EXPERIMENTS & OUTCOMES
From wild experiments to production systems, here's how we've been turning "what if" into "what is."
Current Experiments
ANANSYS
IN DEVELOPMENTAI-Powered Narrative Game Engine
A modular, AI-powered narrative game engine for social gaming that adapts stories based on player behavior and choices.
Timeline
2024 - Ongoing
Key Highlights
- Dynamic story generation using large language models
- Real-time player behavior analysis and adaptation
- Modular architecture for rapid game development
- Social mechanics that influence narrative outcomes
Technologies
Impact & Vision
Enabling creators to build narrative games without traditional scripting, reducing development time by 80%
JNYANA
RESEARCH PHASELearning Platform for the AI Age
A platform for learning and teaching in the age of AI, focusing on adaptive education and personalized learning paths.
Timeline
2024 - Research
Key Highlights
- AI-powered personalized learning recommendations
- Adaptive curriculum based on learning patterns
- Peer-to-peer knowledge sharing mechanisms
- Real-time learning effectiveness measurement
Technologies
Impact & Vision
Exploring how AI can enhance rather than replace human-centered learning
Past Projects
BEHAVIORAL ANALYTICS DASHBOARD
SaaS Startup • 2023
Real-time user behavior tracking and analysis platform for product teams.
OUTCOME
Increased user engagement by 40% through data-driven UX improvements
CREATIVE AI ASSISTANT
Design Agency • 2023
AI-powered creative tool that generates design variations and suggests improvements.
OUTCOME
Reduced design iteration time by 60% while maintaining creative quality
SMART INVENTORY SYSTEM
E-commerce Platform • 2022
Predictive inventory management using machine learning and market trend analysis.
OUTCOME
Reduced inventory costs by 25% and improved stock availability by 35%
Research Areas
Beyond client work, we pursue research that advances our understanding of technology, behavior, and design.
Emergent Behavior in AI Systems
Studying how complex behaviors emerge from simple rules in AI-driven environments.
Human-AI Collaboration Patterns
Understanding how humans and AI can work together most effectively.
Gamification in Learning Systems
Exploring effective game mechanics for educational technology.
How We Choose Projects
We're drawn to projects that sit at the intersection of technical challenge and human impact. We prefer building the tools that others will use to build the future.
Technical Novelty
We seek projects that push us to learn new technologies, explore emerging paradigms, or solve problems in novel ways.
Human Centered
Technology for its own sake doesn't interest us. We build things that meaningfully improve how people work, learn, or connect.
Project Criteria
Learning Potential
Does this project teach us something new about technology or human behavior?
Impact Scope
Will this create value for users and advance the broader field?
Technical Interest
Are we excited to dig into the technical challenges involved?
Collaboration Quality
Do we share values and vision with our project partners?