Detailed information about the 100 most recent patent applications.
| Application Number | Title | Filing Date | Disposal Date | Disposition | Time (months) | Office Actions | Restrictions | Interview | Appeal |
|---|---|---|---|---|---|---|---|---|---|
| 19136103 | LIQUID CRYSTAL COMPOSITION AND LIQUID DISPLAY DEVICE | June 2025 | March 2026 | Allow | 9 | 1 | 0 | No | No |
| 18978065 | LIQUID-CRYSTAL MEDIUM | December 2024 | December 2025 | Allow | 12 | 1 | 0 | No | No |
| 18927122 | METHOD OF MANUFACTURE OF A RESIN | October 2024 | February 2026 | Allow | 15 | 1 | 1 | No | No |
| 18919071 | COMPOSITION, OPTICALLY ANISOTROPIC LAYER, LIQUID CRYSTAL CELL, LIQUID CRYSTAL DISPLAY DEVICE, SENSOR, LENS, SWITCHING ELEMENT, ISOLATOR, AND CAMERA | October 2024 | February 2026 | Allow | 16 | 1 | 0 | No | No |
| 18897001 | Liquid Crystalline Polymer Composition | September 2024 | December 2025 | Abandon | 15 | 1 | 0 | No | No |
| 18892903 | LIQUID CRYSTAL POLYESTER RESIN COMPOSITION, MOLDED ARTICLE, AND ELECTRONIC COMPONENT COMPRISING THE SAME | September 2024 | February 2026 | Allow | 17 | 1 | 0 | No | No |
| 18845793 | POLYMER MATRIX WITH MESOGENIC LIGAND AND LIGHT SHUTTER INCLUDING THE SAME | September 2024 | March 2026 | Abandon | 18 | 1 | 0 | No | No |
| 18835803 | A Lithographic Printing Plate Precursor | August 2024 | January 2026 | Abandon | 17 | 1 | 0 | No | No |
| 18739411 | THERMAL PROCESSOR AND METHOD FOR USING THE SAME | June 2024 | January 2026 | Allow | 20 | 1 | 0 | No | No |
| 18675505 | LITHOGRAPHY TECHNIQUES FOR REDUCING DEFECTS | May 2024 | January 2026 | Allow | 20 | 1 | 0 | Yes | No |
| 18675277 | LAMINATE AND METHOD FOR PRODUCING PRINTING PLATE | May 2024 | December 2025 | Abandon | 19 | 1 | 0 | No | No |
| 18701318 | LIQUID CRYSTAL DISPLAY PANEL AND LIQUID CRYSTAL DISPLAY DEVICE | April 2024 | October 2025 | Allow | 18 | 1 | 0 | No | No |
| 18686905 | METHOD FOR PRODUCING PRINTING PLATE AND PRINTING METHOD | February 2024 | January 2026 | Allow | 23 | 2 | 0 | No | No |
| 18433903 | Thermochromic Liquid Crystal Inks | February 2024 | November 2025 | Abandon | 21 | 1 | 0 | No | No |
| 18428593 | RADIATION BASED PATTERNING METHODS | January 2024 | November 2025 | Allow | 21 | 2 | 0 | No | No |
| 18422781 | WASHOUT PROCESSOR AND WASHING METHOD | January 2024 | March 2026 | Allow | 26 | 2 | 1 | No | No |
| 18399785 | LIQUID CRYSTAL COMPOSITIONS AND DISPLAY PANELS USING THE SAME | December 2023 | February 2026 | Allow | 26 | 2 | 0 | No | No |
| 18394207 | COMPOUND, COMPOSITION, CURED PRODUCT, OPTICALLY ANISOTROPIC BODY, OPTICAL ELEMENT, AND LIGHT GUIDE ELEMENT | December 2023 | December 2025 | Allow | 24 | 2 | 0 | No | No |
| 18538308 | IMPRINT METHOD, IMPRINT APPARATUS, AND ARTICLE MANUFACTURING METHOD | December 2023 | September 2025 | Allow | 21 | 2 | 1 | Yes | No |
| 18566863 | LIQUID CRYSTAL COMPOUNDS | December 2023 | February 2026 | Allow | 26 | 2 | 0 | No | No |
| 18565088 | LIQUID CRYSTAL COMPOSITION AND LIQUID CRYSTAL ELEMENT | November 2023 | December 2025 | Allow | 24 | 2 | 0 | No | No |
| 18504269 | Ferroelectric liquid crystal (FLC) material and chiral compound | November 2023 | February 2026 | Abandon | 27 | 2 | 0 | No | No |
| 18492067 | LIGHTING DEVICE AND OPTICAL ELEMENT | October 2023 | June 2025 | Allow | 20 | 1 | 0 | No | No |
| 18554109 | METHOD FOR PRODUCING LIQUID CRYSTAL POLYMER PARTICLE | October 2023 | January 2026 | Abandon | 27 | 1 | 0 | No | No |
| 18284581 | THERMOPLASTIC COMPOSITIONS AND USES THEREOF | September 2023 | November 2025 | Allow | 26 | 2 | 0 | No | No |
| 18275276 | PRINTING PLATE EXPOSURE METHOD AND APPARATUS WITH REDUCED THERMAL POLYMERIZATION | August 2023 | October 2025 | Allow | 26 | 1 | 1 | No | No |
| 18228496 | Chiral Azobenzene Dopants with Increased Delta Helical Twisting Power | July 2023 | September 2024 | Allow | 13 | 0 | 0 | No | No |
| 18263192 | A Lithographic Printing Plate Precursor | July 2023 | April 2025 | Abandon | 20 | 1 | 0 | No | No |
| 18270292 | PROCESS AND APPARATUS FOR FEEDING A FLEXOGRAPHIC PRINTING PLATE PROCESSOR | June 2023 | July 2025 | Allow | 24 | 1 | 0 | No | No |
| 18341955 | LITHOGRAPHIC PRINTING PLATE PRECURSOR AND METHOD OF USE | June 2023 | June 2025 | Allow | 23 | 1 | 0 | No | No |
| 18268855 | LIQUID-CRYSTALLINE MEDIUM AND LIQUID-CRYSTAL DISPLAY COMPRISING THE SAME AND COMPOUNDS | June 2023 | December 2025 | Allow | 30 | 3 | 0 | Yes | No |
| 18267853 | Liquid-Crystal Composition Containing Anthraquinone Compound And Light-Modulating Element | June 2023 | April 2025 | Allow | 22 | 1 | 0 | No | No |
| 18335169 | Liquid Crystalline Polymer Composition having a Low Dielectric Constant | June 2023 | March 2025 | Abandon | 21 | 0 | 1 | No | No |
| 18335139 | COMPOSITION FOR COLOR CONVERSION FILM, COLOR CONVERSION FILM, METHOD FOR MANUFACTURING COLOR CONVERSION FILM, BACKLIGHT UNIT, AND LIQUID CRYSTAL DISPLAY DEVICE | June 2023 | April 2025 | Abandon | 22 | 1 | 0 | No | No |
| 18266657 | HETEROAROMATIC ISOTHIOCYANATES | June 2023 | March 2025 | Allow | 21 | 2 | 0 | No | No |
| 18266424 | DEVICE FOR THE REGULATION OF LIGHT TRANSMISSION | June 2023 | January 2026 | Allow | 31 | 3 | 0 | No | No |
| 18039838 | FERROELECTRIC NEMATIC LIQUID CRYSTALLINE MEDIUM | June 2023 | July 2025 | Allow | 26 | 4 | 0 | No | No |
| 18322764 | POROUS LIQUID CRYSTAL POLYMER SHEET, METAL LAYER-ATTACHED POROUS LIQUID CRYSTAL POLYMER SHEET, AND ELECTRONIC CIRCUIT BOARD | May 2023 | October 2025 | Allow | 29 | 3 | 0 | No | No |
| 18253629 | LIQUID CRYSTAL POLYMER PARTICLE, THERMOSETTING RESIN COMPOSITION, AND MOLDED BODY | May 2023 | March 2025 | Abandon | 22 | 1 | 0 | No | No |
| 18035977 | Method for Preparing a Coated Article | May 2023 | March 2025 | Allow | 22 | 2 | 0 | No | No |
| 18034483 | AROMATIC ISOTHIOCYANATES | April 2023 | November 2025 | Allow | 31 | 4 | 0 | No | No |
| 18033978 | AROMATIC ISOTHIOCYANATES | April 2023 | October 2024 | Abandon | 17 | 1 | 0 | No | No |
| 18133098 | LIQUID-CRYSTALLINE MEDIUM | April 2023 | January 2026 | Allow | 33 | 5 | 0 | No | No |
| 18248370 | A Lithographic Printing Plate Precursor | April 2023 | May 2025 | Allow | 25 | 1 | 0 | No | No |
| 18123483 | LIQUID-CRYSTALLINE MEDIUM | March 2023 | September 2025 | Abandon | 30 | 3 | 0 | No | No |
| 18026527 | MONOAZO DICHROIC DYE COMPOUND, POLARIZING PLATE COMPOSITION COMPRISING SAME, POLARIZING PLATE FORMED THEREFROM, AND OPTICAL DEVICE COMPRISING SAME | March 2023 | April 2025 | Allow | 25 | 2 | 0 | No | No |
| 18175053 | AQUEOUS DEVELOPER FOR FLEXOGRAPHIC PRINTING PLATE AND MANUFACTURING METHOD OF FLEXOGRAPHIC PRINTING PLATE | February 2023 | June 2025 | Allow | 28 | 2 | 0 | Yes | No |
| 18042827 | A Lithographic Printing Plate Precursor | February 2023 | September 2025 | Allow | 30 | 3 | 0 | No | No |
| 18174304 | LIQUID CRYSTAL COMPOSITION, LIGHT ABSORPTION ANISOTROPIC LAYER, LAMINATE, AND IMAGE DISPLAY DEVICE | February 2023 | April 2025 | Allow | 25 | 1 | 0 | No | No |
| 18166715 | REFLECTION-TYPE MASK, REFLECTION-TYPE MASK BLANK, AND METHOD FOR MANUFACTURING REFLECTION-TYPE MASK | February 2023 | February 2026 | Abandon | 36 | 1 | 0 | No | No |
| 18165361 | COMPOUND AND LIQUID CRYSTAL COMPOSITION | February 2023 | July 2025 | Allow | 30 | 2 | 0 | No | No |
| 18040034 | Photomask, Optical-Waveguide, Optical Circuit and Method of Manufacturing an Optical-Waveguide | January 2023 | December 2025 | Allow | 34 | 1 | 0 | No | No |
| 18102128 | LIQUID-CRYSTAL MEDIUM COMPRISING POYLMERIZABLE COMPOUNDS | January 2023 | April 2025 | Allow | 26 | 3 | 0 | Yes | No |
| 18096726 | METHOD AND APPARATUS FOR REPAIRING A DEFECT OF A LITHOGRAPHIC MASK | January 2023 | November 2025 | Allow | 34 | 1 | 0 | No | No |
| 18015570 | LIQUID CRYSTAL COMPOSITION, PREPARATION METHOD OF THE SAME, AND DISPLAY PANEL | January 2023 | September 2025 | Allow | 32 | 2 | 0 | No | No |
| 18075949 | METHOD AND APPARATUS FOR SETTING A SIDE WALL ANGLE OF A PATTERN ELEMENT OF A PHOTOLITHOGRAPHIC MASK | December 2022 | September 2025 | Allow | 34 | 1 | 0 | No | No |
| 18008541 | Lithographic Photopolymer Printing Plate Precursor with Improved Daylight Stability | December 2022 | October 2024 | Allow | 22 | 2 | 0 | No | No |
| 17928265 | FORMULATIONS OF BIOREACHABLE DOPANTS FOR LIQUID CRYSTALS | November 2022 | February 2025 | Allow | 27 | 1 | 0 | No | No |
| 18059256 | ON-PRESS DEVELOPMENT TYPE LITHOGRAPHIC PRINTING PLATE PRECURSOR, METHOD OF PREPARING LITHOGRAPHIC PRINTING PLATE, AND LITHOGRAPHIC PRINTING METHOD | November 2022 | September 2024 | Allow | 22 | 1 | 0 | No | No |
| 17975633 | PHOTOELECTRIC CONVERSION ELEMENT, IMAGING ELEMENT, OPTICAL SENSOR, AND COMPOUND | October 2022 | January 2026 | Allow | 39 | 1 | 1 | No | No |
| 17972887 | MASK BLANK SUBSTRATE, SUBSTRATE WITH MULTILAYER REFLECTIVE FILM, REFLECTIVE MASK BLANK, REFLECTIVE MASK, AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE | October 2022 | August 2025 | Allow | 34 | 0 | 0 | No | No |
| 17969931 | HARDMASK COMPOSITION, HARDMASK LAYER, AND METHOD OF FORMING PATTERNS | October 2022 | October 2025 | Allow | 36 | 1 | 0 | No | No |
| 17914522 | Mesogen Compounds | September 2022 | September 2025 | Allow | 35 | 1 | 0 | No | No |
| 17880877 | LITHOGRAPHIC PRINTING PLATE PRECURSORS, METHODS OF USING AND MANUFACTURE | August 2022 | May 2025 | Allow | 33 | 1 | 0 | No | No |
| 17848945 | LITHOGRAPHIC PRINTING PLATE PRECURSOR, METHOD OF PRODUCING LITHOGRAPHIC PRINTING PLATE, AND PRINTING METHOD | June 2022 | February 2025 | Abandon | 32 | 2 | 0 | No | No |
| 17844953 | LITHOGRAPHIC PRINTING PLATE PRECURSOR AND METHOD OF USE | June 2022 | September 2024 | Allow | 27 | 3 | 0 | Yes | No |
| 17843578 | TOOL MISMATCH REDUCTION USING ABERRATION MAP OF THE TOOLS | June 2022 | May 2025 | Allow | 35 | 0 | 1 | No | No |
| 17842494 | MASK FOR LOW CONTRAST PRINTED HIGHLIGHTS | June 2022 | August 2025 | Allow | 38 | 2 | 1 | No | No |
| 17735165 | Dye-Doped Liquid-Crystal Medium Comprising Polymerizable Compounds | May 2022 | October 2024 | Allow | 29 | 3 | 0 | Yes | No |
| 17731055 | FLEXOGRAPHIC PRINTING MASK WITH LASER THERMAL IMAGING FILM | April 2022 | August 2025 | Allow | 39 | 2 | 0 | No | No |
| 17766667 | LIQUID-CRYSTAL COMPOSITION | April 2022 | August 2025 | Allow | 40 | 2 | 0 | Yes | No |
| 17703365 | LITHOGRAPHIC PRINTING PLATE PRECURSOR, METHOD FOR PREPARING LITHOGRAPHIC PRINTING PLATE, AND LITHOGRAPHIC PRINTING METHOD | March 2022 | March 2025 | Allow | 36 | 3 | 0 | No | No |
| 17703414 | LITHOGRAPHIC PRINTING PLATE PRECURSOR, METHOD FOR PREPARING LITHOGRAPHIC PRINTING PLATE, AND LITHOGRAPHIC PRINTING METHOD | March 2022 | July 2024 | Allow | 28 | 2 | 0 | No | No |
| 17701127 | OPTICALLY ANISOTROPIC LAYER, OPTICAL FILM, POLARIZING PLATE, AND IMAGE DISPLAY DEVICE | March 2022 | March 2025 | Allow | 36 | 4 | 0 | Yes | No |
| 17701161 | OPTICALLY ANISOTROPIC LAYER, OPTICAL FILM, POLARIZING PLATE, AND IMAGE DISPLAY DEVICE | March 2022 | March 2025 | Allow | 35 | 3 | 0 | Yes | No |
| 17640849 | FLEXOGRAPHIC PRINTING PLATE PRECURSOR | March 2022 | August 2025 | Allow | 41 | 2 | 0 | No | No |
| 17685592 | LITHOGRAPHIC PRINTING PLATE PRECURSOR AND METHOD OF USE | March 2022 | June 2025 | Allow | 39 | 2 | 0 | No | No |
| 17646071 | ON-PRESS DEVELOPMENT TYPE LITHOGRAPHIC PRINTING PLATE PRECURSOR, METHOD FOR PREPARING LITHOGRAPHIC PRINTING PLATE, AND LITHOGRAPHIC PRINTING METHOD | December 2021 | July 2024 | Allow | 31 | 1 | 0 | No | No |
| 17560981 | ON-PRESS DEVELOPMENT TYPE LITHOGRAPHIC PRINTING PLATE PRECURSOR, METHOD FOR PREPARING LITHOGRAPHIC PRINTING PLATE, AND LITHOGRAPHIC PRINTING METHOD | December 2021 | April 2025 | Abandon | 40 | 4 | 0 | No | No |
| 17561004 | ON-MACHINE DEVELOPMENT TYPE PLANOGRAPHIC PRINTING PLATE PRECURSOR, METHOD FOR PREPARING PLANOGRAPHIC PRINTING PLATE, AND PLANOGRAPHIC PRINTING METHOD | December 2021 | August 2024 | Allow | 32 | 1 | 0 | No | No |
| 17619971 | LIQUID CRYSTAL-BASED LIGHT VALVE | December 2021 | June 2024 | Allow | 30 | 3 | 0 | No | No |
| 17613233 | WATERLESS PLANOGRAPHIC PRINTING PLATE DYEING METHOD AND PLANOGRAPHIC PRINTING DYE | November 2021 | October 2024 | Abandon | 34 | 2 | 0 | Yes | No |
| 17429736 | LIQUID CRYSTAL POLYESTER POWDER, LIQUID CRYSTAL POLYESTER COMPOSITION, FILM PRODUCING METHOD, AND LAMINATE PRODUCING METHOD | August 2021 | August 2024 | Allow | 36 | 2 | 1 | No | No |
| 17427403 | DICHROIC AZO-AZOMETHINE DYES FOR LIQUID CRYSTAL COMPOSITIONS | July 2021 | June 2024 | Allow | 35 | 4 | 0 | No | No |
| 17388609 | LITHOGRAPHIC PRINTING PLATE PRECURSOR, METHOD OF PREPARING LITHOGRAPHIC PRINTING PLATE, AND LITHOGRAPHIC PRINTING METHOD | July 2021 | January 2025 | Abandon | 42 | 2 | 0 | No | No |
| 17333122 | AROMATIC LIQUID CRYSTAL POLYESTER, LIQUID CRYSTAL POLYESTER COMPOSITION AND METHOD FOR MANUFACTURING LIQUID CRYSTAL POLYESTER FILM | May 2021 | August 2024 | Allow | 39 | 4 | 0 | No | No |
| 17029188 | PLANOGRAPHIC PRINTING PLATE PRECURSOR AND METHOD OF PRODUCING PLANOGRAPHIC PRINTING PLATE PRECURSOR | September 2020 | October 2024 | Abandon | 49 | 2 | 0 | Yes | No |
| 15918778 | COMPOUND HAVING FLUORODIBENZOFURAN RING, LIQUID CRYSTAL COMPOSITION AND LIQUID CRYSTAL DISPLAY DEVICE | March 2018 | March 2020 | Allow | 24 | 1 | 0 | No | No |
| 15906304 | METHOD FOR PREPARING SOLID-STATE HELICAL PHOTONIC CRYSTAL STRUCTURE AND PHOTONIC CRYSTAL STRUCTURE PREPARED THEREBY | February 2018 | May 2020 | Allow | 27 | 2 | 0 | Yes | No |
| 15749386 | LIQUID CRYSTAL MEDIUM AND LIQUID CRYSTAL DISPLAY | January 2018 | November 2019 | Allow | 21 | 1 | 0 | No | No |
| 15880539 | NEGATIVE TYPE PHOTOSENSITIVE RESIN COMPOSITION, NEGATIVE TYPE PLANOGRAPHIC PRINTING PLATE PRECURSOR, AND METHOD OF PREPARING PLANOGRAPHIC PRINTING PLATE | January 2018 | October 2019 | Allow | 20 | 1 | 0 | No | No |
| 15865258 | PHOTOSENSITIVE RESIN COMPOSITION, PLANOGRAPHIC PRINTING PLATE PRECURSOR, AND PLATE-MAKING METHOD FOR PLANOGRAPHIC PRINTING PLATE | January 2018 | September 2019 | Allow | 20 | 1 | 0 | No | No |
| 15741765 | POLYMERIZABLE POLAR COMPOUND, LIQUID CRYSTAL COMPOSITION AND LIQUID CRYSTAL DISPLAY DEVICE | January 2018 | February 2020 | Allow | 25 | 2 | 0 | No | No |
| 15836924 | LIQUID CRYSTAL COMPOSITION AND LIQUID CRYSTAL DISPLAY DEVICE | December 2017 | October 2019 | Allow | 23 | 1 | 0 | No | No |
| 15579619 | FLEXOGRAPHIC PRINTING PRECURSOR AND MAGNETIC DEVELOPMENT OF THE SAME | December 2017 | November 2019 | Allow | 23 | 2 | 0 | No | No |
| 15823587 | LIQUID CRYSTAL COMPOSITION AND LIQUID CRYSTAL DISPLAY DEVICE | November 2017 | October 2019 | Allow | 22 | 1 | 0 | No | No |
| 15560485 | LIQUID CRYSTAL COMPOSITION AND LIQUID CRYSTAL DISPLAY DEVICE | September 2017 | December 2019 | Allow | 27 | 3 | 0 | No | No |
| 15696189 | LIQUID CRYSTAL COMPOSITION AND LIQUID CRYSTAL DISPLAY DEVICE | September 2017 | June 2019 | Allow | 21 | 1 | 0 | No | No |
| 15665446 | LIQUID CRYSTAL COMPOSITION AND LIQUID CRYSTAL DISPLAY DEVICE | August 2017 | February 2020 | Allow | 30 | 3 | 0 | No | No |
| 15655887 | PHOTOSENSITIVE RESIN COMPOSITION, PLANOGRAPHIC PRINTING PLATE PRECURSOR, METHOD FOR PRODUCING PLANOGRAPHIC PRINTING PLATE, AND POLYMER COMPOUND | July 2017 | July 2019 | Allow | 24 | 2 | 0 | No | No |
This analysis examines appeal outcomes and the strategic value of filing appeals for examiner ROBINSON, CHANCEITY N.
With a 100.0% reversal rate, the PTAB has reversed the examiner's rejections more often than affirming them. This reversal rate is in the top 25% across the USPTO, indicating that appeals are more successful here than in most other areas.
Filing a Notice of Appeal can sometimes lead to allowance even before the appeal is fully briefed or decided by the PTAB. This occurs when the examiner or their supervisor reconsiders the rejection during the mandatory appeal conference (MPEP § 1207.01) after the appeal is filed.
In this dataset, 50.0% of applications that filed an appeal were subsequently allowed. This appeal filing benefit rate is in the top 25% across the USPTO, indicating that filing appeals is particularly effective here. The act of filing often prompts favorable reconsideration during the mandatory appeal conference.
✓ Appeals to PTAB show good success rates. If you have a strong case on the merits, consider fully prosecuting the appeal to a Board decision.
✓ Filing a Notice of Appeal is strategically valuable. The act of filing often prompts favorable reconsideration during the mandatory appeal conference.
Examiner ROBINSON, CHANCEITY N works in Art Unit 1737 and has examined 213 patent applications in our dataset. With an allowance rate of 98.1%, this examiner allows applications at a higher rate than most examiners at the USPTO. Applications typically reach final disposition in approximately 30 months.
Examiner ROBINSON, CHANCEITY N's allowance rate of 98.1% places them in the 90% percentile among all USPTO examiners. This examiner is more likely to allow applications than most examiners at the USPTO.
On average, applications examined by ROBINSON, CHANCEITY N receive 2.35 office actions before reaching final disposition. This places the examiner in the 67% percentile for office actions issued. This examiner issues a slightly above-average number of office actions.
The median time to disposition (half-life) for applications examined by ROBINSON, CHANCEITY N is 30 months. This places the examiner in the 58% percentile for prosecution speed. Prosecution timelines are slightly faster than average with this examiner.
Conducting an examiner interview provides a -1.2% benefit to allowance rate for applications examined by ROBINSON, CHANCEITY N. This interview benefit is in the 10% percentile among all examiners. Note: Interviews show limited statistical benefit with this examiner compared to others, though they may still be valuable for clarifying issues.
When applicants file an RCE with this examiner, 34.0% of applications are subsequently allowed. This success rate is in the 75% percentile among all examiners. Strategic Insight: RCEs show above-average effectiveness with this examiner. Consider whether your amendments or new arguments are strong enough to warrant an RCE versus filing a continuation.
This examiner enters after-final amendments leading to allowance in 55.3% of cases where such amendments are filed. This entry rate is in the 81% percentile among all examiners. Strategic Recommendation: This examiner is highly receptive to after-final amendments compared to other examiners. Per MPEP § 714.12, after-final amendments may be entered "under justifiable circumstances." Consider filing after-final amendments with a clear showing of allowability rather than immediately filing an RCE, as this examiner frequently enters such amendments.
When applicants request a pre-appeal conference (PAC) with this examiner, 0.0% result in withdrawal of the rejection or reopening of prosecution. This success rate is in the 2% percentile among all examiners. Note: Pre-appeal conferences show limited success with this examiner compared to others. While still worth considering, be prepared to proceed with a full appeal brief if the PAC does not result in favorable action.
This examiner withdraws rejections or reopens prosecution in 75.0% of appeals filed. This is in the 64% percentile among all examiners. Of these withdrawals, 41.7% occur early in the appeal process (after Notice of Appeal but before Appeal Brief). Strategic Insight: This examiner shows above-average willingness to reconsider rejections during appeals. The mandatory appeal conference (MPEP § 1207.01) provides an opportunity for reconsideration.
When applicants file petitions regarding this examiner's actions, 80.0% are granted (fully or in part). This grant rate is in the 84% percentile among all examiners. Strategic Note: Petitions are frequently granted regarding this examiner's actions compared to other examiners. Per MPEP § 1002.02(c), various examiner actions are petitionable to the Technology Center Director, including prematureness of final rejection, refusal to enter amendments, and requirement for information. If you believe an examiner action is improper, consider filing a petition.
Examiner's Amendments: This examiner makes examiner's amendments in 4.2% of allowed cases (in the 84% percentile). Per MPEP § 1302.04, examiner's amendments are used to place applications in condition for allowance when only minor changes are needed. This examiner frequently uses this tool compared to other examiners, indicating a cooperative approach to getting applications allowed. Strategic Insight: If you are close to allowance but minor claim amendments are needed, this examiner may be willing to make an examiner's amendment rather than requiring another round of prosecution.
Quayle Actions: This examiner issues Ex Parte Quayle actions in 3.8% of allowed cases (in the 77% percentile). Per MPEP § 714.14, a Quayle action indicates that all claims are allowable but formal matters remain. This examiner frequently uses Quayle actions compared to other examiners, which is a positive indicator that once substantive issues are resolved, allowance follows quickly.
Based on the statistical analysis of this examiner's prosecution patterns, here are tailored strategic recommendations:
Not Legal Advice: The information provided in this report is for informational purposes only and does not constitute legal advice. You should consult with a qualified patent attorney or agent for advice specific to your situation.
No Guarantees: We do not provide any guarantees as to the accuracy, completeness, or timeliness of the statistics presented above. Patent prosecution statistics are derived from publicly available USPTO data and are subject to data quality limitations, processing errors, and changes in USPTO practices over time.
Limitation of Liability: Under no circumstances will IronCrow AI be liable for any outcome, decision, or action resulting from your reliance on the statistics, analysis, or recommendations presented in this report. Past prosecution patterns do not guarantee future results.
Use at Your Own Risk: While we strive to provide accurate and useful prosecution statistics, you should independently verify any information that is material to your prosecution strategy and use your professional judgment in all patent prosecution matters.