Planning Issues in Intelligent Manufacturing Systems - PowerPoint PPT Presentation

About This Presentation
Title:

Planning Issues in Intelligent Manufacturing Systems

Description:

Planning tasks in manufacturing. Facilities design, process planning, manufacturing control ... Xmas lists often are inconsistent. Xmas lists change frequently ... – PowerPoint PPT presentation

Number of Views:1008
Avg rating:3.0/5.0
Slides: 23
Provided by: Valcke
Category:

less

Transcript and Presenter's Notes

Title: Planning Issues in Intelligent Manufacturing Systems


1
Planning Issues in Intelligent Manufacturing
Systems
  • Paul Valckenaers
  • K.U.Leuven PMA
  • Belgium
  • Valckenaersp_at_acm.org

2
Overview
  • Background information
  • Planning tasks in manufacturing
  • Facilities design, process planning,
    manufacturing control
  • Intelligent manufacturing systems
  • Specific research developments
  • Emergent manufacturing control and stigmergy
  • Planning tasks in emergent control
  • Other issues and conclusions

3
Background
  • Engineering _at_ K.U.Leuven
  • Computer Science (S/W Appl. Maths)
  • PhD in mechanical engineering (production
    automation)
  • Projects HMS, Mascada, Magecc, MPA
  • Agent-based manufacturing control
  • Design of emergent systems
  • Integration issues
  • Critical mass for s/w components

4
Planning in Manufacturing (1)
  • Facilities (re)design
  • Requirements (capturing of)
  • Building blocks (modular plants)
  • Guarantee safety, cleanness
  • Re-usability
  • Design of manufacturing plants
  • Adapt to changes, to new locations
  • Assess performance of design alternatives
  • Predicting performance of a design is hard
  • Hinders the application of planning technology

5
Planning in Manufacturing (2)
  • Process planning
  • Recipes
  • Avoiding resource allocation choices ?
  • Information representation
  • Lazy, on-demand
  • Dialogues
  • Validation issues
  • Lock-in issues
  • Technology product specifics
  • Grounding issues

6
Planning in Manufacturing (3)
  • Manufacturing control
  • Internal plant logistics
  • Routing, resource allocation, starting of
    processes
  • Detailed scheduling schedule execution
  • Objectives of manufacturing control
  • Going concerns
  • No objective function ?
  • Productivity (throughput in money) first
  • Smooth and effective flows // chess analogy
  • Lead time, wip, due dates second
  • Not all tasks are equal

7
Intelligent Manufacturing Systems
  • Product agents
  • Resource agents
  • Order agents
  • Staff agents
  • Architecture
  • Basic P R O
  • Basic agents
  • Responsible
  • Reflect what is/exists
  • Integration
  • Staff agents
  • Know-how, legacy
  • Support, advise
  • OO
  • Specialisation
  • Aggregation

8
Concerns in Manufacturing Control
  • Feasibility
  • Recipes, deadlock...
  • Thrashing, starvation...
  • Operations
  • Load balancing, lead times, batching...
  • Staff
  • Initial solutions, guidance...

9
Tasks in Manufacturing Control
  • Providing information (reflection)
  • Feasibility, operational, staff
  • Decision taking (fragile)
  • Uses (and respects) the information
  • Adaptable without causing software maintenance
    cascading to the information providing parts
  • Issue stable agents (s/w components)
  • Challenge global coordination ( system-wide)
  • Stigmergy ants provide the inspiration

10
Stigmergy and Ants
  • Stigmergy
  • Indirect interaction
  • Signs in the environment
  • Lightweight compared to direct negotiation
  • Ants foraging for food
  • Simple rules, emergent coordinated behaviour
  • Global information is locally available
  • Environment is part of the solution

11
Emergent Load Forecasting
  • Resource agents reflect resources
  • Environment is part of the solution
  • Full life cycle, topology, ...
  • Locations have attached information spaces
  • What-if mode
  • Ex. Conveyor belt agent
  • Attributes, observers...
  • Modifiers/actions
  • What-if services

12
Emergent Load Forecasting
  • Attributes/observers
  • Information spaces attached to ...
  • Modifiers/actions
  • Life cycle
  • Create, delete, connect, disconnect...
  • Usage
  • Start, stop...
  • Synchronisation with reality

13
Emergent Load Forecasting
  • What-if services
  • PropagateUpstream
  • PropagateDownstream
  • Adapt time information
  • Register intentions
  • GiveLoadForecast
  • Based on intentions communicated by ...

14
Emergent Load Forecasting
  • Order agents create mobile agents that virtually
    move across the resources
  • Mobile agents behave as if the present time is
    their estimated arrival time
  • Mobile agents have the resource agents forecast
    their travel times
  • Mobile agents use the content of the info spaces
  • Mobile agents reflect decision mechanism of the
    order agent (without making assumptions about it)

15
Emergent Load Forecasting
  • Mobile agent inform resource agents about the
    order agents intentions
  • Resource agents combine intentions into a load
    forecast
  • Order agents and their mobile agents have a
    tendency to stick to declared intentions
  • When visiting a processing unit, the product
    agent and resource agent predict processing time
    and ...
  • Mobile agents may send back an estimated arrival
    times ( lead time estimations)

16
Emergent Load Forecasting
  • Critical resource agents (processing units)
    propagate load forecasts upstream
  • This information is copied into the information
    spaces attached to the resource agents (typically
    attached to exits, entries...)
  • Upstream propagation adapts the forecasts to
    account for transportation time, ...
  • Evaporation refresh

17
Emergent Load Forecasting
18
Planning in Emergent Control
  • Lead time
  • Throughput
  • Feasibility
  • Flow balancing
  • In-flow control
  • (Spare capacity)
  • Products travellers
  • Factories roads
  • Right product
  • Proper destinations
  • Heavy traffic
  • Loaded factories

19
Planning in Emergent Control
  • Grouping
  • Mutual influencing
  • Transactions
  • Heat treatment
  • Airplane load
  • Exit blocking
  • Aircraft unloading
  • Do it properly
  • Or not at all

20
Planning in Emergent Control
  • Forecasting
  • Individual
  • Intensions
  • Emergent
  • On-line
  • Nervousness control
  • Bottle-necks
  • (The goal)
  • Prevent problems from happening, both in
    factories and in traffic
  • Handle problems on detailed customer needs
  • Make forecasts possible
  • Production capacity
  • Road capacity

21
Non-functional Requirements
  • Emergent system design to cope with complexity
    and dynamics
  • Limited exposure to survive
  • Critical mass relative to artefact complexity

22
Concluding Remarks
  • System engineering properties
  • Stigmergic design
  • Limited exposure, emergence
  • Global information locally available
  • Evolving systems
  • Actual control decisions come last
  • Multi-level planning issues
  • Staff option

23
Intelligent Manufacturing Systems
  • Reality is always consistent
  • Ironware is part of the reality for MACC
  • Essential models in OO-design
  • Reflecting reality - full life cycle
  • Xmas lists often are inconsistent
  • Xmas lists change frequently
  • Functional decomposition is fragile
Write a Comment
User Comments (0)
About PowerShow.com