AI-powered educational planning tool that breaks down topics into progressive cognitive levels for effective teaching and learning
SOLOBrain is an innovative web application that transforms any topic into a comprehensive educational plan using the Structure of Observed Learning Outcomes (SOLO) Taxonomy. Within seconds, educators and learners can generate beautifully structured mind maps that break down complex subjects into progressive learning journeys.
AI-Powered Course Design
Generate detailed instructional designs for any subject or topic using the SOLO Taxonomy framework
Visual Learning Progression
Create mind maps that visualize the learning journey through the five cognitive levels of SOLO Taxonomy
Comprehensive Learning Resources
Access tailored learning objectives, teaching activities, and assessment methods for each cognitive level
Create evidence-based lesson plans in seconds instead of hours
Align teaching activities with cognitive progression
Design assessments that match students' developmental stages
Scaffold learning experiences for better student outcomes
Understand your learning progression through clear stages
Identify where you are in the mastery process
Set realistic goals for your educational development
Track your cognitive progress from basic understanding to creative application
Teachers & Educators
Quickly create structured lesson plans and curriculum designs that promote cognitive development
Instructional Designers
Develop evidence-based learning progressions and educational resources for diverse subjects
Students & Self-Learners
Map out self-directed learning journeys with clear milestones and progression paths
The Structure of Observed Learning Outcomes (SOLO) Taxonomy provides a systematic way to categorize learning outcomes based on cognitive complexity. SOLOBrain leverages this framework to create progressive educational plans.
1. Prestructural
The basic awareness stage where learners have little organized understanding of the topic
2. Unistructural
Single concept understanding where learners can identify one relevant aspect of the topic
3. Multistructural
Multiple disconnected concepts where learners know several relevant aspects but don't connect them
4. Relational
Integrated understanding where learners can connect multiple aspects to form a coherent whole
5. Extended Abstract
Creative application and transfer where learners can generalize principles to new domains
Cognitive Progression
Structures content based on cognitive complexity for a truly progressive learning experience
Scaffolded Learning
Each level builds upon the previous one, creating a natural scaffolding that maximizes learning outcomes
Aligned Assessment
Ensures assessments match the appropriate cognitive level for accurate measurement of student progress
Versatile Application
Applicable to any subject area or educational level, from primary school to higher education