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We consider a general multi-user mobile cloud computing system with a computing access point (CAP), where each mobile user has multiple independent tasks that may be processed locally, at the CAP, or at a remote cloud server. The CAP serves both as the network access gateway and a computation service provider to the mobile users. We aim to jointly optimize the offloading decisions of all users' tasks...
We consider a multi-user mobile cloud computingsystem with a computing access point (CAP) where eachmobile user has multiple dependent tasks to be processedusing a round-by-round schedule. The CAP can either processthe received tasks from mobile users or offload them tothe cloud. In each round, we aim to jointly optimize theoffloading decisions of all users and the CAP, together withcommunication...
We consider a general multi-user mobile cloud computing system where each mobile user has multiple independent tasks. These mobile users share the communication resource while offloading tasks to the cloud. We aim to jointly optimize the offloading decisions of all users as well as the allocation of communication resource, to minimize the overall cost of energy, computation, and delay for all users...
We consider a mobile cloud computing scenario consisting of one user with multiple independent tasks, one computing access point (CAP), and one remote cloud server. The CAP can either process the received tasks from the mobile user or offload them to the cloud, providing additional computation capability over traditional mobile cloud computing systems. We aim to optimize the offloading decision of...
This paper describes the channelization method for the forward link of ultra mobile broadband (UMB) forward link. It is optimized for encoding/decoding processing time, diversity (especially for latency sensitive data), peak-to-average ratio, link budget (i.e., minimum rate at cell edge), access terminal memory requirements, scalability across various deployment bandwidths to achieve high throughput...
This paper describes the channelization method for the reverse link of ultra mobile broadband (UMB) communication systems. It is optimized for encoding/decoding processing time, diversity (especially for latency sensitive data), peak-to-average ratio, link budget (i.e., minimum rate at cell edge), access terminal memory requirements, scalability across various deployment bandwidths to achieve high...
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