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Agent Based Production Planning

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Title: Planning in Multi-Agent Systems Author: pechouc Last modified by: Michal Pechoucek Created Date: 3/20/2001 9:50:49 AM Document presentation format – PowerPoint PPT presentation

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Title: Agent Based Production Planning


1
Agent Based Production Planning
intro agent-based production planning decompos
ition techniquesSBC/ISBC ExPlanTech
MAS CPlanT MAS conclusions
  • Michal Pechoucek
  • Gerstner Laboratory, Czech Technical University

2
Agent Based Systems
intro
  • agent is an encapsulated computational system,
    that is situated in some environment, and that is
    capable of flexible, autonomous behaviour in
    order to meet its design objective (Wooldridge).
  • an agent is not only an object, process, program,
    situated robot, ..
  • critical difference agents internal decision
    making processes are not transparent one cannot
    prove what the other agent will do.
  • this property (and fact that agents are usually
    developed by different developers) causes
    emergent behaviour that has not been thought of
    at the design time
  • agents can be standalone or members of a
    multi-agent system
  • distributed artificial intelligence is a branch
    of science that studies social aspects of
    artificial intelligence, e.g. communication,
    cooperation, collective mental states
  • multi-agent system is a collection of agents that
    work together in order to meet an
    in-community-shared goal
  • agent based system is a system whose
    functionality is based on operation of agent(s),
    which may be of collaborative or self-interested
    nature

3
What can Agents Provide Production Planning with?
  • design architecture (e.g. Prosa architecture,
    Holonic Manufacturing Systems, ProPlanT
    architecture, etc.)
  • integration/agentification technology (e.g. FIPA
    standards, agent development environments)
  • planning algorithms distributed decision making
    (e.g. stigmergy, negotiation and auctioning,
    social intelligence based interaction, etc.)

4
Agent-based Production Planning
agent-based production planning
  • advantages of agent-based planning approaches
  • reconfigurability and flexibility, tractability
    (distributed), higher degree of planning
    efficiency
  • there are three fundamental approaches to
    agent-based planning
  • decomposition based planning there is a
    temporary or permanent hierarchy of agents where
    each decomposes a task into subtasks and
    coordinates its completion. can be done via
    contract-net-protocols, subscriptions, etc.
  • fully autonomous planning all agents see the
    planning problem and form their local plans.
    these plans are later merged and conflicts are
    resolved by re-planning e.g. PGP Partial
    Global Planning. agents share a common knowledge
    structure (blackboard) or there is a high-level
    coordinator (who resolves the conflicts) or
    agents interact via rather inefficient
    distributed techniques (negotiation, broadcast,
    rings, voting, etc.)
  • backward chaining planning a compromise
    between (i) and (ii). the request backpropagets
    in the manufacturing flow. there is no
    command-and-control hierarchy and no central
    component, but agents negotiate via
    contract-net-protocols, subscriptions, etc.

5
Decomposition Based Planning
  • we want to arrive at a distributed plan that will
    achieve a high-level task
  • each task ? can be planned either by means of a
  • team action plan result of inter-agent
    negotiation and mutual agreeing upon joint
    commitments or
  • individual plan shall implement a single
    agents commitment (planning by linear/non-linear
    planning)
  • the problem is to decide
  • how to decompose a task into subtask
  • whom to subcontract for cooperation

6
Team Action Plan
  • team action plan ?(?) is as a set ?(?) ??i,
    Aj, start(?i), due(?i), price(?i)?.
  • ?(?) is correct if all the collaborators Aj are
    able to implement the task ?j in the given time
    and for the given price.
  • ?(?) is accepted if all agents Aj get committed
    to implementing the task ?j in the given time and
    for the given price.
  • ? is achievable, if there exists such ?(?) that
    is correct.
  • ? is planned, if there exists ?(?) that is
    accepted

7
Individual Action Plan
  • individual plan ?(?) is as either an unordered
    set
  • ?(?) ??i, start(?i), due(?i), price(?i)?.
  • or a partially ordered set
  • ?(?) ??i, price(?i)?.
  • ?(?) is correct (complete and consistent) if it
    is executable and implements ?.
  • ?(?) is complete iff all the preconditions of the
    operators are satisfied by an effect of another
    operator (or by initial conditions).
  • ?(?) plan is consistent iff ordering among
    operators does not contradict or operators from
    the same world do not provide contradicting
    effects

8
Decomposition/Contraction Techniques
decomposition techniquesSBC/ISBC
  • contract-net-protocol (CNP)
  • auctions
  • subscription based contraction (SBC)
  • iterated SBC (I-SBC)

9
Decomposition/Contraction Techniques
  • contract-net-protocol (CNP)
  • auctions
  • subscription based contraction (SBC)
  • iterated SBC (I-SBC)
  • auction protocols
  • English (first-price open-cry) sometimes an
    open-exit
  • sealed-bid first-price
  • Dutch auction
  • Vickery (sealed-bid second-price)
  • all-pay auctions (computer science)

10
Decomposition/Contraction Techniques
  • subscription based contraction (SBC)

11
Social Knowledge (SK)
  • agents knowledge is either
  • problem solving knowledge asocial type of
    skill guide agents autonomous local decision
    making processes (aimed e.g. at providing an
    expertise or search in the agents database)
  • self knowledge knowledge about agents
    behavior, status and commitments (a special
    instance of social knowledge below)
  • social knowledge knowledge about other agents,
    their behavioral patterns, their capabilities,
    load, experiences, commitments, but also
    knowledge and belief
  • social knowledge is located in agents wrapper
    in an acquaintance model

communication layer
wrapper
acquaintance model
body
body
12
Tri-base Acquaintance Model
  • acquaintance model is a computational model of
    agents mutual awareness, it stores and
    maintains agents social knowledge
  • decomposition on request
  • exploitation of the pre-prepared plan
  • new plan generation (based on SB knowledge)
  • new plan generation (broadcasting)
  • replanning driven by state-base update

13
CF Acquaintance Model
  • Soc-BB(A0)KS(Ai) for ?Ai? ?(A0),
    Com-BB(A0)Kp(Ai) for ?Ai ? ?(A0)
  • Self-BB(A0) Kp(A0), KS(A0), KPr(A0),
    Coal-BB(A0) coalitions, rules
  • reduces the communication traffic and thus the
    increases problem solving efficiency, while it
    requires substantial communication for the
    acquaintance model maintenance

14
Example
15
Decomposition/Contraction Techniques
  • contract-net-protocol (CNP)
  • auctions
  • subscription based contraction (SBC)
  • iterated SBC (I-SBC)
  • SBC difficulties
  • maintenance too much of data, how often,
  • monitoring selectivity
  • frequency of requests
  • still high complexity on the side of the
    coordinator

16
Decomposition/Contraction Techniques
  • contract-net-protocol (CNP)
  • auctions
  • subscription based contraction (SBC)
  • iterated SBC (I-SBC)
  • therefore we suggest an improvement of SBC that
    is good for very complex domains, where not all
    data are available (confidentiality reasons) or
    there are too much of data (complexity problems)
  • exploitation of the concept of the private,
    public and semi-private knowledge (as much as the
    concept alliances), where only approximation of
    the planning data is made available to agents
    social models

17
Iterated SBC (I-SBC)
coordinator
18
Iterated SBC (I-SBC)
coordinator
19
Iterated SBC (I-SBC)
coordinator
20
Iterated SBC (I-SBC)
coordinator
21
Iterated SBC (I-SBC)
agent1
resources
agent2
agent3
t
t
22
Iterated SBC (I-SBC)
agent1
resources
agent2
agent3
t
t
23
Agent-Based Planning in the Gerstner Laboratory
ExPlanTech MAS
  • ExPlanTech Production Planning Multi-agent
    System
  • CPlanT Coalition Planning Multi-Agent System
    for OOTW planning

24
ExPlanTech Domain Specification
  • ExPlanTech a production planning system with a
    functionality to
  • estimating due dates and resources requirements
  • providing a project plan
  • implementing re-planning
  • extra-enterprise extension
  • to allow remote access
  • integrate supply-chain relations

25
ExPlanTech Architecture
26
ExPlanTech Implementation
  • operator an instance of the ppa and pma classes
    project configuration and decomposition,
    management of the overall project
  • workshop an instance of the pa class
    scheduling and resource allocation on a
    department or CNC machine
  • database agent an instance of the pa class an
    integration agent, integrates ExPlanTech with
    factory ERP
  • material agent an instance of the pa class
    integrates an MRP - material resource planning
    system
  • FIPA compliant system, implemented in JADE (Java
    Agent Development Environment).
  • Distributed over several machines, each agent
    has got a GUI for user interaction
  • new agents can login and the confuigu-ration can
    be altered in runtime
  • Integrated with MS-Project, JDBC, IE
  • Special visualization and user manipulation
    meta-agent

27
ExPlanTech ExtraPlanT Exetnsion
28
Agent-Based Planning in the Gerstner Laboratory
CPlanT MAS
  • ExPlanTech Production Planning Multi-agent
    System
  • CPlanT Coalition Planning Multi-Agent System
    for OOTW planning

29
CPlanT Domain Specification
  • domain Operations other than war (OOTW)
    humanitarian relief operations, peace-keeping
    missions, non-combat operations
  • each entity/actor (governmental institutions,
    troops, humanitarian bodies, NGOs, charities)
    represented by an agent
  • domain specifics (simplified)
  • equality anyone can initiate forming a
    coalition no hierarchy
  • reluctance to share vital planning information
  • agents inaccessibility poor communication
    links,
  • collaborative/self interested different
    cultural backgrounds
  • key problems
  • minimize required communication traffic
    (affects problem solving efficiency)
  • keep the quality of the operation the
    coalitions perform reasonably good
  • minimize loss of agents private knowledge
    disclosure,
  • minimize the amount of the shared information

30
CPlanT Key Ideas
  • organizing the agents into alliances (structural
    decomposition)
  • a particular task (a mission) accomplished by a
    coalition (preferably created as a subset of an
    alliance)
  • structuring the agents private, semi-private,
    public knowledge
  • using the concept of the tri-base acquaintance
    model and social intelligence
  • designing advanced methods for inter-agent
    negotiation

31
CPlanT Coalition Formation Operation Lifecycle
  • Registration central registration of the public
    knowledge
  • Alliance Formation communicated via selective
    single-stage CNP
  • Coalition Leader Selection collective decision
    making
  • Coalition Formation communicated via
    acquaintance models based contraction
  • Team Action Planning collective planning of a
    team action combination of CNP and AM

32
CPlanT Implementation
33
Conclusions
conclusions
  • agents in production and resource allocation
    planning are good as
  • the planning system is scalable and easy to be
    reconfigured
  • problem solving efficiency can be increased by an
    appropriate structuring of the community and
    acquaintance model design
  • they are efficient in areas with natural
    distribution (e.g. supply chains)
  • for handling imprecise information and inexact
    knowledge
  • http//agents.felk.cvut.cz
  • http//gerstner.felk.cvut.cz
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