There are 3 major competitors in the low power wireless space: Long Range Wide Area Networks (LoRaWAN), LTE CAT M, and Narrowband IoT ( NB-IoT ). Currently, many embedded vision applications are not
There are 3 major competitors in the low power wireless space: Long Range Wide Area Networks (LoRaWAN), LTE CAT M, and Narrowband IoT ( NB-IoT ). Currently, many embedded vision applications are not
Chip-to-cloud IoT looks like a promising way to build a more secure, useful, and decentralized technology for all. Chip-to-cloud architecture provides a way to create networks of secure, low-energy devices that have direct connectivity to IoT cloud platforms.
Solutions for eSIM technology are now using new eSIMs featuring management capabilities that can be remotely programmed for a wireless carrier’s profile, either in removable or embedded forms. This allows
LoRaWAN is a LoRa Alliance-developed Long Range Wide Area networking protocol that wirelessly connects “things” to the internet in regional, national, or global networks. It defines the network’s
Six IoT technologies are now classified as fairly mature or mainstream: CPUs, MCUs, GPUs, security chips, FPGA, and edge gateways. IoT Analytics, a leading global provider of market insights and strategic
Robotics, natural language processing, machine learning, computer vision, and more are all different techniques that deserve a great deal of attention all on their own. When artificial intelligence is paired with
Many future edge computing systems will give users full power over their data, without a monolithic corporation’s control—and they may even have a shared ledger between themselves, like a blockchain system, to synchronize
For the future of IoT, customers need to be in control of their data, and companies need to improve trust by addressing the public’s privacy and security concerns. However, customer demands are always changing: businesses and their engineers need to innovate while also establishing trust,
While value propositions are the benefits your customers can expect from your IoT product (and the money you can expect in return), the business model demonstrates how to bring that value to market. While there are obvious technical challenges, like scaling the solution, we’re focused on two
While increased device connectivity and security are important in unlocking value and innovation for global IoT deployments, the user, and the use case, must be the focus to deliver successful transformational projects. IoT devices
It is the same reason, conversely, that the private LTE market for industrial broadband-style IoT connectivity has jumped – because the LTE ecosystem for networks and devices is, after a decade, supremely well developed and
Thus, while many hardware vendors already provide hardware that adequately supports most IoT solutions, the quality, sophistication, usability, and scalability of vendors’ software and platform for both thin- and thick-edge
This article will discuss the differences between the Internet of Nano Things (IoNT) and the Internet of Things (IoT) and how Blockchain addresses the challenges of IoNT.
Question #1: Can you prove that your IoT platform offers at least 99.9% reliability for data queried out of your digital twin?
Question #3: Can you provide performance metrics proving your platform’s reliability during a worst-case IoT scenario, like a massive disconnect of IoT devices?