Embedded E-cast

Developing an in-car architecture is perhaps the greatest technical risk for any company starting an Autonomous Car program. Selection of architecture is a long-term decision that must last for a decade or more and impacts performance, features and cost.

Coverage of how additive manufacturing processes work and what that means in terms of where the technology should or should not be applied. This will also overview how the technology has been used over the past 30 years, how it came into the limelight recently and why some may think the industry is waning.

The concept of over-the-air software (OTA) updates is relatively new to the Automotive and Embedded computing markets. As a consequence, there are concerns about the security, scalability, and reliability of OTA systems.

IoT applications are popping up in every industry. This IoT 1.

Offering world-class customer support and service in the IoT era requires a comprehensive and scalable analytics platform that is well-integrated with existing support workflows. With ThingWorx Analytics, companies can deliver enhanced customer support, resulting in reduction in mean-time to repair (MTTR), offer enhanced service including proactive support and predictive maintenance, and offer value-add services that directly benefit customers.

FPGAs have been a force multiplier for military signal processing applications that require modularity and flexibility. They excel in implementing the needed functions in hardware to create massively parallel signal processing units.

In this webinar, Texas Instruments industrial systems engineers will discuss functional safety standards and how they apply to Programmable Logic Controllers (PLCs) and IO controllers that are used in factory automation applications and other industrial machines. Benefits from different functional safety concepts and architectures will be shown, and we will demonstrate how Hercules(tm) MCUs help make complying with industrial functional safety standards easier.

Whether in peacetime or during major conflicts, today's militaries rely on sensor technology to achieve tactical superiority for radar, electronic warfare, sonar, and other intelligence, surveillance, and reconnaissance (ISR) sensors. Attaining that tactical edge with sensors means leveraging commercial signal processing technology for rugged military systems in open architecture designs.

A significant challenge facing the Internet of Things is the lack of compatibility between resource-constrained edge devices and larger backend cloud/server platforms, as the core technologies that comprise each are so disparate. Whereas the edge typically consists of small 32-bit microcontrollers and compact Real-Time Operating Systems (RTOS), the cloud is comprised mostly of limitless compute resources and full-blown Linux or Windows operating systems.

We've all seen the headlines: IoT security can't be an afterthought. We also know that good security starts with a root of trust.

When getting started with the Internet of Things (IoT) and IoT analytics, business and IT leaders must quickly gain competitive advantage while proving long-term business value. Finding the right starting point is a challenge, and in order to gain support to expand past a strategic experiment, it's imperative to show strong business value.

Today's software infused products are incredibly complex, but the challenge of connecting them to other products and back-end systems to deliver on the IoT value proposition can be overwhelming. Successful design depends on selecting the right architectures.

A growing number of advanced robotics applications require tight coordination of multiple systems and devices. Sensors, actuators, manipulators and mobile platforms all must communicate with each other to meet the demanding requirements of today's emerging robotics applications.

A PC is a PC, right. The answer is, it depends and not all Embedded PCs are created equal.

A PC is a PC, right. The answer is, it depends and not all Embedded PCs are created equal.