Machine Learning Solution Dramatically Expanding the Landscape of Edge AI
Advances in IoT have brought Internet connectivity to a plethora of devices. Moreover, the evolution of edge computing is now empowering edge devices with machine learning*1, expanding the AI landscape of AI from the cloud to the periphery. Read to learn about a breakthrough software solution that radically simplifies the implementation of machine learning on edge devices.
Edge AI and the evolution of edge devices
In the context of edge computing, an edge device simply refers to a device that operates at the edges of networks, collecting, processing, and analyzing data. Examples include smartphones, security cameras, smart speakers, and a variety of other devices. In recent years, with the rise of edge AI, these devices have evolved even smarter due to the machine learning functions.
Edge AI*2 is a collective term for technologies related to on-device collection, processing, and analysis of data for artificial intelligence purposes. Commonly, implementing AI requires vast amounts of data and computing power, which is why they are typically run on cloud-based servers. With edge AI, however, data is processed internally on the devices, reducing delays and costs related to data transmission, as well as improving privacy.
The coupling of edge devices with edge AI is broadening the realm of IoT (Internet of Things). Self-driving vehicles, factory automation, and medical device management are examples of edge devices already playing vital roles where real-time data processing and decision-making are required.
TinyML is pushing the envelope of IoT
Edge AI has traditionally been implemented on devices with robust processing power, such as smartphones and tablets. With the proliferation of IoT, however, interest is growing in a technology known as TinyML (Tiny Machine Learning)*3, which enables small devices with only modest capabilities to execute machine learning functions onboard.
Generally, machine learning is performed on high-performance computers or cloud servers, requiring large amounts of memory and fast processors, incurring commensurate electrical power consumption. This permits the execution of large-scale machine learning models based on vast datasets, resulting in highly accurate image recognition, natural language processing, and more. However, every step of the workflow—including data collection, model development, and validation—usually requires handling by seasoned engineers specialized in each area.
TinyML is a machine learning technology designed for small devices, enabling edge AI to be implemented even on microcontrollers (MCUs), which only possess limited processing muscle. This, in turn, is expected to engender smaller IoT devices with low power consumption. It is now possible to run machine learning inference on almost any device with a sensor and marginal computing power, endowing it with intelligence.
Qeexo’s solution dramatically facilitates machine learning on the edge
Qeexo, a Silicon Valley startup that joined the TDK Group in 2023, specializes in machine learning solutions for edge devices, with a particular focus on TinyML. Qeexo AutoML, is an end-to-end, “no-code” (i.e., not requiring code to be hand-written in a programming language) platform that empowers non-engineers to implement machine learning on lightweight edge devices. Working in an intuitive, web-based interface, users can easily perform all the steps necessary to build a machine learning system—beginning with collecting and pre-processing raw data, followed by training and refining recognition models, then finally creating and installing the finished package onto edge devices where the machine learning-based intelligence comes to life.
TDK is currently developing i3 Micro Module, an ultracompact sensor module with onboard edge AI designed to be used for predictive maintenance—the practice of foreseeing and preempting anomalies in machinery and equipment at factories and similar facilities. Sensors, including those for vibration, temperature, and barometric pressure, as well as edge AI and mesh networking capabilities, are all integrated into a compact package, allowing equipment conditions to be monitored without having to rely on manpower, thereby helping minimize downtime and improve productivity.
(Photo: Ultracompact sensor module i3 Micro Module)
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Director, Product Management
Qeexo
Michael A. Gamble, Director, Product Management for Qeexo, explained the significance of Qeexo AutoML. “Conventionally, machine learning for embedded devices is a lengthy, complex process requiring highly specialized engineering skills. Qeexo AutoML enables almost anyone—including those not technically inclined—to accomplish the same, using an end-to-end, streamlined web interface. Similar to the way digital design tools and audio workstation software opened up graphic arts and music production to just about anyone with a creative spark, AutoML levels the playing field for machine learning. Put simply, we think of Qeexo AutoML as ‘democratizing’ machine learning.”
Advances in edge device technologies have spurred the development of numerous IoT devices and microcontrollers featuring sophisticated machine learning capabilities. With the advent of tools like Qeexo AutoML, it is now possible to create complex machine learning models that run on edge devices in short order.
Letting edge AI process data collected from sensors in edge devices substantially expands the range of possible solutions. Gamble continued, “Pairing Qeexo’s machine learning solutions with TDK’s sensor devices will allow us to provide customers with integrated, one-stop solutions. We look forward to a synergistic partnership in developing and delivering smart edge solutions that leverage each other’s strengths.”
Today, edge devices are evolving into intelligent systems that learn by themselves, going well beyond merely gathering and transmitting data. Advanced manufacturing facilities, sometimes referred to as “smart” factories, will begin equipping almost every piece of machinery and equipment with edge devices. Edge devices are also becoming prevalent among consumers in the form of mobility products and smartphones. Propelled by tools like AutoML, TinyML and edge AI are expected to become increasingly familiar and commonplace. This will all have a significant positive impact on our daily lives, businesses, and industry as a whole.
For more information about Qeexo AutoML, please visit Tech Library.
Terminology
- Machine learning: A technology in which a computer automatically learns from data using specific algorithms and statistical models. It can extract patterns from large amounts of data and make predictions and decisions based on those results.
- Edge AI: A general term referring to the technologies related to running AI algorithms on devices operating at the ends (edges) of networks to collect, process, and analyze data.
- TinyML: A machine learning technology that enables execution even on embedded devices with modest processing power or small devices running on microcontrollers.