In the ever-evolving world of bike-sharing, simply managing bike availability is no longer enough.

Electric-assist bicycles (E-bikes) introduce a new layer of complexity: battery management. In addition to standard station rebalancing, operators must now also consider the charge state of batteries, their location, and the rate at which they deplete.

Our system seamlessly addresses both aspects, incorporating both battery replacement ("Battery Swap") and intelligent relocation of e-bikes ("Intelligent E-bike Relocation") to charging stations.

 

A comprehensive approach to battery recharging optimization for sustainable shared electric mobility

 

Maximize vehicle utilization by ensuring an optimal charge level for each bike with "Battery Swap" feature

Reduce your operational costs by integrating bike recharging operations into regular rebalancing routes through "Intelligent E-bike Relocation" feature

 

Automate and optimize your battery recharging operations for improved service

 
 
 
 
  • Real-time charge level monitoring with "Battery Swap" feature: Our system enables you to optimize your decisions and operations through real-time tracking of each battery.

  • Smarter rebalancing with "Intelligent E-bike Relocation" feature: automates the movement of discharged electric bikes to charging stations, fully integrating with your regular rebalancing tours.

  • Optimal route calculation: for bike rebalancing, battery replacement, and movements to charging stations.

  • Advanced tour optimization: bike availability, distance reduction, technician productivity, and more.

  • Integrated management through the mobile app: Technicians have a mobile app to track their tasks and unlock batteries, streamlining the entire operational process.

 
 
 
 
 

Trusted by leading cities and organizations

Join a growing list of cities and organizations that have revolutionized their bike-sharing operations using Qucit Bike's Bike Charging module

 
 

Energy: A New Dimension of Sustainable Mobility

 

Since the late 2010s, the widespread adoption of electric-assist bikes in bike-sharing systems has skyrocketed turnover rates. This offers undeniable mobility benefits but has also introduced new operational and environmental challenges.

The battery, which is the main component enabling electric assist, is now at the heart of these challenges. From its design to manufacturing, from its revaluation to recycling, opportunities to minimize environmental impact are vast and complex, requiring deep thought and innovative solutions.


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