14321475 (P.T.A.B. Feb. 26, 2019)

Ex Parte Straeussnigg et al

Patent Trial and Appeal BoardFeb 26, 2019

14321475 (P.T.A.B. Feb. 26, 2019)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 14/321,475 07/01/2014 48154 7590 02/28/2019 SLATER MATSIL, LLP/Infineon 17950 PRESTON ROAD SUITE 1000 DALLAS, TX 75252 FIRST NAMED INVENTOR Dietmar Straeussnigg 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. INF 2014 P 50664 US 7335 EXAMINER PATEL,DHAVAL V ART UNIT PAPER NUMBER 2631 NOTIFICATION DATE DELIVERY MODE 02/28/2019 ELECTRONIC 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. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): docketing@slatermatsil.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte DIETMAR STRAEUSSNIGG, ANDREAS WIESBAUER, and CHRISTIAN JENKNER Appeal2018-006101 Application 14/321,475 Technology Center 2600 Before MAHSHID D. SAADAT, ALLEN R. MacDONALD, and JOHN P. PINKERTON, Administrative Patent Judges. MacDONALD, Administrative Patent Judge. DECISION ON APPEAL Appeal2018-006101 Application 14/321,475 STATEMENT OF CASE Appellants appeal under 35 U.S.C. Â§ 134(a) from a final rejection of claims 1, 3--4, 7-9, 11-16, and 18-20. Claims 2, 5---6, 10, and 17 were cancelled. We have jurisdiction under 35 U.S.C. Â§ 6(b). We affirm. Exemplary Claim Exemplary claim 1 under appeal reads as follows ( emphasis added): 1. A sensor device comprising: a first sensor circuitry comprising an acoustic sensor configured to generate a first sensor signal in a first frequency band comprising frequencies higher than a frequency threshold; a second sensor circuitry comprising a non-acoustic sensor configured to generate at least one second sensor signal in a non-overlapping second frequency band comprising frequencies lower than the frequency threshold; a sampling rate conversion circuitry to adapt a sampling rate of the second sensor signal to a sampling rate of the first sensor signal; a combiner circuitry configured to combine the first sensor signal and the at least one second sensor signal into a combined sensor signal; and an interface to output the combined sensor signal via a single output line. App. Br. 13 (Claims Appendix). 2 Appeal2018-006101 Application 14/321,475 Rejections on Appeal1 The Examiner rejected claims 1, 3, 14--16, and 20 under 35 U.S.C. Â§ 103 as being unpatentable over Short (US 2008/0317260 Al; published Dec. 25, 2008) ("Short"), Fifield et al. (US 2007 /0183547 Al; published Aug. 9, 2007) ("Fifield"), and Myron et al. (US 6,415,205 Bl; published July 2, 2002) ("Myron"). 2 The Examiner rejected claims 4, 12, 13, and 18 under 35 U.S.C. Â§ 103 as being unpatentable over Short, Fifield, Myron, and Khenkin et al. (US 2015/0350770 Al; published Dec. 3, 2015) ("Khenkin"). The Examiner rejected claims 7 and 8 under 35 U.S.C. Â§ 103 as being unpatentable over Short, Fifield, Myron, and Garvey, III et al. (US 2014/0324367 Al; published Oct. 30, 2014) ("Garvey"). The Examiner rejected claims 9, 11, and 19 under 35 U.S.C. Â§ 103 as being unpatentable over Short, Fifield, Myron, and Drouin et al. (US 2014/0177674 Al; published June 26, 2014) ("Drouin"). Issue on Appeal Did the Examiner err in rejecting claims 1 and 20 as being obvious? 1 The patentability of claims 3--4, 7-9, 11-16, and 18-19 is not separately argued by Appellants. See App. Br. 6-11. Thus, except for our ultimate decision, claims 3--4, 7-9, 11-16, and 18-19 are not discussed further herein. 2 Although the Final Office Action indicated that claim 2 was also rejected (see Final Act. 5), claim 2 has been cancelled. 3 Appeal2018-006101 Application 14/321,475 PRINCIPLES OF LAW The mere existence of differences between the prior art and the claim does not establish non-obviousness. See Dann v. Johnston, 425 U.S. 219, 230 (1976). Instead, the relevant question is "whether the difference between the prior art and the subject matter in question is a [difference] sufficient to render the claimed subject matter unobvious to one skilled in the applicable art." Dann, 425 U.S. at 228 (internal quotations and citations omitted). Indeed, the Supreme Court made clear that when considering obviousness, "the analysis need not seek out precise teachings directed to the specific subject matter of the challenged claim, for a court can take account of the inferences and creative steps that a person of ordinary skill in the art would employ." KSR Int'! Co. v. Teleflex Inc., 550 U.S. 398,418 (2007). Further, it is well settled that "a determination of obviousness based on teachings from multiple references does not require an actual, physical substitution of elements." In re Mouttet, 686 F. 3d 1322, 1332 (Fed. Cir. 2012) (citations omitted). Nor is the test for obviousness whether a secondary reference's features can be bodily incorporated into the structure of the primary reference. In re Keller, 642 F.2d 413,425 (CCPA 1981). Rather, the test is what the combined teachings of the references would have suggested to those of ordinary skill in the art. Id. Even further, one cannot show non-obviousness by attacking references individually when the rejection is based on a combination of references. See In re Merck & Co., Inc., 800 F.2d 1091, 1097 (Fed. Cir. 1986); see also Keller, 642 F.2d at 425. 4 Appeal2018-006101 Application 14/321,475 ANALYSIS The Examiner finds Short teaches or suggests "a first sensor circuitry comprising [a] sensor configured to generate a first sensor signal in a first frequency band comprising frequencies higher than a frequency threshold," and "a second sensor circuitry comprising [a] sensor configured to generate at least one second sensor signal in a non-overlapping second frequency band comprising frequencies lower than the frequency threshold," as recited in claim 1. See Final Act. 3. The Examiner further finds that Short does not explicitly disclose that one sensor is an acoustic sensor and the other sensor is a non-acoustic sensor, but Myron teaches the combination of a sensor signal from an acoustic sensor and a sensor signal from a non-acoustic sensor. See Final Act. 4. As found by the Examiner, a person of ordinary skill in the art would have been motivated to modify Short ( and Fifield) to include a combination of a sensor signal from an acoustic sensor and a sensor signal from a non-acoustic sensor in order to generate more reliable sensor signals, as taught by Myron. See id.; see also Ans. 3-6. Appellants contend the Examiner's findings are in error because: Figure 13 of Short, to which the Office Action refers, shows two pairs of transducer elements, i.e., three transducer elements 64, 66, 68, wherein one pair is widely spaced 64/68 for low frequency estimates and one pair is narrowly spaced 64/66 for high frequency estimates. See Short, paragraph [0117]; Figure 13. The microphone system of Figure 13 is similar to that of Figure 7 (having only one pair of transducer elements) but the functioning is pretty much the same. . .. As stated above, the method ( of Figure 7 or Figure 13) is based on comparing differences in magnitude ratios and time delays of sound signals at the two pairs of transducers. Accordingly, it is crucial for Short that the (three) transducer elements are all acoustic 5 Appeal2018-006101 Application 14/321,475 transducers since otherwise no magnitude ratios and time delays can be measured and calculated. The M.P.E.P. teaches ... "[i]f the proposed modification would render the prior art invention being modified unsatisfactory for its intended purpose, then there is no suggestion or motivation to make the proposed modification." In re Gordon, 733 F.2d 900, 221 USPQ 1125 (Fed. Cir. 1984). See M.P.E.P. Â§ 2143.0l(V). Accordingly, if a skilled artisan would replace one of the acoustic transducer elements of the microphone system of Short with a non-acoustic transducer element of Myron, as suggested by the Office Action, the microphone system of Short would not be able to provide a distinction between desired and undesired sound sources because the microphone system of Short, modified by Myron, would not be able to measure and calculate the magnitude ratios and time delays between the transducer pairs since one transducer is not a sound transducer. Accordingly, the proposed modification makes Short unsatisfactory for its intended purpose. App. Br. 7-8 (Appellants' emphasis omitted; panel's emphasis added); see also Reply Br. 2. We are not persuaded that the Examiner erred. Appellants' arguments that a combination with Myron would render Short unsatisfactory for its intended purpose are premised on requiring a physical or bodily incorporation of Myron's entire collection of distinct sensors within the microphone system of Short. This is not the standard for obviousness. Instead, as previously described, the test for obviousness is what the combined teachings of the references would have suggested to those of ordinary skill in the art. See Keller, 642 F.2d at 425. The rejection set forth by the Examiner relied upon Myron for the more limited disclosure of combining a received signal from an acoustic sensor with another received signal from a non-acoustic sensor. See Final Act. 4; see also Myron 12:25- 6 Appeal2018-006101 Application 14/321,475 34. We are not persuaded that the Examiner's proposed combination of Short and Myron requires the bodily incorporation argued by Appellants. Instead, the Examiner's proposed combination merely requires modifying the microphone system to receive signal data from one or more non-acoustic sensors, as disclosed in Myron, in addition to receiving signal data from acoustic sensors (i.e., transducers), as disclosed in Short. Appellants fail to persuasively establish that such a modification would render Short unsatisfactory for its intended purpose, as such a modification would still allow Short's microphone system to measure and calculate the magnitude ratios and time delays between acoustic sensors and to provide a distinction between desired and undesired sound sources. The Examiner further finds that Short does not explicitly disclose "a sampling rate conversion circuitry to adapt a sampling rate of the second sensor signal to a sampling rate of the first sensor signal," as recited in claim 1, but Fifield teaches a sampling rate adjusting means for adjusting a sample rate of an unwanted signal to be the same as a sampling rate of a wanted signal. See Final Act. 3--4. As found by the Examiner, a person of ordinary skill in the art would have been motivated to modify Short (and Myron) to include a sampling rate adjusting means, as taught by Fifield. See Final Act. 4; see also Ans. 7-9. Appellants further contend the Examiner's findings are in error because: Short is related to a sound discrimination method that is able to distinguish between desired sound sources and undesired sound sources (background noise). . . . Short shows band splitting so that high frequencies above a pre-defined frequency from the transducer element 66 are selected and low frequencies below the same pre-defined frequency from the transducer element 68 are 7 Appeal2018-006101 Application 14/321,475 selected 82/84 before they are combined 86. See Short, Figure 13; paragraphs [0119]-[0120]. Accordingly, Short shows non- overlapping frequency bands. Fifield shows signals in overlapping frequency bands. See Fifield, Abstract. In particular, Fifield teaches a method for cancelling an unwanted first (narrowband) signal having a bandwidth that overlaps with a bandwidth of a second (wideband) signal from that second (wideband) signal to generate the wanted signal. ... Nowhere in Fifield is taught that these two signals are processed in non-overlapping frequency bands. The M.P .E.P. specifies that "the mere fact that references can be combined or modified does not render the resultant combination obvious unless the results would have been predictable to one of ordinary skill in the art." KSR Int'! Co. v. Teleflex Inc., 550 U.S. 538, 417, 82 USPQ2d 1385, 1396 (2007). See M.P.E.P. Â§ 2143.01 (III). Appellant notes that, as identified by the Office Action, the first low frequency band and the second high frequency band in Short are non-overlapping. Since the two frequency bands are non-overlapping, there is no interference between the two sensor signals each being in one of the frequency bands. Since there is no interference between the two (low frequency and high frequency) signals there is no motivation to reduce interference between the two sensor signals. Further, Appellant respectfully submits the adjusting the sampling rate does not do anything to interference. App. Br. 9-10 (Appellants' emphasis omitted; panel's emphasis added); see also Reply Br. 2. We are not persuaded of Examiner error. The Supreme Court has rejected the rigid requirement of demonstrating a teaching, suggestion, or motivation to combine references in order to show obviousness. See KSR, 550 U.S. at 419. Instead, a rejection based on obviousness only needs to be 8 Appeal2018-006101 Application 14/321,475 supported by "some articulated reasoning with some rational underpinning" to combine known elements in the manner required by the claim. Id. at 418. Further, "[i]f a technique has been used to improve one device, and a person of ordinary skill in the art would recognize that it would improve similar devices in the same way, using the technique is obvious unless its actual application is beyond his or her skill." Id. at 417. Consistent with the Examiner's findings, both Short and Fifield disclose systems configured to receive and combine multiple signals, and Fifield further discloses the improvement of adjusting a sampling rate of one of two received signals to be identical to a sampling rate of the other received signal. See Final Act. 3- 4; see also Short ,r,r 62, 65, 118; Fifield ,r,r 22, 24. As Appellants have not shown that modifying Short's microphone system to include Fifield's improvement of adjusting the sampling rate of one of the two received signals to be identical to the other received signal would be beyond the skill of a person ordinary skilled in the art, Appellants have failed to persuasively establish that the Examiner erred in rejecting claim 1. Regarding independent claim 20, Appellants contend: Appellant respectfully submits that the Office Action rejects independent claim 20 with the arguments provided for claims 1 and 14. However, these arguments do not apply to claim 20 because claim 20 includes different subject matter (i.e., receiving and splitting rather than sending and combining) than claims 1 and 14. Short and Fifield are both wholly silent as to a receiver or the ability to separate a (previously combined) signal back into its original parts. Short makes no mention of a receiver or separation at all, and Fifield, at best, discusses the removal of overlapping components. Myron is silent about these claim elements too. App. Br. 11 (panel's emphasis added). In the Examiner's Answer, the Examiner finds: 9 Appeal2018-006101 Application 14/321,475 [S]hort, discloses as shown in Fig. 13 the selecting the different frequencies to shift into low and high frequency, 82 and 84 and combining into the combiner, 86. Fifield teaches first ADC means operating at a first sampling rate for digitizing the first low IF signal, a second frequency down conversion means for converting the unwanted signal to a second low IF signal having a center frequency which may be different from that of the first low IF signal, second ADC means operating at a second sampling rate for digitizing the second low IF signal, the first and second sampling rates being different with the lower rate being a sub-multiple of, and being synchronized with, the higher rate, frequency shifting means for shifting the frequency down converted unwanted signal to a preselected position in the frequency down converted wanted signal, sampling rate adjusting means for adjusting the sample rate of the unwanted signal to be the same as the sampling rate of the wanted signal, and differencing means for obtaining the difference between the digitized signals having the same sampling rates. Also, see, Fig. 1, using the different frequency characteristics, the different frequency band can be achieved simply using filtering technique having low pass or high pass characteristics. See, Fig. 1, of Fifield the combined signal received is split using the filtering, 12 and from such signal, the low pass filtering is used, 26 and 28 to filter the combined signal into different frequency. There/ ore, one can use the technique of the Fifield to separate the combined signal of Short into the acoustic and non- acoustic signal. Note that the Short's Fig. 13, has the signal which is output from the transmitter including IFFF, 44, amplifier, 88 and sound, 90 which is in receiver mode received by the 15 and eventually goes through FFT, 80 and splitting, so combined signal, 86 is again split, however this splitting of frequency can be per/ ormed using Fifield technique of filtering. Ans. 10-11 ( emphasis added). In the Reply Brief, Appellants failed to address the Examiner's findings in the Examiner's Answer. See Reply Br. 1-3. Accordingly, Appellants have failed to persuasively establish that the Examiner erred in rejecting claim 20. 10 Appeal2018-006101 Application 14/321,475 We have considered Appellants' other arguments, and they are not persuasive either. Accordingly, Appellants have not shown the Examiner erred in rejecting claims 1 and 20 under 35 U.S.C. Â§ 103. CONCLUSIONS (1) The Examiner has not erred in rejecting claims 1, 3--4, 7-9, 11- 16, and 18-20 as being unpatentable under 35 U.S.C. Â§ 103. (2) Claims 1, 3--4, 7-9, 11-16, and 18-20 are not patentable. DECISION We affirm the Examiner's rejection of claims 1, 3--4, 7-9, 11-16, and 18-20 as being unpatentable under 35 U.S.C. Â§ 103. 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 )(iv). AFFIRMED 11