--- name: paper-review description: "Guides self-review of YOUR OWN academic paper before submission with adversarial stress-testing. Core method: 5-aspect checklist (contribution sufficiency, writing clarity, results quality, testing completeness, method design), counterintuitive protocol (reject-first simulation, delete unsupported claims, score trust, promote limitations, attack novelty), reverse-outlining, and figure/table quality checks. Use when: user wants to self-review or self-check their own paper draft before submission, stress-test their claims, prepare for reviewer criticism, or mentions 'self-review', 'check my draft', 'is my paper ready'. Do NOT use for writing a peer review of someone else's paper, and do NOT use after receiving actual reviews (use paper-rebuttal instead)." allowed-tools: "read_file edit_file write_file think_tool" metadata: author: EvoScientist version: '1.0.0' tags: [core, writing, academic-writing, peer-review] --- # Paper Review A systematic approach to self-reviewing academic papers before submission. Covers a 5-aspect review checklist, reverse-outlining for structural clarity, figure/table quality checks, and rebuttal preparation. ## When to Use This Skill - User wants to review or check a paper draft before submission - User asks for feedback on paper quality or completeness - User wants to prepare for potential reviewer criticism - User mentions "review paper", "check my draft", "self-review" > If the user has already received reviewer comments and needs to write a rebuttal, use the `paper-rebuttal` skill instead. ## Prerequisites Before starting review, confirm the `paper-writing` handoff checklist is satisfied: all sections drafted, claims anchored to evidence, limitation section present, figures finalized, and no unresolved `\todo{}` markers. If any item is incomplete, finish writing before reviewing. --- ## The Perfectionist Approach > Strive for perfection: review your own paper, consider every question a reviewer might ask, and address them one by one. The best defense against negative reviews is a thorough self-review: 1. **Adversarial review**: Read your own paper as a critical reviewer would 2. **Seek advisor feedback**: Ask your advisor to review — the more feedback, the better 3. **Address everything**: For every potential weakness you find, either fix it or prepare a defense ## Counterintuitive Review Protocol Run this protocol before final polishing: 1. **Reject-first simulation**: Force yourself to write a one-paragraph reject summary before writing any positive comments. 2. **Delete one unsupported strong claim**: If a strong claim lacks direct evidence, remove it instead of defending it. 3. **Score trust, not only score gains**: Papers with slightly lower gains but higher fairness and reproducibility often receive better review outcomes. 4. **Promote one explicit limitation**: Move one meaningful limitation from hidden notes into the paper; transparency can increase confidence. 5. **Attack your novelty claim**: Ask "Could a strong PhD derive this in one afternoon?" If yes, narrow and sharpen the novelty statement. See [references/counterintuitive-review.md](references/counterintuitive-review.md) --- ## 5-Aspect Self-Review Checklist ### Aspect 1: Contribution Sufficiency > The paper does not provide readers with new knowledge. Ask these questions to evaluate whether the contribution is sufficient: - [ ] **Are the failure cases common?** If the failure cases are frequent and obvious, reviewers may question whether the method is ready for publication. - [ ] **Is the proposed technique well-explored?** If the technique is already widely studied, what new insight or improvement do we bring? - [ ] **Is the improvement foreseeable / well-known?** If the improvement was predictable from combining known ideas, the novelty may be questioned. - [ ] **Is the technique too straightforward?** A straightforward application of existing techniques may lack sufficient contribution. **Red flag**: If "yes" to any of these, strengthen the contribution narrative or add more technical depth. ### Aspect 2: Writing Clarity > Missing technical details, not reproducible; a method module lacks motivation. - [ ] **Missing technical details?** Would a reader be able to reproduce the method from the paper alone? - [ ] **Missing module motivation?** Does every module in the Method section explain *why* it exists, not just *what* it does? - [ ] **Paragraph structure**: Does each paragraph have a clear topic? Does the first sentence state the point? - [ ] **Flow**: Is the logical flow between paragraphs and sections smooth? - [ ] **Terminology**: Are terms used consistently throughout? **Red flag**: If reproducibility is in doubt, add implementation details or supplementary material. ### Aspect 3: Experimental Results Quality > Only slightly better than previous methods; or better than previous methods but still not good enough. - [ ] **Marginal improvement?** If the improvement over SOTA is very small, is it statistically significant? - [ ] **Absolute quality insufficient?** Even if better than baselines, is the output quality good enough for the application? - [ ] **Visual quality**: Do qualitative results look convincing? Are improvements visible? **Red flag**: If improvements are marginal, emphasize other advantages (speed, generalizability, simplicity) or add more challenging test cases. ### Aspect 4: Experimental Testing Completeness > Missing ablation studies; missing important baselines; missing important evaluation metrics; data too simple. - [ ] **Missing ablation studies?** Is every core contribution ablated? - [ ] **Missing important baselines?** Are recent SOTA methods included? - [ ] **Missing evaluation metrics?** Are all standard metrics for this task reported? - [ ] **Datasets too simple?** Do the benchmarks truly test the method's capabilities? - [ ] **No failure case analysis?** Honest failure analysis increases credibility. **Red flag**: Missing ablations or baselines is one of the most common reasons for rejection. ### Aspect 5: Method Design Issues > Experimental setting is impractical; method has technical flaws; method is not robust; new method's costs outweigh its benefits. - [ ] **Impractical experimental setting?** Are assumptions realistic for the intended use case? - [ ] **Technical flaws?** Does the method have theoretical or conceptual weaknesses? - [ ] **Not robust?** Does the method require per-scene hyperparameter tuning? - [ ] **Benefit < Limitation?** Does the new module introduce limitations that outweigh its benefits? **Red flag**: If the method requires significant tuning per scenario, add robustness experiments or acknowledge and address the limitation. --- ## Critical Reminder: Claims Must Have Support > Every claim in the paper (especially in the Abstract and Introduction) must be correct and supported by experiments. Some reviewers will reject a paper directly for unsupported claims. Go through every claim in the Abstract and Introduction. For each claim: - [ ] Is it factually correct? - [ ] Is there an experiment or analysis that supports it? - [ ] Is the supporting experiment clearly referenced? An unsupported claim — especially in the Abstract or Introduction — can be grounds for rejection. --- ## Reverse-Outlining Technique > Extract the writing plan from finished paragraphs and check whether the flow is smooth. After writing a section (or the entire paper): 1. **Read each paragraph** one at a time 2. **Write down the main message** of each paragraph in one sentence 3. **Read the sequence of messages** — does it flow logically? 4. **Identify breaks**: Where does the flow feel abrupt or illogical? 5. **Fix**: Reorganize paragraphs, add transitions, or split/merge paragraphs Apply this to: - Introduction (check narrative flow) - Method (check if modules are presented in logical order) - Experiments (check if results are presented in a meaningful sequence) --- ## Figure and Table Quality Checklist ### Figures - [ ] Pipeline figure highlights novelty (not just explanation) - [ ] Pipeline figure looks distinct from prior work - [ ] Teaser figure is compelling and self-contained - [ ] All figures have clear captions - [ ] Resolution is high enough for print - [ ] Color-blind friendly (avoid red-green only distinctions) - [ ] Figures are referenced in the text ### Tables - [ ] Captions are above the table - [ ] No vertical lines - [ ] Using booktabs (`\toprule`, `\midrule`, `\bottomrule`) - [ ] Best results highlighted (bold/color) - [ ] Metric direction indicated (↑/↓) - [ ] Captions describe setup/notation, not results - [ ] All tables are referenced in the text --- ## Conclusion and Limitation Check - [ ] Conclusion summarizes contributions and key results - [ ] **Limitation section is present** (reviewers frequently flag its absence) - [ ] Limitations are about task/setting scope (like future work), not technical defects > Rule: "If our method does not fall below SOTA metrics, it is not a technical defect" - [ ] Limitations are honest but not self-defeating --- ## Pre-Submission Final Checks - [ ] All references are complete (no "?" or missing entries) - [ ] Author information matches venue requirements - [ ] Page count is within limits - [ ] Supplementary material is properly referenced - [ ] No TODO markers remain in the paper - [ ] Acknowledgments section is appropriate - [ ] No accidental double-blind violations (for anonymous review) - [ ] All cited works have complete bibliographic entries (authors, title, venue, year) - [ ] No self-citations that break anonymity (for double-blind venues) - [ ] Key related works cited — missing a prominent baseline paper can trigger rejection --- ## Handoff to Rebuttal When reviews come back, use the `paper-rebuttal` skill for: - Score diagnosis and review color-coding - Champion strategy (arming your positive reviewer for discussion) - 18 tactical rules for structure, content, and tone - Counterintuitive rebuttal principles Your self-review artifacts (reject-first simulation, claim-evidence audit, prebuttal drafts from the counterintuitive protocol) feed directly into the rebuttal process. --- See [references/review-checklist.md](references/review-checklist.md) for an expanded version of the 5-aspect checklist with more detailed sub-questions. For adversarial stress testing and reject-risk thresholds, see [references/counterintuitive-review.md](references/counterintuitive-review.md).