Stefan Harrer scite author profile

Stefan Harrer

5Publications

41Citation Statements Received

52Citation Statements Given

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IBM Research - Australia

Publications

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Densely Supervised Grasp Detector (DSGD)

Asif¹,

Tang²,

Harrer³

2019

AAAI

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This paper presents Densely Supervised Grasp Detector (DSGD), a deep learning framework which combines CNN structures with layer-wise feature fusion and produces grasps and their confidence scores at different levels of the image hierarchy (i.e., global-, region-, and pixel-levels). Specifically, at the global-level, DSGD uses the entire image information to predict a grasp. At the region-level, DSGD uses a region proposal network to identify salient regions in the image and predicts a grasp for each salient region. At the pixel-level, DSGD uses a fully convolutional network and predicts a grasp and its confidence at every pixel. During inference, DSGD selects the most confident grasp as the output. This selection from hierarchically generated grasp candidates overcomes limitations of the individual models. DSGD outperforms state-of-the-art methods on the Cornell grasp dataset in terms of grasp accuracy. Evaluation on a multi-object dataset and real-world robotic grasping experiments show that DSGD produces highly stable grasps on a set of unseen objects in new environments. It achieves 97% grasp detection accuracy and 90% robotic grasping success rate with real-time inference speed.

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DeepActsNet: A deep ensemble framework combining features from face, hands, and body for action recognition

Asif

Mehta

Cavallar

et al. 2023

Pattern Recognition

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From wearables to THINKables: artificial intelligence-enabled sensors for health monitoring

Mirmomeni

Fazio

Cavallar

et al. 2021

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Features importance in seizure classification using scalp EEG reduced to single timeseries

Naze

Tang

Kozloski³

et al. 2021

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Artificial Intelligence for Clinical Trial Design

Harrer

2020

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Stefan Harrer

Densely Supervised Grasp Detector (DSGD)

DeepActsNet: A deep ensemble framework combining features from face, hands, and body for action recognition

From wearables to THINKables: artificial intelligence-enabled sensors for health monitoring

Features importance in seizure classification using scalp EEG reduced to single timeseries

Artificial Intelligence for Clinical Trial Design

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