An advanced AI system that processes NASA's Kepler and TESS datasets to identify and characterize exoplanets. BlackEye combines smart computer programs to simultaneously find planets and predict their physical properties, analyzing 17,232 space objects with 12 basic features plus 3 smart calculated features.
NASA's Kepler and TESS missions generate vast amounts of light curve data that require smart analysis. Current exoplanet detection relies heavily on manual review by expert astronomers, limiting the pace of discovery and scientific advancement. BlackEye addresses this by automating the analysis of vast amounts of light curve data from NASA's Kepler and TESS missions, reducing manual review time and improving planet detection accuracy.
NASA's Kepler and TESS missions generate vast amounts of light curve data that require smart analysis. Manual analysis is time-consuming and prone to human error, limiting the pace of discovery. BlackEye provides automatic analysis with 86% planet detection accuracy.
Current exoplanet detection relies heavily on manual review by expert astronomers. Distinguishing real planetary transits from stellar variability, binary stars, and instrumental noise requires smart pattern recognition. BlackEye's smart approach handles both planet detection and property prediction simultaneously.
Different missions use varying data formats and quality standards. BlackEye unifies data from multiple NASA missions into a single analysis framework, enabling researchers to process thousands of candidates efficiently while maintaining scientific rigor. The system makes NASA data more accessible to the research community.
BlackEye is an AI system that processes NASA's Kepler and TESS datasets to identify and characterize
exoplanets through a smart approach. The system analyzes 17,232 space objects using 12 basic
features plus 3 physics-based smart calculated features, then uses AI to find planets as CONFIRMED, CANDIDATE,
FALSE_POSITIVE, or UNKNOWN while simultaneously predicting 7 key scientific measurements.
Learn more about our unique features →
Harnessing the power of NASA's most successful space telescopes for universe exploration
NASA's Kepler space telescope discovered thousands of exoplanets. Our system uses the comprehensive KOI dataset for planet detection, including confirmed exoplanets, candidates, and false positives.
Current mission scanning the entire sky for new exoplanet discoveries. Our model uses the comprehensive TOI dataset for real-time candidate validation, including confirmed exoplanets, candidates, and false positives.
Explore our comprehensive presentation showcasing BlackEye's universe observation capabilities and impact.
Watch our presentation to see BlackEye's AI-powered universe observation in action.
See how BlackEye uses NASA's Kepler and TESS datasets for accurate exoplanet detection with advanced AI technology.
BlackEye serves researchers, educators, and space enthusiasts with advanced universe observation tools.
Universities and research centers use BlackEye to accelerate universe exploration and validate new discoveries through batch processing and API integration.
NASA, ESA, and other space agencies can leverage our technology for mission planning and target selection with high accuracy results.
Educators and students contribute to universe exploration through our accessible platform, expanding the research community.
BlackEye's vision extends beyond the current implementation to advance universe observation.
Deploy ensemble learning models achieving 95%+ accuracy with 50+ parameter predictions
Integrate JWST, Roman, CHEOPS, and PLATO data for comprehensive multi-wavelength analysis
Launch AI-powered atmospheric retrieval and biosignature detection capabilities
Implement quantum algorithms and blockchain-based collaborative research ecosystem
Develop predictive models for upcoming survey missions and habitable world identification
A passionate group of scientists and engineers working together to advance universe observation through cutting-edge AI technology.
Team Lead & AI/ML Engineer
Leading the team and developing AI models for universe observation. Expert in deep learning, model training, smart calculations, and AI approach optimization for astronomical data analysis.
Frontend Developer
Building responsive and interactive user interfaces for the BlackEye platform. Expert in modern JavaScript frameworks, React, responsive design, and creating intuitive web experiences for data visualization.
Hardware Engineer
Designing and implementing hardware solutions for space observation systems. Expert in embedded systems, sensor integration, and building reliable hardware for astronomical data collection.
Hardware Engineer
Developing advanced hardware components for universe observation platforms. Expert in electronics design, signal processing, and creating robust systems for space exploration technology.
Researcher
Conducting research on exoplanet discovery and universe observation techniques. Expert in astronomical data analysis, scientific methodology, and advancing our understanding of planetary systems.