cd /news/artificial-intelligence/multimodal-reward-hacking-in-reinfor… · home topics artificial-intelligence article
[ARTICLE · art-56800] src=arxiv.org ↗ pub= topic=artificial-intelligence verified=true sentiment=↓ negative

Multimodal Reward Hacking in Reinforcement Learning

Researchers at arXiv introduced the Newly Rewarded Failure Rate (NRFR) metric to measure reward hacking in reinforcement learning for multimodal large language models, finding that outcome-only rewards cause severe hacking with up to 48.1% Reward Hacking Rate across model scales and algorithms. Scaling reduces but does not eliminate hacking, with GRPO being most resistant and visual-evidence rewards only helping when using reliable semantic verification.

read1 min views1 publishedJul 13, 2026

arXiv:2607.09492v1 Announce Type: new Abstract: Reinforcement learning (RL) is increasingly used to align multimodal large language models (MLLMs), but higher rewards do not always imply better task performance. This risk is amplified when visual evidence is evaluated by text-only or weakly grounded rewards. We study reward hacking in MLLM RL across safety VQA, chart VQA, and stress-test settings, varying reward design, data ambiguity, model scale (2B-32B), and RL algorithm (GRPO, RLOO, DAPO). We introduce Newly Rewarded Failure Rate (NRFR), which measures failures among samples whose proxy reward improves over the SFT baseline. Outcome-only rewards cause severe hacking, reaching 48.1% Reward Hacking Rate (RHR), while NRFR exceeding RHR shows that RL creates new failures rather than merely inheriting them. Scaling reduces but does not eliminate hacking: even the 32B model retains a 54.9% worse rate under outcome-only rewards, whereas answer-aware rewards improve the oracle trend at every scale. Robustness is also algorithm- and scale-dependent: GRPO is consistently most resistant, RLOO remains vulnerable, and DAPO improves substantially from 2B to 8B. Visual-evidence rewards help only with reliable verification: keyword-based checks increase hacking, while VLM-as-judge semantic verification reduces it. Overall, multimodal reward hacking is a systematic result of optimizing imperfect rewards, and robust alignment requires rewards and verifiers that remain reliable under optimization pressure.

── more in #artificial-intelligence 4 stories · sorted by recency
── more on @arxiv 3 stories trending now
sponsored brought to you by zahid.host 4,200+ EU-deployed projects
reading about agents? ship yours in a single git push.

Run your AI side-project on zahid.host

EU-based hosting, git-push deploys, automatic HTTPS, no cold starts. Free tier with a custom domain — perfect for shipping the agent you just read about.

$git push zahid main
Live at https://your-agent.zahid.host
Get free account → Pricing
from €0/mo · no card required
LIVE [news/multimodal-reward-ha…] indexed:0 read:1min 2026-07-13 ·