---
res:
bibo_abstract:
- "This thesis considers the realization of distributed data structures and the
construction of distributed protocols for self-stabilizing overlay networks.\r\n\r\nIn
the first part of this thesis, we provide distributed protocols for queues, stacks
and priority queues that serve the insertion and deletion of elements within a
logarithmic amount of rounds.\r\nOur protocols respect semantic constraints such
as sequential consistency or serializability and the individual semantic constraints
given by the type (queue, stack, priority queue) of the data structure.\r\nWe
furthermore provide a protocol that handles joining and leaving nodes.\r\nAs an
important side product, we present a novel protocol solving the distributed $k$-selection
problem in a logarithmic amount of rounds, that is, to find the $k$-smallest elements
among a polynomial number of elements spread among $n$ nodes.\r\n\t\r\nThe second
part of this thesis is devoted to the construction of protocols for self-stabilizing
overlay networks, i.e., distributed protocols that transform an overlay network
from any initial (potentially illegitimate) state into a legitimate state in finite
time.\r\nWe present protocols for self-stabilizing generalized De Bruijn graphs,
self-stabilizing quadtrees and self-stabilizing supervised skip rings.\r\nEach
of those protocols comes with unique properties that makes it interesting for
certain distributed applications.\r\nGeneralized De Bruijn networks provide routing
within a constant amount of hops, thus serving the interest in networks that require
a low latency for requests.\r\nThe protocol for the quadtree guarantees monotonic
searchability as well as a geometric variant of monotonic searchability, making
it interesting for wireless networks or applications needed in the area of computational
geometry.\r\nThe supervised skip ring can be used to construct a self-stabilizing
publish-subscribe system.\r\n@eng"
bibo_authorlist:
- foaf_Person:
foaf_givenName: Michael
foaf_name: Feldmann, Michael
foaf_surname: Feldmann
foaf_workInfoHomepage: http://www.librecat.org/personId=23538
bibo_doi: 10.17619/UNIPB/1-1113
dct_date: 2021^xs_gYear
dct_language: eng
dct_title: Algorithms for Distributed Data Structures and Self-Stabilizing Overlay
Networks@
...