Drawing inspiration from its Play Store, Google will create a hardware store in which users can buy and sell Lego-like hardware modules for the customizable Project Ara smartphone.
Project Ara is Google’s upcoming build-your-own smartphone that allows users to mix and match features. The $50 configurable smartphone will come with a basic frame, and users can add or remove features by simply snapping on or taking off modular parts.
For example, users will be able to individually swap out screens, cameras, antennas and CPUs, which could be a cheaper way to replace parts than buying new smartphones. Google is pursuing biometric modules, and independent hardware makers have mulled creating temperature, input, gaming, antenna and medical sensors. Modules can be designed with Google’s Module Developers Kit (MDK), which contains reference designs, specifications and guidelines.
“Anybody can create a module per the specifications of the developer’s kit and put it in the Ara module marketplace, which is analogous to the Google Play Store, and sell directly to consumers,” said Paul Eremenko, head of Project Ara at Google’s ATAP (Advanced Technology and Projects) division, during a question and answer session at Purdue University earlier this month.
Rankings and ratings
Buyers will be able to see the most popular modules based on reviews and user ratings, much like with apps in the Google Play store, Eremenko said.
A market pilot for Project Ara will begin in 2015, during which Google will try to understand usage and iron out kinks. Google has developed three Project Ara smartphone prototypes with different screen sizes, and Eremenko indicated it could be a while until final products ship worldwide.
“There’s a lot more that we need to do in terms of retiring technical risks on the project. We have probably two more …prototypes to make. And during the market pilot we have a lot to learn about how people interact with this device,” Eremenko said.
Modular phones are not a new concept. Israeli company Modu in 2010 announced Brewphone, to which keyboard, speaker and camera modules could be attached. ZTE is developing a customizable smartphone called Eco-Mobius, which has not yet been released.
The viability of Project Ara has been heavily debated, but Eremenko believed consumers will appreciate its flexibility.
“If we can span price points that range from a feature phone crossover price point all the way to an aspirational, very high-end device that may be able to do…portable medical diagnostics, that could potentially help us on the way of delivering the mobile Internet to the next five billion people who are not smartphone enabled,” Eremenko said.
Success defined by flexibility
The success of Project Ara could ultimately lie on its functionality, which will be defined by the swappable modules. Eremenko wants to make module development easy, and his team is working on new design tools to make hardware design as simple as writing mobile apps.
“Today it takes maybe 12, 18, 24 months to make a new smartphone and bring it to market and we’re hoping to get that down to a couple of months,” Eremenko said.
Google is encouraging developers to come up new module ideas, and is also working on some of its own. The company is chasing the idea of “adaptive commerce experiences” in which health sensors can track monitor human biometric signals.
“That includes galvanic skin response, sweat levels, your pupil dilation, gaze direction, and a variety of things that we can pick up non-invasively about you as you’re interacting with the e-commerce system. If you’re stressed or impatient or bored with the experience, we could present a differently curated experience,” Eremenko said.
During the talk, Eremenko also floated the idea of secure modules with private user information, which can be swapped depending on who’s using the smartphone.
Google and Linaro are developing a custom version of Android for Project Ara. Work is underway around plug-and-play recognition so modules are identified immediately without restarting the smartphone. Much like USB attachments, modules will be recognized based on different driver “classes,” such as those for storage, input, networking, imaging and others. Some modules not recognized, like high-end cameras, will be placed in isolated zones so as not to compromise the smartphone.
The modules are electropermanent magnets that can turn on and off but use no power in either state. Instead of connectors, the modules use inductive coupling for data transfers.
To make module development cheaper, Google ATAP is also partnering with companies like Flextronics and Quanta so developers can inexpensively turn designs into actual hardware.