Haptic Robotic Perception

PhD Thesis: Combining interaction and perception to determine the physical properties of the robot environment

Teaching robots to "feel" their environment through deep learning - material classification, stiffness estimation, and terrain recognition using force/torque sensors.

Key Contributions

HAPTR - Transformer for Terrain Classification

Developed the transformer architecture for terrain classification on legged robots. Achieved 30x parameter reduction compared to CNN-RNN baselines while maintaining accuracy.

MAL - Modality Attention Layer

Designed a novel attention mechanism for fusing force/torque and IMU sensor data. Enables robust multi-modal perception for robotic manipulation.

DEC for Tactile Sensing

Adapted Deep Embedding Clustering to the tactile sensing domain for exploratory material analysis without labeled data.

Future Research Directions

Foundation Models for Tactile Sensing - Self-supervised learning for touch
Terrain Classification - Cross-robot transfer, soft/deformable terrains
Multi-Modal Fusion - Vision + touch integration

Michał Bednarek | PhD

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sources		sources
.gitignore		.gitignore
AGENTS.md		AGENTS.md
CLAUDE.md		CLAUDE.md
README.md		README.md

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Haptic Robotic Perception

Key Contributions

HAPTR - Transformer for Terrain Classification

MAL - Modality Attention Layer

DEC for Tactile Sensing

Future Research Directions

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Haptic Robotic Perception

Key Contributions

HAPTR - Transformer for Terrain Classification

MAL - Modality Attention Layer

DEC for Tactile Sensing

Future Research Directions

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