Ex Parte Koste et alDownload PDFBoard of Patent Appeals and InterferencesJul 10, 201211277294 (B.P.A.I. Jul. 10, 2012) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE ____________________ BEFORE THE BOARD OF PATENT APPEALS AND INTERFERENCES ____________________ Ex parte GLEN PETER KOSTE, RICHARD LOUIS FREY, and JOSEPH ALFRED IANNOTTI ____________________ Appeal 2010-004096 Application 11/277,294 Technology Center 2800 ____________________ Before JOHN A. JEFFERY, DENISE M. POTHIER, and JENNIFER S. BISK, Administrative Patent Judges. BISK, Administrative Patent Judge. DECISION ON APPEAL Appeal 2010-004096 Application 11/277,294 2 DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134(a) from the Examiner’s final rejection of claims 1-27. We have jurisdiction under 35 U.S.C. § 6(b). We reverse. STATEMENT OF THE CASE The claims are directed to a system and method for optical sensor interrogation. Title. Claim 1, reproduced below with emphases added, is illustrative of the claimed subject matter: 1. An optical sensor-interrogation system comprising: a multi-frequency optical source configured to generate an optical interrogation signal; at least one optical sensor configured to filter light at a wavelength corresponding to a value of a sensed parameter and generate an optical sensor data signal; a photodetector configured to detect a reference signal and the optical sensor data signal and generate an electrical difference frequency signal corresponding to a wavelength difference between the reference signal and the optical sensor data signal; and an electrical frequency measurement module configured to measure the electrical difference frequency. THE REJECTIONS 1. Claims 1-8, 10-14, 16-19, 23, 24, and 27 stand rejected under 35 U.S.C. § 102(b) as being anticipated by Kringlebotn (US 6,097,487; Aug. 1, 2000). Ans. 3-8. 2. Claims 9, 15, 20-22, 25, and 26 stand rejected under 35 U.S.C. § 103(a) as being unpatentable over Kringlebotn. Ans. 8. Appeal 2010-004096 Application 11/277,294 3 CONTENTIONS The Examiner finds that because the Specification states that “a photodetector is a square law detector, the two optical signals mix and form sum and difference signals in the electrical domain,” the photodetector (7) disclosed in Kringlebotn “inherently generate[s] sum and difference signals when the reference light from the reference FBG (5) and the measurement light from the FBG sensors (6) are received.” Final Rej. 3. Thus, the Examiner finds that Kringlebotn discloses, explicitly or inherently, every element of representative claim 1. Ans. 3-4. Appellants argue that Kringlebotn does not disclose, explicitly or inherently, generating or measuring an electrical difference frequency signal. App. Br. 7-11; Reply Br. 4-5. ISSUE Has the Examiner erred in finding that Kringlebotn discloses “a photodetector configured to . . . generate an electrical difference frequency signal” (emphases added) and “an electrical frequency measurement module configured to measure the electrical different frequency” (emphasis added)? ANALYSIS The Anticipation Rejection We agree with Appellants. The Examiner finds that although Kringlebotn “does not explicitly disclose determining a Bragg wavelength through difference determination,” the reference does encompass the “well-known method” of difference determination. Final Rej. 3. The Examiner further explains this finding in the Answer by discussing the Appeal 2010-004096 Application 11/277,294 4 inherent properties of Kringlebotn’s optical sensor, disclosed to be a Fiber Bragg Grating (“FBG”) sensor: A Fiber Bragg Grating sensor is a very versatile and robust sensor that allows a multitude of parameters, e.g. temperature, pressure, strain, etc., to be measured within hostile environments. The measurement of such parameters is accomplished through the examination of the Bragg wavelength of each sensor, wherein each FBG sensor is specifically designed to reflect light within a narrow bandwidth centered at the Bragg wavelength. As the parameter of interest is varied around a FBG sensor, the Bragg wavelength will shift in response to the variation of the parameter. Ans. 9. We agree with the Examiner that Kringlebotn discloses at least one FBG sensor “configured to filter light at a wavelength corresponding to a value of a sensed parameter and generate an optical sensor data signal.” Ans. 3 (citing Kringlebotn Fig. 1, element (6)). We also agree that Kringlebotn’s photodetector (7) is configured “to detect a reference signal [from FBG (5)] and the optical sensor data signal [FBG (6)].” Kringlebotn Fig. 1; col. 4, ll. 37-67. And we find reasonable the Examiner’s finding, quoted above, relating to the properties of FBG sensors. However, this explanation does not address Appellants’ argument— that the photodetector in Kringlebotn does not disclose “generat[ing] an electrical difference frequency signal corresponding to a wavelength difference between the reference signal and the optical sensor data signal.” App. Br. 8. Although the explanation states that because of the nature of FBG sensors “the Bragg wavelength will shift in response to the variation of the parameter,” this does not address why photodetector (7) necessarily generates an electrical difference frequency signal corresponding to the shift. Appeal 2010-004096 Application 11/277,294 5 To address this argument, the Examiner states, without reference to evidence, that: This shift in wavelength of the sensors must then be compared to the Bragg wavelength of a reference FBG that has a known and fixed Bragg wavelength. Through this comparison the FBG sensor system is capable of determining an amount and direction of variation of a desired parameter, wherein the comparison is most easily characterized as a difference or change in difference between the FBG sensor wavelength and the reference FBG wavelength. Therefore, Kringlebotn is understood to disclose a FBG sensor system that utilizes a photodetector (7) to receive the Bragg wavelengths from a plurality of FBG sensors (6) and a reference FBG (5), wherein the optical signals received by the detector (7) are converted into an electrical pulse train (col. 4, ll. 51-58) (Figures 1 and 2), and wherein the difference between the FBG sensor wavelengths and the reference FBG wavelength must be determined to provide a measurement of the variation of the parameter of interest. Ans. 9-10. We are not persuaded that the Examiner has met the burden required to find a limitation inherently disclosed by a reference. Cont’l Can Co. v. Monsanto Co., 948 F.2d 1264, 1268 (Fed. Cir. 1991) (“To serve as an anticipation when the reference is silent about the asserted inherent characteristic, such gap in the reference may be filled with recourse to extrinsic evidence. Such evidence must make clear that the missing descriptive matter is necessarily present in the thing described in the reference, and that it would be so recognized by persons of ordinary skill.”). In fact, in the Final Rejection, the Examiner states that: While the reference does not go into further detail as to the processing of the received signals, there are many well-known methods of electronically processing optical signals to Appeal 2010-004096 Application 11/277,294 6 determine the Bragg wavelength. One of which is through the determination of a frequency difference between a reference and a measured wavelength (See US Publication 2003/0142319)1. While Kringlebotn does not explicitly disclose determining a Bragg wavelength through difference determination, his disclosure was understood to encompass those well-known methods, and therefore the method of difference determination, through the description of “the signals of detectors 7 and 10 are simultaneously sampled, processed and compared”. Final Rej. 3 (emphases added). Nothing in this finding establishes that Kringlebotn necessarily uses the method of difference determination as opposed to another of the “many well-known methods of electronically processing optical signals.” Final Rej. 3. See In re Robertson, 169 F.3d 743, 745 (Fed. Cir. 1999) (“Inherency . . . may not be established by probabilities or possibilities.” (citations omitted)). In fact, as pointed out by the Examiner, Figure 2 of Kringlebotn illustrates the output of the photodetector (7). Ans. 9. But Figure 2 shows only single peaks of reflection from the FBG sensors (13a and 13b) and the reference FBG (12). It does not show any difference frequency peak. Reply Br. 4-5 (citing Kringlebotn Fig. 2). Therefore, we conclude that the Examiner has not properly presented a prima facie case of anticipation. For these reasons, we do not sustain the Examiner’s anticipation rejection of (1) independent claim 1; (2) independent claims 11 and 16 1 The cited US publication is not part of the rejection. See In re Hoch, 428 F.2d 1341, 1342 n.3 (CCPA 1970) (“Where a reference is relied on to support a rejection, whether or not in a ‘minor capacity,’ there would appear to be no excuse for not positively including the reference in the statement of the rejection.”) Appeal 2010-004096 Application 11/277,294 7 which recite commensurate limitations; and (3) dependent claims 2-8, 10, 12-14, 17-19, 23, 24, and 27. The Obviousness Rejection The Examiner’s obviousness rejection of claims 9, 15, 20-22, 25, and 26 relies on the same finding of inherency by the Examiner. Ans. 8. While the Examiner stated that the method of difference determination is a well- known technique, the Examiner has not adequately shown that this method would have been recognized by ordinary skilled artisans to be included with or encompassed by Kringlebotn’s system. Instead, the Examiner finds that “it would have been obvious to one of ordinary skill in the art at the time the invention was made to modify Kringlebotn to include the electrical components listed above [frequency counters, frequency discriminators, binary prescalers, passive filters, combiners, power taps, voltage control oscillators, electrical splitters, RF power diodes, microcontrollers] for yielding predictable results.” Ans. 8. Thus, we also do not sustain the obviousness rejection of claims 9, 15, 20-22, 25, and 26. DECISION The Examiner’s decision rejecting claims 1-27 is reversed. REVERSED babc Copy with citationCopy as parenthetical citation