1 / 18

Agent-based Teamwork & Collaborative Support

Agent-based Teamwork & Collaborative Support . APS group University of Twente Dimitri Konstantas Lora Aroyo Renata Guizzardi. Overview. APS / UT introduction Research Collaborations WP5 - Industrial and overall assessment of Agent Academy Overall description Tasks Deliverables

swain
Télécharger la présentation

Agent-based Teamwork & Collaborative Support

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Agent-based Teamwork & Collaborative Support APS group University of Twente Dimitri Konstantas Lora Aroyo Renata Guizzardi

  2. Overview • APS / UT introduction • Research • Collaborations • WP5 - Industrial and overall assessment of Agent Academy • Overall description • Tasks • Deliverables • Participation in other WPs: • WP1 – specification and design of the Agent Academy conceptual model (D 1.1 and D 1.2) • WP2 – Agent Use Repository (D 2.1) • WP 6 – Dissemination and industrial implementation plan

  3. APS/UT research • Application Protocol Systems (APS) group • Research: telematics applications and services with special emphasis in multimedia protocols for mobile wireless systems • Objectives: support of e-health and m-health, security of telematics applications and internet streaming applications for entertainment interactive TV. • Directions: • application layer level protocols • application of mobile agent technology

  4. APS/UT collaboration • Participation and research contributions: • EU initiative for wireless communications (Wireless World Research Forum - WWRF) • Contributions to "Book of Visions 2001" in the area of mobile health systems and applications using BAN (Body Area networks) and PAN (Personal Area Networks) networks • chairs the Internet Research Task Force (IRTF) • participates in Internet Engineering Task Force (IETF) • Collaboration: • Center of Telematics and Information Technologies • local hospitals • network operators • small companies, specialized in portable health sensors'

  5. WP5: Industrial and overall assessment of Agent Academy • Objective: demonstrate the use of AA in industrial applications and assess its benefits • Approach: • three test case scenarios deployment in real SME environment • application of the AA platform and measure the impact • Results: • M-4 milestone: Industrial evaluation of AA • overall assessment and evaluation of AA framework, which will determine the overall degree of success for the project

  6. WP5: Targets • ensure the beneficial impact of the AA framework on SME applications • three industrial consortium partners will perform the test case implementation • the three test use scenarios concern the following application domains: • Production planning • Real-time systems management • Web-based applications. • overall evaluation of the test case suite, which will enable the final project assessment

  7. WP5: Emphasis • Further refinement and calibration of the following criteria: • Benefits with respect to: • Efficiency (savings in resources, time or money) • Effectiveness (ability to do things better) • Added value (allowing new things to be done) • Configurability - ability of an AA-based functionality to be configured before use to suit a particular industrial user (intra- or inter-enterprise service provider and the end-user may configure services) • Controllability - how controllable an AA-based service is by an industrial user after it has been configured and set up • Re-configurability - ability of an existing AA-based service to be enhanced by an (intra- or inter-enterprise) service provider to include new functionality required • Usability - effectiveness, efficiency and satisfaction of the end users when achieve specified goals in a particular environment

  8. WP5: Tasks & Deliverables • Tasks: • Task 5.1: Scenario 1 – Production planning • Task 5.2: Scenario 2 – Real Time Systems management • Task 5.3: Scenario 3 – Web-based Applications • Task 5.4: Overall evaluation of test case suite • Task 5.5: Overall assessment of Agent Academy • Deliverables: • D 5.1: Industrial implementation - Test case suite in M0+18 • D 5.2: Evaluation of industrial test case implementation in M0+22 • D 5.3: Integration of AA framework, overall assessment and evaluation of AA results in M0+24

  9. WP5 – Task 5.1 • Scenario 1 – Production planning • Objective: improve an in-house Production Planning system using the AA framework • Prerequisites & links to other WPs: assessment criteria based on the requirement analysis performed in task 1.2 and on the initial specifications of test case scenario defined in task 1.6 of WP1 • Implementation of the scenario:Unisoft

  10. WP5 – Task 5.2 • Scenario 2 – Real Time Systems management • Objective:management of real-time Internet applications, based on real time ‘push technology’ that detects changes in the server and sends the updated information to clients in an unattended way • Prerequisites & links to other WPs: use activities specified in task 1.6 of WP1 • Implementation of the scenario:IDI EIKON

  11. WP5 – Task 5.3 • Scenario 3 – Web-based Applications • Objective: using AA platform to develop web-based applications that follow a ‘pull technology’ model • Prerequisites & links to other WPs: general description and testing plan defined in task 1.6 of WP1 • Implementation of the scenario:Amadee

  12. WP5 – Task 5.4 • Overall evaluation of test case suite • Objective:assessment of AA platform as a software product by evaluating the results in the three test case activities carried out in tasks 5.1 through 5.3. • Prerequisites & links to other WPs: defined in tasks 1.2 and 1.6 of WP1. • Implementation of the scenario:IDI EIKON and M-BIS • Results: results of the evaluation will be used for the overall assessment of the Agent Academy project in task 5.5

  13. WP5 – Task 5.5 • Overall assessment of Agent Academy • Objective: evaluation of AA framework in its application domain, through the use of three test case activities • Prerequisites & links to other WPs: test case activities, developed in tasks 5.1 through 5.3 and evaluated in task 5.4 • Implementation of the scenario:all partners,managed by UT and CERTH

  14. WP5 – Deliverables • D 5.1: Industrial implementation - Test case suite in M0+18 • D 5.2: Evaluation of industrial test case implementation in M0+22 • D 5.3: Integration of AA framework, overall assessment and evaluation of AA results in M0+24

  15. Contribution of the APS/UT to AA • General IA and AI expertise – architectures, communication languages, development platforms, standards • General IR, information management and modeling expertise – metadata, XML, UML, conceptual structures, adaptive IR • Web application scenario – requirements and needs analysis, task definitions, activities scenarios with respect to training, teamwork, learning support, system monitoring, information management and security

  16. Contribution of the APS/UT to AA • Task 1.1: • State-of-the-Art on technical standards concerning intelligent and mobile agents (platforms, specs, standards, protocols, formats, architectures) • documentation plan for the creation of the required technical content on which the project will be built • taxonomy of standards to facilitate the final decision on specific standards and platforms, carried out in tasks 1.3 and 1.4 • Task 1.3: • issues about agent interoperability, cooperation and primitive specification compliance, which have been addressed by many standardization efforts • evaluation of the results produced by task 1.1 in order to provide knowledge on existing standardization efforts • decision on specific standards to be adopted • Task 1.5: • design of the Agent Training Module and Agent Use Repository • Task 1.6: • design of the the web-application test scenario • D 1.1 and D 1.2

  17. Contribution of the APS/UT to AA • Task 2.1 (D 2.1): • examination of methods for agent interoperability (based on the standards of tasks 1.1 and 1.3) and develop a documentation report on agent interoperability methodologies • facilitate agent-to-agent and agent-to-legacy systems interaction • agent communication - different kinds of Agent Communication Languages (ACLs), ontology-based communication, and agent interaction protocols • Task 5.3: • definition of a web application scenario (e-health, collaboration, training) • Task 5.5 (D 5.3): • evaluation and assessment of the web application scenario • Task 6.2: • Journal and Conference paper preparation– AI, Knowledge and Information management, Intelligent agents • Standardization committees and workshops (ARIADNE, ISO JTC 1/SC 32, 6 Data management and interchange, Telecommunications, FIPA, IEEE, OMG, OAA)

  18. APS/UT – issues of interest • agents and mobile devices and services • agents for training users to perform activities within a specific context • agents to support teamwork activities • agents as personal assistants • agents for monitoring activities (sensing environment) • common information model for agents (CWM) • metadata and information retrieval issues • devises and information interoperability • agent learning/adaptable mechanisms • internal agent architecture • general support system architecture • agent communication framework

More Related