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Generate a structured paper outline from review conclusions and experiment results. Use when user says \"写大纲\", \"paper outline\", \"plan the paper\", \"论文规划\", or wants to create a paper plan before writing.
Generate a structured paper outline from review conclusions and experiment results. Use when user says "写大纲", "paper outline", "plan the paper", "论文规划", or wants to create a paper plan before writing.
Draft a structured grant proposal from research ideas and literature. Supports KAKENHI (Japan), NSF (US), NSFC (China, including 面上/青年/优青/杰青/海外优青/重点), ERC (EU), DFG (Germany), SNSF (Switzerland), ARC (Australia), NWO (Netherlands), and generic formats. Use when user says "write grant", "grant proposal", "申請書", "write KAKENHI", "科研費", "基金申请", "写基金", "NSF proposal", or wants to turn research ideas into a funding application.
Generate and rank research ideas given a broad direction. Use when user says "找idea", "brainstorm ideas", "generate research ideas", "what can we work on", or wants to explore a research area for publishable directions.
Verify research idea novelty against recent literature. Use when user says "查新", "novelty check", "有没有人做过", "check novelty", or wants to verify a research idea is novel before implementing.
Turn a vague research direction into a problem-anchored, elegant, frontier-aware, implementation-oriented method plan via iterative GPT-5.5 review. Use when the user says "refine my approach", "帮我细化方案", "decompose this problem", "打磨idea", "refine research plan", "细化研究方案", or wants a concrete research method that stays simple, focused, and top-venue ready instead of a vague or overbuilt idea.
Get a deep critical review of research from an external reviewer backend (Codex or manual). Use when user says "review my research", "help me review", "get external review", or wants critical feedback on research ideas, papers, or experimental results.
| name | paper-plan |
| description | Generate a structured paper outline from review conclusions and experiment results. Use when user says \"写大纲\", \"paper outline\", \"plan the paper\", \"论文规划\", or wants to create a paper plan before writing. |
Generate a structured, section-by-section paper outline from: $ARGUMENTS
gpt-5.5 — Model used via a secondary Codex agent for outline review. Must be an OpenAI model.ICLR — Default venue. User can override (e.g., /paper-plan "topic" — venue: NeurIPS). Supported: ICLR, NeurIPS, ICML, CVPR, ACL, AAAI, ACM, IEEE_JOURNAL (IEEE Transactions / Letters), IEEE_CONF (IEEE conferences).The skill expects one or more of these in the project directory:
./AUTO_REVIEW.md if not found)figures/, screen logs, tables./IDEA_REPORT.md if not found)/result-to-claim (preferred if available)If none exist, ask the user to describe the paper's contribution in 3-5 sentences.
Keep the existing workflow and outputs, but use the shared references below to improve the quality of the story and outline:
../shared-references/writing-principles.md when framing the Abstract, Introduction, Related Work, or hero figure../shared-references/venue-checklists.md before freezing the outline for a specific venueFirst check for CLAIMS_FROM_RESULTS.md — if it exists, use it as the starting point for claims and merge it with any additional evidence from the narrative documents below.
Read all available narrative documents and extract:
Build a Claims-Evidence Matrix:
| Claim | Evidence | Status | Section |
|-------|----------|--------|---------|
| [claim 1] | [exp A, metric B] | Supported | §3.2 |
| [claim 2] | [exp C] | Partially supported | §4.1 |
Based on TARGET_VENUE and paper content, classify and select structure.
Before committing to a structure, apply the narrative principle from ../shared-references/writing-principles.md:
IMPORTANT: The section count is FLEXIBLE (5-8 sections). Choose what fits the content best. The templates below are starting points, not rigid constraints.
Empirical/Diagnostic paper:
1. Introduction (1.5 pages)
2. Related Work (1 page)
3. Method / Setup (1.5 pages)
4. Experiments (3 pages)
5. Analysis / Discussion (1 page)
6. Conclusion (0.5 pages)
Theory + Experiments paper:
1. Introduction (1.5 pages)
2. Related Work (1 page)
3. Preliminaries & Modeling (1.5 pages)
4. Experiments (1.5 pages)
5. Theory Part A (1.5 pages)
6. Theory Part B (1.5 pages)
7. Conclusion (0.5 pages)
— Total: 9 pages
Theory papers often need 7 sections (splitting theory into estimation + optimization, or setup + analysis). The total page budget MUST sum to MAX_PAGES.
Theory papers should:
Method paper:
1. Introduction (1.5 pages)
2. Related Work (1 page)
3. Method (2 pages)
4. Experiments (2.5 pages)
5. Ablation / Analysis (1 page)
6. Conclusion (0.5 pages)
For each section, specify:
### §0 Abstract
- **One-sentence problem**: [what gap this paper addresses]
- **Approach**: [what we do, in one sentence]
- **Key result**: [most compelling quantitative finding]
- **Implication**: [why it matters]
- **Estimated length**: 150-250 words
- **Self-contained check**: can a reader understand this without the paper?
### §1 Introduction
- **Opening hook**: [1-2 sentences that motivate the problem]
- **Gap**: [what's missing in prior work]
- **Key questions**: [the research questions this paper answers]
- **Contributions**: [numbered list, matching Claims-Evidence Matrix]
- **Hero figure**: [describe what Figure 1 should show — MUST include clear comparison if applicable]
- **Estimated length**: 1.5 pages
- **Key citations**: [3-5 papers to cite here]
### §2 Related Work
- **Subtopics**: [2-4 categories of related work]
- **Positioning**: [how this paper differs from each category]
- **Minimum length**: 1 full page (at least 3-4 paragraphs with substantive synthesis)
- **Must NOT be just a list** — synthesize, compare, and position
### §3 Method / Setup / Preliminaries
- **Notation**: [key symbols and their meanings]
- **Problem formulation**: [formal setup]
- **Method description**: [algorithm, model, or experimental design]
- **Formal statements**: [theorems, propositions if applicable]
- **Proof sketch locations**: [which key steps appear here vs. appendix]
- **Estimated length**: 1.5-2 pages
### §4 Experiments / Main Results
- **Figures planned**:
- Fig 1: [description, type: bar/line/table/architecture, WHAT COMPARISON it shows]
- Fig 2: [description]
- Table 1: [what it shows, which methods/baselines compared]
- **Data source**: [which JSON files / experiment results]
### §5 Conclusion
- **Restatement**: [contributions rephrased, not copy-pasted from intro]
- **Limitations**: [honest assessment — reviewers value this]
- **Future work**: [1-2 concrete directions]
- **Estimated length**: 0.5 pages
List every figure and table:
## Figure Plan
| ID | Type | Description | Data Source | Priority |
|----|------|-------------|-------------|----------|
| Fig 1 | Hero/Architecture | System overview + comparison | manual | HIGH |
| Fig 2 | Line plot | Training curves comparison | figures/exp_A.json | HIGH |
| Fig 3 | Bar chart | Ablation results | figures/ablation.json | MEDIUM |
| Table 1 | Comparison table | Main results vs. baselines | figures/main_results.json | HIGH |
| Table 2 | Theory comparison | Prior bounds vs. ours | manual | HIGH (theory papers) |
CRITICAL for Figure 1 / Hero Figure: Describe in detail what the figure should contain, including:
For each section, list required citations:
## Citation Plan
- §1 Intro: [paper1], [paper2], [paper3] (problem motivation)
- §2 Related: [paper4]-[paper10] (categorized by subtopic)
- §3 Method: [paper11] (baseline), [paper12] (technique we build on)
Citation rules (from claude-scholar + Imbad0202/academic-research-skills):
[VERIFY]Send the complete outline to GPT-5.5 xhigh for feedback:
spawn_agent:
model: gpt-5.5
reasoning_effort: xhigh
message: |
Review this paper outline for a [VENUE] submission.
[full outline including Claims-Evidence Matrix]
Score 1-10 on:
1. Logical flow — does the story build naturally?
2. Claim-evidence alignment — every claim backed?
3. Missing experiments or analysis
4. Positioning relative to prior work
5. Page budget feasibility (MAX_PAGES = main body to Conclusion end, excluding refs/appendix)
For each weakness, suggest the MINIMUM fix.
Be specific and actionable — "add X" not "consider more experiments".
Apply feedback before finalizing.
Save the final outline to PAPER_PLAN.md in the project root:
# Paper Plan
**Title**: [working title]
**Venue**: [target venue]
**Type**: [empirical/theory/method]
**Date**: [today]
**Page budget**: [MAX_PAGES] pages (main body to Conclusion end, excluding references & appendix)
**Section count**: [N] (must match the number of section files that will be created)
## Claims-Evidence Matrix
[from Step 1]
## Structure
[from Step 2-3, section by section]
## Figure Plan
[from Step 4, with detailed hero figure description]
## Citation Plan
[from Step 5]
## Reviewer Feedback
[from Step 6, summarized]
## Next Steps
- [ ] /paper-figure to generate all figures
- [ ] /paper-write to draft LaTeX
- [ ] /paper-compile to build PDF
Large file handling: If the Write tool fails due to file size, immediately retry using Bash (cat << 'EOF' > file) to write in chunks. Do NOT ask the user for permission — just do it silently.
Do NOT generate author information — leave author block as placeholder or anonymous
Be honest about evidence gaps — mark claims as "needs experiment" rather than overclaiming
Page budget is hard — if content exceeds MAX_PAGES, suggest what to move to appendix
MAX_PAGES counting differs by venue — ML conferences: main body to Conclusion end, references/appendix NOT counted; AAAI main track is typically 7 technical-content pages plus references. IEEE venues: references ARE counted toward the page limit.
Venue-specific norms — ML conferences (ICLR/NeurIPS/ICML) use natbib (\citep/\citet); IEEE venues use cite package (\cite{}, numeric style)
Claims-Evidence Matrix is the backbone — every claim must map to evidence, every experiment must support a claim
Figures need detailed descriptions — especially the hero figure, which must clearly specify comparisons and visual expectations
Section count is flexible — 5-8 sections depending on paper type. Don't force content into a rigid 5-section template.
Outline methodology inspired by Research-Paper-Writing-Skills (claim-evidence mapping), claude-scholar (citation verification), and Imbad0202/academic-research-skills (claim verification protocol).
Follow these shared protocols for all output files:
- Output Versioning Protocol — write timestamped file first, then copy to fixed name
- Output Manifest Protocol — log every output to MANIFEST.md
- Output Language Protocol — respect the project's language setting