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Mobile Service Robots Built on Performance and Efficiency

mobile service robots

In the classic TV series The Jetsons, the title characters employ a robotic housekeeper called “Rosey” who also serves as an impromptu home security system and companion. While The Jetsons takes place in a future that’s still four decades from now, forward-thinking technologies like Rosey are already becoming a reality.

A great example is RoomieBot, a mobile service robot that uses AI at the edge, machine vision, and natural language processing (NLP) to autonomously navigate and interact with humans in healthcare, retail, and hospitality settings. And it’s not a stretch to imagine these robotic AIs puttering around as home assistants in the next few years.

The future of ubiquitous mobile service robots requires modular hardware building blocks that blend performance, efficiency, and advanced software support.

The Anatomy of Modern Mobile Service Robots

Determining the best way to deliver these features begins with understanding the current state-of-the-art technology—both its advantages and limitations.

RoomieBot is designed around Intel® RealSense cameras, Intel® Movidius VPUs, and Intel® NUC platforms. This hardware suite provides a great foundation for early-stage mobile service robots with the vision and compute functionality required for:

  • Simultaneous Localization and Mapping (SLAM) to navigate autonomously
  • Visual detection algorithms to recognize people and objects
  • NLP for the voice user interface
  • Functions that control embedded motors and actuators

But as organizations look to scale the production of these systems for mass market deployment, there are opportunities to upgrade the stack for improved performance per watt and streamlined integration.

Most notably, these can be achieved by adopting 12th generation Intel® Core processors, formerly known as “Alder Lake”.

The future of ubiquitous mobile service #robots requires modular #hardware building blocks that blend performance, efficiency, and advanced software support. @Advantech_USA via @insightdottech

High-Performance Processors Don’t Have to Break the (Power) Bank

These latest Intel Core processors deliver a significant performance improvement over 8th generation Intel NUCs.

The performance gains are the result of eight additional cores (12 total) on the new processors. But these aren’t just any cores. 12th gen Intel Core processors are the first to introduce a hybrid core architecture consisting of traditional Performance CPUs and a new class of Efficient cores. The Efficient cores are optimized for less computationally intensive workloads like system management and control tasks.

All that added horsepower comes at a minimal power tradeoff, as the Intel® Core i7-12700TE processor features a base TDP of just 35W compared to the 28W TDP of the 8th generation mobile processor examined previously. For mobile service robots, this facilitates the execution of sophisticated edge AI stacks without instantly draining onboard batteries.

Smarter Integration Out of the Box

The ability to seamlessly integrate 12th gen Intel Core processors into a variety of different mobile service robot architectures is another crucial consideration for mass production and deployment.

For example, the MIO-4370 from Advantech, a leader in embedded and automation solutions, supports 35W 12th gen Intel Core Desktop processors with up to 16 hybrid cores and 24 execution threads. Designed to the 4” EPIC size 165 x 115mm (4.53” x 6.5”), the small form factor single-board computer provides OEMs and system integrators a rugged edge intelligence module with all the I/O needed by modern mobile service robots, such as:

  • A variety of high-bandwidth I/O and serial ports that facilitate the integration of vision inputs, perception sensor suites, control signaling, programming, and debug
  • Support for 3x simultaneous interactive displays at up to 5K resolution
  • Networking and expansion that includes two 2.5 GbE interfaces with Time-Sensitive Networking (TSN) and Intel vPro® support
  • 3 M.2 expansion sockets including 2 M.2 2280 PCIe 4.0 and PCIe 5.0, supports use of high-speed NVMe storage along with video transcoding, capture, or xPU acceleration cards
  • Additional components like a smart fan, discrete TPM 2.0 for security, and audio subsystem for voice communication

Because IoT edge use cases like mobile service robots consist of so many disparate applications and functions, the Advantech SBC has been pre-certified to work with Canonical’s distribution of Ubuntu Linux that enables containerized application development. Each container comes with its own system image, so mobile service robot programs can be coded free of dependencies or worries about other system requirements. This reduces development time and complexity, but also potentially speeds compliance efforts since changes to each container can often be certified individually once the whole system is approved.

Integration is further simplified by tools like the Advantech iManager 3.0 that offers APIs for controlling I/O from the user OS. Advantech’s Edge AI Suite and WISE-DeviceOn goes even further, providing a user-friendly SDK based on the Intel® OpenVINO Toolkit that lets engineers optimize and deploy deep-learning models to targets like 12th Gen Intel Core processors.

Mobile Service Robots: Out of the Factory and into the Family

In all, platforms like the MIO-4370 are more than just intelligent robotic controllers. They are building blocks for advanced mobile service robots that are higher performance, lower power, faster to develop, and more cost-effective than ever before.

Put simply, these integrated solutions are a precursor to scaling advanced mobile service robots for mass production. And subsequently, a future where having your own Rosey isn’t just reserved for a select few.

Thanks to highly integrated development environments, that future is closer than you might think.

 

This article was edited by Georganne Benesch, Associate Editorial Director for insight.tech.

About the Author

Brandon is a long-time contributor to insight.tech going back to its days as Embedded Innovator, with more than a decade of high-tech journalism and media experience in previous roles as Editor-in-Chief of electronics engineering publication Embedded Computing Design, co-host of the Embedded Insiders podcast, and co-chair of live and virtual events such as Industrial IoT University at Sensors Expo and the IoT Device Security Conference. Brandon currently serves as marketing officer for electronic hardware standards organization, PICMG, where he helps evangelize the use of open standards-based technology. Brandon’s coverage focuses on artificial intelligence and machine learning, the Internet of Things, cybersecurity, embedded processors, edge computing, prototyping kits, and safety-critical systems, but extends to any topic of interest to the electronic design community. Drop him a line at techielew@gmail.com, DM him on Twitter @techielew, or connect with him on LinkedIn.

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