Kaivan Karimi talks IoT and wearables at Designers of Things

Designers of Things — a two-day conference dedicated to the explosive and exciting potential of wearable tech, 3D printing and the Internet of Things — kicked off this morning with a session from Kaivan Karimi. During his presentation, the Atmel VP and GM of Wireless Solutions broke down the evolution of technologies necessary for wearable devices to succeed.

Undoubtedly, wearables have emerged as an extremely hot topic within the technology industry with big name enterprises and small startups alike working endlessly to develop the next high-profile device. Wearables, which are not only being integrated into smart fashion and allowing users to access technology hands-free, are now accelerating the self-quantification movement and paving the way for the upcoming always-on healthcare revolution. Using specific examples from the smartwatch and smart fashion realms, Karimi educated event attendees on the underlying hardware, software, sensing, connectivity, and security technologies needed to make wearables happen, and get them integrated into already existing broader networks.

Karimi began the session by making it clear that wearables are a subset of the IoT, which is the wider umbrella of connected things. When explaining the size of this umbrella, Karimi stated, “The Internet of Things is like sunlight, it covers everything.” He emphasized to attendees that the IoT will go on to impact all aspects of industry and commerce, therefore migrating to devices that collect data: “If you can’t track it, you can’t improve it”.

Despite the fact that it is a mere subset in today’s ever-evolving, constantly-connected world, Karimi stressed that the wearable tech space is not a single entity. “Wearables are not a single segment. There are different categories with different requirements,” he urged. High-end or local processing wearables include smartwatches that run standalone systems such as Android Wear, Tizen for the Gear line of devices and the upcoming Apple Watch. Mid-range wearables are more along the lines of smartphone accessories, which use thin client models and rely on applications on the smartphone. The third category, low-end or limited devices, usually boast no display or feature a limited user interface and act more as a sensor aggregator. This category includes devices such as Fitbit, Polar Loop and other fitness trackers.

“Wearables is one of the edge nodes of the IoT infrastructure,” Karimi continued as he put wearables in perspective of the IoT. Karimi then went on to share several reasons as to why wearables have experienced immediate adoption so far — seamless and ability to integrate into our lives; ease-of-use; inexpensiveness; health and fashion-focused; the potential to save lives; and, the quantified self movement. “The value created by IoT is not just dollars and cents but how we live our lives,” he added.

However, as more devices become connected particularly those adorned to bodies, security and privacy concerns will arise. According to Karimi, this can and will inhibit the growth of wearable tech and IoT as a whole; therefore, how we secure the devices will play an integral role in the development of IoT. “Security and privacy are major growth inhibitors of wearables,” explained Karimi.

Karimi then depicted a time in the relatively near future where hackers could open your doors, access your neighborhood’s streetlights, as well as take control of your toaster oven. Creating the necessary hierarchal gateways to protect access to connected devices and its data will be key in a connected tomorrow. “When it comes to security for the Internet of Things, stakes are much more severe,” he told the Designers of Things audience.

Major advancemetns in technologies like semiconductors are attributed to growth of wearable tech, Karimi revealed. Semiconductors are getting faster, cheaper, smaller and more powerful yet less power consuming, which make them well-suited for smaller devices that need to be on all-day. But one of wearables biggest allies will be contextual computing, which Karimi revealed “will be the driving force behind the next wave of technology.”

The use of big data, sensor fusion, personal history, GPS and social media will also enable computers to know who we are which in turn will let them better serve us. “The future of data analytics will see a shift from reporting to prediction,” Karimi said. “In the future, your devices will know you better than your spouse knows you or you even know yourself.”

Wearables aren’t limited to smartwatches and fitness trackers; in fact, Karimi teased the audience with new form factors coming down the chain. “New form factors are on the way. It’s like pills you take to authenticate yourself,” he noted.

Karimi went on to conclude with a discussion around wearables and IoT in the healthcare setting. “The future of healthcare with wearables is the always-on revolution,” he told attendees. “In order for IoT and wearables to work in healthcare, you have to link the databases.”

So what does the future have in store for wearables? According to Karimi, over the next four to five years, we can expect that wearables will:

• Be here for the long-haul
• Enable a variety of new services
• Allow medicine to become more personalized
• Revolutionize healthcare
• Focus on prevention vs. disease management

According to analysts at ABI Research, over the next five years businesses will integrate into their wellness plans more than 13 million wearable devices with embedded wireless connectivity. Wearable tech also ties into the rapidly evolving Internet of Things, which refers to a future world where all types of electronic devices link to each other via the Internet. Today, it’s estimated there are nearly 10 billion devices in the world connected to the Internet, a figure expected to triple to nearly 30 billion devices by 2020. The inherent versatility of Atmel’s microcontrollers and radio chips have made our silicon a favorite of Makers and engineers. As allude to in Kaivan Karimi’s presentation, Atmel is smack dab in the middle of the wearable revolution, with a comprehensive portfolio of versatile microcontrollers (MCUs) that power a wide range of platforms and devices.

Atmel | SMART MCUs are here!

Atmel Corporation, a global leader in microcontroller (MCU) and touch solutions, today announced the company has launched Atmel® | SMART™, the new brand of ARM®-based microcontrollers and has expanded its SMART portfolio with new SmartConnect SAM W23 modules, enabling Wi-Fi connectivity and the best of high performance and low power technology for Internet of Things (IoT) applications.

Atmel® | SMART™ ARM-based microcontrollers deliver the platform for intelligent, connected devices in the era of IoT, wireless and energy efficiency. These solutions include embedded processing and connectivity—as well as software and tools, designed to make development faster and more cost-effective to bring the best-in-class products to market. Atmel® | SMART™ MCUs combine powerful 32-bit ARM cores with industry-leading low-power technology and intelligent peripherals.

“Through the convergence of Atmel’s ultra-low power MCUs and Wi-Fi solutions, Atmel continues to benefit through the vast range of products developed such as SmartConnect,” said Reza Kazerounian, senior vice president and general manager, microcontroller business unit at Atmel. “Encompassing our unique combination of high performance, power efficiency and design flexibility, Atmel® | SMART™ is a true testament to Atmel’s commitment to innovation and is poised to deliver breakthrough technologies and key ingredients powering The Internet of Things.”

As part of the Atmel® | SMART™ product offering, the SAM W23 module offers the ideal solution for designers seeking to integrate Wi-Fi connectivity even with limited experience with IEEE802.11, RTOS, IP Stack or RF. These modules are based on Atmel’s industry leading ultra-low-power Wi-Fi SoC (System on Chip) combined with Atmel’s ARM® Cortex®M0+ based microcontroller technology. This turnkey system provides an integrated software solution with application and security protocols such as TLS, integrated network services (TCP/IP stack) and a standard Real Time Operating System (RTOS) which are all available through a simple serial host interface (SPI, UART) within Atmel Studio 6’s integrated development platform (IDP).

“With the increasing demand for extended battery life and greater connectivity, the SAM W23 eliminates the complexities associated with using traditional Wi-Fi solutions with an ease of use ideal for a vast range of industrial and consumer markets,” said Kaivan Karimi, vice president and general manager of the wireless microcontroller business unit at Atmel. “Whether you are a OEM, a developer or a maker, the SAM W23 paired with our broad portfolio of MCUs enables you to accelerate your development of IoT products, providing increased seamless connectivity with a whole new world of device use cases.”

Evaluation Kit

To help accelerate a designer’s development, the SAM W23, mounted on an XPRO wing, and compatible with any existing Atmel Xplained PRO evaluation board, is available now. The SmartConnect library is a turnkey Software Framework available in Atmel Studio that removes the need to understand the Wi-Fi stack, allowing designers to focus on adding functions.

Availability

The SAM W23 is available both as a fully certified module, as well as a reference design kit for OEMS to build modules based on the SAM W23 chipset. Developers can use the SAM W23 platform as a standalone system or as an add-on solution to enable Wi-Fi connectivity in an existing design.

Infographic: Visualizing the IoT

The Internet of Things (IoT) refers to a future world where all types of electronic devices link to each other via the Internet. In 2009, there were 2.5 billion connected devices; most of these were mobile phones, PCs and tablets. By 2020, there will be over 30 billion connected devices of far greater variety.

Recently, the folks at BestComputerScienceDegrees put together a comprehensive infographic depicting the rapidly growing IoT.

Source: BestComputerScienceDegrees.com

As Reza Kazerounian, Senior VP and GM of the Microcontroller Business Unit at Atmel notes, the IoT is a combination of multiple market segments, tens of thousands of OEMs and hundreds of thousands of products.

“It is seen by many as the next wave of dramatic market growth for semiconductors. If you look at the different estimates made by market analysts, the IoT market will be worth trillions of dollars to a variety of industries from the consumer to financial, industrial, white goods and other market segments,” he told EEWeb in February. 

“Companies that provide cloud-based services, service providers and semiconductor companies will also benefit from this market. The number of small or new companies that are showcasing connective devices has increased – there will be 50 billion connected devices by 2020. These nodes will have characteristics such as low-power embedded processing, a human-machine interface and connectivity.”

Reza also noted that Atmel views microcontrollers (MCUs) as an essential building block for every PC, consumer device, industrial machine, home connectivity device and automobile. To be sure, MCUs are playing an increasingly critical role in the lucrative space.

“As the semiconductor industry has transitioned from PCs to mobile, IoT will now rise to become the predominant market,” he explained. 

”This transition will favor ultra-low power and integration of microcontrollers, wireless connectivity, security, touch technologies and sensor management products. Atmel is uniquely positioned and fully committed to maintaining our leadership position in the microcontroller industry – and to do so requires winning in the IoT.”

Atmel’s Kaivan Karimi expressed similar sentiments during a recent a Tech on Tour (ToT) panel discussion in San Francisco’s SoMa neighborhood. More specifically, he focused on how rapidly the Internet of Things is evolving by integrating various connected capabilities in our daily lives that range from consumer and health to intelligent, autonomous Google cars.

“For the IoT to thrive, the industry must continue to consolidate standards across multiple connected segments. In addition, security and privacy can definitely make or break the IoT, at least from a mass market perspective,” he said. ”Of course there are always going to be people with evil intent. That isn’t the question. Rather, the challenge is how to best manage and protect the terabytes of valuable data generated by various IoT devices. I personally believe the need for comprehensive security and privacy policies are so pressing that it will prompt our legislators to take appropriate action.”

According to Karimi, future IoT models will likely see individuals opting in and out of specific data collection options, ranging from devices tasked with glucose monitoring to platforms like real time breathalyzers and wearables that measure physical responses to specific activities.

“In addition to wearables, cars are also going through a massive transformation, no less significant than the migration from analog to digital,” he added. “We are entering an age where drivers will not only step up their interaction with their vehicles, but cars will also start talking to each other to avoid fatalities, as well as monitor the weather in real time and even alert drivers to natural disasters such as tsunamis and flooded roads.”

Interested in learning more about Atmel and the IoT? You can check out our article archive on the subject here.