IFPV integrates multi-perspective hierarchical agents for generative planning with an adversarial cognitive simulation engine for verification, reporting 19.4% higher mission success, 41.7% lower cost versus LLM baseline, and 31.8% higher suppression versus rule-based validation in combat simulation
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3 Pith papers cite this work. Polarity classification is still indexing.
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2026 3verdicts
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WLDS applies large models with factual and logical calibration to produce diverse text-and-image deductions of emergency scenarios beyond what traditional fixed simulations can generate.
MAFIG uses a Perception Agent and Emergency Decision Agent plus span-focused local distillation to let lightweight models rapidly generate formal instructions that fix local scheduling failures, achieving over 94% success with sub-second latency on port, warehousing, and deck datasets.
citing papers explorer
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IFPV: An Integrated Multi-Agent Framework for Generative Operational Planning and High-Fidelity Plan Verification
IFPV integrates multi-perspective hierarchical agents for generative planning with an adversarial cognitive simulation engine for verification, reporting 19.4% higher mission success, 41.7% lower cost versus LLM baseline, and 31.8% higher suppression versus rule-based validation in combat simulation
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What Will Happen Next: Large Models-Driven Deduction for Emergency Instances
WLDS applies large models with factual and logical calibration to produce diverse text-and-image deductions of emergency scenarios beyond what traditional fixed simulations can generate.
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MAFIG: Multi-agent Driven Formal Instruction Generation Framework
MAFIG uses a Perception Agent and Emergency Decision Agent plus span-focused local distillation to let lightweight models rapidly generate formal instructions that fix local scheduling failures, achieving over 94% success with sub-second latency on port, warehousing, and deck datasets.