Prosecution Insights
Prosecution Insights
4 pending office actions • 3 art units • 4 examiners • 0 of 4 (0%) have an AI response strategy ready • 10 patents granted in the last 365 days
Based on the USPTO statutory response window for each pending office action. 4 of the docket's apps have a known mailing date; the rest are excluded from the tile counts.
Every pending office action with a known statutory deadline, placed on a days-until-due axis. Dots left of Today are overdue; the further right, the more runway. Cases that share a deadline window stack vertically. 4 of the docket's apps have a known mailing date.
Difficulty is derived from the rejection statutes on the most recent pending office action. §101-driven and multi-statute cases are graded Hard; §112-only and obviousness-type double-patenting cases are graded Easy; everything else is Medium. "Unknown" means we have not yet parsed a statute for that office action.
| Bucket | Cases |
|---|---|
| §101 only | 3 (75%) |
| §103 only | 1 (25%) |
How the docket's pending cases split across USPTO tech-center bands.
Manual office-action response work runs about 10 hours per case. The time-saved bands below show what IP Author's prosecution pipeline typically delivers — a conservative 20% on the low end, 35% in the middle, 50% on the high end.
| Examiner | Apps on this docket | Allow rate | Interview lift |
|---|---|---|---|
| TOTH, KAREN E | 1 | 46.6% | +25.0% |
| SABOKTAKIN, MARJAN | 1 | 58.0% | +14.9% |
| GHAND, JENNIFER LEIGH-STEWAR | 1 | 60.4% | +28.3% |
| SHAH, JAY B | 1 | 57.3% | +7.2% |
Multi-statute / §101-driven matters, or cases in front of an examiner with an allow rate under 30%. The top 3 ordered by deadline are shown.
| App # | Title | Examiner | Due in |
|---|---|---|---|
| 16831264 | METHOD AND SYSTEM TO ASSESS DISEASE USING DYNAMICAL ANALYSIS OF BIOPHYSICAL SIGNALS | SHAH, JAY B | 72d overdue |
| 17503657 | METHODS AND SYSTEMS TO QUANTIFY AND REMOVE ASYNCHRONOUS NOISE IN BIOPHYSICAL SIGNALS | GHAND, JENNIFER LEIGH-STEWAR | 1d overdue |
| 17891224 | Methods and Systems for Engineering Respiration Rate-Related Features From Biophysical Signals for Use in Characterizing Physiological Systems | TOTH, KAREN E | 22d |
Cases in front of an examiner whose interview lift is 10 percentage points or more — i.e. interviewed cases historically resolve more favorably than non-interviewed ones. The top 3 ordered by deadline are shown.
| App # | Title | Examiner | Due in |
|---|---|---|---|
| 17891259 | Methods and Systems for Engineering Wavelet-Based Features From Biophysical Signals for Use in Characterizing Physiological Systems | SABOKTAKIN, MARJAN | 3d overdue |
| 17503657 | METHODS AND SYSTEMS TO QUANTIFY AND REMOVE ASYNCHRONOUS NOISE IN BIOPHYSICAL SIGNALS | GHAND, JENNIFER LEIGH-STEWAR | 1d overdue |
| 17891224 | Methods and Systems for Engineering Respiration Rate-Related Features From Biophysical Signals for Use in Characterizing Physiological Systems | TOTH, KAREN E | 22d |
| Art Unit | Apps |
|---|---|
| 3791 | 2 |
| 3797 | 1 |
| 3796 | 1 |
| App # | Title | Examiner | Art Unit | Statutes | Status | Due in | AI | Filed |
|---|---|---|---|---|---|---|---|---|
| 17891224 | Methods and Systems for Engineering Respiration Rate-Related Features From Biophysical Signals for Use in Characterizing Physiological Systems | TOTH, KAREN E | 3791 | §101 | Final Rejection | 22d | Pending | Aug 19, 2022 |
| 17891259 | Methods and Systems for Engineering Wavelet-Based Features From Biophysical Signals for Use in Characterizing Physiological Systems | SABOKTAKIN, MARJAN | 3797 | §103 | Non-Final OA | 3d overdue | Pending | Aug 19, 2022 |
| 17503657 | METHODS AND SYSTEMS TO QUANTIFY AND REMOVE ASYNCHRONOUS NOISE IN BIOPHYSICAL SIGNALS | GHAND, JENNIFER LEIGH-STEWAR | 3796 | §101 | Final Rejection | 1d overdue | Pending | Oct 18, 2021 |
| 16831264 | METHOD AND SYSTEM TO ASSESS DISEASE USING DYNAMICAL ANALYSIS OF BIOPHYSICAL SIGNALS | SHAH, JAY B | 3791 | §101 | Final Rejection | 72d overdue | Pending | Mar 26, 2020 |
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