Please use this identifier to cite or link to this item:
http://hdl.handle.net/11375/20277
Title: | Channel and Server Scheduling for Energy-Fair Mobile Computation Offloading |
Authors: | Moscardini, Jonathan A. |
Advisor: | Todd, Terence D. |
Department: | Electrical and Computer Engineering |
Keywords: | mobile cloud computing;energy;scheduling |
Publication Date: | 2016 |
Abstract: | This thesis investigates energy fairness in an environment where multiple mobile cloud computing users are attempting to utilize both a shared channel and a shared server to offload jobs to remote computation resources, a technique known as mobile computation offloading. This offloading is done in an effort to reduce energy consumption at the mobile device, which has been demonstrated to be highly effective in previous work. However, insufficient resources are available for all mobile devices to offload all generated jobs due to constraints at the shared channel and server. In addition to these constraints, certain mobile devices are at a disadvantage relative to others in their achievable offloading rate. Hence, the shared resources are not necessarily shared fairly, and an effort must be made to do so. A method for improving offloading fairness in terms of total energy is derived, in which the state of the queue of jobs waiting for offloading is evaluated in an online fashion, at each job arrival, in order to inform an offloading decision for that newest arrival; no prior state or future predictions are used to determine the optimal decision. This algorithm is evaluated by comparing it on several criteria to standard scheduling methods, as well as to an optimal offline (i.e., non-causal) schedule derived from the solution of a min-max energy integer linear program. Various results derived by simulation demonstrate the improvements in energy fairness achieved. |
URI: | http://hdl.handle.net/11375/20277 |
Appears in Collections: | Open Access Dissertations and Theses |
Files in This Item:
File | Description | Size | Format | |
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Moscardini_Jonathan_A_201608_MASc.pdf | Thesis | 518.2 kB | Adobe PDF | View/Open |
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