Mahadev Satyanarayanan , Carnegie Mellon University, Pittsburgh
Ramon Caceres , AT&T Labs , Florham Park
Nigel Davies , Lancaster University, Bailrigg
DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/MPRV.2009.64
Resource poverty is a fundamental constraint that severely limits the class of applications that can be run on mobile devices. We present a vision of mobile computing that breaks free of this fundamental constraint. In this vision, mobile users seamlessly utilize nearby computers to obtain the resource benefits of cloud computing without incurring WAN delays and jitter. Rather than relying on a distant "cloud," a mobile user instantiates a "cloudlet" on nearby infrastructure and uses it via a wireless LAN. Crisp interactive response for immersive applications that augment human cognition is then much easier to achieve because of the proximity of the cloudlet. We confirm that a critical aspect of this vision, namely rapid customization of cloudlet infrastructure, is achievable through dynamic VM synthesis.
C.2.8 Mobile Computing, D.4 Operating Systems, C.2.8 Mobile Computing, J.9 Mobile Applications, C.2.2.a Applications, C.2.4 Distributed Systems, C.2.8 Mobile Computing, C.3.h Ubiquitous computing, D Software/Software Engineering, D.0 General, na, na, B.4.3.h Wireless systems, C.2.4.a Client/server, C.2.4.d Network operating systems, C.2.8.b Architectures, C.2.8.d Mobile environments, C.5.3.c Portable devices, C.5.7 Wearable Computers, D.1.8 Distributed programming, I.2.7 Natural Language Processing, I.2.10 Vision and Scene Understanding
Mahadev Satyanarayanan, Ramon Caceres, Nigel Davies, "The Case for VM-based Cloudlets in Mobile Computing", IEEE Pervasive Computing, , no. 1, pp. , PrePrints PrePrints, doi:10.1109/MPRV.2009.64