TY - JOUR
AB - This paper considers the problem of how to efficiently share a wireless medium which is subject to harsh external interference or even jamming. So far, this problem is understood only in simplistic single-hop or unit disk graph models. We in this paper initiate the study of MAC protocols for the SINR interference model (a.k.a. physical model). This paper makes two contributions. First, we introduce a new adversarial SINR model which captures a wide range of interference phenomena. Concretely, we consider a powerful, adaptive adversary which can jam nodes at arbitrary times and which is only limited by some energy budget. Our second contribution is a distributed MAC protocol called Sade which provably achieves a constant competitive throughput in this environment: we show that, with high probability, the protocol ensures that a constant fraction of the non-blocked time periods is used for successful transmissions.
AU - Ogierman, Adrian
AU - Richa, Andrea
AU - Scheideler, Christian
AU - Schmid, Stefan
AU - Zhang, Jin
ID - 3872
IS - 3
JF - Distributed Computing
SN - 0178-2770
TI - Sade: competitive MAC under adversarial SINR
VL - 31
ER -
TY - CONF
AB - Searching for other participants is one of the most important operations in a distributed system.We are interested in topologies in which it is possible to route a packet in a fixed number of hops until it arrives at its destination.Given a constant $d$, this paper introduces a new self-stabilizing protocol for the $q$-ary $d$-dimensional de Bruijn graph ($q = \sqrt[d]{n}$) that is able to route any search request in at most $d$ hops w.h.p., while significantly lowering the node degree compared to the clique: We require nodes to have a degree of $\mathcal O(\sqrt[d]{n})$, which is asymptotically optimal for a fixed diameter $d$.The protocol keeps the expected amount of edge redirections per node in $\mathcal O(\sqrt[d]{n})$, when the number of nodes in the system increases by factor $2^d$.The number of messages that are periodically sent out by nodes is constant.
AU - Feldmann, Michael
AU - Scheideler, Christian
ID - 125
SN - 978-3-319-69083-4
T2 - Proceedings of the 19th International Symposium on Stabilization, Safety, and Security of Distributed Systems (SSS)
TI - A Self-Stabilizing General De Bruijn Graph
VL - 10616
ER -
TY - JOUR
AU - Derakhshandeh, Zahra
AU - Gmyr, Robert
AU - W. Richa, Andrea
AU - Scheideler, Christian
AU - Strothmann, Thim Frederik
ID - 1814
JF - Theor. Comput. Sci.
TI - Universal coating for programmable matter
ER -
TY - CONF
AU - J. Daymude, Joshua
AU - Gmyr, Robert
AU - W. Richa, Andrea
AU - Scheideler, Christian
AU - Strothmann, Thim Frederik
ID - 1815
T2 - Algorithms for Sensor Systems - 13th International Symposium on Algorithms and Experiments for Wireless Sensor Networks, ALGOSENSORS 2017, Vienna, Austria, September 7-8, 2017, Revised Selected Papers
TI - Improved Leader Election for Self-organizing Programmable Matter
ER -
TY - JOUR
AU - Koutsopoulos, Andreas
AU - Scheideler, Christian
AU - Strothmann, Thim Frederik
ID - 1812
JF - Inf. Comput.
TI - Towards a universal approach for the finite departure problem in overlay networks
ER -
TY - CONF
AB - We present a self-stabilizing algorithm for overlay networks that, for an arbitrary metric given by a distance oracle, constructs the graph representing that metric. The graph representing a metric is the unique minimal undirected graph such that for any pair of nodes the length of a shortest path between the nodes corresponds to the distance between the nodes according to the metric. The algorithm works under both an asynchronous and a synchronous daemon. In the synchronous case, the algorithm stablizes in time O(n) and it is almost silent in that after stabilization a node sends and receives a constant number of messages per round.
AU - Gmyr, Robert
AU - LefĂ¨vre, Jonas
AU - Scheideler, Christian
ID - 155
T2 - Proceedings of the 18th International Symposium on Stabilization, Safety, and Security of Distributed Systems (SSS)
TI - Self-stabilizing Metric Graphs
ER -
TY - CONF
AU - Derakhshandeh, Zahra
AU - Gmyr, Robert
AU - W. Richa, Andrea
AU - Scheideler, Christian
AU - Strothmann, Thim Frederik
ID - 1837
T2 - Proceedings of the 28th ACM Symposium on Parallelism in Algorithms and Architectures, SPAA 2016, Asilomar State Beach/Pacific Grove, CA, USA, July 11-13, 2016
TI - Universal Shape Formation for Programmable Matter
ER -
TY - CHAP
AU - W. Richa, Andrea
AU - Scheideler, Christian
ID - 1845
T2 - Encyclopedia of Algorithms
TI - Jamming-Resistant MAC Protocols for Wireless Networks
ER -
TY - CONF
AB - We present three robust overlay networks: First, we present a network that organizes the nodes into an expander and is resistant to even massive adversarial churn. Second, we develop a network based on the hypercube that maintains connectivity under adversarial DoS-attacks. For the DoS-attacks we use the notion of a Omega(log log n)-late adversary which only has access to topological information that is at least Omega(log log n) rounds old. Finally, we develop a network that combines both churn- and DoS-resistance. The networks gain their robustness through constant network reconfiguration, i.e., the topology of the networks changes constantly. Our reconguration algorithms are based on node sampling primitives for expanders and hypercubes that allow each node to sample a logarithmic number of nodes uniformly at random in O(log log n) communication rounds. These primitives are specific to overlay networks and their optimal runtime represents an exponential improvement over known techniques. Our results have a wide range of applications, for example in the area of scalable and robust peer-to-peer systems.
AU - Drees, Maximilian
AU - Gmyr, Robert
AU - Scheideler, Christian
ID - 215
T2 - Proceedings of the 28th ACM Symposium on Parallelism in Algorithms and Architectures (SPAA)
TI - Churn- and DoS-resistant Overlay Networks Based on Network Reconfiguration
ER -
TY - JOUR
AU - Schmid, Stefan
AU - Avin, Chen
AU - Scheideler, Christian
AU - Borokhovich, Michael
AU - Haeupler, Bernhard
AU - Lotker, Zvi
ID - 1835
IS - 3
JF - IEEE/ACM Trans. Netw.
TI - SplayNet: Towards Locally Self-Adjusting Networks
ER -