The future of electric mobility isn’t just about battery range but about intelligent energy management. In electric vehicles, energy management is critical. Range fluctuates significantly based on driving conditions, speed, elevation change, and temperature.
Apart from this, India’s urban mobility landscape demands purpose-built and tech-driven solutions to address congestion, growing household incomes, and increased female participation in driving. In conversation with Free Press Journal, Saurabh Mehta, Co-founder and CTO, Vayve Mobility, on how the electric vehicle sector has changed with tech and artificial intelligence.
How Vayve is integrating Solar Power with EVs to enhance sustainability
Vayve Mobility has developed an innovative approach to integrating solar power with electric vehicles, creating a meaningful sustainability impact for urban commuters. The system delivers 10-12 km of daily range purely from solar energy, a significant contribution considering the average urban commute in Indian cities is approximately 35 km.
Technical Innovations Behind Solar Integration
Lightweight Design: Eva’s 550 kg kerb weight enhances overall efficiency, ensuring solar energy is optimally utilized.
Multi-Stage Buffer System: Addresses the voltage differential between solar panels and the vehicle’s powertrain.
Smart Energy Capture: Whenever the battery is not discharging, collected solar energy is stored and transferred efficiently for maximizing utilization.
What are the technical beakthroughs needed for EVs?
The technical aspects need to focus on AI-powered features and quick charging technologies. Here’s why and how:
Ultra-Fast Charging Technology: Advances in battery management and charging infrastructure will enable charging times as low as 5-10 minutes, bringing EV refuelling closer to conventional petrol stations.
AI-Driven Predictive Maintenance: A software-defined architecture consolidates management under a central computing platform with real-time diagnostics, automated troubleshooting, and predictive analytics to enhance reliability & optimize vehicle performance.
How AI-driven pedictive maintenance is making EVs more reliable?
Instead of using discrete hardware controllers, a software-defined architecture consolidates management under a central computing platform. Key benefits include:
Real-Time Diagnostics: Monitoring battery, motor, and sensors to detect faults.
Automated Troubleshooting: Notifying the driver, providing repair guidance, and optimizing performance.
Predictive Maintenance: Identifying potential issues before they escalate, improving reliability.
Why the Future of Mobility Includes Micro-EVs, Public Transport Integration, and Smart City Solutions
Tomorrow’s urban mobility will integrate micro-EVs, public transport, and smart city technologies for a seamless experience:
Micro-EVs for Last-Mile Connectivity: Right-sized solutions for short urban trips.
Public Transport Synergy: Unified payment systems and multimodal journey planning.
Smart City Tech for Traffic Management: AI-driven congestion reduction, dynamic parking solutions, and optimized road usage.
Why India Needs an EV Revolution Tailored to Its Infrastructure, Climate, and Consumer Habits
India’s unique context demands an EV revolution designed for its conditions:
Infrastructure Limitations: Grid instability and charging network gaps require a mix of home and public charging solutions.
Climate Challenges: Extreme temperatures impact battery performance and longevity, necessitating specialized thermal management systems.
Usage Patterns: Two-wheelers and compact cars dominate urban commutes, necessitating tailored solutions for short trips and frequent stops.
