Embedded E-cast
Summary: An E-cast is a live, single or multiple sponsor event used to educate engineers, programmers, and other industry professionals about a particular product, service, or technology. Each podcast consists of a 45-minute presentation and 15-minute interactive Q&A session. E-casts are moderated by a member of the OpenSystems Media editorial staff or a industry recognized guest moderator. Our E-casts are moderated to keep the event interesting, informative, and technically relevant.
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Podcasts:
In the final session, the analog control system will be converted into digital control system. Digital filtering algorithms will replace the analog compensation components, and the control considerations using digital signal processing chips.
In this training, attendees will be introduced to the new Educational BoosterPack MKII for the TI LaunchPad MCU development kits. This new BoosterPack is jam-packed with features, including a 3-axis accelerometer, TMP006 infrared temperature sensor, OPT3001 ambient light sensor, color LCD with backlight, 2-axis joystick, RGB LED, microphone, buzzer and more.
Join Kontron, the COM Express(r) market leader, and Intel as we explain how and why it makes sense to implement scalable solutions. Learn about the benefits of using Kontron's scalable product portfolio and how you can seamlessly deploy these solutions yourself.
The priorities in an IoT/M2M gateway include high performance and secure connections, with an eye toward future-proofing. ARM-based SoCs provide ample performance and connectivity options while minimizing the power budget and maximizing long-term production support.
Differentiation of embedded products now mostly occurs with the software of the device: frequency of updates, internet connectivity, autonomous behavior, data collection and data aggregation. Manufacturers of these devices, traditionally considered hardware vendors, are now thrust into the complex world of software and are struggling to cope.
The power grid is changing. With the proliferation of renewable generation technologies and drive to improve demand response, the grids current architecture must change to realize the promise of the Industrial Internet of Things.
Software differentiates you from your competitors. The speed of delivering that software is the difference between winning and losing in todays competitive telecom/datacom market.
NFC is a short-range wireless technology designed to bring ease and convenience to interactions between devices such as smartphones, headsets and car infotainment systems. With 100s of millions of smart devices now integrating NFC, use cases for this technology in automotive applications are also being sought.
Whether you have an existing embedded edge device or are starting the development cycle for a new embedded edge device, youll need to take into account several considerations for improving the security of the device. Join Wind River for this web seminar exploring the impact that anti-tamper software, software architecture, the boot process, attestation, and cryptography have on the security of an embedded edge device.
The basic technical premise of the Industrial Internet of Things (IIoT) is simple: a common architecture that can connect sensor to cloud, power to factory, and cities to medical services. An infrastructure that can bridge these domains would impact industry as profoundly as the enterprise Internet impacted business across verticals.
Hardware components are no longer available for many legacy systems running VxWorks 5. x.
With many automotive organizations transforming development efforts towards agile methodologies, the need to redefine and establish security, safety, and quality standards and testing methods is more important than ever. How do we fit safety and security planning and tools into the adaptive development and rapid delivery practices of agile teams? .
IoT platforms and applications are emerging and it's evident IoT is poised to change the way the world lives, learns, and works. With these new advancements come significant security concerns.
Radar, electronic warfare, unmanned aircraft, combat aircraft avionics, etc. all demand high-performance signal processing to meet capability requirements.
Today it is impossible to imagine modern production networks without IP-based industrial Ethernet LANs. It is also well known that IP networks are vulnerable to security attacks, and Industrial Control Systems (ICS) have a huge installed base of equipment that is decades old and has little to no security protection.