Abstract
In this paper, we study local and global broadcast in the dual graph model, which describes communication in a radio network with both reliable and unreliable links. Existing work proved that efficient solutions to these problems are impossible in the dual graph model under standard assumptions. In real networks, however, simple back-off strategies tend to perform well for solving these basic communication tasks. We address this apparent paradox by introducing a new set of constraints to the dual graph model that better generalize the slow/fast fading behavior common in real networks. We prove that in the context of these new constraints, simple back-off strategies now provide efficient solutions to local and global broadcast in the dual graph model. We also precisely characterize how this efficiency degrades as the new constraints are reduced down to non-existent, and prove new lower bounds that establish this degradation as near optimal for a large class of natural algorithms. We conclude with an analysis of a more general model where we propose an enhanced back-off algorithm. These results provide theoretical foundations for the practical observation that simple back-off algorithms tend to work well even amid the complicated link dynamics of real radio networks.
Highlights
In this paper, we study upper and lower bounds for efficient broadcast in the dual graph radio network model [4, 11, 12, 3, 6, 5, 8, 7, 14, 9], a dynamic network model that describes wireless communication over both reliable and unreliable links
We focus our attention on the adversary entity that decides which unreliable links to include in the network topology in each round of an execution in the dual graph model
We study both local and global broadcast
Summary
We study upper and lower bounds for efficient broadcast in the dual graph radio network model [4, 11, 12, 3, 6, 5, 8, 7, 14, 9], a dynamic network model that describes wireless communication over both reliable and unreliable links. In real radio networks which suffer from the type of link dynamics abstracted by the dual graph model, simple back-off strategies tend to perform quite well. These dueling realities seem to imply a dispiriting gap between theory and practice: basic communication tasks that are solved in real networks are impossible when studied in abstract models of these networks
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