Sandra Hirche scite author profile

While convolutional neural networks (CNNs) have been successfully applied to many challenging classification applications, they typically require large datasets for training. When the availability of labeled data is limited, data augmentation is a critical preprocessing step for CNNs. However, data augmentation for wearable sensor data has not been deeply investigated yet.In this paper, various data augmentation methods for wearable sensor data are proposed. The proposed methods and CNNs are applied to the classification of the motor state of Parkinson's Disease patients, which is challenging due to small dataset size, noisy labels, and large intra-class variability. Appropriate augmentation improves the classification performance from 77.54% to 86.88%.

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The role of roles: Physical cooperation between humans and robots

Mörtl

Lawitzky

Küçükyılmaz

et al. 2012

The International Journal of Robotics Research

252

176

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Since strict separation of working spaces of humans and robots experiences a softening due to recent robotics research achievements, close interaction of humans and robots comes rapidly into reach. In this context, physical human-robot interaction raises a number of questions regarding a desired intuitive robot behavior. The continuous bilateral information and energy exchange requires an appropriate continuous robot feedback. Investigating a cooperative manipulation task, the desired behavior is a combination of an urge to fulfill the task, a smooth instant reactive behavior to human force inputs and an assignment of the task effort to the cooperating agents. In this paper, a formal analysis of human-robot cooperative load transport is presented. Three different possibilities for the assignment of task effort are proposed. Two proposed dynamic role exchange mechanisms adjust the robot's urge to complete the task based on the human feedback. For comparison, a static role allocation strategy not relying on the human agreement feedback is proposed as well. All three role allocation mechanisms are evaluated in a user study that involves large-scale kinesthetic interaction and full-body human motion. Results show tradeoffs between subjective and objective performance measures stating a clear objective advantage of the proposed dynamic role allocation scheme.

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Perception-Based Data Reduction and Transmission of Haptic Data in Telepresence and Teleaction Systems

Hinterseer¹,

Hirche

Chaudhuri

et al. 2008

IEEE Trans. Signal Process.

196

149

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Abstract-We present a novel approach for the transmission of haptic data in telepresence and teleaction systems. The goal of this work is to reduce the packet rate between an operator and a teleoperator without impairing the immersiveness of the system. Our approach exploits the properties of human haptic perception and is, more specifically, based on the concept of just noticeable differences. In our scheme, updates of the haptic amplitude values are signaled across the network only if the change of a haptic stimulus is detectable by the human operator. We investigate haptic data communication for a 1 degree-of-freedom (DoF) and a 3 DoF teleaction system. Our experimental results show that the presented approach is able to reduce the packet rate between the operator and teleoperator by up to 90% of the original rate without affecting the performance of the system.

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Bilateral teleoperation over the internet: the time varying delay problem

et al.

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Human-Oriented Control for Haptic Teleoperation

2012

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Sandra Hirche

Data augmentation of wearable sensor data for parkinson’s disease monitoring using convolutional neural networks

The role of roles: Physical cooperation between humans and robots

Perception-Based Data Reduction and Transmission of Haptic Data in Telepresence and Teleaction Systems

Bilateral teleoperation over the internet: the time varying delay problem

Human-Oriented Control for Haptic Teleoperation

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