Presentation is loading. Please wait.

Presentation is loading. Please wait.

Towards Proactive Replanning for Multi-Robot Teams Brennan Sellner and Reid Simmons 5th International Workshop on Planning and Scheduling for Space October.

Published byEunice Shields Modified over 9 years ago

Similar presentations

Presentation on theme: "Towards Proactive Replanning for Multi-Robot Teams Brennan Sellner and Reid Simmons 5th International Workshop on Planning and Scheduling for Space October."— Presentation transcript:

1 Towards Proactive Replanning for Multi-Robot Teams Brennan Sellner and Reid Simmons 5th International Workshop on Planning and Scheduling for Space October 23, 2006 Trestle Project Robotics Institute Carnegie Mellon University

2 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 2 Motivation Human workers: Predict likely outcomes Move between teams mid-task Can multi-robot teams do the same?

3 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 3 What is Proactive Replanning? Predict problems and opportunities Replan before they manifest

4 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 4 Idea Iterative repair planner Add Proactive Replanning Duration Prediction Live Task Modification Replan and modify active teams to: Forestall problems Grasp opportunities

5 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 5 Results Preview Stochastic domain Metric is schedule makespan Makespan reductions of 11-32%

6 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 6 Approach Overview Domain Architecture Duration Prediction Live Task Modification

7 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 7 Domain Multi-agent, multi-team assembly Goal: Minimize schedule length

8 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 8 Scenario

9 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 9 Architecture Planner (ASPEN): Centralized Repairs & optimizes schedule Dispatches tasks Duration Prediction & Live Task Modification Executive: Manages execution of tasks Monitors resource usage Transmits state to planner Behavioral: Interfaces with hardware Transmits state to executive Behavioral and hardware both simulated

10 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 10 Planner ASPEN: Iterative repair and optimization Duration Prediction within constraint network Live Task Modification during repair and optimization

11 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 11 Planner: Conflict Resolution

12 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 12 Planner: Optimization Metric: schedule length Use idle agents to: Start tasks on the “critical path” Speed up executing tasks on the critical path

13 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 13 Duration Prediction: Why?

14 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 14 Duration Prediction: How? Predict remaining duration at each timestep Replan in response Challenge: Accurate predictions within resource bounds Current approach: Offline simulation + lookup table

15 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 15 Live Task Modification: Why?

16 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 16 Live Task Modification: How? As part of schedule repair or optimization Heuristically select a new team Subject to constraints Currently assume instant transfers

17 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 17 Live Task Modification: How? Challenge: search large space of teams and agents

18 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 18 Experimental Results Scenario Conditions Data

19 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 19 Experimental Scenario

20 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 20 Experimental Approach 50 simulated assemblies per condition 4 conditions

21 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 21 Baseline Condition ASPEN No Proactive Replanning Each time step: Right-shift Left-shift Optimize Repair

22 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 22 Experimental Conditions Baseline, plus: Prediction, or: Live Modification, or: Combined

23 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 23 Summary of Results

24 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 24 Results Details 50 runs per condition mean (std dev) Baseline (ASPEN) PredictionModificationCombination Schedule length (s) 1176.90 (343.58) 1050.14 (273.32) 820.84 (123.55) 802.76 (141.53) Reduction in length ---- (----)10.8%30.3%31.8% Repair episodes 30.04 (36.60) 123.28 (23.06) 15.78 (8.00) 97.38 (23.86) Useful team modifications 35.26 (6.15) 35.14 (5.46) 51.64 (6.19) 48.58 (7.58)

25 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 25 Future Work Function approximation and Duration Prediction Durative agent transfers Risk management

26 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 26 Summary Initial implementation of Proactive Replanning Results are promising: Makespan reductions of up to 32% Further work is underway

27 IWPSS 2006 - Brennan Sellnerbsellner@andrew.cmu.edu Slide 27 Thanks! The executive's first name was Tanner, A shy, but proactive, replanner Who solved every trouble With a change, on the double, Which finished the job in fine manner.

Download ppt "Towards Proactive Replanning for Multi-Robot Teams Brennan Sellner and Reid Simmons 5th International Workshop on Planning and Scheduling for Space October."

Similar presentations

Evaluating Heuristics for the Fixed-Predecessor Subproblem of Pm | prec, p j = 1 | C max.

Evaluating Heuristics for the Fixed-Predecessor Subproblem of Pm | prec, p j = 1 | C max.
1 Stochastic Event Capture Using Mobile Sensors Subject to a Quality Metric Nabhendra Bisnik, Alhussein A. Abouzeid, and Volkan Isler Rensselaer Polytechnic.

1 Stochastic Event Capture Using Mobile Sensors Subject to a Quality Metric Nabhendra Bisnik, Alhussein A. Abouzeid, and Volkan Isler Rensselaer Polytechnic.
Characterizing the Distribution of Low- Makespan Schedules in the Job Shop Scheduling Problem Matthew J. Streeter Stephen F. Smith Carnegie Mellon University.

Characterizing the Distribution of Low- Makespan Schedules in the Job Shop Scheduling Problem Matthew J. Streeter Stephen F. Smith Carnegie Mellon University.
Effective Coordination of Multiple Intelligent Agents for Command and Control The Robotics Institute Carnegie Mellon University PI: Katia Sycara

Effective Coordination of Multiple Intelligent Agents for Command and Control The Robotics Institute Carnegie Mellon University PI: Katia Sycara
Improving Market-Based Task Allocation with Optimal Seed Schedules IAS-11, Ottawa. September 1, 2010 G. Ayorkor Korsah 1 Balajee Kannan 1, Imran Fanaswala.

Improving Market-Based Task Allocation with Optimal Seed Schedules IAS-11, Ottawa. September 1, 2010 G. Ayorkor Korsah 1 Balajee Kannan 1, Imran Fanaswala.
Decentralized prioritized planning in large multirobot teams Prasanna Velagapudi Paul Scerri Katia Sycara Carnegie Mellon University, Robotics Institute.

Decentralized prioritized planning in large multirobot teams Prasanna Velagapudi Paul Scerri Katia Sycara Carnegie Mellon University, Robotics Institute.
CPSC 322, Lecture 15Slide 1 Stochastic Local Search Computer Science cpsc322, Lecture 15 (Textbook Chpt 4.8) February, 6, 2009.

CPSC 322, Lecture 15Slide 1 Stochastic Local Search Computer Science cpsc322, Lecture 15 (Textbook Chpt 4.8) February, 6, 2009.
Scaling Distributed Machine Learning with the BASED ON THE PAPER AND PRESENTATION: SCALING DISTRIBUTED MACHINE LEARNING WITH THE PARAMETER SERVER – GOOGLE,

Scaling Distributed Machine Learning with the BASED ON THE PAPER AND PRESENTATION: SCALING DISTRIBUTED MACHINE LEARNING WITH THE PARAMETER SERVER – GOOGLE,
Planning Among Movable Obstacles with Artificial Constraints Presented by: Deborah Meduna and Michael Vitus by: Mike Stilman and James Kuffner.

Planning Among Movable Obstacles with Artificial Constraints Presented by: Deborah Meduna and Michael Vitus by: Mike Stilman and James Kuffner.
A Free Market Architecture for Distributed Control of a Multirobot System The Robotics Institute Carnegie Mellon University M. Bernardine Dias Tony Stentz.

A Free Market Architecture for Distributed Control of a Multirobot System The Robotics Institute Carnegie Mellon University M. Bernardine Dias Tony Stentz.
WIC: A General-Purpose Algorithm for Monitoring Web Information Sources Sandeep Pandey (speaker) Kedar Dhamdhere Christopher Olston Carnegie Mellon University.

WIC: A General-Purpose Algorithm for Monitoring Web Information Sources Sandeep Pandey (speaker) Kedar Dhamdhere Christopher Olston Carnegie Mellon University.
Deterministic Scheduling

Deterministic Scheduling
Multirobot Coordination in USAR Katia Sycara The Robotics Institute

Multirobot Coordination in USAR Katia Sycara The Robotics Institute
Planning in the Real World Time and Resources Hierarchical Task Network Conditional Planning Execution Monitoring and Replanning Continuous Planning MultiAgent.

Planning in the Real World Time and Resources Hierarchical Task Network Conditional Planning Execution Monitoring and Replanning Continuous Planning MultiAgent.
1 Planning and Scheduling to Minimize Tardiness John Hooker Carnegie Mellon University September 2005.

1 Planning and Scheduling to Minimize Tardiness John Hooker Carnegie Mellon University September 2005.
Impact of Problem Centralization on Distributed Constraint Optimization Algorithms John P. Davin and Pragnesh Jay Modi Carnegie Mellon University School.

Impact of Problem Centralization on Distributed Constraint Optimization Algorithms John P. Davin and Pragnesh Jay Modi Carnegie Mellon University School.
ECE 510 Brendan Crowley Paper Review October 31, 2006.

ECE 510 Brendan Crowley Paper Review October 31, 2006.
Router modeling using Ptolemy Xuanming Dong and Amit Mahajan May 15, 2002 EE290N.

Router modeling using Ptolemy Xuanming Dong and Amit Mahajan May 15, 2002 EE290N.
Interference Minimization and Uplink Relaying For a 3G/WLAN Network Ju Wang Virginia Commonwealth University May, 2005.

Interference Minimization and Uplink Relaying For a 3G/WLAN Network Ju Wang Virginia Commonwealth University May, 2005.
©Ian Sommerville 2000Software Engineering, 6th edition. Chapter 4 Slide 1 Chapter 4 Project Management.

©Ian Sommerville 2000Software Engineering, 6th edition. Chapter 4 Slide 1 Chapter 4 Project Management.

Similar presentations

Ads by Google