`its measured force” as required by the final limitations of claim
`11.
`Pet. 28. Patent Owner has not disputed, and we assume for purposes
`of this Decision, that Tokuyama’s application of an “ON-OFF
`judgment” to load detection units corresponds to “assigning a load
`rating,” as claimed. We are not persuaded, however, that Petitioner
`has sufficiently shown that Tokuyama discloses “summing the
`assigned load ratings for all the sensors to derive a total load rating,”
`in light of Petitioner’s limited explanation:
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`Tokuyama makes a passenger/no passenger classification based
`in part on whether “four or more of the nine load detection units
`S1 to S9 are ON.” (Tokuyama at ¶ 0031; Fig. 7.) In other words,
`Tokuyama’s apparatus determines a “total load rating” by adding
`up the number of sensors that are ON, and compares this “total
`load rating” to a “total load threshold” of 4 as part of its
`classification algorithm. (Id.; see also Ex. 1009, Andrews Dec.
`at ¶ 66.)
`Pet. 29. Contrary to Petitioner’s argument, there is no express disclosure in
`Tokuyama that it is “adding up” the number of sensors that are ON. We are
`not persuaded that Petitioner has carried its burden by arguing in a
`conclusory manner that “[i]n other words, Tokuyama’s apparatus determines
`a ‘total load rating’ by adding up the number of sensors that are ON,” or that
`“this determination amounts to adding up the sensors’ load ratings.” Pet. 29;
`Ex. 1009, ¶ 66 (emphasis added). Petitioner’s interpretation of Tokuyama is
`supported only by a limited explanation in the Declaration of Scott Andrews,
`which states:
`Again, step (b) in Tokuyama determines whether at least
`four of the nine sensors are on (i.e., are sensing the minimum
`pressure required to activate the sensor). Viewing the “on”
`sensors as binary “1” values and the “off” sensors as binary “0”
`values, this determination amounts to adding up the sensors’ load
`ratings; the sum of these binary values represents the number of
`sensors in the “on” state. Therefore, Tokuyama’s system
`computes a “total load rating.” By determining whether that
`number is at least 4, it compares the total load rating to a “total
`load threshold.”
`Ex. 1009, ¶ 66. Thus, from the evidence relied on by Petitioner, Tokuyama
`determines whether a certain number of sensors is on, but Tokuyama
`provides no indication that it is “adding up” sensor ON information.
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`Mr. Andrews testimony is not persuasive because it is conclusory and
`provides no explanation of why one of ordinary skill in the art at the time of
`the invention would have understand Tokuyama to be applying a binary
`system based on numerical values for ON and OFF, much less summing
`those numerical values to add up the load ratings of the sensors. Tokuyama
`does not state that it assigns a numerical value to any load rating, and in fact
`utilizes information to make determinations based not only on how many of
`the twelve load detection units are ON or OFF, but also about which of those
`units are ON or OFF. Petitioner does not explain how such location
`information would be reflected were Tokuyama properly viewed as a simple
`binary system. Petitioner also neglects to address how Tokuyama’s
`exclusion of three of the twelve sensors from its determination of whether
`four or more of the load detection units are ON relates to the requirement of
`claim 11 of summing the assigned load ratings for all the sensors.
`Petitioner’s contentions are not supported by sufficient evidence to suggest
`that any set of load rating values is summed, or needs to be summed, for
`Tokuyama to operate, even if Petitioner contends that conceptually it
`“amounts to” adding values up.
`“Any judgment on obviousness is in a sense necessarily a
`reconstruction based on hindsight reasoning, but so long as it takes into
`account only knowledge which was within the level of ordinary skill in the
`art at the time the claimed invention was made and does not include
`knowledge gleaned only from applicant’s disclosure, such a reconstruction is
`proper.” In re McLaughlin, 443 F.2d 1392, 1395 (CCPA 1971). In this
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`case, Petitioner provides no persuasive explanation or sufficient evidence
`that Tokuyama contemplated “summing the assigned load ratings,” as
`claimed, and instead suggests that by considering the disclosure of the ’375
`patent, Tokuyama can be thought of as accomplishing the same task. There
`is no persuasive evidence that such reasoning is limited to the level of
`ordinary skill in the art at the time of the claimed invention. Moreover,
`reasoning that the disclosure of Tokuyama “amounts to” what is disclosed in
`the ’375 patent necessarily includes knowledge gleaned from the ’375
`patent. As a result, we are not persuaded that Petitioner has sufficiently
`demonstrated Tokuyama discloses “summing the assigned load ratings for
`all the sensors to derive a total load rating,” as required by claim 11.
`Accordingly, we conclude that Petitioner has not presented sufficient
`information to establish a reasonable likelihood of prevailing in showing the
`unpatentability of claim 11 of the ’375 patent as obvious over Schousek and
`Tokuyama.
`Asserted Obviousness Over Tokuyama and Mazur
`C.
`Petitioner contends claim 11 of the ’375 patent would have been
`obvious over Tokuyama and Mazur. Pet. 41–54. With regard to the
`summing limitation, Petitioner again relies only on Tokuyama. Id. at 52–53.
`For the same reasons discussed above with respect to the Schousek and
`Tokuyama combination, we are not persuaded that Petitioner has sufficiently
`demonstrated Tokuyama discloses “summing the assigned load ratings for
`all the sensors to derive a total load rating,” as required by claim 11.
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`Accordingly, we conclude that Petitioner has not presented sufficient
`information to establish a reasonable likelihood of prevailing in showing the
`unpatentability of claim 11 of the ’375 patent as obvious over Tokuyama
`and Mazur.
`
`III. CONCLUSION
`We determine that Petitioner fails to demonstrate a reasonable
`likelihood of prevailing on any of the asserted grounds of unpatentability.
`IV. ORDER
`In consideration of the foregoing, it is hereby:
`ORDERED that institution of inter partes review is denied as to the
`challenged claim of U.S. Patent No. 5,732,375.
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`PETITIONER:
`
`John Flock
`George E. Badenoch
`KENYON & KENYON LLP
`jflock@kenyon.com
`gbadenoch@kenyon.com
`
`PATENT OWNER:
`
`Tarek Fahmi
`Holly Atkinson
`Jason LaBerteaux
`ASCENDA LAW GROUP, PC
`tarek.fahmi@ascendalaw.com
`holly.atkinson@ascendalaw.com
`jason.laberteaux@ascendalaw.com
`
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