论文信息 - Coordinated Heterogeneous Distributed Perception based on Latent Space Representation

Coordinated Heterogeneous Distributed Perception based on Latent Space Representation

We investigate a reinforcement approach for distributed sensing based on the latent space derived from multi-modal deep generative models. Our contribution provides insights to the following benefits: Detections can be exchanged effectively between robots equipped with uni-modal sensors due to a shared latent representation of information that is trained by a Variational Auto Encoder (VAE). Sensor-fusion can be applied asynchronously due to the generative feature of the VAE. Deep Q-Networks (DQNs) are trained to minimize uncertainty in latent space by coordinating robots to a Point-of-Interest (PoI) where their sensor modality can provide beneficial information about the PoI. Additionally, we show that the decrease in uncertainty can be defined as the direct reward signal for training the DQN.

Jürgen Leitner | Ulrich Rückert | Timo Korthals

[1] Shane Legg,et al. Human-level control through deep reinforcement learning , 2015, Nature.

[2] Wolfram Burgard,et al. A Survey of Deep Network Solutions for Learning Control in Robotics: From Reinforcement to Imitation , 2016 .

[3] Alex Graves,et al. Playing Atari with Deep Reinforcement Learning , 2013, ArXiv.

[4] Max Welling,et al. Semi-supervised Learning with Deep Generative Models , 2014, NIPS.

[5] Christopher Burgess,et al. DARLA: Improving Zero-Shot Transfer in Reinforcement Learning , 2017, ICML.

[6] Peter Vrancx,et al. Game Theory and Multi-agent Reinforcement Learning , 2012, Reinforcement Learning.

[7] Timo Korthals,et al. AMiRo: A modular & customizable open-source mini robot platform , 2016, 2016 20th International Conference on System Theory, Control and Computing (ICSTCC).

[8] Masahiro Suzuki,et al. Joint Multimodal Learning with Deep Generative Models , 2016, ICLR.