e-mobility

Smart e-bike IoT

Compact IoT solution that can make a bike smart

Solutions - findy IoT

What is Smart e-bike IoT?

Our Smart e-bike IoT solution is a comprehensive system that includes hardware, worldwide connectivity and an IoT platform. It is designed to provide users with an efficient and secure e-bike experience.

The hardware components of the system include GPS, an electrical lock, and a telemetric of the e-bike motor. This allows for tracking of the location of the e-bike, locking and unlocking of the bike, and monitoring of the bike’s performance.

The worldwide connectivity of the system ensures that it can be accessed from anywhere in the world. This allows users to monitor their e-bikes, check the status of their lock, and check the performance of their motor.

The IoT platform provides a comprehensive interface between the hardware components and the user. This allows for remote control of the e-bike, as well as access to analytics and insights on the bike’s performance.

Finally, the system also includes a mobile application integration over Bluetooth. This allows the users to access the system from their smartphones and to control their e-bike remotely. The app also provides an access to the analytics and insights available on the IoT platform.

Overall, our Smart e-bike IoT solution provides users with a secure and efficient e-bike experience. It is designed to be easy to use and to provide users with a comprehensive view of their e-bike’s performance.

Project Start date

Project Start date

2020

Project goal

Project goal

Key competitive advantage of e-bikes making them smart

Global service

Project volume

more than 2000 units

Our Partners

System technology

Bike sharing

Bike

Smart e-bike IoT

Hidden IoT

Smart e-bike IoT

Connection to battery, external lock and engine

GPS from satellites

Global service

GSM Network

findy IoT platform

findy IoT platform

Third party application

Products used

Custom hardware

Configuration

Depending on the bike state different reporting intervals and parameters are set.

Bike sharing

While the bike is being used in a ride the IoT reports all the parameters read from a communication between CAN and the bike motor.

Being stationary the reports are only in event of motion and the reported parameters are only locations and system status.

When the bike battery is taken out the IoT goes to Low Power and is used as security unit only.

Chosen solution benefits

  • Hidden installation of the IoT
  • Worldwide coverage of the solution
  • Integration of GPS, Telemetrics and Security
Smart e-bike IoT

System performance

- Bluetooth Low Energy IoT management
- LTE transmission when available
- Various devices state for optimal functionality, security and power management

Project benefits

Project benefits

- Increased safety
- Enhanced performance
- Improved connectivity
- Remote monitoring
- Predictive maintenance

Data received

Data received

– Internal battery level
– Network Bearer
– Radio Signal Strength
– Link Quality
– Serving Cell ID Mobile network code
– Mobile country code
– Signal SNR Cell LAC/TAC
– Temperature Value Min
– Temperature Value Max
– Temperature Value Barometer (Value Min Barometer/ Value Max Barometer)
– Value Humidity (Value Min Humidity/Value Max Humidity)
– Value Latitude
– Longitude Altitude
– Timestamp of location
– GPS Speed
– Accuracy of location
– Number of satellites fixed
– WiFi SSIDs (WiFi Signal WiFi Mac address)
– Lock State (LockIT Alarm LockIT)
– Error code Accelerometer X, Y, Z (Value Min Accelerometer/Value Max Accelerometer)
– Value Gyro X, Y Z (Value Gyro Min X,Y,Z/Value Gyro Max X, Y, Z)
– Value Magnetometer X, Y, Z
– Value Bike Battery Level
– CAN Error code
– CAN Remaining capacity (%)
– CAN Single trip distance (km)
– CAN Cadence
– CAN Torque sensor voltage
– CAN Remaining distance (km)
– CAN Speed (km/h)
– CAN Current (A)
– CAN Voltage (mV)
– CAN Temperature of controller
– CAN Temperature of motor
– CAN Set mode
– CAN Support level
– CAN Headlight state
– Security State Alarm Diagnose
– Trip Start/Stop
– Trip Average Speed
– Trip Average Moving Speed
– Trip Max Speed
– Trip Total Time
– Trip Moving Time
– Trip Elevation Gain
– Trip Elevation Loss
– Trip Elevation Max
– Trip Elevation Min
– Trip Torque Max
– Trip Torque Min
– Trip Torque Average
– Trip Cadence Max
– Trip Cadence Min
– Trip Cadance Average
– Trip Motor Assist level 0
– Trip Motor Assist level 1
– Trip Motor Assist level 2
– Trip Motor Assist level 3
– Trip Motor Assist level 4
– Trip Motor Assist level 5
– CAN Total Mileage
– Trip Data Status

Project Results

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