Wiki code for Projects

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1: 1 Projects
2: 
3: On this page an overview of projects using Jadex is given. The projects are divided in two braod broad categories: 
4: *industrial research projects* and *academic research projects*. In the first category all projects with some participation of companies are listed, whereas in the latter categroy projects with pure University participation are contained. Typically, projects with industry participation address real business needs and try to develop concrete solutions, while University projects highlight the gaining of scientific insights. If you are using Jadex in your project we would appreciate if you could add a description of your project at this page (the only requirement is that you register at the Wiki).
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6: 1.1 Industrial Research Projects
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8: 1.1.1 Go4Flex (since 2009)
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10: The Go4Flex (Goal-orientation for Flexible business processes) project aims at supporting the agile definition and execution of workflows. The available modeling approaches for describing business processes emphasize the activities to be performed and their respective ordering. This view is limited and does not take into account other important facets of business processes, like objectives behind the process and the context it is executed in. This inflexibility and concreteness of business process specifications may lead to problems regarding process evolution and new process variants. Together with the industrial cooperation partner Daimler AG the Go4Flex project strives to develop new approaches for modelling and executing business processes, which will be applied practically within the car production and logistics application domain.   
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12: 1.1.1.1 Project Partners
13: Go4Flex is a [DFG-funded>http://www.dfg.de/en/index.html] technology transfer project, which is carried out in close cooperation with the [Daimler AG>http://www.daimler.com].  
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15: 1.1.1.1 Project Approach
16: In the project it will be analyzed how current workflow modeling languages can be enriched by agent-oriented concepts in order to enhance their expressiveness. It is especially intended to use BDI agent concepts to increase the abstractness of the descriptions. The achieved abstractness will help making process descriptions more agile and flexible in their use. This will allow process descriptions to evolve and process variants to emerge without having to change the underlying base processes. On the one hand the project builds on business process research of the Daimler AG, which laid the foundation for agile processes and their goal-oriented concepts. On the other hand the projects profits from the research in the area of BDI agents systems of the University of Hamburg.  
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18: 1.1.1.1 Further Information
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20: The project homepage can be found here [Go4Flex Homepage>http://jadex.informatik.uni-hamburg.de/go4flex/]  
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22: 
23: 1.1 Academic Research Projects
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25: In this section academic research projects are listed, which build on Jadex. Typical organizations supporting national research efforts in Germany are the [DFG (Deutsche Forschungsgemeinschaft)>http://www.dfg.de/en/index.html] and the [BMBF (Bundesministerium für Bildung und Forschung)>http://www.bmbf.de/en/index.php]. The Jadex project was originally initiated in the context of the DFG-funded [MedPAge>#MedPAge] project.
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27: 1.1.1 SodekoVS (since 2008)
28: The SodekoVS (Self-organization using decentralized coordination in distributed systems) has the main objective to introduce self-organization as one additional building block for software development. The advantages of self-organizing systems are an increased adaptability and robustness caused by the decentralized architecture of those systems. The main challenge is that the construction of self-organizing systems is intrinsically hard, because the self-organization emegerges from the interactions of the individual parts of the systems and therefore cannot be described with traditional design techniques. Furthermore, self-organization has a quantitative dimension, which typically cannot be foreseen exactly and has to be configured using simulation experiments. 
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30: 1.1.1.1 Project Partners
31: The SodekoVS research effort is a DFG-funded tandem project of the University of Hamburg and the Hamburg University of Applied Sciences (HAW).
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33: 1.1.1.1 Project Approach
34: In the project first existing self-organization mechanisms will be classified and described with respect to their essential characteristics. The descriptions will be in the form of software patterns, which define a clear set of criteria and therefore allow a precise definition of mechanisms and further help developers deciding whether a specific mechanism may be helpful for the concrete problem at hand. To facilitate the usage of the mechanisms also a self-organization middleware will be built on basis of a multi-agent layer. Main purpose of the middleware is the provision of the self-organization mechanisms for agents. Software developers can use these infrastructure components in combination with a guiding methodology for engineering self-organzing systems in a systematic way. For the validation of the proposed concepts it is also planned to evaluate the approach by developing a software prototype in cooperation with a logistics company.
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36: 1.1.1.1 Further Information
37: The project homepage can be found here: [SodekoVS Homepage>http://vsis-www.informatik.uni-hamburg.de/projects/sodekovs/].
38: 
39: <p>
40: <a name="MedPAge"></a>
41: <table border="0" cellspacing="0" cellpadding="0">
42: <tbody>
43: <tr>
44: <td>
45: 1.1.1 MedPAge (2000-2006) 
46: <p>
47: MedPAge (Medical Path Agents) is a research project, focusing on 
48: *treatment scheduling for patients in hospitals*. Scheduling and coordinating patients in
49: hospitals is faced with a high amount of complexity due to the inherent
50: dynamics of the processes and the distributed organisational structure of
51: hospitals. Multi-agent technology facilitates solutions to these problems, as the autonomy
52: of agents allows to maintain the integrity of the existing organisational
53: structure of hospitals. Furthermore, agents are able to react flexible to changes
54: and disturbances (e.g. emergencies and complications) through pro-activeness
55: and reactiveness.
56: </p>
57: </td>
58: <td align="center" valign="top">
59: {image:medpageneu.png}
60: </td>
61: </tr>
62: </tbody>
63: </table>
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65: 
66: <table border="0" cellspacing="0" cellpadding="0">
67: <tbody>
68: <tr>
69: <td valign="top">
70: <p>
71: 1.1.1.1 Project Partners
72: The MedPAge project is part of the [DFG-funded>http://www.dfg.de/]
73: German Priority Research Programme <a href="http://www.realagents.org/">
74: SPP-1083: "Intelligent Agents in Real-World Business Applications"</a> which was
75: initiated in 1999. All SPP projects are carried out as so-called tandem projects: 
76: One partner from business economics and one from computer science. Our project 
77: partner is the [Business Informatics Chair>http://www.bwl.uni-mannheim.de/wifo1/]
78: at the University of Mannheim. In addition, we work together with computer
79: science partners from other SPP projects, most notably with the
80: [RWTH Aachen>http://www.nets.rwth-aachen.de/]
81: and the [University of Würzburg>http://www.is.informatik.uni-wuerzburg.de/].
82: </p>
83: </td>
84: <td align="center" valign="top">
85: <img src="http://vsis-www.informatik.uni-hamburg.de/projects/jadex/images/sep.gif" border="0" alt="" width="161" height="1" />
86: </td>
87: </tr>
88: </tbody>
89: </table>
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91: 
92: <table border="0" cellspacing="0" cellpadding="0">
93: <tbody>
94: <tr>
95: <td valign="top">
96: <p>
97: 1.1.1.1 Project Approach
98: In MedPAge *patients* and hospital *resources* are represented as autonomous agents
99: with individual goals. For coordination we conceived a *market-based mechanism*
100: called MedPaCo (Medical Path Coordination), in which the patient agents
101: negotiate with each other - based upon individual health state dependent cost
102: functions - over the scarce hospital resources. A hospital *simulation environment* 
103: allows the benchmark of different coordination mechanisms including the current 
104: practice in hospitals. In contrast to the resource agents that only see the 
105: patients as entities to be treated, the patient agents merely see the medical 
106: actions as tasks that need to be performed. Due to these opposing forces, the 
107: patient agents ensure that the resource agents also consider the treatments 
108: of the patients outside their unit (without any explicit knowledge of them) 
109: and vice versa.
110: \\
111: For the coordination of the patients, i.e. to allocate the patients to the
112: scarce hospital resources, we use the MedPaCo mechanism, in which the patient
113: agents negotiate with each other in order to reach their individual goals.
114: Within a market mechanism only prices for specific goods are communicated,
115: keeping all other information private to the market participants.
116: Additionally, a market facilitates a dynamic environment, where the market
117: participants take actions according to their current (dynamically changing)
118: situation. The price mechanism leads to an efficient resource allocation
119: because the resources are assigned to the agents that are willing to pay the
120: highest price (assuming that the agents bid rationally, these are the agents
121: that gain the highest utility from this resource).
122: </p>
123: </td>
124: <td align="center" valign="top">
125: $xwiki.ssx.use("XWiki.Lightbox")
126: $xwiki.jsx.use("XWiki.Lightbox")
127: <a href="$xwiki.getAttachmentURL($doc.fullName, "snapshotcontrolcenter1.png")" rel="lightbox" title="MedPAge prototype">
128: {image:snapshotcontrolcenter1small.png}\\
129: MedPAge prototype
130: </a>
131: </td>
132: </tr>
133: </tbody>
134: </table>
135: 
136: 1.1.1.1 Further Information
137: 
138: MedPAge project page:
139: [http://vsis-www.informatik.uni-hamburg.de/projects/medpage/>http://vsis-www.informatik.uni-hamburg.de/projects/medpage/]
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