2,629 research outputs found
Eine schonende Mehrheitsklausel für die Zuteilung von Ausschusssitzen
Eine schonende Mehrheitsklausel für die Zuteilung von Ausschusssitzen / Friedrich Pukelsheim ; Sebastian Maier. - In: Zeitschrift für Parlamentsfragen. 36. 2005. S. 763-77
"Emergency Department Bypass for ST-Segment-Elevation Myocardial Infarction Patients Identified With a Prehospital Electrocardiogram: A Report From the American Heart Association Mission: Lifeline Program"
Data underlying the article: Multistep synthesis of a valsartan precursor in continuous flow
Part of ONE-FLOW data collection.
Corresponding raw data for following publication:
"Multistep synthesis of a valsartan precursor in continuous flow", Katharina Hiebler, Sebastian Soritz, Kristian Gavric, Sam Birrer, Manuel C. Maier, Bianca Grabner, Heidrun Gruber-Woelfler, Journal of Flow Chemistry, https://doi.org/10.1007/s41981-019-00044-
Reinforcement Learning for Service Function Chain Reconfiguration in NFV-SDN Metro-Core Optical Networks
With the advent of 5G technology, we are witnessing the development of increasingly bandwidth-hungry network applications, such as enhanced mobile broadband, massive machine-type communications and ultra-reliable low-latency communications. Software Defined Networking (SDN), Network Function Virtualization (NFV) and Network Slicing (NS) are gaining momentum not only in research but also in IT industry representing the drivers of 5G. NS is an approach to network operations allowing the partition of a physical topology into multiple independent virtual networks, called network slices (or slices). Within a single slice, a set of Service Function Chains (SFCs) is defined and the network resources, e.g. bandwidth, can be provisioned dynamically on demand according to specific Quality of Service (QoS) and Service Level Agreement (SLA) requirements. Traditional schemes for network resources provisioning based on static policies may lead to poor resource utilization and suffer from scalability issues. In this article, we investigate the application of Reinforcement Learning (RL) for performing dynamic SFC resources allocation in NFV-SDN enabled metro-core optical networks. RL allows to build a self-learning system able to solve highly complex problems by employing RL agents to learn policies from an evolving network environment. In particular, we build an RL system able to optimize the resources allocation of SFCs in a multi-layer network (packet over flexi-grid optical layer). The RL agent decides if and when to reconfigure the SFCs, given state of the network and historical traffic traces. Numerical simulations show significant advantages of our RL-based optimization over rule-based optimization design
[Stammbuch Wolfgang Clemens Maier]
[STAMMBUCH WOLFGANG CLEMENS MAIER]
[Stammbuch Wolfgang Clemens Maier] ( - )
Cover ( - )
Beschreibung ([i]r)
Register über die hierinn befindliche Nahmen ([i]v)
Stetten, Eberhard von; Blatt 1,1 (1a)
Guldenstern, Georg von; Blatt 1,2 (1br)
Bocer, Heinrich; Blatt 6 (5v-6r)
Grüninger, Erasmus; Blatt 8 (7v-8r)
Hafenreffer, Matthias; Blatt 9 (8v-9r)
Weinrich, Georg; Blatt 10 (9v-10r)
Finck, Kaspar; Blatt 11 (10v-11r)
Schmuck, Vincentius; Blatt 12 (11v-12r)
Balduin, Friedrich; Blatt 13 (12v-13r)
Hirschbach, Wolfgang; Blatt 14 (13v-14r)
Mentzer, Balthasar; Blatt 15 (14v-15r)
Franz, Wolfgang; Blatt 16 (15v-16r)
Leyser, Polycarp; Blatt 17 (16v-17r)
Garth, Helwig; Blatt 18 (17v-18r)
Meisner, Balthasar; Blatt 19 (18v-19r)
Reusner, Bartholomäus; Blatt 20 (19v-20r)
Osiander, Lucas; Blatt 21 (20v-21r)
Beckmann, Lucas; Blatt 22 (21v-22r)
Lotter, Tobias; Blatt 23 (22v-23r)
Hunnius, Helfrich Ulrich; Blatt 24 (23v-24r)
Heilbrunner, Philipp; Blatt 25 (24v-25r)
Heilbrunner, Jakob; Blatt 26 (25v-26r)
Zeämann, Georg; Blatt 27 (26v-27r)
Hunnius, Nicolaus; Blatt 28 (27v-28r)
Dieterich, Conrad; Blatt 29 (28v-29r)
Forster, Valentin Wilhelm; Blatt 30 (29v-30r)
Harpprecht, Johann; Blatt 31 (30v-31r)
Sennert, Daniel; Blatt 32 (31v-32r)
Nicolai, Melchior; Blatt 33,2 (33v-34r)
Unruh, Erasmus; Blatt 34 (33v-34r)
Tandler, Tobias; Blatt 35 (34v-35r)
Schaller, Wolfgang; Blatt 36 (35v-36r)
Kleesattel, Johann Georg; Blatt 37 (36v-37r)
Thumm, Theodor; Blatt 38 (37v-38r)
Martini, Jakob; Blatt 39 (38v-39r)
Colbius, Jodocus; Blatt 40 (39v-40r)
Mayer, Wolfgang; Blatt 43 (42v-43r)
Lederer, Michael; Blatt 44 (43v-44r)
Magirus, David; Blatt 44,2 (44v-45r)
Hiemer, Johann Heinrich; Blatt 45 (44v-45r)
Untzer, Johann Wilhelm; Blatt 46 (45v-46r)
Wecker, Georg; Blatt 50 (49v-50r)
Hauber, Johann; Blatt 52 (51v-52r)
Mästlin, Michael; Blatt 53,2 (53v-54r)
Rhodius, Ambrosius; Blatt 54 (53v-54r)
Cellarius, Conrad; Blatt 54,2 (54v-55r)
Schmidt, Erasmus; Blatt 55 (54v-55r)
Fabricius, Lorenz; Blatt 56 (55v-56r)
Nieschel, Christoph; Blatt 57 (56v-57r)
Buchner, August; Blatt 58 (57v-58r)
Spiegel, Jeremias; Blatt 59 (58v-59r)
Hettenbach, Ernst; Blatt 61 (60v-61r)
Franckenberger, Reinhold; Blatt 62 (61v-62r)
Wechsler, Stephan; Blatt 63 (62v-63r)
Bloss, Sebastian; Blatt 68 (67v-68r)
Mögling, Johann Ludwig; Blatt 70 (69v-70r)
Heuchelin, Caspar; Blatt 72 (71v-72r)
Bayer, Andreas; Blatt 73 (72v-73r)
Blum, Michael; Blatt 79 (78v-79r)
Unbekannt; Blatt 80 (79v-80r)
Hugo, Nikolaus; Blatt 85 (84v-85r)
Schröder, Johann; Blatt 91 (90v-91r)
Göbel, Johann Conrad; Blatt 92 (91v-92r)
Münster, Ludwig; Blatt 93 (92v-93r)
Münster, Joachim; Blatt 94 (93v-94r)
Zückwolf, Johann; Blatt 99 (98v-99r)
Hammann, Johann Wolfgang; Blatt 100 (99v-100r)
Zuckwolf, Johann Jacob; Blatt 101 (100v-101r)
Nebelkrae, Heinrich; Blatt 110 (109v-110r)
Schäffer, Zacharias; Blatt 112 (111v-112r)
Lansius, Thomas; Blatt 114 (113v-114r)
Crantz, Johann; Blatt 119 (118v-119r)
Molitor, Elias; Blatt 120 (119v-120r)
Strobel, Johann; Blatt 121 (120v-121r)
Besold, Christoph; Blatt 126 (125v-126r)
Müller, Vitus; Blatt 129,2 (128v-129r)
Fabri, Johannes; Blatt 129,1 (128v-129r)
Müller, David; Blatt 131 (130v-131r)
Geilfus, Johann; Blatt 132 (131v-132r)
Schickard, Wilhelm; Blatt 133 (132v-133r)
Blum, Andreas; Blatt 134 (133v-134r)
Fabricius, Melchior; Blatt 135 (134v-135r)
Hieber, Lucas; Blatt 136 (135v-136r)
Sommer, Peter; Blatt 137 (136v-137r)
Herlitz, Andreas; Blatt 138 (137v-138r)
Weber, Christoph; Blatt 139 (138v-139r)
Thiden, Sebastian; Blatt 140 (139v-140r)
Morold, Alexius; Blatt 140,2 (140v-141r)
Morold, Christoph; Blatt 141 (140v-141r)
Klettenmeyer, Johann Paul; Blatt 142 (141v-142r)
Widmann, Melchior; Blatt 143 (142v-143r)
Figulus, Johann Jacob; Blatt 144 (143v-144r)
Stoltzenberger, Philipp; Blatt 145 (144v-145r)
Sauter, Paul; Blatt 145,2 (145v-146r)
Beckeler, David; Blatt 146,1 (145v-146r)
Beckeler, Johann; Blatt 146,2 (145v-146r)
Gugger, Jeremias; Blatt 146,3 (146v-147r)
Hoff, Johann Wilhelm; Blatt 147 (146v-147r)
Happach, Erhard; Blatt 148 (147v-148r)
Erasmius, Caspar; Blatt 150 (149v-150r)
Reusin, Johann; Blatt 151 (150v-151r)
Schweizer, Johann; Blatt 152 (151v-152r)
Wildersinn, Bernhard; Blatt 153 (153v-154r)
Lehenmair, Ulrich; Blatt 155 (154v-155r)
Röschingeder, Friedrich; Blatt 155,2 (155v-156r)
Lutz, Leonhard; Blatt 158 (157v-158r)
Wagigel, Johann; Blatt 159 (158v-159r)
Risius, Johann Heinrich; Blatt 160 (159v-160r)
Seyfried, Sigmund; Blatt 161 (160v-161r)
Birckhard, Felix; Blatt 161,2 (161v-162r)
Wibel, Johann Georg; Blatt 162 (161v-162r)
Hammann, Johann Albert; Blatt 162,2 (162v-163r)
Epp, Burckhard; Blatt 163 (162v-163r)
Hammann, Johann Wolfgang; Blatt 163,2 (163v-164r)
Hamberger, Georg Albert; Blatt 164 (163v-164r)
Storr, Basilius; Blatt 164,2 (164v-165r)
Gundelfinger, Johann Jacob; Blatt 165 (164v-165r)
Wiehl, Johann; Blatt 165,2 (165v-166r)
Bach, Georg; Blatt 166 (165v-166r)
Waldner, Elias; Blatt 167 (166v-167r)
Hartmann, Samuel; Blatt 168 (167v-168r)
Fleiner, Johann Conrad; Blatt 169 (168v-169r
Dynamic Virtual Network Function Placement over a Software-Defined Optical Network
We demonstrate how to dynamically place Virtual Network Functions over a software defined optical network integrating IT computing and real IP over WDM resources, thus allowing exchange of real traffic
Software Defined Wide Area Networking (SD-WAN)
A reliable Wide Area Network (WAN) has become a necessity for businesses
to transmit critical data across multiple branches and to increase their revenues. Many
solutions and dierent network structures have been proposed over years such as leased
lines, Frame Relay or Multi-Protocol Label Switching Virtual Private Networks (MPLS
VPN). Each solution is intended to be better than its predecessors in terms of reliabil-
ity and Quality of Service (QoS). Software-Dened Wide Area Networking (SD-WAN)
is an emerging paradigm that introduces the advantages of software dened networking
(SDN) into enterprise networking. SD-WAN can support dierentiated services over pub-
lic WAN by dynamically changing the
ow forwarding rules over an overlay network based
on monitoring data and service requirements. Thanks to these capabilities, it is possible to
overcome high cost of guaranteed QoS services such as MPLS. Most of the SD-WAN so-
lutions commercially available today are based on proprietary controllers and proprietary
Customer Provider Edge (CPE) devises. In this chapter, we present an implementation
of SD-WAN based on open source components such as OpenDaylight SDN controller and
Open Virtual Switch (OvS). This work targets the monitoring features of an SD-WAN
solution and explores active and passive monitoring approaches to understand their ad-
vantages and limitations. Our implementation provides an overlay WAN with controlled
performance in terms of delay and losses over low-cost Internet connectivity
- …
