Notice of Pre-AIA or AIA Status The present application, filed on or after March 16, 2013, is being examined under the first inventor to file provisions of the AIA. DETAILED ACTION This action is responsive to the application No. 18/574, 953 filed on December 28 , 202 3 . Information Disclosure Statement 3 . Acknowledgement is made of Applicant’s Information Disclosure Statement (IDS) form PTO-1449. These IDS has been considered. Specification 4 . The title of the invention is not descriptive. A new title is required that is clearly indicative of the invention to which the claims are directed. The following title is suggested: “LIGHT - EMITTING SUBSTRATE COMPRISES PLURALITY OF LIGHT EMITTING UNITS INCLUDING MULTIPLE LIGHT EMITTING ELEMENTS AND DISPLAY APPARATUS ”. Claim Rejections - 35 USC § 102 5 . In the event the determination of the status of the application as subject to AIA 35 U.S.C. 102 and 103 (or as subject to pre-AIA 35 U.S.C. 102 and 103) is incorrect, any correction of the statutory basis for the rejection will not be considered a new ground of rejection if the prior art relied upon, and the rationale supporting the rejection, would be the same under either status. 6 . The following is a quotation of the appropriate paragraphs of 35 U.S.C. 102 that form the basis for the rejections under this section made in this Office action: A person shall be entitled to a patent unless – (a)(1) the claimed invention was patented, described in a printed publication, or in public use, on sale or otherwise available to the public before the effective filing date of the claimed invention. (a)(2) the claimed invention was described in a patent issued under section 151, or in an application for patent published or deemed published under section 122(b), in which the patent or application, as the case may be, names another inventor and was effectively filed before the effective filing date of the claimed invention. 7 . Claims 1- 1 0, 24-25 are rejected under 35 U.S.C . 102(a)(1)/ (a)(2) as being anticipated by JINTAO et al. (CN 110658651A ). Regarding independent claim 1, J INTAO et al. teaches a light emitting substrate, comprising (Figs. 2-14) : a substrate (100, para [0035], Fig. 2) ; a plurality of light emitting units (120 /120/120/120 , para [0035] ) on the substrate (100) , wherein at least one (120) of the plurality of light emitting units (120/120/120/120) comprises at least two light emitting element strings (110 : A 1.. B 1.. ) , and the at least two light emitting element strings (110 : A1.. B 1.. ) are connected in parallel with each other; and a same light emitting element string (110 : A1.. ) comprises at least two light emitting elements ( A1, A2 ) sequentially connected in series; in a same light emitting unit (120) , a plurality of light emitting elements ( A1, A2 ) are distributed in an array, and the same light emitting unit (120) comprises at least two light emitting elements ( A1, A2 ) connected in series and located in different rows (see Fig. 2) , and further comprises at least two light emitting elements ( B 1, B 2) connected in series and located in different columns (see Fig. 2) . Regarding claim 2, J INTAO et al. teaches w herein (Fig. 2), in the same light emitting unit (120) , at least one column (vertical elements : see figure in claim 1 ) of light emitting elements comprise at least one light emitting element (A1) of a first light emitting element string (110) and at least one light emitting element ( A4 ) of a second light emitting element string (110) , and the first light emitting element string (110 left-top ) and the second light emitting element string (110 right-top ) are different light emitting element strings (110 ….110 ) in the same light emitting unit (120) . Regarding claim 3 , J INTAO et al. teaches wherein (Fig. 2), in the same light emitting unit (120) , at least one row (1 st row: A1, B1, C2, D3) of light emitting elements (A, B, C, D) comprise at least one light emitting element (C2) of a third light emitting element string (C1….C6) and at least one light emitting element (D3) of a fourth light emitting element string (D1….D6) , and the third light emitting element string (C1….C6) and the fourth light emitting element string (D1….D6) are different light emitting element strings (C, D) in the same light emitting unit (120) . Regarding claim 4 , J INTAO et al. teaches wherein (Fig. 2), in the same light emitting unit (120) , counts of light emitting elements (A1 -A3 ) of different light emitting element strings (110 : A1/B1/C1/D1 ) are the same; a light emitting element (A1) at a start of each (A1) of the light emitting element strings is located in a same row or in a same column. Regarding claim 5 , J INTAO et al. teaches wherein (Fig. 2), in the same light emitting unit (120) , a distance between any two adjacent light emitting elements (A1-B1) in any row of light emitting elements along a row direction is equal (see Fig. 2) ; and/or, in the same light emitting unit (120) , a distance between any two adjacent light emitting elements (A1-D1) in any column of light emitting elements along a column direction is equal (see Fig. 2) . Regarding claim 6 , J INTAO et al. teaches wherein (Fig. 2), at least one (110) of the light emitting element strings comprises at least two light emitting elements (A1, A2) sequentially connected in series; and any two adjacent light emitting elements (B1, B2) in at least one (110) of the light emitting element strings are located in different rows and different columns (see Fig. 2) . Regarding claim 7 , J INTAO et al. teaches wherein (Fig. 2), the same light emitting unit (110) comprises N light emitting element strings (N: A, B, C, D) ; the N light emitting element strings are formed as a light emitting element array with N columns and M rows, where N≥2, M≥2 and M≥N, and each column of light emitting elements comprises at least one light emitting element of each of the light emitting element strings; or , the N light emitting element strings (N: A, B, C, D) are formed as a light emitting element array with N rows (3, see Fig. 2) and M columns (4 , see Fig. 2 ) , where N≥2, M≥2 and M≥N, and each row (1) of light emitting elements (A1, B1, C2, D3) comprises at least one light emitting element of each of the light emitting element strings (A, B, C, D) . in Regarding claim 8 , J INTAO et al. teaches wherein (Fig. 2), in the same light emitting unit (120) , a row direction and a column direction defined by the light emitting elements ( A,B ,C,D) are perpendicular (see Fig. 2) to each other. Regarding claim 9 , J INTAO et al. teaches wherein (Fig. 2), the plurality of the light emitting units (120/120/120/120) are arranged in an array, a row direction (shown in figure below) of an array arrangement of the light emitting units (120) is parallel to a row direction of the light emitting elements (A1//D1) in the light emitting units (120) , and a column direction (shown in figure below) of the array arrangement of the light emitting units (120) is parallel to a column direction of the light emitting elements (A1, B1) in the light emitting units (120) . Regarding claim 10 , J INTAO et al. teaches wherein (Fig. 2), in a light emitting element array formed by the light emitting elements of the plurality of light emitting units (120/120/120/120) , a distance (d1: between A1 and D1) between two adjacent light emitting elements (A1-D1) in any column along the column direction (vertical direction) is equal, and a distance (d2: between A1 and B1) between two adjacent light emitting elements (A1-B1) in any row along the row direction (horizontal direction) is equal (d1=d2) . Regarding independent claim 24 , J INTAO et al. teaches a light emitting substrate, comprising (Figs. 2-14) : a substrate (100 , para [0035] , see Fig. 2 ) ; at least two light emitting element strings (110 , para [0035] ) on the substrate (100) , wherein a same light emitting element string (110) comprises at least two light emitting elements ( 111 : A1, A2) sequentially connected in series; wherein a plurality of light emitting elements ( A, B, C, D ) comprised in the at least two light emitting element strings (A 1.. A3 and B1..B3) are distributed in an array, and at least two light emitting elements (A1, A2 or B1,B2 ) connected in series are located in different rows (A1, A2: 1 st and 2 nd rows) and different columns (A1, A2: 1 st and 2 nd columns) . Regarding claim 25 , J INTAO et al. teache s a display device ( Figs. 2-14 ) , comprising the light emitting substrate (100) according to claim 1, and further comprising a display panel (10 , para [0035] ) located at a light-exiting side of the light emitting substrate (100) . Allowable Subject Matter 8 . Claims 11 (claims 12-18 depend on the claim 11) objected to as being dependent upon a rejected base claim, but would be allowable if rewritten in independent form including all of the limitations of the base claim and any intervening claims. Claim 11 recites …. wherein in each of the plurality of light emitting units, one of a cathode or an anode of a light emitting element at a start of each of the light emitting element strings is connected to a first wire, and the other of a cathode or an anode of a light emitting element at an end of each of the light emitting element strings is connected to a second wire; first wires corresponding to at least two light emitting units are electrically connected, and second wires corresponding to at least two light emitting units are electrically connected through a third wire. The prior art, JINTAO et al. (CN110658651A) does not disclose the feature of first wires of the two light emitting units connected and second wires of the two light emitting units connected by the third wire . Therefore, none of the prior art of references quoted in PTO-892, discloses the limitations of the claims as stated above. Examiner’s Note 9 . Applicant is reminded that the Examiner is entitled to give the broadest reasonable interpretation to the language of the claims. Furthermore, the Examiner is not limited to Applicants' definition which is not specifically set forth in the claims. See MPEP 2111, 2123, 2125, 2141.02 VI, and 2182. Examiner has cited particular paragraphs and/or columns/lines in the references applied to the claims above for the convenience of the applicant. Although the specified citations are representative of the teachings of the art and are applied to specific limitations within the individual claim, other passages and figures may apply as well. It is respectfully requested from the applicant in preparing responses, to fully consider the references in their entirety as potentially teaching all or part of the claimed invention, as well as the context of the passage as taught by the prior art or disclosed by the Examiner. See MPEP 2141.02 VI . In the case of amending the claimed invention, Applicant is respectfully requested to indicate the portion(s) of the specification which dictate(s) the structure relied on for proper interpretation and also to verify and ascertain the metes and bounds of the claimed invention. Conclusion 10 . Any inquiry concerning this communication or earlier communications from the examiner should be directed to FILLIN "Examiner name" \* MERGEFORMAT DIDARUL MAZUMDER whose telephone number is FILLIN "Phone number" \* MERGEFORMAT (571)272-8823 . The examiner can normally be reached FILLIN "Work Schedule?" \* MERGEFORMAT M-F 9-5 . 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. 11 . 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If you would like assistance from a USPTO Customer Service Representative, call 800-786-9199 (IN USA OR CANADA) or 571-272-1000. /DIDARUL A MAZUMDER/ Primary Examiner, Art Unit 2812