SMART-LLM: Smart Multi-Agent Robot Task Planning using Large Language Models
In this work, we introduce SMART-LLM, an innovative framework designed for embodied multi-robot task planning. SMART-LLM: Smart Multi-Agent Robot Task Planning using Large Language Models (LLMs), harnesses the power of LLMs to convert high-level task instructions provided as input into a multi-robot...
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| creator | Kannan, Shyam Sundar Venkatesh, Vishnunandan L. N Min, Byung-Cheol |
| description | In this work, we introduce SMART-LLM, an innovative framework designed for
embodied multi-robot task planning. SMART-LLM: Smart Multi-Agent Robot Task
Planning using Large Language Models (LLMs), harnesses the power of LLMs to
convert high-level task instructions provided as input into a multi-robot task
plan. It accomplishes this by executing a series of stages, including task
decomposition, coalition formation, and task allocation, all guided by
programmatic LLM prompts within the few-shot prompting paradigm. We create a
benchmark dataset designed for validating the multi-robot task planning
problem, encompassing four distinct categories of high-level instructions that
vary in task complexity. Our evaluation experiments span both simulation and
real-world scenarios, demonstrating that the proposed model can achieve
promising results for generating multi-robot task plans. The experimental
videos, code, and datasets from the work can be found at
https://sites.google.com/view/smart-llm/. |
| doi_str_mv | 10.48550/arxiv.2309.10062 |
| format | Article |
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embodied multi-robot task planning. SMART-LLM: Smart Multi-Agent Robot Task
Planning using Large Language Models (LLMs), harnesses the power of LLMs to
convert high-level task instructions provided as input into a multi-robot task
plan. It accomplishes this by executing a series of stages, including task
decomposition, coalition formation, and task allocation, all guided by
programmatic LLM prompts within the few-shot prompting paradigm. We create a
benchmark dataset designed for validating the multi-robot task planning
problem, encompassing four distinct categories of high-level instructions that
vary in task complexity. Our evaluation experiments span both simulation and
real-world scenarios, demonstrating that the proposed model can achieve
promising results for generating multi-robot task plans. The experimental
videos, code, and datasets from the work can be found at
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embodied multi-robot task planning. SMART-LLM: Smart Multi-Agent Robot Task
Planning using Large Language Models (LLMs), harnesses the power of LLMs to
convert high-level task instructions provided as input into a multi-robot task
plan. It accomplishes this by executing a series of stages, including task
decomposition, coalition formation, and task allocation, all guided by
programmatic LLM prompts within the few-shot prompting paradigm. We create a
benchmark dataset designed for validating the multi-robot task planning
problem, encompassing four distinct categories of high-level instructions that
vary in task complexity. Our evaluation experiments span both simulation and
real-world scenarios, demonstrating that the proposed model can achieve
promising results for generating multi-robot task plans. The experimental
videos, code, and datasets from the work can be found at
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embodied multi-robot task planning. SMART-LLM: Smart Multi-Agent Robot Task
Planning using Large Language Models (LLMs), harnesses the power of LLMs to
convert high-level task instructions provided as input into a multi-robot task
plan. It accomplishes this by executing a series of stages, including task
decomposition, coalition formation, and task allocation, all guided by
programmatic LLM prompts within the few-shot prompting paradigm. We create a
benchmark dataset designed for validating the multi-robot task planning
problem, encompassing four distinct categories of high-level instructions that
vary in task complexity. Our evaluation experiments span both simulation and
real-world scenarios, demonstrating that the proposed model can achieve
promising results for generating multi-robot task plans. The experimental
videos, code, and datasets from the work can be found at
https://sites.google.com/view/smart-llm/.</abstract><doi>10.48550/arxiv.2309.10062</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Robotics |
| title | SMART-LLM: Smart Multi-Agent Robot Task Planning using Large Language Models |
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