13819048 (P.T.A.B. Jun. 27, 2018)

Ex Parte Krapf et al

Patent Trial and Appeal BoardJun 27, 2018

13819048 (P.T.A.B. Jun. 27, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/819,048 05/08/2013 10800 7590 06/27/2018 Maginot, Moore & Beck LLP One Indiana Square, Suite 2200 Indianapolis, IN 46204 FIRST NAMED INVENTOR Reiner Krapf 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. 2178-0654 7845 EXAMINER MCANDREW, CHRISTOPHER P ART UNIT PAPER NUMBER 2858 MAIL DATE DELIVERY MODE 06/27/2018 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 REINER KRAPF, TOBIAS ZIBOLD, and ANDREJ ALBRECHT Appeal2017-008514 Application 13/819,048 Technology Center 2800 Before BEYERL YA. FRANKLIN, DONNA M. PRAISS, and CHRISTOPHER L. OGDEN, Administrative Patent Judges. PRAISS, Administrative Patent Judge. DECISION ON APPEAL 1 Appellants2 seek our review under 35 U.S.C. Â§ 134(a) of the Examiner's decision rejecting claims 1, 2, and 4--19. We have jurisdiction over the appeal under 35 U.S.C. Â§ 6(b). We AFFIRM. 1 In this decision we reference the Specification filed Feb. 26, 2013 ("Spec."), the Final Office Action dated Aug. 30, 2016 ("Final Act."), the Appeal Brief filed Jan. 30, 2017 ("App. Br."), the Examiner's Answer dated Mar. 22, 2017 ("Ans."), and the Reply Brief filed May 22, 2017 ("Reply Br."). 2 Robert Bosch GmbH is identified as the real party in interest. App. Br. 3. Appeal2017-008514 Application 13/819,048 STATEMENT OF THE CASE Claim 1 is illustrative of the subject matter on appeal and is copied below from the Claims Appendix to the Appeal Brief ( disputed limitations are italicized): 1. A method for locating objects enclosed in a medium using a detection system, comprising: generating a measurement signal correlated with an enclosed object; determining a detection state based on the measurement signal, the detection state being one of a first state indicating that an object is detected in the medium directly adjacent to the detection system, at least one second state indicating that no object is detected, and a third state indicating that an object is detected in the vicinity of the detection system but not directly adjacent to the detection system, the determining of the detection state comprising: detecting local maximums of the measurement signal; and changing the detection state from the first state to the third state in response to a magnitude of the measurement signal being less than a magnitude of a previously detected local maximum of the measurement signal by a predetermined first percentage; and transmitting a state signal to a user, the state signal indicating the determined detection state. Independent claim 14 is directed to a measuring device comprising a detection system configured to perform the steps of claim 1 and an output device. Independent claim 19 is directed to a method that additionally reqmres "detecting local minimums of the measurement signal" and "changing the detection state from the third state to the first state in response 2 Appeal2017-008514 Application 13/819,048 to the magnitude of the measurement signal remaining above a previously detected local minimum of the measurement signal by a predetermined second percentage." App. Br. 22-24 (Claims Appendix). THE REJECTIONS 1. Claims 1, 2, 4, 6-8, 13-15, and 19 stand rejected under 35 U.S.C. Â§ I02(b) as being anticipated by Sanoner. 3 2. Claims 5 and 9 stand rejected under 35 U.S.C. Â§ I03(a) as being unpatentable over Sanoner in view of Chipriano. 4 3. Claims 10-12 and 16 stand rejected under 35 U.S.C. Â§ I03(a) as being unpatentable over Sanoner in view of Sanoner '918. 5 4. Claims 17 and 18 stand rejected under 35 U.S.C. Â§ I03(a) as being unpatentable over Sanoner in view of Skultety-Betz. 6 ANALYSIS We need to address only independent claims 1, 14, and 19 because each of the rejections is based on the same disputed finding that Sanoner discloses detecting local maximums and changing the detection state from the first state to the third state in response to a magnitude of the measurement signal being less than a magnitude of a previously detected local maximum of the measurement signal by a predetermined percentage (Final Act. 5; Ans. 3--4) and, specifically, to the Examiner's finding that claim 1 is met by the steady change in a signal as Sanoner' s stud finder is 3 Sanoner et al., US 2007/0210785 Al, pub. Sept. 13, 2007 ("Sanoner"). 4 Cipriano et al., US 2010/0186504 Al, pub. July 29, 2010 ("Cipriano"). 5 Sanoner et al., US 2004/0000918 Al, pub. Jan. 1, 2004 ("Sanoner '918"). 6 Skultety-Betz et al., US 2008/0036644 Al, pub. Feb. 14, 2008 ("Skultety- Betz"). 3 Appeal2017-008514 Application 13/819,048 moved across a wall and travels across the location of a wall stud depicted in annotated Figure 9 (Ans. 4). {Jt:\:~~tt ~J~r~:/Jt~~f Â·f.,~dj~f:-.fS\t Figure 9 illustrates a relationship between a wall lining thickness and a detection circuit parameter, such as voltage. Sanoner ,r 30. The Examiner finds that the local maximums shown in Figure 9 are "all aspects of the curve wherein it is indicated that there is an object detected, no object is detected and an object is in the vicinity." Final Act. 5 (citing Sanoner ,r,r 46-70). The Examiner finds that the peak of any given curve represents a state wherein the stud is in the direct path of the detector ( first state) and the minimum points are when there is no stud in the vicinity of the detector ( second state) with the rise and fall of the signal representing the approach or departure from the wall stud (third state), each a distinct state. Id.; Ans. 4--6. Appellants do not provide separate arguments for the patentability of claims 2 and 4--18. App. Br. 9, 16-17. In accordance 4 Appeal2017-008514 Application 13/819,048 with 37 C.F.R. Â§ 41.37(c)(l)(iv), and based upon the lack of arguments directed to the subsidiary rejections, claims 2 and 4--18 will stand or fall together with independent claim 1. Appellants contend that the Examiner erred in finding that Sanoner discloses detecting multiple local maximums of a detection signal to determine a detection state as required by claim 1 because Sanoner only discloses identifying a single value that represents a maximum value of the signal during a calibration state prior to being used to detect studs. App. Br. 10; id. at 12 ("the controller 46 of Sanoner would merely identify a single value corresponding to the greater of the multiple local maximums."). According to Appellants, the detection signal used during the auto sensitivity selection step is never used to detect studs in the wall, which is a different detection signal. Id. at 12. Appellants further argue that Sanoner does not disclose changing detection states in response to the measurement signal being less than a previously detected local maximum by a predetermined percentage. Id. at 10. Appellants contend that Sononer's indicator LEDs illuminate progressively as the distance between the object and device decreases and the buzzer is turned on when the device moves over a first edge of the object in the wall. Id. Appellants assert that "Sanoner is mostly silent with respect to how the output of the comparator 25 is processed to determine how many indicator LEDs 9 should be illuminated (i.e. determine a detection state)." Id. at 13. Regarding claim 19, Appellants similarly contend that the Examiner erred in finding that Sanoner changes detection states with 5 Appeal2017-008514 Application 13/819,048 reference to a previously detected local minimum. Id. at 14. According to Appellants, the Examiner conflates the claimed steps of "detecting local minimums of the measurement signal" and "generating a measurement signal correlated with an enclosed object" such that merely measuring a signal that includes local maximums and minimums is inherently detecting as claimed. Id. at 15. Regarding the change in the illumination of Sanoner' s indicator LEDs, Appellants argue that Sanoner does not teach it is in response to a magnitude of the detection signal above a magnitude of a previously determined local minimum by a predetermined percentage as "Sanoner is mostly silent with respect to how the output of the comparator 25 is processed." Id. at 16. The Examiner responds that Sanoner detects a state in response to a magnitude of the measurement signal being less than a magnitude of a previously determined local maximum explaining: The ever changing signal depicted as a continuous curve in the areas between peaks and valleys is the response to the measurement signal being less than the maximum or more than the minimum signals by a predetermined percentage because it is the response between the two extreme conditions. Ans. 3--4 (citing Sanoner Fig. 9, ,r,r 62---65). Regarding claim 19, the Examiner further responds that the minimum points are when there is no stud in the vicinity of the detector, i.e. when the detector is equidistant between wall studs, and each of these is a distinct state. Id. at 5-6. In the Reply Brief, Appellants do not dispute that Sanoner detects voltage maximums, but, rather, argue that Sanoner does not 6 Appeal2017-008514 Application 13/819,048 "detect multiple local maximums of a common measurement signal." Reply Br. 3 ( emphasis added). Appellants contend that Sanoner' s controller "merely identifies a single value that represents a maximum value of the detection signal during a particular interval of time." Id. at 3. Appellants further argue that Figure 9 does not support the Examiner's finding that an ever changing signal depicted as a continuous curve in the areas between the peaks and valleys is the response to the measurement signal being less than the maximum or more than the minimum signals. Id. at 4. According to Appellants, Figure 9 shows three detection signal waveforms corresponding to three different wall thicknesses and provides no indication of how the micro-controller determines what values correspond to the stud edges. Id. Appellants do not dispute that Sanoner illuminates indicator LEDs progressively as the device is moved over a wall, but argue that there is no disclosure in Sanoner of the output being changed in response to a magnitude of the detection signal being less than a magnitude of a previously determined local maximum by a predetermined percentage. Id. at 4--5. We review the appealed rejections for error based upon the issues identified by Appellants and in light of the arguments and evidence produced thereon. Cf Ex parte Frye, 94 USPQ2d 1072, 107 5 (BP AI 2010) (precedential) ( cited with approval in In re Jung, 637 F.3d 1356, 1365 (Fed. Cir. 2011) ("it has long been the Board's practice to require an applicant to identify the alleged error in the examiner's rejections")). For the reasons stated in the Final Action and the Answer, we are not persuaded by Appellants that the 7 Appeal2017-008514 Application 13/819,048 Examiner reversibly erred in determining that claims 1 and 19 are anticipated by Sanoner. We add the following primarily for emphasis. We are not persuaded by Appellants' arguments of reversible error by the Examiner because Appellants do not dispute the Examiner's finding that Sanoner discloses in Figure 9 a "steady change in a signal as a stud finder is moved across a wall and travels across the location of a wall stud" with "[t]he ever changing signal depicted as a continuous curve in the areas between peaks and valleys" (Ans. 4). Nor do Appellants dispute the Examiner's finding that the peaks and valleys in Sanoner' s Figure 9 "identify the state of being directly adjacent to a wall stud and an area where there is no wall stud, respectively" (id.). In addition, Appellants do not dispute that Sanoner transmits a signal to the user of the state detected, e.g. "the first state" and "the third state" recited in claims 1 and 19. Therefore, the Examiner's finding that Sanoner's changing signal "is the response to the measurement signal being less than the maximum or more than the minimal signals by a predetermined percentage because it is the response between the two extreme conditions" is supported by the cited record in this appeal. Ans. 4; Sanoner ,r,r 62- 65, Fig. 9. Appellants' assertion (Reply Br. 4--5) that Sanoner' s disclosure in paragraph 52 of how its micro-controller is configured to illuminate indicators based on an output of a comparator "does not disclose that the output of the comparator is ever changed in response to a magnitude of the detection signal being less than a magnitude of the previously determined local maximum by a predetermined 8 Appeal2017-008514 Application 13/819,048 percentage" is not persuasive because the changing states is confirmed by Sanoner' s LED lights that identify the changing states of the signals. Ans. 4; Sanoner ,r 46. The illuminated indicator LEDs for each stage or state depends on the output level of Sanoner' s comparator. Sanoner ,r 52. Therefore, the Examiner's finding that Sanoner discloses this disputed claim limitation of both claims 1 and 19 is supported by the record. We also are not persuaded by Appellants that Sanoner does not disclose the methods of independent claims 1 and 19 because Sanoner' s detection of multiple local maximums is not "of a common measurement signal" (Reply Br. 3). Based on the context of claims 1 and 19, the recited "measurement signal" is correlated with an enclosed object, which corresponds to Sanoner' s ever changing signal identified by the Examiner. Therefore, multiple local maximums detected in the areas between peaks and valleys in Sanoner' s method are encompassed by claims 1 and 19 because the claims do not limit the location at which the local maximums are measured. Limitations not appearing in the claims cannot be relied upon for patentability. In re Self, 671 F.2d 1344, 1348 (CCPA 1982). In sum, we affirm the Examiner's rejection of claims 1 and 19 as anticipated by Sanoner. DECISION The Examiner's decision 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)(l). 9 Appeal2017-008514 Application 13/819,048 ORDER AFFIRMED 10