Damir Temiraliuly scite author profile

Background Chronic hand and wrist impairment are frequently present following stroke and severely limit independence in everyday life. The wrist orientates and stabilizes the hand before and during grasping, and is therefore of critical importance in activities of daily living (ADL). To improve rehabilitation outcomes, classical therapy could be supplemented by novel therapies that can be applied in unsupervised settings. This would enable more distributed practice and could potentially increase overall training dose. Robotic technology offers new possibilities to address this challenge, but it is critical that devices for independent training are easy and appealing to use. Here, we present the development, characterization and wearability evaluation of a fully portable exoskeleton for active wrist extension/flexion support in stroke rehabilitation. Methods First we defined the requirements, and based on these, constructed the exoskeleton. We then characterized the device with standardized haptic and human-robot interaction metrics. The exoskeleton is composed of two modules placed on the forearm/hand and the upper arm. These modules weigh 238 g and 224 g, respectively. The forearm module actively supports wrist extension and flexion with a torque up to 3.7 Nm and an angular velocity up to 530 deg/s over a range of 154∘. The upper arm module includes the control electronics and battery, which can power the device for about 125 min in normal use. Special emphasis was put on independent donning and doffing of the device, which was tested via a wearability evaluation in 15 healthy participants and 2 stroke survivors using both qualitative and quantitative methods. Results All participants were able to independently don and doff the device after only 4 practice trials. For healthy participants the donning and doffing process took 61 ±15 s and 24 ±6 s, respectively. The two stroke survivors donned and doffed the exoskeleton in 54 s/22 s and 113 s/32 s, respectively. Usability questionnaires revealed that despite minor difficulties, all participants were positive regarding the device. Conclusions This study describes an actuated wrist exoskeleton which weighs less than 500 g, and which is easy and fast to don and doff with one hand. Our design has put special emphasis on the donning aspect of robotic devices which constitutes the first barrier a user will face in unsupervised settings. The proposed device is a first and intermediate step towards wearable rehabilitation technologies that can be used independently by the patient and in unsupervised settings.

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ChibiFace: A sensor-rich Android tablet-based interface for industrial robotics

Nurimbetov

Saudabayev

Temiraliuly

et al. 2015

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Tablet computers are advanced sensor-rich units equipped with high computational power and extended communication capability. Even though their primary usage is in consumer electronics, we believe they have high potential in human-robot interaction. Tablets can be programmed to replicate various functions of the head such as vision, hearing, speaking and facial articulations. In this work, we present tablet computer-based robot head ChibiFace. Built on top of the Android operating system, it uses native Android and third party open-source libraries to implement various audio and visual signal processing algorithms, machine learning and system integration with different robot platforms. Experiments carried out in industrial robotics settings show that ChibiFace can enhance the safety of human-robot interaction. Rapid pace of advancement and functional expansion in tablet computers driven by the intense market competition foretells that highly capable, portable and customizable tablet-based human-robot interfaces might be widely accessible in the near future.

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Damir Temiraliuly

Characterization and wearability evaluation of a fully portable wrist exoskeleton for unsupervised training after stroke

ChibiFace: A sensor-rich Android tablet-based interface for industrial robotics

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