2020003575 (P.T.A.B. Nov. 1, 2021)

Lenovo (Singapore) Pte. Ltd.

Patent Trials and Appeals BoardNov 1, 2021

2020003575 (P.T.A.B. Nov. 1, 2021)

UNITED STATES PATENT AND TRADEMARK OFFICE 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 APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 16/112,633 08/24/2018 Ravi Kuchibhotla SMM01751-US-CNT 1078 73635 7590 11/01/2021 Loppnow & Chapa [Motorola] P.O. Box 7588 Libertyville, IL 60048 EXAMINER CUNNINGHAM, KEVIN M ART UNIT PAPER NUMBER 2461 NOTIFICATION DATE DELIVERY MODE 11/01/2021 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.mobility@motorola.com docketing@loppchap.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE ____________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ____________________ Ex parte RAVI KUCHIBHOTLA, ROBERT T. LOVE, VIJAY NANGIA, RAVIKIRAN NORY and AJIT NIMBALKER ____________________ Appeal 2020-003575 Application 16/112,6331 Technology Center 2400 ____________________ Before MAHSHID D. SAADAT, MARC S. HOFF, and JASON J. CHUNG, Administrative Patent Judges. HOFF, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Appellant appeals under 35 U.S.C. § 134 from a final rejection of claims 1, 2, 4–11, and 13–18.2 We have jurisdiction under 35 U.S.C. § 6(b). We affirm. Appellant’s invention is a method and apparatus for low latency transmissions. A first set of time-frequency resources in a subframe can be 1 Appellant states that the real party in interest is Motorola Mobility LLC. Appeal Br. 3. 2 Claims 3 and 12 stand objected to as being dependent upon a rejected base claim, but would be allowable if rewritten in independent form. Appeal 2020-003575 Application 16/112,633 2 determined from a resource assignment. A second set of time-frequency resources can be used for a second latency data transmission. A first latency data transmission in the subframe can be decoded based on the determined first and second set of time-frequency resources. The first latency transmission can have a longer latency than the second latency transmission. Abstract. Claim 1 is exemplary of the claims on appeal: 1. A method comprising: receiving a resource assignment; determining a first set of time-frequency resources in a subframe from the resource assignment; determining a second set of time-frequency resources in the subframe, the second set of time-frequency resources used for a second latency data transmission, and the second set of time-frequency resources overlapping with at least a portion of the first set of time-frequency resources; and decoding a first latency data transmission in the subframe based on the determined first and second set of time-frequency resources, where the first latency transmission has a longer latency than the second latency transmission, wherein the subframe is a first subframe, and wherein the method further comprises receiving higher layer signaling in a subframe earlier than the first subframe, where the higher layer comprises a layer higher than a physical layer, and where the higher layer signaling indicates a set of orthogonal frequency multiplexed symbols including time-frequency resources used for the second latency data Appeal 2020-003575 Application 16/112,633 3 transmission where a marker signal may be transmitted. The prior art relied upon by the Examiner as evidence is: Name Reference Date Chen US 2016/0234857 A1 Aug. 11, 2016 Byun US 2018/0110062 A1 Apr. 19, 2018 Claims 1, 2, 4–11, and 13–18 stand rejected under 35 U.S.C. § 103(a) as being unpatentable over Chen and Byun. Throughout this decision, we make reference to the Appeal Brief (“App. Br.,” filed August 31, 2019), the Reply Brief (“Reply Br.,” filed March 6, 2020), and the Examiner’s Answer (“Ans.,” mailed September 9, 2019) for their respective details. ISSUES Appellants’ arguments present us with the following issues: 1. Does the combination of Chen and Byun teach or suggest higher layer signaling indicating a set of orthogonal frequency multiplexed symbols Appeal 2020-003575 Application 16/112,633 4 including time-frequency resources used for the second latency transmission where a marker signal may be transmitted? 2. Does the combination of Chen and Byun teach or suggest receiving higher layer signaling in a subframe earlier than the first subframe? 3. Does the Examiner articulate reasoning with some rational underpinning to support the legal conclusion of obviousness over Chen and Byun? PRINCIPLES OF LAW Our reviewing court has held that “[a] reference may be said to teach away when a person of ordinary skill, upon reading the reference, would be discouraged from following the path set out in the reference, or would be led in a direction divergent from the path that was taken by the applicant.” In re Gurley, 27 F.3d 551, 553 (Fed. Cir. 1994); Para-Ordnance Mfg. v. SGS Importers Int’l, 73 F.3d 1085, 1090 (Fed. Cir. 1995). ANALYSIS Claim 1 Claim 1 recites, in pertinent part, “receiving higher layer signaling in a subframe earlier than the first subframe, . . . and where the higher layer signaling indicates a set of orthogonal frequency multiplexed symbols including time-frequency resources used for the second latency data transmission where a marker signal may be transmitted.” Appellant makes three arguments for the patentability of claim 1 over Chen and Byun. First, Appellant argues that Chen does not disclose indicating time-frequency resources used for the claimed second latency transmission where a marker signal may be transmitted. Appeal Br. 7. Appeal 2020-003575 Application 16/112,633 5 Second, Appellant argues that the combination of Chen and Byun does not teach receiving higher layer signaling in a subframe earlier than the first subframe. Appeal Br. 11. Third, Appellant argues that the Examiner did not supply required articulated reasoning why receiving higher layer signaling in an earlier subframe would have been obvious. Appeal Br. 12. Marker Signal Appellant contends that Chen does not teach the claimed marker signal and “only discloses a low latency indicator that indicates where and when or the presence of low latency communications are occurring.” Appeal Br. 7. Chen “discloses the indication of low latency operations in neighboring cells may be signaled in the middle of subframe, at the end of a Subframe, or in a subsequent subframe, or all three.” Appeal Br. 8, citing Chen ¶ 38. Appellant’s argument is not persuasive. First, we note that Appellant’s Specification operationally defines the disclosed “marker signal” as “indicat[ing] a presence of low latency data transmission in the subframe.” Spec. ¶ 34. Next, we agree with the Examiner’s finding, as admitted by Appellant, that Chen teaches an indication that discloses the frequency resources used by low latency communication. Appeal Br. 8; Final Act. 3. Chen teaches that “the receiving device may receive an indicator from a transmitting device that informs the receiving device where and when low latency communications are occurring . . . . “[T]he indication may disclose the frequency resources that are used by the low latency communication and which symbols are being used.” Chen ¶ 7. We thus agree with the Examiner that Chen teaches an indicator that functions just as Appellant’s “marker Appeal 2020-003575 Application 16/112,633 6 signal” functions, to indicate a presence of low latency data transmission in the subframe. Appellant further argues against the Examiner’s correspondence between “indication” of Chen’s control channel 312 to the claimed “marker signal.” Appeal Br. 9. Appellant contends that Chen does not disclose “indicating where a marker signal may be transmitted,” and that Chen only discloses that an indicator “is included at some point after the low latency transmission 315.” Id. Appellant’s argument is not persuasive. We agree with the Examiner that control channel 312 of Chen “includes the indication of low latency communication which is clearly in the ‘same set of resources’ as the low latency communications.” Final Act. 6; Chen Fig. 3. “[A] control channel 312 at the beginning of slot 1, within the first data region 310-a may indicate a low latency transmission 315 in slot 0.” Chen ¶ 72. Higher layer signaling in an earlier subframe Appellant argues that Byun does not teach receiving higher level signaling in a Subframe earlier than the first Subframe. Appeal Br. 11. Appellant asserts that Byun teaches “an indicator indicating whether there exists or not transmission frequency band allocation information for sTTIs in a next Subframe . . . may be included into the Downlink Control Information (DCI) format of the current common PDCCH.” Id., citing Byun ¶ 130. Appellant contends that Byun discloses that the indicator for a next Subframe is provided using a physical channel, PDCCH, not using higher level signaling, such as the RRC, that is higher than the physical layer. Id. Appellant’s argument is not persuasive. The Examiner finds, and we agree, that Byun teaches receiving higher layer signaling in a subframe Appeal 2020-003575 Application 16/112,633 7 earlier than the first subframe. Final Act. 3. Byun teaches that “a base station (eNB) notifies, using the RRC [Radio Resource Control], a terminal device with a low latency service of allocation of a frequency resource for a sTTI.” Byun ¶ 114. The Examiner further finds that Byun teaches that “RRC signaling may be used to convey some of the information or items 1 to 11 [the information included in the Downlink Control Information (DCI) format].” Byun ¶ 142. Byun further teaches that information that is “not changed between the subframes may be transmitted by the RRC.” Ans. 6; Byun ¶¶ 114, 148. We agree with the Examiner that Byun thus suggests that information transmitted by the RRC does not change often and is applicable to subsequent subframes. Ans. 6. This applicability to subsequent subframes suggests the claim requirement of higher level signaling in an earlier subframe. Ans. 6–7. As mentioned supra, Byun teaches that RRC signaling may be used to convey some of the information or any of the items 1–11 [of DCI]. Ans. 7; Byun ¶ 142. Thus, we agree with the Examiner’s finding that this teaching in Byun corresponds to higher-level signaling indicating a set of orthogonal frequency multiplexed symbols including time-frequency resources used for the second latency transmission where a marker signal may be transmitted, as claim 1 requires. Motivation to Combine Appellant argues that the Examiner did not supply the required reasoning why modifying Chen in view of Byun would have been obvious. Appeal Br. 13. Appellant contends that Chen teaches away from claimed invention, in that Chen discloses the benefits of receiving indication of low latency transmission after, rather than before, the low latency transmission Appeal 2020-003575 Application 16/112,633 8 has occurred. Id. Appellant further asserts that the Examiner did not explain why it would have been obvious to modify Chen to include the higher layer signaling taught by Chen. Appeal Br. 16–17. Appellant’s motivation argument is not persuasive. First, a conclusion that a reference teaches away from combination requires the determination that a person of ordinary skill in the art would be discouraged from following the path set forth in the reference, or would be led in a direction divergent from the path taken by Appellant. See Gurley, 27 F.3d at 553. Chen’s teaching of embodiments in which indication of low latency transmission occurs subsequent to such transmission is not equivalent to discouraging indication in an earlier subframe. Second, Appellant’s contention that Chen teaches higher level signaling in a later subframe is inconsistent with Chen Figure 3, where the indicator/marker signal is transmitted in the same set of resources as the low latency transmissions. Ans. 10. Appellant’s argument that the Examiner did not provide a reason for the obviousness of modifying Chen in view of Byun is not persuasive to show Examiner error. The Examiner has identified the desirability of modifying Chen to convey information such as an indicator indicating resource allocation for sTTIs in a subsequent subframe, i.e., “to dynamically allocate resources in sTTI and improve systems for low latency.” Final Act. 3; Ans. 5. As discussed supra, Byun teaches that higher level (i.e., RRC) signaling may be used to convey some of the DCI information of Chen. Byun further teaches that information that does not change between subframes can be transmitted using RRC, thus suggesting the desirability of Appeal 2020-003575 Application 16/112,633 9 higher level signaling that takes place in an earlier subframe. Ans. 10; Byun ¶¶ 142, 148. We determine that the Examiner did not err in rejecting claim 1 under § 103 over Chen and Byun. We sustain the Examiner’s rejection of independent claim 1. Claim 10 Independent claim 10 recites, in pertinent part, “wherein the transceiver receives higher level signaling in a Subframe earlier than the first subframe, where the higher layer comprises a layer higher than a physical layer, and where the higher layer signaling indicates a set of orthogonal frequency multiplexed symbols including time-frequency resources used for the second latency data transmission where a marker signal may be transmitted.” Appellant presents the same arguments with respect to independent claim 10 that were made with respect to independent claim 1, the rejection of which we sustain supra. Appeal Br. 21–31. As we discussed with respect to claim 1, we agree with the Examiner’s finding that the combination of Chen and Byun teaches higher level signaling indicating a set of orthogonal frequency multiplexed symbols including time-frequency resources used for the second latency data transmission where a marker signal may be transmitted. We further agree with the Examiner’s conclusion that it would have been obvious to modify Chen in view of Byun to receive higher level signaling in a subframe earlier than the first subframe. We determine that the Examiner provided a rationale to combine Chen with Byun having a rational underpinning to support the legal conclusion of obviousness. Appeal 2020-003575 Application 16/112,633 10 We determine that the Examiner did not err in rejecting claim 10 under § 103 over Chen and Byun. We sustain the Examiner’s rejection of independent claim 10. Claims 2 and 4–9 Appellant argues for the patentability of claim 2 by repeating its arguments made for independent claim 1. Appeal Br. 33–36. As analyzed supra, we are not persuaded by Appellant’s arguments. Appellant further asserts that the combination of Chen and Byun does not teach or suggest “determining the second set of time-frequency resources based on the marker signal,” because the indicator of Chen allegedly “does not indicate where itself may be transmitted.” Appeal Br. 36. We are not persuaded by Appellant’s argument because we do not agree with Appellant’s characterization of Chen. As discussed with reference to claim 1, Chen teaches that “the receiving device may receive an indicator from a transmitting device that informs the receiving device where and when low latency communications are occurring . . . . “[T]he indication may disclose the frequency resources that are used by the low latency communication and which symbols are being used.” Chen ¶ 7; Ans. 23, 25. As we determine that the Examiner did not err in rejecting claim 2 under § 103 over Chen and Byun, we sustain the Examiner’s rejection of claim 2, as well as claims 4-9 dependent therefrom and not separately argued. Claims 11 and 13–18 Appellant argues for the patentability of claim 11 by repeating its arguments made for independent claim 10. Appeal Br. 38–42. As analyzed supra, we are not persuaded by Appellant’s arguments. Appeal 2020-003575 Application 16/112,633 11 Appellant further presents the same arguments made for dependent claim 2. Appeal Br. 41. We are not persuaded by Appellant’s arguments, for the reasons given supra with respect to claim 2. Accordingly, we sustain the Examiner’s rejection of claim 11, as well as claims 13–18 dependent therefrom and not separately argued. CONCLUSIONS 1. The combination of Chen and Byun suggests higher layer signaling indicating a set of orthogonal frequency multiplexed symbols including time-frequency resources used for the second latency transmission where a marker signal may be transmitted. 2. The combination of Chen and Byun suggests receiving higher layer signaling in a subframe earlier than the first subframe. 3. The Examiner articulates reasoning with some rational underpinning to support the legal conclusion of obviousness over Chen and Byun. DECISION SUMMARY In summary: Claims Rejected 35 U.S.C. § Reference(s)/ Basis Affirmed Reversed 1, 2, 4–11, 13–18 103 Chen, Byun 1, 2, 4–11, 13–18 ORDER The Examiner’s decision to reject claims 1, 2, 4–11, and 13–18 is affirmed. Appeal 2020-003575 Application 16/112,633 12 TIME PERIOD FOR RESPONSE No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED