Y. Charlie Hu, CEO and co-founder of Mobile Enerlytics LLC, said smartphone batteries drain faster when users interact with the phone, including when they touch the screen to manipulate mobile applications. Smartphones usually are suspended when a user has not interacted with the phone over a certain amount of time, which means little energy is used.
"There are two ways to address the problem of smartphone batteries draining quickly: the first is to invent a better battery. Battery capacity, which is the amount of energy that can be packed into a fixed form factor, is reaching its limit," said Hu. "The other option is to make smartphone apps more energy efficient so they drain less of the battery. Mobile Enerlytics is developing software to make that happen."
Purdue researchers have developed the technology that could help mobile app developers analyze millions of lines of code to identify 'hotspots', or sections of code that drain most of the energy. The technology has been exclusively licensed to Mobile Enerlytics through the Purdue Office of Technology Commercialization. More than 20 startups based on Purdue intellectual property were launched in the 2014 fiscal year.
Hu, who also is a professor in Purdue's School of Electrical and Computer Engineering, first developed the technology in his lab at Purdue. One of Mobile Enerlytics' products is patent-pending software called Eprof, which helps developers pinpoint the energy hotspots in an app's source code. A demonstration is available at http://mobileenerlytics.com/eprof
"As mobile apps become more feature-rich, code easily reaches more than one million lines," explained Hu. "My colleagues and I have found that a single line of code can create an energy hotspot. Sometimes simply changing the data structure or moving around a single line of code drastically reduces the resulting energy drain."
Hu said Mobile Enerlytics already has launched Estar, a free, no-ads mobile app that shows smartphone users how fast different mobile apps in Google Play drain