Ex Parte Wippler

Patent Trials and Appeals BoardMar 15, 2019

13557928 - (D) (P.T.A.B. Mar. 15, 2019)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/557,928 07/25/2012 96411 7590 03/15/2019 Dinsmore & Shohl LLP 255 East Fifth Street, Suite 1900 Cincinnati, OH 45202 FIRST NAMED INVENTOR Erik A. Wippler UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www .uspto.gov ATTORNEY DOCKET NO. CONFIRMATION NO. 22562-1083/2011-369 1560 EXAMINER CRENSHAW, HENRY T ART UNIT PAPER NUMBER 3763 MAIL DATE DELIVERY MODE 03/15/2019 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ERIC A. WIPPLER Appeal2018-003404 Application 13/557,928 Technology Center 3700 Before LISA M. GUIJT, JEFFREY A. STEPHENS, and BRENT M. DOUGAL, Administrative Patent Judges. GUIJT, Administrative Patent Judge. DECISION ON APPEAL Appellant1 appeals under 35 U.S.C. Â§ 134(a) from the Examiner's rejection of claims 8, 10-12, and 19--34 under 35 U.S.C. Â§ 103(a) as unpatentable over Dage (US 2006/0225450 Al; published Oct. 12, 2006), Yamine (US 4,071,336; issued Jan. 21, 1978), Roselli (US 4,032,745; issued 1 Toyota Motor Engineering & Manufacturing North America, Inc. ("Appellant''), the applicant as provided for under 37 C.F.R. Â§ 1.46, is also identified as the real party in interest. Appeal Br. 2. Appeal2018-003404 Application 13/557,928 June 28, 1977), and Nadamoto (US 4,614,087; issued Sept. 30, 1986).2 We have jurisdiction under 35 U.S.C. Â§ 6(b ). We AFFIRM. STATEMENT OF THE CASE Claims 8, 25, and 32 are the independent claims on appeal. Claim 8, reproduced below with disputed limitations italicized for emphasis, is exemplary of the subject matter on appeal. 8. A method of operating a climate control system of an automotive vehicle, the method comprising the steps of: determining if the climate control system is in a defrost mode; and when the climate control system is in the defrost mode: providing a flow of warmed air specifically directed toward a window of the automotive vehicle; measuring the humidity of air in the vicinity of the window at a first location and at a second location; determining a threshold humidity value based on an ambient condition of the automotive vehicle or based on an average condition of the automotive vehicle; comparing the measured humidity with the threshold humidity value; determining if a compressor coupled to a condenser provided as part of an air conditioning subsystem is operating; and if the compressor is operating, turning OFF the compressor when the measured humidity is less than the threshold humidity value. 2 Appeal is taken from the Final Office Action dated February 15, 2017. 2 Appeal2018-003404 Application 13/557,928 ANALYSIS Independent claim 8 and dependent claims 10-12 and 19--243 Appellant argues claims 8, 10-12, and 19--24, as a group. Appeal Br. 11-34; Reply Br. 2-7. We select claim 8 as representative, and claims 10- 12, and 19--24 stand or fall with claim 8. See 37 C.F.R. Â§ 4I.37(c)(l)(iv). Regarding independent claim 8, the Examiner finds that Dage teaches, inter alia, a method of operating a climate control system, including the steps of measuring the humidity of air in the vicinity of the window and comparing the measured humidity with a threshold humidity value. Final Act. 2-3 (citing Dage ,r 27, Fig. 5 (block 164 (disclosing that"% R.H.< Table")). The Examiner determines that "Dage's use of 'relative humidity"' (which is measured by "relative humidity(% R.H.) input 53" (Dage ,r 42)) "refer[s] to properties pertaining to the water content of air." Ans. 5. The Examiner determines that Dage fails to disclose measuring humidity at two locations, as claimed, and relies on Roselli for teaching "the use of two humidity detectors at different locations on a window" (i.e., 3 Appellant argues that the Examiner failed to "specifically reject claims 10 [and] 11." Appeal Br. 36; Reply Br. 6-7 (arguing, with reference to the heading on page 2 of the Final Office Action, that "the heading does not mention claim 10 or claim 11" and also that although the Examiner addresses claim 10 and 11 on pages 4 and 5 of the Final Office Action, the Examiner "does not use the word 'reject' as required by MPEP Â§ 707 .07 ( d)"). We determine that the omission of claims 10 and 11 from the statement of the rejection on page 2 of the Final Office Action is an apparent typographical (and harmless) error in view of the Examiner's provision of a separate and specific basis for the rejection of claims 10 and 11 on pages 4 and 5 of the Final Office Action and notwithstanding omission of the word "rejected." Appellant does not argue that the Examiner's findings or reasoning as stated on pages 4 and 5 of the Final Office Action are in error. See Appeal Br. 36. 3 Appeal2018-003404 Application 13/557,928 humidity detectors Ha, Hb ). Ans. 7; see also Final Act. 3 ( citing Roselli, Abstract, Fig. 1 ). The Examiner also determines that Dage fails to disclose determining a threshold humidity value based on an ambient or average condition of the automotive vehicle, as claimed, and relies on Nadamoto for teaching "the relationship between temperature and pressure which determines the saturation point of humidity in the air." Id. (citing Nadamoto, Fig. 4). In particular, the Examiner relies on Figure 4 of Nadamoto "to show the fundamental principle that the phase changes of a fluid in the saturated state (i.e., liquid to vapor and vice versa) are dependent upon both the temperature and pressure in the local environment" and, thus, "both must be determined in order to determine the threshold relative humidity at which water will condense out of air." Ans. 11. The Examiner reasons that it would have been obvious to modify Dage, in view ofYamine, Rosselli, and Nadamoto, to provide defogging [in the] cabin depending upon the user[']s preferences, ... and to sense a more complete picture of the Dage window by using a plurality of sensors to take advantage of the plurality of sensors by treating a positive result at either one of them as [a] triggering event, so as to ensure visibility for the driver across the entire window, and to perform all the foregoing based on ambient conditions of the vehicle such as pressure and temperature. Final Act. 4. Appellant argues that the Examiner erred in finding that Dage discloses measuring the humidity of air in the vicinity of the window, as claimed. Appeal Br. 25. In particular, Appellant asserts that block 164 of Dage's Figure 5, which discloses"% R.H.< Table," does not disclose 4 Appeal2018-003404 Application 13/557,928 measuring the humidity of air, but rather, "merely describes a relative humidity input." Appeal Br. 25. Dage provides its own definition with respect to "% R. H." by disclosing that "[ v ]ehicle cabin relative humidity input 53 is generated by a humidity sensor inside the vehicle cabin," and more specifically, that "[the] humidity sensor senses the humidity inside the vehicle cabin relative to the outside vehicle environment to generate the vehicle cabin relative humidity input(% R.H.)." Dage i132 (emphasis added); cf WEBSTER'S THIRD NEW INT'L DICTIONARY 66 (1993) ( defining "relative humidity" as "the ratio of absolute humidity to the maximum possible density of water vapor in the air at the same temperature"). Thus, a preponderance of evidence supports the Examiner's finding that Dage discloses to one skilled in the art using a humidity sensor to measure the humidity of the air inside the vehicle cabin relative to the air outside the vehicle. Regarding Dage' s [ v ]ehicle window humidity sensor input 51, which is a separate sensor input from vehicle cabin relative humidity input 53 discussed supra, Appellant argues that although Dage discloses that the input 51 is generated by a humidity sensor associated with a vehicle window, the humidity sensor is operable to sense the dewpoint of the interior surface of the vehicle window indicative of the probability of the vehicle window fogging, such that "there is no evidence" that the humidity sensor providing input to vehicle window humidity sensor input 51 "could be used to determine the humidity of air as part of an estimate of the likelihood of causing fogging." Appeal Br. 26; Dage ,r 32; see also Reply Br. 5 ( acknowledging that "Dage discloses measuring a vehicle window using the humidity sensors that are associated with the window"). 5 Appeal2018-003404 Application 13/557,928 Paragraph 32 of Dage, which is relied on by the Examiner and Appellant, discloses that [ v ]ehicle window humidity sensor input 51 is generated by a humidity sensor associated with a vehicle window. This humidity sensor is operable to sense the dewpoint of the interior surface of the vehicle window. The dewpoint is indicative of the probability of vehicle window fogging. Vehicle cabin relative humidity input 53 is generated by a humidity sensor inside the vehicle cabin. This humidity sensor senses the humidity inside the vehicle cabin relative to the outside vehicle environment to generate the vehicle cabin relative humidity input(% R.H.). The two sensors may be incorporated as a single sensor operable to provide the two sensor inputs 51, 53. Dage ,r 32 ( emphasis added). Thus, a preponderance of evidence supports the Examiner's finding that the humidity sensor of vehicle cabin relative humidity input 53 is in the vicinity of the window ( or associated with the window), as claimed, when sensor inputs 51, 53 are incorporated into a single sensor, because the function of vehicle window humidity sensor input 51 is to measure humidity with respect to the window, and therefore, the combined sensor must also be in the vicinity of the window. 4 In other words, to perform their respective functions, the humidity sensor of the 4 Appellant argues that "the objective evidence of Dage ... indicates that the humidity sensors are measuring an amount of moisture on the surface of the vehicle window which is then used to determine the probability of vehicle window fogging." Appeal Br. 26 ( emphasis added). We disagree for the reasons stated with respect to the combined sensor embodiment of Dage. Further, Aoki discloses that "dew-point temperature of the glass surface 12a may be calculated based on the glass temperature detected by the glass temperature sensor 23 ... and the temperature and relative humidity of air on a periphery thereof." Aoki 17: 64--18: 1 ( emphasis added). Aoki (US 7,900,464; issued 7,900,464) is listed in the Information Disclosure Statement submitted by Appellant on July 25, 2012. 6 Appeal2018-003404 Application 13/557,928 single sensor embodiment must measure the humidity of air that is also associated with the window, and thus, a preponderance of evidence supports the Examiner's finding that Dage discloses the step of measuring the humidity of air in the vicinity of a vehicle window, as claimed. Regarding Appellant's additional arguments that none of Roselli, Y amine, or N adamoto cure the deficiency in the Examiner's reliance on Dage for disclosing the step of measuring the humidity of air in the vicinity of a vehicle window, we do not agree that the Examiner's reliance on Dage is deficient for the reasons stated supra. Appeal Br. 27-29, 30, 31; Reply Br. 2--4. Regarding Appellant's argument that Dage does not disclose measuring the humidity of air in the vicinity of the window at a first location and at a second location, as claimed, the Examiner relies on Roselli, not Dage, as set forth supra, for disclosing that the humidity may be measured at first and second locations in the vicinity of the window. Appeal Br. 26-27; Reply Br. 4---6. Therefore, Appellant's argument does not apprise us of error in the Examiner's findings. Appellant also argues that combining Roselli' s "window heating grid" with Dage' s "HV AC system that blows air onto the same window" changes the principal of operation of Dage, because "the heating grid would heat the window, thereby causing the window to defog" and therefore, the similar function of Dage's defogging system "would be unnecessary." Appeal Br. 29-30; see Reply Br. 2--4. In addition, Appellant submits that "placement of a heating grid on windows such as the front side windows and the windshield would necessarily block a driver's view when driving the vehicle, which could potentially create an unsafe driving situation." Appeal 7 Appeal2018-003404 Application 13/557,928 Br. 29--30; see Reply Br. 2--4. Appellant's argument, however, does not address the rejection as articulated by the Examiner supra, in that the Examiner does not propose modifying Dage' s vehicle window to incorporate Roselli's heating grid, or even replacing Dage's sensor 53 with Roselli's sensors Ha, Hb. Rather, the Examiner proposes duplicating Dage's sensor 53 ( or single, combined sensor 51, 53) to be a plurality of sensors, as taught by Roselli. See also In re Harza, 274 F.2d 669, 671 (CCPA 1960) ("It is well settled that the mere duplication of parts has no patentable significance unless a new and unexpected result is produced."); MPEP 2144.04(IV)(B). Appellant further argues that the Examiner fails to "clearly articulate a reasoning for rejecting claim 8 using Nadamoto as a basis for rejection," because the Examiner "merely states that Nadamoto 'teaches the relationship between temperature and pressure which determines the saturation point of humidity in the air' and that it would be obvious 'to perform all of the foregoing based on ambient conditions of the vehicle such as pressure and temperature."' Appeal Br. 31 ( emphasis added). Appellant submits that "[ c ]laim 8 does not recite a relationship between temperature and pressure, nor does it recite determining the saturation point of humidity in the air." Id. A preponderance of the evidence supports the Examiner's reliance on Dage's "reference relative humidity" (i.e., "% R.H." listed in Table 13) as disclosing a threshold humidity value, as claimed. See Dage ,r 13. As discussed supra, Dage defines "relative humidity" as "the humidity inside the vehicle cabin relative to the outside vehicle environment to generate ... % R.H." Dage ,r 32. Appellant does not dispute that Dage's comparison of % R.H. against the reference relative humidity discloses the claimed step of comparing the measured humidity with a threshold humidity value. 8 Appeal2018-003404 Application 13/557,928 We understand that the Examiner is relying on Nadamoto merely for disclosing that the measurement of temperature and pressure in a local, or ambient5, environment is necessary to determine threshold humidity values, such that it would have been obvious to one skilled in the art to determine Dage's reference relative humidity based on an ambient condition (i.e., local temperature or pressure conditions) of the automotive vehicle, as required by claim 8. 6 However, the Examiner appears to be relying on the ordinary definition of "relative humidity," as set forth supra, wherein relative humidity is the ratio of absolute humidity to the maximum possible density of water vapor in the air at the same temperature, necessitating at least a temperature measurement. Here, however, as set forth supra, Dage defines relative humidity as the humidity inside the vehicle cabin relative to the outside vehicle environment," such that Dage's reference humidity input 53 is inherently based on a threshold humidity inside the vehicle cabin, which is an ambient ( or encompassing atmosphere) condition of the automotive 5 An ordinary meaning of the claim term "ambient" in view of the Specification is "an encompassing atmosphere." WEBSTER'S THIRD NEW lNT'L DICTIONARY 66 (1993). 6 Notably, Dage discloses that controller 50 compares various inputs, such as relative humidity(% R.H.) input 53, with reference values, wherein "[t]he reference values depend on the comfort setting of HVAC system 20." Dage ,r 42. Dage discloses that "HV AC system 20 provides different levels of comfort," which are "service/customer selectable" (id. ,r 34) and which are also described as "cooling comfort" (id. ,r 3 6). In other words, Dage' s threshold or reference values depend, at least in part, on the desired ambient temperature conditions of the vehicle cabin. Thus, a preponderance supports a finding that Dage discloses the claimed step of determining a threshold humidity value based on an ambient condition of the automotive vehicle. 9 Appeal2018-003404 Application 13/557,928 vehicle, as claimed. 7 In sum, Appellant's argument does not apprise us of error in the Examiner's reliance on Nadamoto for disclosing that local measurements are necessary to establish threshold values. Accordingly, we sustain the Examiner's rejection of independent claim 8, and claims 10-12, and 19--24 fall therewith. Independent claims 25 and 32, and dependent claims 26-31 and 33-34 Appellant chose not to present separate arguments for the patentability of independent claims 25 and 32, and claims 26-31 and 33-34 depending therefrom, apart from the arguments presented for independent claim 8 supra. Appeal Br. 34--35. Therefore, for essentially the same reasons stated supra, we also sustain the Examiner's rejection of claims 25-34. DECISION The Examiner's decision rejecting claims 8, 10-12, and 19--34 is AFFIRMED. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a). See 37 C.F.R. Â§ 1.136(a)(l )(iv). 7 Notably, Dage further discloses that "controller 50 determines ... whether relative humidity input 53 [ ( which is generated by a humidity sensor inside the vehicle cabin)] is less than the reference relative humidity listed in Table 13 for the comfort setting," wherein "comfort setting" represents a desired ambient condition of the automotive vehicle, such that determining the reference relative humidity is based on an ambient condition of the automotive vehicle, as broadly claimed. Dage ,r,r 75, 32; see also id. ,r 34 ("HV AC system comfort mode settings input 54 is indicative of the comfort setting that HV AC system 20 is in at any given time"). 10 Appeal2018-003404 Application 13/557,928 AFFIRMED 11