Ex Parte TibergDownload PDFPatent Trial and Appeal BoardDec 17, 201211561506 (P.T.A.B. Dec. 17, 2012) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________ Ex parte RICHARD L. TIBERG ____________ Appeal 2010-005556 Application 11/561,506 Technology Center 3600 ____________ Before STEFAN STAICOVICI, PHILLIP J. KAUFFMAN, and BART A. GERSTENBLITH, Administrative Patent Judges. GERSTENBLITH, Administrative Patent Judge. DECISION ON APPEAL Appeal 2010-005556 Application 11/561,506 2 STATEMENT OF THE CASE Richard L. Tiberg (“Appellant”) appeals under 35 U.S.C. § 134 from the Examiner’s decision rejecting claims 1-13. We have jurisdiction under 35 U.S.C. § 6(b). The Claimed Subject Matter Claim 1, the sole independent claim on appeal, is representative of the claimed subject matter and is reproduced below. 1. A control system for controlling a transmission of a vehicle including a telematics system, comprising: a grade module that determines a current grade based on an altitude signal received from the telematics system; a force balance module that computes a vehicle mass based on a force balance equation and the current grade; and a transmission control module that controls the transmission based on the vehicle mass. References The Examiner relies upon the following prior art references: Iwaki US 5,319,555 June 7, 1994 Brodie US 2002/0128775 A1 Sept. 12, 2002 Han US 6,625,535 B2 Sept. 23, 2003 Rejections The Examiner makes the following rejections: I. Claims 1-11 and 13 are rejected under 35 U.S.C. § 103(a) as unpatentable over Iwaki and Brodie; and II. Claim 12 is rejected under 35 U.S.C. § 103(a) as unpatentable over Iwaki, Brodie, and Han. Appeal 2010-005556 Application 11/561,506 3 SUMMARY OF DECISION We REVERSE. OPINION Rejection I – Iwaki and Brodie The central issue in this appeal is whether Iwaki discloses “a force balance module that computes a vehicle mass based on a force balance equation and the current grade” as recited by the claims. App. Br. 9-11. The Examiner concluded that Iwaki and Brodie render obvious the subject matter of claims 1-11 and 13. Ans. 3-6. Specifically, the Examiner relied on Iwaki as disclosing a force balance module that computes a vehicle mass based on a force balance equation and current grade. Id. at 3 (citing Iwaki, col. 5, ll. 31-35). Appellant contends that the cited portion of Iwaki discloses two equations—equation (1) and (2)—that are used to determine the driving resistance “R,” not vehicle mass. App. Br. 9. Appellant asserts that while vehicle mass is a variable in equations (1) and (2), vehicle mass is “determined from the detection value of the suspension stroke sensor 52 based on predetermined characteristics.” Id. at 10. Thus, Appellant contends that Iwaki teaches that the vehicle mass is detected by the suspension stroke sensor, and then used as a variable in equations (1) and (2) to determine the driving resistance “R.” Id. Appellant further asserts that Brodie also fails to disclose a force balance module that computes a vehicle mass based on a force balance equation and the current grade. Id. In response, the Examiner first asserts that vehicle mass and road gradient are not predetermined; rather, they are determined using Iwaki’s Appeal 2010-005556 Application 11/561,506 4 method—“computed based on equations (1) and (2) which are force balance equations.” Ans. 7. Second, the Examiner contends that vehicle mass is calculated in step “S122” of Iwaki. Id. at 8. The Examiner found that since Iwaki discloses that “the suspension stroke sensor is an input and is put through ‘predetermined characteristics’ which would be obvious to one of ordinary skill implies a force balance equation.” Id. at 8-9. In reply, Appellant contends that the Examiner’s first argument fails to acknowledge that Iwaki discloses that equations (1) and (2) are not used to calculate vehicle mass. Reply Br. 5-6. Second, Appellant notes that Iwaki does not disclose the “predetermined characteristics” employed to calculate the vehicle mass based on the suspension stroke sensor. Id. at 7. Thus, even assuming it would have been obvious to use a force balance equation to determine vehicle mass using the suspension stroke sensor, “Iwaki clearly does not disclose computing the vehicle mass based on the current grade when using the suspension stroke sensor.” Id. An Examiner’s factual finding regarding what a reference discloses must be supported by a preponderance of the evidence. See In re Caveney, 761 F.2d 671, 674 (Fed. Cir. 1985) (“preponderance of the evidence is the standard that must be met by the PTO in making rejections”); see also In re Oetiker, 977 F.2d 1443, 1449 (Fed. Cir. 1992) (Plager, J., concurring) (“In rejecting an application, factual determinations by the PTO must be based on a preponderance of the evidence, and legal conclusions must be correct.”) (citation omitted). We disagree with the Examiner that Iwaki teaches “a force balance module that computes a vehicle mass based on a force balance equation and the current grade” as required by the claims. First, contrary to the Appeal 2010-005556 Application 11/561,506 5 Examiner’s finding, Iwaki does not disclose computing a vehicle mass based on equations (1) and (2). Rather, equations (1) and (2) use the vehicle mass as a variable to calculate the driving resistance. See Iwaki, col. 5, ll. 7-45 (“The variables in the equation (2) are the vehicle weight W, which varies with the number of passengers and the amount of cargo, and the grade sin ϴ, which differs depending on the inclination of the road surface, and all of these factors are included in the driving resistance.”). The vehicle mass is determined by the detection value of the suspension stroke sensor 52 based on predetermined characteristics. Id. at col. 7, ll. 8-12 (“step S122 in which the actual vehicle mass (weight) M including the mass (weight) of the passengers and any cargo is determined from the detection value of the suspension stroke sensor 52 based on predetermined characteristics”). Specifically, “[i]n the vicinity of a suspension 50 mounted at each wheel a suspension stroke sensor 52 is provided for detecting the weight of the passenger(s) and cargo of the vehicle though the amount of depression of a coil spring . . . of the suspension 50.” Id. at col. 3, l. 66 - col. 4, l. 2. Thus, Iwaki does not disclose computing the vehicle mass using equation (1) or (2). Second, while Iwaki does not disclose the precise “predetermined characteristics” upon which the vehicle mass is determined in light of the detection value of the suspension stroke sensor, the Examiner has not pointed us to any teaching or suggestion that such characteristics include “current grade,” as required by the claims. Thus, even if we were to assume that it would have been obvious to one of ordinary skill in the art that the detection value of the suspension stroke sensor and predetermined characteristics are employed in a force balance equation, the Examiner failed Appeal 2010-005556 Application 11/561,506 6 to find that the “current grade” is also a variable or parameter in computing the vehicle mass. Accordingly, we do not sustain Rejection I. Rejection II – Iwaki, Brodie, and Han Claim 12 depends from claim 1 and thus also requires “a force balance module that computes a vehicle mass based on a force balance equation and the current grade. The Examiner’s rejection of claim 12 does not rely on Han for the disclosure of this element of the claim; rather, the rejection relies upon the same erroneous finding regarding Iwaki analyzed in the first rejection, supra. See Ans. 6-7. Accordingly, we do not sustain Rejection II. DECISION We reverse the Examiner’s decision rejecting claims 1-13. REVERSED Klh Copy with citationCopy as parenthetical citation
