Removing Planner Bias in Goal Recognition Through Multi-Plan Dataset Generation

Mustafa Faisal Zaki Abdelwahed; Joan Espasa Arxer; Felipe  Meneguzzi; Kin  Max Piamolini Gusmão

Removing Planner Bias in Goal Recognition Through Multi-Plan Dataset Generation

Mustafa Faisal Zaki Abdelwahed, Joan Espasa Arxer, Felipe Meneguzzi, Kin Max Piamolini Gusmão

School of Computer Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Autonomous agents require some form of goal and plan recognition to interact in multiagent settings. Unfortunately, all existing goal recognition datasets suffer from a systematical bias induced by the planning systems that generated them, namely heuristic-based forward search.
This means that existing datasets lack enough challenge for more realistic scenarios (e.g., agents using different planners), which impacts the evaluation of goal recognisers with respect to using different planners for the same goal.
In this paper, we propose a new method that uses top-k planning to generate multiple, different, plans for the same goal hypothesis, yielding benchmarks that mitigate the bias found in the current dataset.
This allows us to introduce a new metric called Version Coverage Score (VCS) to measure the resilience of the goal recogniser when inferring a goal based on different sets of plans.
Our results show that the resilience of the current state-of-the-art goal recogniser degrades substantially under low observability settings.

Original language	English
Title of host publication	UK PlanSig 2026
Publisher	PlanSig
Publication status	Published - 8 Jan 2026

Cite this

@inproceedings{8cfe2b259e4f46e69751498d5b1cbd78,

title = "Removing Planner Bias in Goal Recognition Through Multi-Plan Dataset Generation",

abstract = "Autonomous agents require some form of goal and plan recognition to interact in multiagent settings. Unfortunately, all existing goal recognition datasets suffer from a systematical bias induced by the planning systems that generated them, namely heuristic-based forward search. This means that existing datasets lack enough challenge for more realistic scenarios (e.g., agents using different planners), which impacts the evaluation of goal recognisers with respect to using different planners for the same goal. In this paper, we propose a new method that uses top-k planning to generate multiple, different, plans for the same goal hypothesis, yielding benchmarks that mitigate the bias found in the current dataset. This allows us to introduce a new metric called Version Coverage Score (VCS) to measure the resilience of the goal recogniser when inferring a goal based on different sets of plans. Our results show that the resilience of the current state-of-the-art goal recogniser degrades substantially under low observability settings.",

author = "Abdelwahed, \{Mustafa Faisal Zaki\} and \{Espasa Arxer\}, Joan and Felipe Meneguzzi and \{Max Piamolini Gusm{\~a}o\}, Kin",

year = "2026",

month = jan,

day = "8",

language = "English",

booktitle = "UK PlanSig 2026",

publisher = "PlanSig",

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T1 - Removing Planner Bias in Goal Recognition Through Multi-Plan Dataset Generation

AU - Abdelwahed, Mustafa Faisal Zaki

AU - Espasa Arxer, Joan

AU - Meneguzzi, Felipe

AU - Max Piamolini Gusmão, Kin

PY - 2026/1/8

Y1 - 2026/1/8

N2 - Autonomous agents require some form of goal and plan recognition to interact in multiagent settings. Unfortunately, all existing goal recognition datasets suffer from a systematical bias induced by the planning systems that generated them, namely heuristic-based forward search. This means that existing datasets lack enough challenge for more realistic scenarios (e.g., agents using different planners), which impacts the evaluation of goal recognisers with respect to using different planners for the same goal. In this paper, we propose a new method that uses top-k planning to generate multiple, different, plans for the same goal hypothesis, yielding benchmarks that mitigate the bias found in the current dataset. This allows us to introduce a new metric called Version Coverage Score (VCS) to measure the resilience of the goal recogniser when inferring a goal based on different sets of plans. Our results show that the resilience of the current state-of-the-art goal recogniser degrades substantially under low observability settings.

AB - Autonomous agents require some form of goal and plan recognition to interact in multiagent settings. Unfortunately, all existing goal recognition datasets suffer from a systematical bias induced by the planning systems that generated them, namely heuristic-based forward search. This means that existing datasets lack enough challenge for more realistic scenarios (e.g., agents using different planners), which impacts the evaluation of goal recognisers with respect to using different planners for the same goal. In this paper, we propose a new method that uses top-k planning to generate multiple, different, plans for the same goal hypothesis, yielding benchmarks that mitigate the bias found in the current dataset. This allows us to introduce a new metric called Version Coverage Score (VCS) to measure the resilience of the goal recogniser when inferring a goal based on different sets of plans. Our results show that the resilience of the current state-of-the-art goal recogniser degrades substantially under low observability settings.

UR - https://docs.google.com/uc?export=download&id=1u0XXlqbd7pt1wgvf838dg9ymU5SMqLuO

M3 - Conference contribution

BT - UK PlanSig 2026

PB - PlanSig

ER -

Removing Planner Bias in Goal Recognition Through Multi-Plan Dataset Generation

Abstract

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