TY - CONF AB - Resolving distributed attacks benefits from collaboration between networks. We present three approaches for the same multi-domain defensive action that can be applied in such an alliance: 1) Counteract Everywhere, 2) Minimize Countermeasures, and 3) Minimize Propagation. First, we provide a formula to compute efficiency of a defense; then we use this formula to compute the efficiency of the approaches under various circumstances. Finally, we discuss how task execution order and timing influence defense efficiency. Our results show that the Minimize Propagation approach is the most efficient method when defending against the chosen attack. AU - Koning, Ralph AU - Polevoy, Gleb AU - Meijer, Lydia AU - de Laat, Cees AU - Grosso, Paola ID - 17667 KW - computer network security KW - multinetwork environments KW - multidomain defensive action KW - task execution order KW - timing influence defense efficiency KW - distributed attacks KW - collaborative security defence approach KW - minimize propagation approach KW - minimize countermeasure approach KW - counteract everywhere approach KW - Conferences KW - Cloud computing KW - Computer crime KW - Edge computing KW - Security KW - Defense Approaches KW - Multi-Domain Defense KW - Collaborative Defense KW - Defense Algorithms KW - Computer Networks SN - null T2 - 2019 6th IEEE International Conference on Cyber Security and Cloud Computing (CSCloud)/ 2019 5th IEEE International Conference on Edge Computing and Scalable Cloud (EdgeCom) TI - Approaches for Collaborative Security Defences in Multi Network Environments ER - TY - THES AU - Malatyali, Manuel ID - 18975 TI - Big Data: Sublinear Algorithms for Distributed Data Streams ER - TY - THES AB - This thesis investigates approximate pure Nash equilibria in different game-theoretic models. In such an outcome, no player can improve her objective by more than a given factor through a deviation to another strategy. In the first part, we investigate two variants of Congestion Games in which the existence of pure Nash equilibria is guaranteed through a potential function argument. However, the computation of such equilibria might be hard. We construct and analyze approximation algorithms that enable the computation of states with low approximation factors in polynomial time. To show their guarantees we use sub games among players, bound the potential function values of arbitrary states and exploit a connection between Shapley and proportional cost shares. Furthermore, we apply and analyze sampling techniques for the computation of approximate Shapley values in different settings. In the second part, we concentrate on the existence of approximate pure Nash equilibria in games in which no pure Nash equilibria exist in general. In the model of Coevolving Opinion Formation Games, we bound the approximation guarantees for natural states nearly independent of the specific definition of the players' neighborhoods by applying a concept of virtual costs. For the special case of only one influential neighbor, we even show lower approximation factors for a natural strategy. Then, we investigate a two-sided Facility Location Game among facilities and clients on a line with an objective function consisting of distance and load. We show tight bounds on the approximation factor for settings with three facilities and infinitely many clients. For the general scenario with an arbitrary number of facilities, we bound the approximation factor for two promising candidates, namely facilities that are uniformly distributed and which are paired. AU - Feldotto, Matthias ID - 8080 TI - Approximate Pure Nash Equilibria in Congestion, Opinion Formation and Facility Location Games ER - TY - CONF AU - Jansen, Klaus AU - Maack, Marten AU - Mäcker, Alexander ID - 8866 T2 - Proceedings of the 33rd IEEE International Parallel and Distributed Processing Symposium (IPDPS) TI - Scheduling on (Un-)Related Machines with Setup Times ER - TY - CONF AB - We characterise the set of dominant strategy incentive compatible (DSIC), strongly budget balanced (SBB), and ex-post individually rational (IR) mechanisms for the multi-unit bilateral trade setting. In such a setting there is a single buyer and a single seller who holds a finite number k of identical items. The mechanism has to decide how many units of the item are transferred from the seller to the buyer and how much money is transferred from the buyer to the seller. We consider two classes of valuation functions for the buyer and seller: Valuations that are increasing in the number of units in possession, and the more specific class of valuations that are increasing and submodular. Furthermore, we present some approximation results about the performance of certain such mechanisms, in terms of social welfare: For increasing submodular valuation functions, we show the existence of a deterministic 2-approximation mechanism and a randomised e/(1-e) approximation mechanism, matching the best known bounds for the single-item setting. AU - Lazos, Philip AU - Goldberg, Paul AU - Skopalik, Alexander AU - Gerstgrasser, Matthias AU - de Keijzer, Bart ID - 5471 T2 - Proceedings of the Thirty-Third AAAI Conference on Artificial Intelligence (AAAI) TI - Multi-unit Bilateral Trade ER - TY - CONF AU - Feldkord, Björn AU - Knollmann, Till AU - Malatyali, Manuel AU - Meyer auf der Heide, Friedhelm ID - 12870 T2 - Proceedings of the 17th Workshop on Approximation and Online Algorithms (WAOA) TI - Managing Multiple Mobile Resources ER - TY - THES AU - Mäcker, Alexander ID - 14851 TI - On Scheduling with Setup Times ER - TY - GEN AB - We present a technique for rendering highly complex 3D scenes in real-time by generating uniformly distributed points on the scene's visible surfaces. The technique is applicable to a wide range of scene types, like scenes directly based on complex and detailed CAD data consisting of billions of polygons (in contrast to scenes handcrafted solely for visualization). This allows to visualize such scenes smoothly even in VR on a HMD with good image quality, while maintaining the necessary frame-rates. In contrast to other point based rendering methods, we place points in an approximated blue noise distribution only on visible surfaces and store them in a highly GPU efficient data structure, allowing to progressively refine the number of rendered points to maximize the image quality for a given target frame rate. Our evaluation shows that scenes consisting of a high amount of polygons can be rendered with interactive frame rates with good visual quality on standard hardware. AU - Brandt, Sascha AU - Jähn, Claudius AU - Fischer, Matthias AU - Meyer auf der Heide, Friedhelm ID - 16341 T2 - arXiv:1904.08225 TI - Rendering of Complex Heterogenous Scenes using Progressive Blue Surfels ER - TY - JOUR AU - Feldkord, Björn AU - Meyer auf der Heide, Friedhelm ID - 13873 IS - 3 JF - ACM Transactions on Parallel Computing (TOPC) TI - The Mobile Server Problem VL - 6 ER - TY - JOUR AU - Meyer auf der Heide, Friedhelm ID - 13937 IS - 2 JF - Mathematische Semesterberichte TI - Paul Curzon, Peter W. McOwan: Computational Thinking; Die Welt des algorithmischen Denkens – in Spielen, Zaubertricks und Rätseln VL - 66 ER -