CTNF 19/234,773 CTNF 91332 DETAILED ACTION Notice of Pre-AIA or AIA Status 07-03-fti AIA The present application is being examined under the pre-AIA first to invent provisions. Double Patenting 08-33 AIA The nonstatutory double patenting rejection is based on a judicially created doctrine grounded in public policy (a policy reflected in the statute) so as to prevent the unjustified or improper timewise extension of the “right to exclude” granted by a patent and to prevent possible harassment by multiple assignees. A nonstatutory double patenting rejection is appropriate where the conflicting claims are not identical, but at least one examined application claim is not patentably distinct from the reference claim(s) because the examined application claim is either anticipated by, or would have been obvious over, the reference claim(s). See, e.g., In re Berg , 140 F.3d 1428, 46 USPQ2d 1226 (Fed. Cir. 1998); In re Goodman , 11 F.3d 1046, 29 USPQ2d 2010 (Fed. Cir. 1993); In re Longi , 759 F.2d 887, 225 USPQ 645 (Fed. Cir. 1985); In re Van Ornum , 686 F.2d 937, 214 USPQ 761 (CCPA 1982); In re Vogel , 422 F.2d 438, 164 USPQ 619 (CCPA 1970); In re Thorington , 418 F.2d 528, 163 USPQ 644 (CCPA 1969). A timely filed terminal disclaimer in compliance with 37 CFR 1.321(c) or 1.321(d) may be used to overcome an actual or provisional rejection based on nonstatutory double patenting provided the reference application or patent either is shown to be commonly owned with the examined application, or claims an invention made as a result of activities undertaken within the scope of a joint research agreement. See MPEP § 717.02 for applications subject to examination under the first inventor to file provisions of the AIA as explained in MPEP § 2159. See MPEP § 2146 et seq. for applications not subject to examination under the first inventor to file provisions of the AIA. A terminal disclaimer must be signed in compliance with 37 CFR 1.321(b). The filing of a terminal disclaimer by itself is not a complete reply to a nonstatutory double patenting (NSDP) rejection. A complete reply requires that the terminal disclaimer be accompanied by a reply requesting reconsideration of the prior Office action. Even where the NSDP rejection is provisional the reply must be complete. See MPEP § 804, subsection I.B.1. For a reply to a non-final Office action, see 37 CFR 1.111(a). For a reply to final Office action, see 37 CFR 1.113(c). A request for reconsideration while not provided for in 37 CFR 1.113(c) may be filed after final for consideration. See MPEP §§ 706.07(e) and 714.13. The USPTO Internet website contains terminal disclaimer forms which may be used. Please visit www.uspto.gov/patent/patents-forms. The actual filing date of the application in which the form is filed determines what form (e.g., PTO/SB/25, PTO/SB/26, PTO/AIA/25, or PTO/AIA/26) should be used. A web-based eTerminal Disclaimer may be filled out completely online using web-screens. An eTerminal Disclaimer that meets all requirements is auto-processed and approved immediately upon submission. For more information about eTerminal Disclaimers, refer to www.uspto.gov/patents/apply/applying-online/eterminal-disclaimer. Claims 1-3 provisionally rejected on the ground of nonstatutory double patenting as being unpatentable over claims 1-3 of copending Application No. 19234804 . Although the claims at issue are not identical, they are not patentably distinct from each other as the following mapping presents where the claims relate in bold : Claim language of the instant application: Claims of copending Application No. 19234804 1. An intra prediction method by a decoding apparatus, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing an intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and generating a reconstructed block based on the predicted block, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 1. A decoding apparatus for image decoding, the decoding apparatus comprising: a memory; and at least one processor connected to the memory, the at least one processor configured to: derive a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; derive a plurality of transform units from the current coding unit; perform an intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and generate a reconstructed block based on the predicted block, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 2. A video encoding method by an encoding apparatus, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encoding video information including prediction mode information and residual information on the current prediction unit, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 2. A encoding apparatus for image encoding, the encoding apparatus comprising: a memory; and at least one processor connected to the memory, the at least one processor configured to: derive a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; derive a plurality of transform units from the current coding unit; perform intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encode video information including prediction mode information and residual information on the current prediction unit , wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 3. A non-transitory computer-readable digital storage medium storing an instruction to perform a video encoding method, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encoding video information including prediction mode information and residual information on the current prediction unit, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 3. An apparatus for storing data for an image, the apparatus comprising: at least one processor configured to obtain a bitstream for the image, wherein the bitstream is generated based on deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units, deriving a plurality of transform units from the current coding unit, performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units, and encoding video information including prediction mode information and residual information on the current prediction unit; and a storage medium configured to store the data comprising the bitstream, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. This is a provisional nonstatutory double patenting rejection because the patentably indistinct claims have not in fact been patented. 08-36 AIA Claim s 1-3 rejected on the ground of nonstatutory double patenting as being unpatentable over claim s 1, 7, and 13 of U.S. Patent No. 12363341 in view of Kim; Hayoon et al. (US 20110176607 A1) . The following mapping presents where the claims relate in bold and what the prior art discloses: Claim language of the instant application: Claims of U.S. Patent No. 12363341 1. An intra prediction method by a decoding apparatus, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing an intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and generating a reconstructed block based on the predicted block, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 1. An intra prediction method by a decoding apparatus, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; and performing an intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. But does not explicitly teach, generating a reconstructed block based on the predicted block, However, Kim teaches additionally, generating a reconstructed block (¶70 and fig. 6, “Rectangular block reconstructor 670 may reconstruct the output video by using the rectangular current block” as depicted in fig. 6) based on the predicted block, (¶70 and fig. 6, reconstructed current block based “prediction block in intra predictor 660” added to rectangular residual block as depicted in fig. 6) It would have been obvious to one with ordinary skill in the art at the time of the filing date of the claimed invention to combine the method of U.S. Patent No. 12363341 with the coding of Kim which reconstructs a block based a on predicted block. Using these teachings allows for improvements to accuracy of prediction and efficiency of compression. 2. A video encoding method by an encoding apparatus, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encoding video information including prediction mode information and residual information on the current prediction unit, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 7. A video encoding method by an encoding apparatus, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encoding video information including prediction mode information on the current prediction unit, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. But does not explicitly teach, residual information However, Kim teaches additionally, encoding video information including residual information on the current prediction unit, (¶51-52,45, and fig. 4, “encoder 470 encodes the quantized residual block into bitstream” along with “prediction modes and prediction directions” with the residual block of the “current block pixels”) It would have been obvious to one with ordinary skill in the art at the time of the filing date of the claimed invention to combine the method of U.S. Patent No. 12363341 with the coding of Kim which encodes residual information for the current block. Using these teachings allows for improvements to accuracy of prediction and efficiency of compression. 3. A non-transitory computer-readable digital storage medium storing an instruction to perform a video encoding method, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encoding video information including prediction mode information and residual information on the current prediction unit, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 13. A non-transitory computer-readable digital storage medium storing an instruction to perform a video encoding method, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encoding video information including prediction mode information on the current prediction unit, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. But does not explicitly teach, residual information However, Kim teaches additionally, encoding video information including residual information on the current prediction unit, (¶51-52,45, and fig. 4, “encoder 470 encodes the quantized residual block into bitstream” along with “prediction modes and prediction directions” with the residual block of the “current block pixels”) It would have been obvious to one with ordinary skill in the art at the time of the filing date of the claimed invention to combine the method of U.S. Patent No. 12363341 with the coding of Kim which encodes residual information for the current block. Using these teachings allows for improvements to accuracy of prediction and efficiency of compression . 08-36 AIA Claim s 1-3 rejected on the ground of nonstatutory double patenting as being unpatentable over claim s 1-3 of U.S. Patent No. 12604034 in view of Kim; Hayoon et al. (US 20110176607 A1) . The following mapping presents where the claims relate in bold and what the prior art discloses: Claim language of the instant application: Claims of U.S. Patent No. 12604034 1 . An intra prediction method by a decoding apparatus, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing an intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and generating a reconstructed block based on the predicted block, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 1 . A decoding apparatus for image decoding, the decoding apparatus comprising: a memory; and at least one processor connected to the memory, the at least one processor configured to: derive a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; derive a plurality of transform units from the current coding unit; and perform an intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit But does not explicitly teach, An intra prediction method by a decoding apparatus generating a reconstructed block based on the predicted block, However, Kim teaches additionally, An intra prediction method by a decoding apparatus (¶61-70 and fig. 6, “video decoder 600” which includes “intra predictor 660” which predicts “the rectangular current block by using one or more adjacent pixels in the prediction direction to generate the rectangular prediction block” as depicted in fig. 6) generating a reconstructed block (¶70 and fig. 6, “Rectangular block reconstructor 670 may reconstruct the output video by using the rectangular current block” as depicted in fig. 6) based on the predicted block, (¶70 and fig. 6, reconstructed current block based “prediction block in intra predictor 660” added to rectangular residual block as depicted in fig. 6) It would have been obvious to one with ordinary skill in the art at the time of the filing date of the claimed invention to combine the method of U.S. Patent No. 12363341 with the coding of Kim which reconstructs a block based a on predicted block. Using these teachings allows for improvements to accuracy of prediction and efficiency of compression. 2. A video encoding method by an encoding apparatus, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encoding video information including prediction mode information and residual information on the current prediction unit, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 2. An encoding apparatus for image encoding, the encoding apparatus comprising: a memory; and at least one processor connected to the memory, the at least one processor configured to: derive a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; derive a plurality of transform units from the current coding unit; perform intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encode video information including prediction mode information on the current prediction unit, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. But does not explicitly teach, A video encoding method by an encoding apparatus residual information However, Kim teaches additionally, A video encoding method by an encoding apparatus (¶36 and fig. 4, “video encoding apparatus 400” configured to “encode a video having a current block with pixels”) encoding video information including residual information on the current prediction unit, (¶51-52,45, and fig. 4, “encoder 470 encodes the quantized residual block into bitstream” along with “prediction modes and prediction directions” with the residual block of the “current block pixels”) It would have been obvious to one with ordinary skill in the art at the time of the filing date of the claimed invention to combine the method of U.S. Patent No. 12363341 with the coding of Kim which encodes residual information for the current block. Using these teachings allows for improvements to accuracy of prediction and efficiency of compression. 3. A non-transitory computer-readable digital storage medium storing an instruction to perform a video encoding method, the method comprising: deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units; deriving a plurality of transform units from the current coding unit; performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units; and encoding video information including prediction mode information and residual information on the current prediction unit, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. 3 . An apparatus for storing data for an image, the apparatus comprising: at least one processor configured to obtain a bitstream for the image, wherein the bitstream is generated based on deriving a plurality of prediction units from a current coding unit, wherein a current prediction unit is one of the plurality of prediction units, deriving a plurality of transform units from the current coding unit, performing intra prediction to generate a predicted block with respect to each of the plurality of transform units by using neighboring reference pixels of the each of the plurality of transform units, and encoding video information including prediction mode information on the current prediction unit; and a storage medium configured to store the data comprising the bitstream, wherein the plurality of transform units are located within a region in which the current prediction unit is located, wherein an intra prediction mode is determined for the current prediction unit, and wherein the intra prediction with respect to the each of the plurality of transform units is performed sequentially based on an intra prediction mode that is the same as the intra prediction mode derived for the current prediction unit. But does not explicitly teach, A non-transitory computer-readable digital storage medium storing an instruction to perform a video encoding method, the method comprising: residual information However, Kim teaches additionally, A non-transitory computer-readable digital storage medium storing an instruction (¶36-37 and fig. 4, “video encoding apparatus 400” being a “memory for storing various programs for encoding videos and related data, and a microprocessor for executing the programs to effect operations and controls” ) to perform a video encoding method, (¶36-37 and fig. 4, “video encoding apparatus 400” configured to “encode a video having a current block with pixels”) the method comprising: encoding video information including residual information on the current prediction unit, (¶51-52,45, and fig. 4, “encoder 470 encodes the quantized residual block into bitstream” along with “prediction modes and prediction directions” with the residual block of the “current block pixels”) It would have been obvious to one with ordinary skill in the art at the time of the filing date of the claimed invention to combine the method of U.S. Patent No. 12363341 with the coding of Kim which encodes residual information for the current block. Using these teachings allows for improvements to accuracy of prediction and efficiency of compression. Conclusion Any inquiry concerning this communication or earlier communications from the examiner should be directed to JIMMY S LEE whose telephone number is (571)270-7322. The examiner can normally be reached Monday thru Friday 10AM-8PM EST. Examiner interviews are available via telephone, in-person, and video conferencing using a USPTO supplied web-based collaboration tool. To schedule an interview, applicant is encouraged to use the USPTO Automated Interview Request (AIR) at http://www.uspto.gov/interviewpractice. If attempts to reach the examiner by telephone are unsuccessful, the examiner’s supervisor, Joseph G. Ustaris can be reached at (571) 272-7383. The fax phone number for the organization where this application or proceeding is assigned is 571-273-8300. Information regarding the status of published or unpublished applications may be obtained from Patent Center. Unpublished application information in Patent Center is available to registered users. To file and manage patent submissions in Patent Center, visit: https://patentcenter.uspto.gov. Visit https://www.uspto.gov/patents/apply/patent-center for more information about Patent Center and https://www.uspto.gov/patents/docx for information about filing in DOCX format. For additional questions, contact the Electronic Business Center (EBC) at 866-217-9197 (toll-free). If you would like assistance from a USPTO Customer Service Representative, call 800-786-9199 (IN USA OR CANADA) or 571-272-1000. /JOSEPH G USTARIS/Supervisory Patent Examiner, Art Unit 2483 /JIMMY S LEE/Examiner, Art Unit 2483 Application/Control Number: 19/234,773 Page 2 Art Unit: 2483 Application/Control Number: 19/234,773 Page 3 Art Unit: 2483 Application/Control Number: 19/234,773 Page 4 Art Unit: 2483 Application/Control Number: 19/234,773 Page 5 Art Unit: 2483 Application/Control Number: 19/234,773 Page 6 Art Unit: 2483 Application/Control Number: 19/234,773 Page 7 Art Unit: 2483 Application/Control Number: 19/234,773 Page 8 Art Unit: 2483 Application/Control Number: 19/234,773 Page 9 Art Unit: 2483 Application/Control Number: 19/234,773 Page 10 Art Unit: 2483 Application/Control Number: 19/234,773 Page 11 Art Unit: 2483 Application/Control Number: 19/234,773 Page 12 Art Unit: 2483 Application/Control Number: 19/234,773 Page 13 Art Unit: 2483 Application/Control Number: 19/234,773 Page 14 Art Unit: 2483 Application/Control Number: 19/234,773 Page 15 Art Unit: 2483 Application/Control Number: 19/234,773 Page 16 Art Unit: 2483 Application/Control Number: 19/234,773 Page 17 Art Unit: 2483 Application/Control Number: 19/234,773 Page 18 Art Unit: 2483 Application/Control Number: 19/234,773 Page 19 Art Unit: 2483 Application/Control Number: 19/234,773 Page 20 Art Unit: 2483 Application/Control Number: 19/234,773 Page 21 Art Unit: 2483 Application/Control Number: 19/234,773 Page 22 Art Unit: 2483 Application/Control Number: 19/234,773 Page 23 Art Unit: 2483 Application/Control Number: 19/234,773 Page 24 Art Unit: 2483 Application/Control Number: 19/234,773 Page 25 Art Unit: 2483 Application/Control Number: 19/234,773 Page 26 Art Unit: 2483 Application/Control Number: 19/234,773 Page 27 Art Unit: 2483 Application/Control Number: 19/234,773 Page 28 Art Unit: 2483 Application/Control Number: 19/234,773 Page 29 Art Unit: 2483 Application/Control Number: 19/234,773 Page 30 Art Unit: 2483 Application/Control Number: 19/234,773 Page 31 Art Unit: 2483 Application/Control Number: 19/234,773 Page 32 Art Unit: 2483 Application/Control Number: 19/234,773 Page 33 Art Unit: 2483 Application/Control Number: 19/234,773 Page 34 Art Unit: 2483 Application/Control Number: 19/234,773 Page 35 Art Unit: 2483 Application/Control Number: 19/234,773 Page 36 Art Unit: 2483 Application/Control Number: 19/234,773 Page 37 Art Unit: 2483 Application/Control Number: 19/234,773 Page 38 Art Unit: 2483 Application/Control Number: 19/234,773 Page 39 Art Unit: 2483 Application/Control Number: 19/234,773 Page 40 Art Unit: 2483 Application/Control Number: 19/234,773 Page 41 Art Unit: 2483 Application/Control Number: 19/234,773 Page 42 Art Unit: 2483 Application/Control Number: 19/234,773 Page 43 Art Unit: 2483 Application/Control Number: 19/234,773 Page 44 Art Unit: 2483 Application/Control Number: 19/234,773 Page 45 Art Unit: 2483 Application/Control Number: 19/234,773 Page 46 Art Unit: 2483 Application/Control Number: 19/234,773 Page 47 Art Unit: 2483