Apl. Prof. Dr. Mathias Pacher

Anschrift:Robert-Mayer-Str. 11-15, 60325 Frankfurt am Main
Raum:206
Telefon:+49 69 798 - 28246
E-Mail:mpacher [AT] uni-frankfurt.de

Publikationen

Information retrieved from dblp computer science bibliography. Last update: 2021-04-06T08:48:29.351Z
2020
TitelAutor(en)Quelle
Evaluation of the dependability of an artificial DNA in a dynamic automotive environment. Mathias Pacher, Uwe Brinkschulte J. Syst. Archit. Volume 107
Complexity Analysis of Task Dependencies in an Artificial Hormone System. Eric Hutter, Mathias Pacher, Uwe Brinkschulte GI-Jahrestagung 2020
Evaluation and Complexity Analysis of Task Dependencies in an Artificial Hormone System. Eric Hutter, Mathias Pacher, Uwe Brinkschulte ISORC 2020
On the Hardness of Problems Involving Negator Relationships in an Artificial Hormone System. Eric Hutter, Mathias Pacher, Uwe Brinkschulte CoRR Volume abs/2006.08958
2019
TitelAutor(en)Quelle
Towards an Artificial DNA for the Use in Dynamic Environments. Mathias Pacher, Uwe Brinkschulte ISORC 2019
Online-Diagnosis with Organic Computing based on Artificial DNA. Uwe Brinkschulte, Roman Obermaisser, Simon Meckel, Mathias Pacher SA 2019
2016
TitelAutor(en)Quelle
Two-level extensions of an artificial hormone system. Mathias Pacher Concurr. Comput. Pract. Exp. Volume 28
Development and Evaluation of Hierarchical Artificial Hormone Systems. Mathias Pacher, Andreas Lund, Uwe Brinkschulte ISORC 2016
2014
TitelAutor(en)Quelle
Using a Machine Learning Algorithm to Control an Artificial Hormone System. Mathias Pacher ISORC 2014
A Simulator to Validate the Concept of Artificial DNA for Self-Building Embedded Systems. Uwe Brinkschulte, Mathias Pacher, Benjamin Betting SASO Workshops 2014
2013
TitelAutor(en)Quelle
Solving Distributed Dynamic Optimization Problems in Self-optimizing Systems by Approximating the Interaction between Agents. Sebastian Niemann, Christian Müller-Schloer, Mathias Pacher ARCS Workshops 2013
Evaluation and superiority analysis of a decentralized task control mechanism for dependable real-time SoC architectures. Benjamin Betting, Uwe Brinkschulte, Mathias Pacher ISORC 2013
A Formal Specification of the Hormone Loop of an Artificial Hormone System. Mathias Pacher, Uwe Brinkschulte ESOS 2013
2013 Workshop on Embedded Self-Organizing Systems, ESOS'13, San Jose, CA, USA, June 25, 2013 Uwe Brinkschulte, Christian Müller-Schloer, Mathias Pacher ESOS 2013
2012
TitelAutor(en)Quelle
Implementation and evaluation of a self-organizing artificial hormone system to assign time-dependent tasks. Mathias Pacher, Uwe Brinkschulte Concurr. Comput. Pract. Exp. Volume 24
Detection and Defense Strategies against Attacks on an Artificial Hormone System Running on a Mixed Signal Chip. Christoph Leineweber, Mathias Pacher, Benjamin Betting, Julius von Rosen, Uwe Brinkschulte, Lars Hedrich ISORC 2012
An Agressive Strategy for an Artificial Hormone System to Minimize the Task Allocation Time. Uwe Brinkschulte, Mathias Pacher ISORC Workshops 2012
2011
TitelAutor(en)Quelle
Introducing a simplified implementation of the AHS organic middleware. Alexander von Renteln, Uwe Brinkschulte, Mathias Pacher OC@ICAC 2011
A Generalized Model to Control the Throughput in a Processor for Real-Time Applications. Daniel Lohn, Mathias Pacher, Uwe Brinkschulte ISORC 2011
Ordering of Time-Dependent Tasks for Self-Organized Resource Scheduling. Mathias Pacher, Uwe Brinkschulte ISORC Workshops 2011
The Artificial Hormone System - An Organic Middleware for Self-organising Real-Time Task Allocation. Alexander von Renteln, Uwe Brinkschulte, Mathias Pacher Organic Computing
2010
TitelAutor(en)Quelle
Selbstorganisierende Verteilung von zeitlich abhängigen Tasks in verteilten Systemen. Mathias Pacher Diss. Goethe University Frankfurt am Main 2010
Real-Time Distribution of Time-Dependant Tasks in Heterogeneous Environments. Mathias Pacher, Uwe Brinkschulte ISORC Workshops 2010
Chip-Size Evaluation of a Multithreaded Processor Enhanced with a PID Controller. Michael Bauer, Mathias Pacher, Uwe Brinkschulte SEUS 2010
2009
TitelAutor(en)Quelle
A Theoretical Examination of a Self-Adaptation Approach to Improve the Real-Time Capabilities in Multi-Threaded Microprocessors. Uwe Brinkschulte, Mathias Pacher SASO 2009
Towards a Statistical Model of a Microprocessor's Throughput by Analyzing Pipeline Stalls. Uwe Brinkschulte, Daniel Lohn, Mathias Pacher SEUS 2009
2008
TitelAutor(en)Quelle
Measuring the quality of an artificial hormone system based task mapping. Uwe Brinkschulte, Alexander von Renteln, Mathias Pacher Autonomics 2008
A Control Theory Approach to Improve the Real-Time Capability of Multi-Threaded Microprocessors. Uwe Brinkschulte, Mathias Pacher ISORC 2008
An Artificial Hormone System for Self-Organizing Real-Time Task Allocation in Organic Middleware. Uwe Brinkschulte, Mathias Pacher, Alexander von Renteln Organic Computing
2007
TitelAutor(en)Quelle
Towards an Artificial Hormone System for Self-organizing Real-Time Task Allocation. Uwe Brinkschulte, Mathias Pacher, Alexander von Renteln SEUS 2007
2006
TitelAutor(en)Quelle
Towards an Organic Middleware for Real-Time Applications. Mathias Pacher, Alexander von Renteln, Uwe Brinkschulte ISORC 2006
Evaluation of the Komodo Microcontroller and the OSA+ Middleware Using an Autonomous Guided Vehicle. Uwe Brinkschulte, Mathias Pacher, Florentin Picioroaga, Stefan Gaa ISORC 2006
A Scheduling Strategy for a Real-Time Dependable Organic Middleware. Uwe Brinkschulte, Alexander von Renteln, Mathias Pacher SAMOS 2006
2005
TitelAutor(en)Quelle
Implementing Control Algorithms Within a Multithreaded Java Microcontroller. Uwe Brinkschulte, Mathias Pacher ARCS 2005
Improving the Real-time Behaviour of a Multithreaded Java Microcontroller by Control Theory and Model Based Latency Prediction. Uwe Brinkschulte, Mathias Pacher WORDS 2005