11323402 (P.T.A.B. May. 31, 2016)

Ex Parte Unger

Patent Trial and Appeal BoardMay 31, 2016

11323402 (P.T.A.B. May. 31, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 111323,402 12/29/2005 37123 7590 06/01/2016 FITCH EVEN TABIN & FLANNERY, LLP 120 SOUTH LASALLE STREET SUITE 1600 CHICAGO, IL 60603-3406 FIRST NAMED INVENTOR Robert Allan Unger 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. 7114-86665-US 6213 EXAMINER VO,TUNGT ART UNIT PAPER NUMBER 2486 MAILDATE DELIVERY MODE 06/01/2016 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 ROBERT ALLAN UNGER Appeal2014-006755 Application 11/323,402 Technology Center 2400 Before JAMES R. HUGHES, KRISTEN L. DROESCH, and JOYCE CRAIG, Administrative Patent Judges. HUGHES, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Appellant seeks our review under 35 U.S.C. Â§ 134(a) of the Examiner's final decision rejecting claims 1-20, which are all the claims pending in the present patent application. (See App. Br. 1.)1 We have jurisdiction under 35 U.S.C. Â§ 6(b). We reverse. 1 We refer to Appellant's Specification ("Spec.") filed Dec. 29, 2005 (claiming benefit of US 10/712,696, filed Nov. 12, 2003); Appeal Brief ("App. Br,") filed January 3, 2014; and Reply Brief ("Reply Br.") filed May 27, 2014. We also refer to the Examiner's Answer ("Ans.") mailed March 26, 2014, and Non-Final Office Action (Non-Final Rejection) ("Non-Final Act.") mailed July 15, 2013. Appeal2014-006755 Application 11/323,402 Appellarzt 's Irzverztiorz The invention at issue on appeal concerns encoding apparatuses, wireless multi-media systems, and methods for dynamic encoding. The system includes a central controller in communication with a remote receiving device. The central controller transmits encoded signals to the remote receiving device and receives from the remote receiving device signal quality information for the encoded signals (received by the remote receiving device from the central controller). The central controller determines the quality of a communication link over which the encoded signals are communicated, based on the signal quality information received from the remote receiving device, and then determines available bandwidth as a function of the determined signal quality. (Spec. 1:11-13; 2:16-3:30; 11:22-30; 13:4--14:5 Abstract.) Illustrative Claim Independent claim 1, reproduced below with the key disputed limitations emphasized, further illustrates the invention: 1. A method for use in providing dynamic encoding, compnsmg: detecting a first available bandwidth; determining a first encoding bit rate according to the first available bandwidth; encoding a first portion of a signal at the first encoding bit rate; detecting a change in the available bandwidth such that there is a second available bandwidth, wherein the detecting the change in the available bandwidth comprises: 2 Appeal2014-006755 Application 11/323,402 receiving, from a remote recezvzng device configured to receive the signal, signal quality in.formation of the signal received by the remote receiving device; and determining, as a function of the signal quality in.formation received from the remote receiving device, a signal quality of a communication link over which the signal is communicated, and determining the second available bandwidth as a function of the determined signal quality; determining whether the change in available bandwidth exceeds a changed bandwidth threshold; determining a second encoding bit rate according to the second available bandwidth when the change in available bandwidth exceeds the changed bandwidth threshold; and encoding a second portion of the signal based on the second encoding bit rate. Rejections on Appeal 1. The Examiner rejects claims 1-20 under 35 U.S.C. Â§ 103(a) as being unpatentable over Wang (US 5,903,673; issued May 11, 1999) and Tzou (US 6;389;072 Bl; issued May 14; 2002).2 2. The Examiner rejects claims 1-19 under 35 U.S.C. Â§ 103(a) as being unpatentable over Haskell (US 5,159,447; issued Oct. 27, 1992) and Brusewitz (US 6,038,257; issued Mar. 14, 2000). 3. The Examiner rejects claims 1-16 under 35 U.S.C. Â§ 103(a) as being unpatentable over Kim (US 7,054,371 B2; issued May 30, 2006 (filed June 28, 2001)) and Van Der Schaar (US 7,020,193 B2; issued Mar. 28, 2006 (filed Sept. 24, 2001)). 2 The Examiner rejects claims 1-9 and 19 over Wang in view of Tzou (Non- Final Act. 2-7) and claims 10-18 and 20 over Tzou in view of Wang (Non- Final Act. 7-11). We consolidate these rejections for clarity and consistency of the record. 3 Appeal2014-006755 Application I 1/323,402 4. The Examiner rejects claims I 7 and I8 under 35 U.S.C. Â§ I03(a) as being unpatentable over Kim, Wang, and Van Der Schaar. ISSUE Based upon our review of the administrative record, Appellant's contentions, and the Examiner's findings and conclusions, the dispositive issue before us follows: Does the Examiner err in concluding the various combinations of prior art references (Wang and Tzou, Haskell and Brusewitz, and Kim and Van Der Schaar) would have collectively taught or suggested "receiving, from a remote receiving device configured to receive the signal, signal quality information of the signal received by the remote receiving device" within the meaning of Appellant's claim I and the commensurate limitations of claims I I and I 7? ANALYSIS TheÂ§ 103 Rejection of Claims 1-20 Over Wang and Tzou Appellant contends that Wang and Tzou do not teach the disputed features of independent claim I (App. Br. I I-I6; Reply Br. 2-5) or independent claims I I and I 7 (App. Br. I6-25; Reply Br. 2-5). Specifically, Appellant contends "Wang and Tzou do not describe 'receiving ... signal quality information of the signal received by the remote receiving device" (App. Br. I2), in that Wang does not describe providing signal quality information of the "source video signal" (Wang Fig. I, element I 540) (App. Br. I I-I3) and Tzou does not describe the "user preferences" (Tzou Fig. I, element 205) as embodying an indication of signal quality (App. Br. I2-I4). 4 Appeal2014-006755 Application 11/323,402 Appellant makes these same contentions with respect to independent claims 11 and 17. (App. Br. 19-20, 24--25.) Appellant persuades us of error in the obviousness rejection of claim 1. Appellant's independent claims 1, 11, and 1 7 each require a remote receiving device (that receives a signal (encoded signal)- i.e., is configured to receive the signal) and sends back signal quality information or statistics for the signal (i.e., receiving signal quality information of the signal received by the remote receiving device). As explained by Appellant (supra), Wang and Tzou do not describe such a remote receiving device or receiving (at a different device) signal quality information corresponding to the signal received by such a remote receiving device. The portions of Wang cited by the Examiner fail to describe signal quality information (data) received from a remote device that actually receives an encoded signal. The portions of Wang cited by the Examiner merely describe a source video signal (from a video source, which does not appear to receive an encoded signal) and a Q value (quantization parameter) which is determined by video encoder, not received from a remote device (Non-Final Act. 3; Ans. 29-30; Wang Fig. 1, elements 114, 1540). We cannot agree with the Examiner's interpretation of Wang. The portions of Tzou cited by the Examiner similarly fail to describe signal quality information received from a remote device that actually receives an encoded signal. The portions of Tzou cited by the Examiner merely describe user preferences (which at best describe parameters set by a user to optimize video presentation and do not necessarily correspond to the encoded signal (and, thus its quality) received from a user device) (Non- 5 Appeal2014-006755 Application 11/323,402 Final Act. 4; Ans. 30-31; Tzou Figs. 1, 2, element 205). We cannot agree with the Examiner's interpretation of Tzou. Consequently, we are constrained by the record before us to find that the Examiner erred in finding Wang and Tzou teach the disputed limitations of Appellant's claim 1. Independent claims 11 and 17 include limitations of commensurate scope and were rejected using the same reasoning. Claims 2- 10, 12-16, and 18-20 depend on claims 1, 11, and 17, respectively. Accordingly, we reverse the Examiner's obviousness rejection of claims 1- 20 over Wang and Tzou. TheÂ§ 103 Rejection of Claims 1-19 Over Haskell and Brusewitz Appellant contends that Haskell and Brusewitz do not teach the disputed features of independent claim 1 (App. Br. 25-30; Reply Br. 5---6) (or independent claims 11 and 17 (App. Br. 30-40)). Specifically, Appellant contends Haskell and Brusewitz do not teach receiving signal quality information corresponding to the signal received by the remote receiving device. (App. Br. 29-30, 33-34, 39--40.) Appellant persuades us of error in the obviousness rejection of claim 1. The portions of Haskell cited by the Examiner (see Non-Final Act. 11- 12; Ans. 45--46) fail to describe signal quality information (data) received from a remote device. The cited portions of Haskell describe an encoded bit-stream (CODETR) (see col. 3, 11. 18-34; Fig. 1) and a re-computed estimate (re-estimate) (Ri+ 1. .. ) of a bit-rate (see col. 10, 11. 11-18; Figs. 1, 8, 9). This data is not received from a remote device. (See Fig. 1.) As further explained by Appellant, the portions cited by the Examiner describe data utilized in calculating buffer fullness, not using signal quality data to 6 Appeal2014-006755 Application 11/323,402 determine bandwidth. (App. Br. 30.) We do not agree with the Examiner's interpretation of Haskell. The portions of Brusewitz cited by the Examiner also fail to describe signal quality information received from a remote device that actually receives an encoded signal. As explained by Appellant, the portions of Brusewitz cited by the Examiner describe a signal for changing video presentation parameters and do not necessarily correspond to the encoded signal (and, thus its quality) received by the receiving device) (App. Br. 34; see Non-Final Act. 13; Ans. 46; Brusewitz col. 4, 11. 42-51; Fig. 1, element 34). We do not agree with the Examiner's interpretation of Brusewitz. Consequently, we are constrained by the record before us to find that the Examiner erred in finding Haskell and Brusewitz teach the disputed limitations of Appellant's claim 1. Independent claims 11 and 17 include limitations of commensurate scope and were rejected using the same reasoning. Claims 2-10, 12-16, 18, and 19 depend on claims 1, 11, and 17, respectively. Accordingly, we reverse the Examiner's obviousness rejection of claims 1-19 over Haskell and Brusewitz. TheÂ§ 103 Rejection of Claims 1-16 Over Kim and Van Der Schaar Appellant contends that Kim and Van Der Schaar do not teach the disputed features of independent claims 1 and 11 (App. Br. 41--44; Reply Br. 6). Specifically, Appellant contends Kim and Van Der Schaar do not teach receiving signal quality information corresponding to the signal received by the remote receiving device. (App. Br. 41--42.) Appellant persuades us of error in the obviousness rejection of claim 1. The portions of Van Der Schaar cited by the Examiner (see Non-Final 7 Appeal2014-006755 Application 11/323,402 Act. 21-22; Ans. 55-57) fail to describe signal quality information (data) received from a remote device that actually receives an encoded signal. The cited portions of Van Der Schaar describe an optional user input (see col. 6, 11. 23-24; Fig. 5, element 36) and calculation of a bit-rate (a bit rate allocation) (see col. 4, 1. 64---col. 5, 1. 2; col. 6, 11. 21-31; Fig. 3, element EE). This data is not received from a remote device that receives the encoded signal. (See Fig. 5.) Accordingly, we do not agree with the Examiner's interpretation of Van Der Schaar. Consequently, we are constrained by the record before us to find that the Examiner erred in finding Kim and Van Der Schaar teach the disputed limitations of Appellant's claim 1. Independent claims 11 includes limitations of commensurate scope and was rejected using the same reasoning. Claims 2-10, 12-16, and 19 depend on claims 1 and 11, respectively. Accordingly, we reverse the Examiner's obviousness rejection of claims 1-16 over Kim and Van Der Schaar. TheÂ§ 103 Rejection of Claims 17 and 18 Over Kim, Wang, and Van Der Schaar With respect to the obviousness rejections of independent claim 17 and dependent claim 18, rejected as obvious over Kim and Van Der Schaar as well as Wang, we reverse the Examiner's obviousness rejection for the same reasons set forth (supra). The Examiner cites Kim, Wang, and Van Der Schaar as teaching receiving signal quality information. (See Non-Final Act. 25-27; Ans. 60-62). As explained above, none of the references (Kim, Wang, or Van Der Schaar) describe signal quality information received from 8 Appeal2014-006755 Application 11/323,402 a remote device that receives an encoded signal. Accordingly, we reverse the Examiner's obviousness rejection of claims 17 and 18. CONCLUSION Appellant has shown that the Examiner erred in rejecting claims 1-20 under 35 U.S.C. Â§ 103(a). DECISION We reverse the Examiner's rejections of claims 1-20. REVERSED 9