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name: event-detection-temporal-intelligence-expert description: Expert in temporal event detection, spatio-temporal clustering (ST-DBSCAN), and photo context understanding. Use for detecting photo events, clustering by time/location, shareability prediction, place recognition, event significance scoring, and life event detection. Activate on 'event detection', 'temporal clustering', 'ST-DBSCAN', 'spatio-temporal', 'shareability prediction', 'place recognition', 'life events', 'photo events', 'temporal diversity'. NOT for individual photo aesthetic quality (use photo-composition-critic), color palette analysis (use color-theory-palette-harmony-expert), face recognition implementation (use photo-content-recognition-curation-expert), or basic EXIF timestamp extraction. allowed-tools: Read,Write,Edit,Bash,Grep,Glob,mcp__firecrawl__firecrawl_search,WebFetch category: AI & Machine Learning tags:

• temporal
• clustering
• events
• spatio-temporal
• photo-context pairs-with:
• skill: photo-content-recognition-curation-expert reason: Content + temporal understanding
• skill: wedding-immortalist reason: Event detection for wedding albums

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Event Detection & Temporal Intelligence Expert

Expert in detecting meaningful events from photo collections using spatio-temporal clustering, significance scoring, and intelligent photo selection for collages.

When to Use This Skill

✅ Use for:

• Detecting events from photo timestamps + GPS coordinates
• Clustering photos by time, location, and visual content (ST-DBSCAN, DeepDBSCAN)
• Scoring event significance (birthday > commute)
• Predicting photo shareability for social media
• Recognizing life events (graduations, weddings, births, moves)
• Temporal diversity optimization (avoid all photos from one day)
• Event-aware collage photo selection

❌ NOT for:

• Individual photo aesthetic quality → photo-composition-critic
• Color palette analysis → color-theory-palette-harmony-expert
• Face clustering/recognition → photo-content-recognition-curation-expert
• CLIP embedding generation → clip-aware-embeddings
• Single-photo timestamp extraction (basic EXIF parsing)

Quick Decision Tree

Need to group photos into meaningful events?
├─ Have GPS + timestamps? ──────────────────── ST-DBSCAN
│   ├─ Also need visual similarity? ────────── DeepDBSCAN (add CLIP)
│   └─ Need hierarchical events? ───────────── Multi-level cascading
│
├─ No GPS, only timestamps? ────────────────── Temporal binning
│   └─ With visual content? ─────────────────── CLIP + temporal
│
└─ Photos have faces + want groups? ─────────── Face clustering first
    └─ Then event detection per person

Core Concepts

1. ST-DBSCAN: Spatio-Temporal Clustering

The Problem: Standard clustering fails for photos—same location on different days shouldn't be grouped.

Key Insight: 100 meters apart in same hour = same event. 100 meters apart 3 days later = different events.

ST-DBSCAN Parameters:

ε_spatial:   50m (indoor) → 500m (outdoor festival) → 5km (city tour)
ε_temporal:  1hr (short event) → 8hr (day trip) → 24hr (multi-day)
min_pts:     3 (small gathering) → 10 (large event)

Algorithm: Both spatial AND temporal constraints must be satisfied:

Neighbor(p) = {q | distance(p,q) ≤ ε_spatial AND |time(p)-time(q)| ≤ ε_temporal}

→ Deep dive: references/st-dbscan-implementation.md

2. DeepDBSCAN: Adding Visual Content

Problem: Photos at same time/place can be different subjects (ceremony vs empty chairs).

Solution: Add CLIP embeddings as third dimension:

Neighbor(p) = {q | spatial_ok AND temporal_ok AND cosine_sim(clip_p, clip_q) > threshold}

eps_visual: 0.3 (similar subjects) → 0.5 (diverse event content)

3. Hierarchical Event Detection

Use case: "Paris Vacation" contains "Day 1: Louvre", "Day 2: Eiffel Tower"

Approach: Cascade ST-DBSCAN with expanding thresholds:

1. High-level (vacations): eps_spatial=50km, eps_temporal=72hr
2. Mid-level (daily): eps_spatial=5km, eps_temporal=12hr
3. Low-level (moments): eps_spatial=500m, eps_temporal=1hr

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Event Significance Scoring

Goal: Birthday party > Daily commute photos

Multi-Factor Model (weights sum to 1.0):

Factor	Weight	Description
location_rarity	0.20	Exotic location > home
people_presence	0.15	Photos with people score higher
photo_density	0.15	More photos/hour = more memorable
content_rarity	0.15	Landmarks, celebrations detected via CLIP
visual_diversity	0.10	Varied shots = special event
duration	0.10	Longer events score higher
engagement	0.10	Shared/edited/favorited photos
temporal_rarity	0.05	Annual patterns (birthdays, holidays)

→ Deep dive: references/event-scoring-shareability.md

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Shareability Prediction

Goal: Predict which photos will be shared on social media.

High-Signal Features (2025 research):

1. Smiling faces (+0.3 base score)
2. Group photos (3+ people, +0.2)
3. Famous landmarks (+0.25)
4. Food scenes (+0.15)
5. Moderate visual complexity (0.4-0.6 optimal)
6. Recency (decays over 30 days)

Shareability Threshold: >0.6 = "Highly Shareable"

→ Deep dive: references/event-scoring-shareability.md

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Life Event Detection

Automatically detect major life events using multi-modal signals:

Event Type	Primary Signals	Threshold
Graduation	Cap/gown, diploma, auditorium	0.6
Wedding	Formal attire, bouquet, cake, rings	0.7
Birth	New infant face cluster, hospital setting	0.8
Residential Move	50km+ location shift, >30 days	0.8
Travel Milestone	First visit to new country	1.0

→ Deep dive: references/place-recognition-life-events.md

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Temporal Diversity for Selection

Problem: Without constraints, collage might be all vacation photos.

Method Comparison

Method	Best For	Use When
Temporal Binning	Even time coverage	Need chronological spread
Temporal MMR	Quality + diversity balance	Balanced selection
Event-Based	Event representation	Each event matters

Temporal MMR Formula

MMR(photo) = λ × quality + (1-λ) × min_temporal_distance_to_selected

• λ=0.5: Balanced
• λ=0.7: Prefer quality
• λ=0.3: Prefer diversity

→ Deep dive: references/temporal-diversity-pipeline.md

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Common Anti-Patterns

Anti-Pattern: Time-Only Clustering

What it looks like: Using K-means or basic DBSCAN on timestamps only

clusters = KMeans(n_clusters=10).fit(timestamps)  # WRONG

Why it's wrong: Multi-day trips at same location get split; same-day different-location events get merged.

What to do instead: Use ST-DBSCAN with both spatial AND temporal constraints.

Anti-Pattern: Fixed Epsilon Values

What it looks like: Using same eps_spatial=100m for all events

Why it's wrong: Indoor events need 50m, city tours need 5km.

What to do instead: Adaptive thresholds based on event type detection, or hierarchical clustering with multiple scales.

Anti-Pattern: Ignoring Visual Content

What it looks like: ST-DBSCAN alone for event detection

Why it's wrong: Wedding ceremony and empty chairs setup—same time/place, completely different importance.

What to do instead: DeepDBSCAN with CLIP embeddings for content-aware clustering.

Anti-Pattern: Euclidean Distance for GPS

What it looks like:

distance = sqrt((lat2-lat1)**2 + (lon2-lon1)**2)  # WRONG

Why it's wrong: Degrees ≠ meters. 1° latitude = 111km, but 1° longitude varies by latitude.

What to do instead: Haversine formula for great-circle distance:

from geopy.distance import geodesic
distance_meters = geodesic((lat1, lon1), (lat2, lon2)).meters

Anti-Pattern: No Noise Handling

What it looks like: Forcing every photo into a cluster

Why it's wrong: Solo commute photos pollute event clusters.

What to do instead: DBSCAN naturally identifies noise (label=-1). Keep noise separate—don't force into nearest cluster.

Anti-Pattern: Shareability Without Event Context

What it looks like: Predicting shareability from photo features alone

Why it's wrong: A mediocre photo from your wedding is more shareable than a great photo from Tuesday's lunch.

What to do instead: Include event significance as feature:

features['event_significance'] = photo.event.significance_score

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Quick Start: Event Detection Pipeline

from event_detection import EventDetectionPipeline

pipeline = EventDetectionPipeline()

# Process photo corpus
results = pipeline.process_photo_corpus(photos)

# Access events
for event in results['events']:
    print(f"{event.label}: {len(event.photos)} photos, significance={event.significance_score:.2f}")

# Access life events
for life_event in results['life_events']:
    print(f"{life_event.type} detected on {life_event.timestamp}")

# Select for collage with diversity
collage_photos = pipeline.select_for_collage(results, target_count=100)

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Performance Targets

Operation	Target
ST-DBSCAN (10K photos)	< 2 seconds
Event significance scoring	< 100ms/event
Shareability prediction	< 50ms/photo
Place recognition (cached)	< 10ms/photo
Full pipeline (10K photos)	< 5 seconds

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Python Dependencies

numpy scipy scikit-learn hdbscan geopy transformers xgboost pandas opencv-python

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Integration Points

• collage-layout-expert: Pass event clusters for diversity-aware placement
• photo-content-recognition-curation-expert: Get face clusters before event detection
• color-theory-palette-harmony-expert: Use for visual diversity within events
• clip-aware-embeddings: Generate embeddings for DeepDBSCAN

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References

1. ST-DBSCAN: Birant & Kut (2007), "ST-DBSCAN: An algorithm for clustering spatial-temporal data"
2. DeepDBSCAN: ISPRS 2021, "Deep Density-Based Clustering for Geo-Tagged Photos"
3. Shareability: arXiv 2025, "Predicting Social Media Engagement from Emotional and Temporal Features"
4. GeoNames/OpenStreetMap: Reverse geocoding for place recognition

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Version: 2.0.0 Last Updated: November 2025