mSafety technical specifications

Remote monitoring platform with connected wearable device

mSafety technical specifications

Remote monitoring platform with connected wearable device

End-to-end encrypted cloud back-end

End-to-end encrypted cloud back-end

A platform for you to build on

Purpose-built wearable device

Purpose-built wearable device

For remote monitoring purposes

How does it work?

See how the wearable and cloud backend allow for simple and secure remote monitoring.

System description

The mSafety platform consists of two main components: a wearable and a cloud backend. 

The wearable is directly connected to the Internet without the need for pairing with a mobile phone. It features in-device sensors with algorithms to monitor activity, heart rate, sleep and stress, as well as a GPS for location tracking. In addition, it can be connected to external sensors via Bluetooth Low Energy or NFC. A built-in eSIM means the wearable remains continuously connected in all environments.

The back-end provides the fundamental structures needed for mSafety wearables to interact with the customer’s cloud back-end servers in a secure and scalable way. It enables easy on-boarding of wearables and updating of software. In practice, an end user wears the mSafety device, which receives health data from a connected customer sensor. Information is displayed on the device and sent, end-to-end encrypted, to the customer’s backend - through the mSafety cloud backend.

mSafety customers develop their own unique mHealth application to be embedded in the wearable, and connected to the backend solution.

  •  

    Simple set-up and installation

  • Authentication/authorisation

  • Secure wearable communication (MQTT/TLS)

  • Remote device configuration

  • Over-the-air software updates

  • Subscription management as a service

  •  

    The mSafety wearable device features ultra-low power consumption in a variety of modes thanks to an advanced LTE release 13 CAT-M1 chipset, and power-efficient multicore microcontroller. These features allow for a battery life of 7 days or more in a reference case.

     

Security
- End-to-end encryption
- Client certificate/private key provisioning
- Access authorisation to cloud APIs 
- Server & client are mutually authenticated, TLS1.2

Device management platform
- AWS IoT core, configured for high security
- Multi-tenant architecture
- Device onboarding
- Dashboard for subscription management
- Remote device configuration
- Over-the-air software updates for individuals, groups or whole fleets
- Insights on users’ health status, behaviour and the device
- Cloud API's for mSafety customers


CONNECTED WEARABLE DEVICE

- Size 53,2 x 45,0 x 12,75 mm
- Weight ca 30g
- Ready-to-use eSIM, global roaming profile
- Sensors - Accelerometer, GPS, Gyro, Heart Rate
- 160ppi Monochrome OLED with touch + 3 HW keys
- Water resistance IP68
- Vibrator and buzzer for notifications



 

Test tech spech picture

 

Connectivity

For a continuous and reliable connection, the device has a built-in eSIM that uses cellular connectivity technologies, LTE Cat-M1.

Data analysis

Customer dashboards provide insights into users’ health and behaviour, as well as the status of the device itself, and allow setting of parameters in the wearable, e.g. data upload frequency.

High level SDKs

Including APIs that support cellular & Bluetooth communication as well as user interface components, access to internal sensors and security.

Easy device onboarding

New devices are registered through the mSafety cloud API. Once powered up, the eSIM is activated and onboarding executed automatically.
Easy device onboarding

Bi-directional communication

Continuous bi-directional data allows for greater pro-activity, helping your customers improve their services and increase operational efficiency over time.
Bi-directional communication

LTE Cat-M1

LTE Cat-M1 provides cellular radio technology that is designed for use in cases requiring low-power IoT communication— such as in safety and eHealth wearables like the mSafety wearable.
For markets with NB-IoT coverage only, please contact mSafety's Technical Sales team for a detailed assessment.

For basic orientation, see the GSMA Mobile IoT Deployment Map. Please ask your local service provider for more accurate, up-to-date information on deployment in your area. And feel free to talk to us about developing a go-to-market plan. 

LTE Cat-M1

LTE Cat-M1 provides cellular radio technology that is designed for use in cases requiring low-power IoT communication— such as in safety and eHealth wearables like the mSafety wearable.
For markets with NB-IoT coverage only, please contact mSafety's Technical Sales team for a detailed assessment.

For basic orientation, see the GSMA Mobile IoT Deployment Map. Please ask your local service provider for more accurate, up-to-date information on deployment in your area. And feel free to talk to us about developing a go-to-market plan. 

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