Knowledge Graph MCP Server
An MCP server for tracking student learning via a knowledge graph, with spaced repetition scheduling and intelligent queries to identify gaps, misconceptions, and optimal next steps.
README
<!-- mcp-name: io.github.zcsabbagh/knowledge-graph-mcp -->
Knowledge Graph MCP Server
An MCP (Model Context Protocol) server for tracking student learning via a knowledge graph. Built with FastMCP, it enables LLMs to build, query, and update a personalized knowledge map with spaced repetition scheduling.
Features
- Knowledge Graph Storage: SQLite-backed graph with concepts as nodes and relationships as edges
- Multi-dimensional Mastery Tracking: Track recall, application, and explanation abilities separately
- Spaced Repetition (SM-2): Automatic scheduling of review sessions based on performance
- Misconception Tracking: Record and query common misconceptions for targeted remediation
- Intelligent Queries: Find knowledge gaps, ready-to-learn concepts, struggling areas
- Mermaid Visualization: Generate visual diagrams of the knowledge graph
Installation
Option 1: Install from Smithery (Recommended)
Install directly via Smithery:
npx @smithery/cli install @zcsabbagh/knowledge-graph-mcp --client claude
Or use the hosted version at: https://smithery.ai/server/@zcsabbagh/knowledge-graph-mcp
Option 2: Install from source
Prerequisites: Python 3.10+
git clone https://github.com/zcsabbagh/knowledge-graph-mcp.git
cd knowledge-graph-mcp
pip install -e .
Usage
Running the Server
# From the project root
python -m knowledge_graph_mcp.server
Configure with Claude Code
Add to your Claude Code MCP settings (~/.claude/settings.json):
{
"mcpServers": {
"knowledge-graph": {
"command": "python",
"args": ["-m", "knowledge_graph_mcp.server"],
"cwd": "/path/to/knowledge-graph-mcp"
}
}
}
Configure with Claude Desktop
Add to ~/Library/Application Support/Claude/claude_desktop_config.json:
{
"mcpServers": {
"knowledge-graph": {
"command": "python",
"args": ["-m", "knowledge_graph_mcp.server"],
"cwd": "/path/to/knowledge-graph-mcp"
}
}
}
MCP Tools
1. add_node
Create a new concept node.
add_node(
concept="Quadratic Formula",
description="Formula for solving ax² + bx + c = 0",
domain="mathematics",
difficulty=0.7,
tags=["algebra", "formulas"]
)
2. add_edge
Create relationships between concepts.
Relation types:
prerequisite- Must learn source before targetbuilds_on- Target extends source conceptrelated_to- Concepts are connectedcontradicts- Common misconceptionapplies_to- Application domainparent_of- Category hierarchy
add_edge(
source_concept="Algebra",
target_concept="Quadratic Formula",
relation_type="prerequisite"
)
3. update_node
Update mastery and record reviews. Providing a quality rating (0-5) triggers spaced repetition scheduling.
update_node(
node_id="quadratic_formula",
quality=4, # SM-2 rating: 0=blackout, 5=perfect
mastery_application=0.6,
misconception_detected="forgets ± sign"
)
4. query_graph
Intelligent queries for learning insights.
Query types:
prerequisites- All prerequisites for a conceptready_to_learn- Concepts where prereqs are mastereddue_for_review- Needs review based on schedulestruggling- High difficulty + low masterystalled- Multiple reviews, no improvementmisconceptions- Concepts with detected misconceptionsknowledge_gaps- Low mastery blocking progressnext_recommended- Best concept to study next
query_graph(query_type="next_recommended", domain="mathematics")
5. read_subgraph
Get the neighborhood around a concept with Mermaid visualization.
read_subgraph(
center_node="calculus",
depth=2,
direction="upstream", # or "downstream", "both"
output_format="both" # "json", "mermaid", or "both"
)
6. get_learning_path
Get ordered prerequisites for a target concept.
get_learning_path(target_concept="calculus")
7. get_statistics
Get learning progress metrics.
get_statistics(domain="mathematics")
How It Works
Data Model
Nodes represent concepts with:
- Mastery levels (overall, recall, application, explanation)
- Spaced repetition data (ease factor, interval, next review date)
- Difficulty rating and review history
- Tags and detected misconceptions
Edges represent relationships with:
- Relation type (prerequisite, builds_on, etc.)
- Strength/confidence rating
- Optional reasoning
Spaced Repetition (SM-2)
When you call update_node with a quality rating:
- 5: Perfect response → longer interval
- 4: Correct with hesitation
- 3: Correct with difficulty
- 2-0: Incorrect → reset interval
The algorithm calculates the next optimal review date based on performance history.
Mastery Calculation
Overall mastery combines dimensional scores:
mastery_level = 0.3 × recall + 0.4 × application + 0.3 × explanation
Storage
Data is stored in SQLite at ~/.knowledge_graph/knowledge.db by default.
Example Workflow
1. LLM discovers student doesn't know "quadratic formula"
→ add_node(concept="Quadratic Formula", difficulty=0.7)
2. LLM identifies prerequisites
→ add_edge("Algebra", "Quadratic Formula", "prerequisite")
3. Student attempts problem, struggles
→ update_node("quadratic_formula", quality=2,
misconception_detected="confuses ± with +")
4. LLM decides what to teach next
→ query_graph("next_recommended")
5. Visualize the learning path
→ get_learning_path("quadratic_formula")
License
MIT
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