Once smartphones become truly common, so will the viruses that attack them
(麻豆淫院Org.com) -- Northeastern researchers say that it鈥檚 only a matter of time before computer viruses attack smartphones, like the Blackberry and iPhone, on a massive scale. But their study may also hold the key to blunting the effects of these attacks.
Northeastern University physicist and network scientist Albert-L谩szl贸 Barab谩si and his coauthors tracked the spreading potential of Bluetooth and multimedia messaging service (MMS) viruses. Writing in the latest issue of Science, they predict that these viruses will become a real threat to those smartphones that gain at least a 10 percent market share.
Currently, the user base for these handheld devices is small and fragmented, making a major virus outbreak impossible, said Barab谩si, Distinguished Professor of 麻豆淫院ics and director of the Center for Complex Network Research (CCNR) at Northeastern University.
鈥淥nce smartphones become more widely used and one of the operating systems increases its market share to a certain percentage,鈥 said Barab谩si, 鈥渢he users of that system will become susceptible to mobile viruses within a matter of minutes鈥濃攁n outbreak that could be worse than anything caused by traditional computer viruses.
However, understanding the basic spreading patterns of these viruses may enable researchers to devise ways to minimize their impact, said Pu Wang, PhD candidate at CCNR and lead author of the study.
The study鈥檚 findings 鈥渃ould help estimate the realistic risk carried by mobile viruses and aid the development of proper measures to avoid the costly impact of major outbreaks,鈥 said Wang.
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The authors assessed the spreading dynamics of mobile viruses by modeling the location, the mobility and the communication patterns of mobile phone users. In a simulated study, the team used anonymous billing records from a mobile phone provider and tracked the calling patterns and coordinates of the mobile phone tower closest to the user at the time of the call.
Bluetooth and MMS viruses differ in their spatial spreading patterns: The former infects predominantly users in the geographical vicinity of the virus鈥 originating point, making its spread relatively slow, while the latter is capable of spreading to everyone in the address book of the originating user within minutes.
Hybrid viruses鈥攃apable of simultaneously using both Bluetooth and MMS connections to spread鈥攁re also easy to contain at the moment because the operating system鈥檚 small market share forces them into the slow Bluetooth spreading mode.
In addition to Wang and Barab谩si, the study was coauthored by Marta C. Gonz谩lez of Northeastern University and C茅sar A. Hidalgo of the Center for International Development at Harvard University鈥檚 Kennedy School of Government.
Provided by Northeastern University ( : )