Learn Smarter with NEUREMA

Neuroscience-Powered Spaced Repetition System

Master any subject with our scientifically-proven SM-2 algorithm. Track your learning progress, optimize memory retention, and achieve academic excellence with personalized revision schedules.

Why Choose NEUREMA?

Experience the power of neuroscience-backed learning methodology

SM-2 Algorithm

Optimized spaced repetition based on your individual performance

  • Personalized review intervals
  • Adaptive difficulty tracking
  • Memory consolidation

Progress Tracking

Visual progress bars show your mastery journey for each topic

  • Stage-based learning paths
  • Mastery visualization
  • Achievement milestones

Smart Scheduling

Automatic revision scheduling with calendar integration

  • Daily study plans
  • Overdue tracking
  • Streak counters

Get in Touch

Ready to transform your learning? Contact us today!

Email

neurema.in@gmail.com

Phone

+91 7795977671

Instagram

@neurema.in

Smart Revision Scheduler

Powered by SM-2 Algorithm & Neuroscience Research

Choose Your Exam

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JEE Main/Advanced

Engineering Entrance

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NEET

Medical Entrance

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CBSE Board

Class 10/12

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CAT

MBA Entrance

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UPSC

Civil Services

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Custom

Your Own Subjects

Days to Exam

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Short Term 0
Transition 0
Long Term 0
Mastered 0
Streak 0 days

Quick Calendar

Add New Topic

The Science Behind NEUREMA

Discover the neuroscience research powering your learning

🧠 Spaced Repetition & Memory

The spacing effect, first documented by Hermann Ebbinghaus in 1885, shows that information is better retained when study sessions are spread out over time rather than massed together.

Key Findings:

  • Spacing increases retention by 150-300%
  • Optimal intervals prevent forgetting curve decay
  • Long-term memory consolidation improves significantly

⚑ The SM-2 Algorithm

Developed by Piotr WoΕΊniak in 1987, SM-2 calculates optimal review intervals based on individual performance, making learning highly personalized and efficient.

Algorithm Features:

  • Adaptive interval calculation based on recall difficulty
  • Easiness factor adjustment for each topic
  • Exponential interval growth for mastered content
  • Reset mechanism for forgotten information

πŸ“ˆ Learning Stages

Our four-stage model mirrors how your brain naturally processes and stores information, from initial exposure to long-term mastery.

Short Term (< 7 days)
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Transition (7-30 days)
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Long Term (30+ days)
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Mastered

πŸ”¬ Neuroscience Evidence

Modern neuroscience reveals how spaced repetition strengthens synaptic connections and enhances memory consolidation through distributed practice.

Brain Mechanisms:

  • Hippocampal replay during spaced intervals
  • Protein synthesis for long-term potentiation
  • Synaptic strength increases with optimal spacing
  • Reduced interference through distributed learning

Help Shape the Future of Learning

Your insights drive our innovation in neuroscience-based education technology

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Learning Preferences Survey

Help us understand how you learn best. Your responses will improve our algorithm for personalized study experiences.

⏱️ 5 minutes πŸ‘₯ 2,847 responses
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Memory & Retention Study

Participate in our research on how different revision techniques affect long-term memory retention and recall performance.

⏱️ 8 minutes πŸ‘₯ 1,523 responses
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Platform Feedback

Share your experience with NEUREMA. Your feedback helps us create better tools for students worldwide.

⏱️ 3 minutes πŸ‘₯ 4,392 responses

Research Impact

89%

Improvement in retention rates

67%

Reduction in study time

15K+

Students benefited

12

Published research papers