The following four security design patterns appear often in the Internet of Things (IoT) and usually result in less secure devices and less trustworthy IoT services. Designers should beware of these ...

Most of us have become accustomed to interacting with the ubiquitous technology ecosystem daily (if not hourly). From fitness trackers, smart vacuums, and semi-autonomous vehicles to the smart home ...

In my prior blog, Building the IoT: standards and hardware needs, I discussed how the “things,” device hardware and their interoperability, needed to evolve in order for the IoT to grow and reach its ...

Development kits for the internet of things have become a mainstay in the IoT developer’s toolkit, providing everything they need for accelerating their prototypes. This includes all of the hardware ...

The Internet of Things (IoT) is quickly becoming ubiquitous, whether in the home, on the factory floor, or say, at the doctor’s office (Fig. 1). For the system engineer, there are many approaches to ...

In 2015, there were 15.41 billion connected Internet of Things (IoT) devices around the world. By 2020, just two years from now, that number will nearly double to 30.73 billion. 1 Manufacturing, ...

Internet of Things (IoT) implementations typically utilize low-power wireless technologies like Bluetooth, Wi-Fi, and LoRa for connectivity, enabling wireless devices like sensors to remain in the ...

The fast growth of the Internet of Things (IoT) has changed how devices communicate, handle data, and provide value across sectors. Choosing between edge computing vs cloud computing is one of the ...

The Internet of Things has become a game-changer, especially at the industrial level. Industrial IoT analytics can allow executives to learn which aspects cause bottlenecks, quality control issues or ...