Choosing the Right IoT Fleet Management System: A Look at Torizon, Balena and Mender
The right solution can safeguard the management viability of your connected-device fleet.
Connecting tech leaders with insight to move the needle, and developers and designers with inspiration to build really cool touchscreen-driven stuff people will love.
The right solution can safeguard the management viability of your connected-device fleet.
Here are some helpful tips for installing and using the Device Client, based on instructions from AWS.
Your OTA platform and the cloud must coexist in a single ecosystem to manage the full cycle of IoT device fleets.
IoT devices can act as a “back door” to the network that hosts them, enabling a multitude of attacks.
Distributed IoT device requirements are crucial for the dispersed systems that support remote connectivity, data transfer, and firmware or software version update.
Understanding the consumer and the intended use case is essential for the success of IoT devices like smart appliances.
Well-managed IoT devices can help organizations streamline operations, optimize processes and better engage customers.
Fleet management makes it easy to continuously monitor and act upon your fielded devices.
Secure OTA software updates are essential to improving, maintaining and safeguarding your connected-device fleet.
The cybersecurity industry is stretched thin as the pace of attacks is relentless. Take steps now to safeguard your devices.
A look at how Flutter behaves when creating more than a web-like experience.
Secure your private network with subnets, firewalls, private endpoints, in-transit encryption, and logs.
Leverage major AWS services for two-step encryption.
Preparedness is key to mitigating lost revenue, business disruption, damage to reputation, data loss and downtime.
The right framework can mean the difference between achieving or falling short of your product goals.
Check out this reference to learn more about the capabilities of Qt for MCUs.
Explore four key areas around which you’ll have to make important decisions when developing with MCUs.
Check out this new offering combining the Raspberry Pi and microcontrollers.
Microcontrollers are everywhere, powering the IoT revolution. This blog is the first in a series on the tiny tech.
Embedded systems are increasingly using MCUs, even to drive a user interface. Knowing how to develop for these platforms is an in-demand skill.
Here's a look at a GPIO library available on Linux that has become more widely supported on platforms like the Raspberry Pi.
Explore key features, supported platforms, licensing and cost of FreeRTOS, a real-time operating system for microcontrollers and small microprocessors.
FreeRTOS is a real-time operating system kernel for embedded devices primarily targeted at microcontrollers.
Under a standard Linux-based system you can do soft real-time programming, such as reading buttons and driving LEDs.
The global market for wearable medical and health-related devices is expected to reach nearly $19.5 billion in 2021.
The market for wearable tech is booming and users are looking for devices both helpful and easy to use. UX designers must rise to the challenge.
New technologies and cutting-edge IoT products require substantial design effort — even for the simplest-appearing designs.
Super minimal design is the way of the future for IoT devices, hiding vast complexity behind the simplicity.