Researchers at Aalto University in Finland have designed a network proxy that claims to cut the power consumption of 3G smart phones up to 74 percent. The device enhances performance and reduces power usage by serving as a middleman for mobile devices to connect to the Internet and handling the majority of the data transfer for the smart phone.
Historically, the high energy requirements of mobile phones have slowed the adoption of mobile Internet services in developing countries.
"The new solution will be valuable in developing countries because it provides more effective Internet access to a much larger number of people. At the moment, only a small percent can access the Internet from a wired connection, but 90 percent of the African population lives in areas with mobile phone network coverage. Mobile phone usage is increasing rapidly, however the use of mobile Internet services is hindered by users not having access to the power grid to recharge their phones," explained Professor Jukka Manner from Aalto University.
The case study, which was published at the scientific conference Africomm 2011, conducted at Aalto University examined Internet usage in three East African countries: Tanzania, Uganda and Kenya. Researchers developed energy-saving solutions for smart phones that could be easily deployed across a mobile network and in particular in areas without reliable sources of electricity. In addition to the new, optimized proxy solution, the researchers found that the power consumption of smart phones could also be significantly reduced by mobile optimized websites, HTTP compression and more efficient use of data caching.
The research began in the Future Internet research program of TIVIT and funded by Tekes Ė the Finnish Funding Agency for Technology and Innovation. The work has been continued in the ECEWA project funded by Tekes, with partners from European Communications Engineering Ltd, Efore Plc, Ericsson, Aalto University and Tampere University of Technology.
This article originally appeared on EE Times Europe.