Optimal Gathering Algorithms in Multi-Hop Radio Tree-Networks with Interferences

We study the problem of gathering information from the nodes of a multi-hop radio network into a pre-defined destination node under the interference constraints. In such a network, a message can only be properly received if there is no interference from another message being simultaneously transmitted. The network is modeled as a graph, where the vertices represent the nodes and the edges, the possible communications. The interference constraint is modeled by a fixed integer d I ? 1, which implies that nodes within distance d I in the graph from one sender cannot receive messages from another node. In this paper, we suppose that it takes one unit of time (slot) to transmit a unit-length message. A step (or round) consists of a set of non interfering (compatible) calls and uses one slot. We present optimal algorithms that give minimum number of steps (delay) for the gathering problem with buffering possibility, when the network is a tree, the root is the destination and d I = 1. In fact we study the equivalent personalized broadcasting problem instead.

[1]  Jean-Claude Bermond,et al.  Gathering with Minimum Delay in Tree Sensor Networks , 2008, SIROCCO.

[2]  Andrzej Pelc,et al.  Dissemination of Information in Communication Networks - Broadcasting, Gossiping, Leader Election, and Fault-Tolerance , 2005, Texts in Theoretical Computer Science. An EATCS Series.

[3]  Stéphane Pérennes,et al.  Hardness and approximation of gathering in static radio networks , 2006, Fourth Annual IEEE International Conference on Pervasive Computing and Communications Workshops (PERCOMW'06).

[4]  Massimo Franceschetti,et al.  Lower bounds on data collection time in sensory networks , 2004, IEEE Journal on Selected Areas in Communications.

[5]  Rastislav Královič,et al.  Mathematical Foundations of Computer Science 2006, 31st International Symposium, MFCS 2006, Stará Lesná, Slovakia, August 28-September 1, 2006, Proceedings , 2006, MFCS.

[6]  Jean-Claude Bermond,et al.  Fast Gossiping by Short Messages , 1995, ICALP.

[7]  Igor Potapov,et al.  Gossiping with Unit Messages in Known Radio Networks , 2002, IFIP TCS.

[8]  J. Bermond,et al.  Efficient Gathering in Radio Grids with Interference † , 2005 .

[9]  Andrzej Lingas,et al.  Gossiping with Bounded Size Messages in ad hoc Radio Networks , 2002, ICALP.

[10]  Herbert S. Wilf,et al.  Algorithms and Complexity , 2010, Lecture Notes in Computer Science.

[11]  Jean-Claude Bermond,et al.  Optimal gathering protocols on paths under interference constraints , 2009, Discret. Math..

[12]  Robin Milner,et al.  On Observing Nondeterminism and Concurrency , 1980, ICALP.

[13]  Wojciech Rytter,et al.  Fast broadcasting and gossiping in radio networks , 2002, J. Algorithms.

[14]  Stéphane Pérennes,et al.  On the complexity of bandwidth allocation in radio networks , 2008, Theor. Comput. Sci..

[15]  Lars Arge,et al.  Algorithm Theory - SWAT 2006, 10th ScandinavianWorkshop on Algorithm Theory, Riga, Latvia, July 6-8, 2006, Proceedings , 2006, SWAT.

[16]  Guy Kortsarz,et al.  Logarithmic inapproximability of the radio broadcast problem , 2004, J. Algorithms.

[17]  Luisa Gargano,et al.  Optimally Fast Data Gathering in Sensor Networks , 2006, MFCS.

[18]  Yishay Mansour,et al.  Centralized broadcast in multihop radio networks , 2003, J. Algorithms.

[19]  Jean-Claude Bermond,et al.  Gathering Algorithms on Paths Under Interference Constraints , 2006, CIAC.