Successful IoT devices require rigorous testing — not just in the lab, but in the real world. For mission-critical IoT products, failure is not an option. Potential pitfalls that linger after deployment can be costly to fix.
Download the white paper ‘Smart Cows and Tips...
eSIM technology offers a wide range of benefits to manufacturers of connected devices in the logistics and transportation industry. As the industry faces unprecedented challenges, it's time to double down and lead the logistics sector to ever greater visibility and automation.
Read this whitepaper to...
As awareness of the transformative nature of 5G is increasing, the industry is slowly waking up to the enormous challenge of securing not only the networks but also all the things these networks connect and the vital data they carry. When it comes to the Internet...
Coexistence is key to ensuring stable and reliable functional performance of your IoT device and is the only way to accurately evaluate and maintain its performance.
To locate and identify interference that may adversely impact your device, review the four steps outlined in this guide.
Immersive technologies are removing barriers between physical and virtual environments. Our Advanced Manufacturing World Class Center helps clients to achieve superior performance by applying innovative technologies to manufacturing operations.
Explore how immersive technologies remove frontiers between real and virtual.
Factories of the future will be fully...
As Internet-of-Things (IoT) devices become more and more commonplace, the uses for such devices continues to expand. One of the key places they are appearing is as part of so-called “smart city” projects.
The benefits of smart city technologies are apparent, but the sheer size...
Coexistence is key to ensuring stable and reliable functional performance of your IoT device and is the only way to accurately evaluate and maintain its performance.
To locate and identify interference that may adversely impact your device, review the four steps outlined in this guide.
Once a successful proof-of-concept has been established, what’s next? The day after creating a proof-of-concept of your custom IC, you might ask “Now what do we do?” It is time to make your idea real and start developing a system prototype.
This white paper covers...
There is growing emphasis around the importance of building IoT systems that offer reliable connectivity, enterprise-grade security, and extended device lifecycle management. Investing in the right technology partners can help overcome many of the challenges developers and companies face when bringing IoT products and...
In the new age of Internet of Medical Things, battery life plays an increasingly important role in medical device design. Gaining insights into your device’s power consumption can inform your design decisions and help you maximize its life.
Read Keysight’s application note for key battery-drain...
In the world of IC design, the RTL flow prevails. But today’s competitive market for state-of-the-art image processing, high-bandwidth communication, and computer vision and neural computing solutions demand another level of abstraction. RTL design and verification does not allow companies in these markets to...
IoT devices may not work as designed when exposed to real world conditions. Build confidence in your IoT device design by simulating real-world RF environmental conditions during test and ensure reliable and robust IoT device performance.
IoT spans from consumer apps such as smart homes, connected cars and wearables, to industrial apps covering energy systems, agriculture, mining, transportation, healthcare and more. This complimentary poster maps the various wireless protocols being used and evaluated to build out the IoT infrastructure.
Managing the communication needs of IoT devices is a work in progress. There are a number of short-range and long-range wireless network protocols — Bluetooth, BLE, Zigbee and LoRaWAN, to name a few—that have their place but also have limitations, especially when it comes...
This white paper explains how Sequans’ Single-SKU technology works through a design technique that eliminates the need for surface acoustic wave (SAW) filters in the radio front-end architecture of an LTE system, thereby enabling a single hardware design to work in any LTE band...
Security issues around IoT edge devices are rarely mentioned in literature, however, the projected billions of IoT edge devices out in the wild makes for a vast attack surface. Should hardware designers be concerned about security for IoT edge devices? And, is it worth...
The news provides a stream of reports that factory workers will be replaced by robots due to the Industrial Internet of Things (IIoT).
But actually, IIoT is transforming the way companies and factories operate by automating actionable information starting with the supply chain, through the...
Accurate modeling of NB-IoT design is vital to understand the complex analog and digital components of the communication system and the overall device behavior.
Now you can explore RF transceiver, advanced modem and more modeling examples using a new simulation method in a combined multi-domain...
While Linux is becoming the preferred platform for embedded solutions, a key challenge for developers is to balance the pressures of shorter development sprints without compromising security. Learn how SUSE is positioned to provide the flexibility, tools, Linux expertise and support necessary to help...
The benefits for enterprises in deploying successful Internet of Things solutions are potentially huge: cost savings, new income streams, efficient business processes and happier customers.
However, when it comes to developing enterprise IoT solutions such as predictive maintenance, remote monitoring, fleet management or building management,...
Current IoT communication solutions on cellular systems require too much power and cost for many of IoT’s applications. Narrowband IoT (NB-IoT) offers lower cost and lower power consumption for a more efficient network, and operates in licensed spectrum.
To address our rapidly approaching, hyper-connected future and the unprecedented demand on current 4G wireless networks, researchers at the University of Bristol and Lund University set out to test the feasibility of massive MIMO as a viable technology for 5G networks.
This executive brief provides a toolkit to help map out how Internet of Things (IoT) technologies can offer advantages in business, what frameworks to use and which areas to evaluate. This toolkit will equip CIOs, CMOs and anyone considering investing in IoT with the...
The Internet of Things depends on three pillars, the silicon (in the device itself), the software (in the application that uses it) and the communication (providing the connectivity that allows it all to work). A look at the used cases across industry verticals reveals...
