A Case Study on the Design and Implementation of a Platform for Hand Rehabilitation

Kosar, Tomaž; Lu, Zhenli; Mernik, Marjan; Horvat, Marjan; Črepinšek, Matej

doi:10.3390/app11010389

Cited by 9 publications

(7 citation statements)

References 54 publications

(69 reference statements)

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“…The work in [ 36 ] further proposes the dissemination of rehabilitation technologies to the general public by developing a low-cost hand rehabilitation device based on Arduino. In this way, the design of a unified platform with a relatively simple architecture allows for the connection of different devices.…”

Section: Related Workmentioning

confidence: 99%

“…According to an analysis of the previously mentioned articles, the GUI is implemented in all of the proposed architecture except for [ 18 , 19 , 35 ]; the EMG sensor is not implemented in the majority of the discussed papers [ 18 , 19 , 30 , 31 , 34 , 36 , 37 ]. Furthermore, there is a discrepancy between the rehabilitation strategies, none of the systems presented are able to offer both the possibility to choose between default exercises and the possibility to create exercises and adapt, i.e., either to follow a pre-defined rehabilitation pathway or to create an exercise that the robot will reproduce.…”

Section: Related Workmentioning

confidence: 99%

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Robot-Assisted Rehabilitation Architecture Supported by a Distributed Data Acquisition System

Chellal

Lima

Gonçalves

et al. 2022

Sensors

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Rehabilitation robotics aims to facilitate the rehabilitation procedure for patients and physical therapists. This field has a relatively long history dating back to the 1990s; however, their implementation and the standardisation of their application in the medical field does not follow the same pace, mainly due to their complexity of reproduction and the need for their approval by the authorities. This paper aims to describe architecture that can be applied to industrial robots and promote their application in healthcare ecosystems. The control of the robotic arm is performed using the software called SmartHealth, offering a 2 Degree of Autonomy (DOA). Data are gathered through electromyography (EMG) and force sensors at a frequency of 45 Hz. It also proves the capabilities of such small robots in performing such medical procedures. Four exercises focused on shoulder rehabilitation (passive, restricted active-assisted, free active-assisted and Activities of Daily Living (ADL)) were carried out and confirmed the viability of the proposed architecture and the potential of small robots (i.e., the UR3) in rehabilitation procedure accomplishment. This robot can perform the majority of the default exercises in addition to ADLs but, nevertheless, their limits were also uncovered, mainly due to their limited Range of Motion (ROM) and cost.

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Section: Related Workmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

Robot-Assisted Rehabilitation Architecture Supported by a Distributed Data Acquisition System

Chellal

Lima

Gonçalves

et al. 2022

Sensors

View full text Add to dashboard Cite

show abstract

“…This allows the language to be very expressive for problems that fall in the domain. DSLs foster the building of a community of domain experts who speak the same language [33]. DSLs whose domain, abstractions, and notations are closely aligned with how domain experts (i.e., non-programmers) express themselves allow domain experts to easily read and often write program code since it is not cluttered with irrelevant implementation details [12].…”

Section: Domain-specific Languagesmentioning

confidence: 99%

Developing Microservice-Based Applications Using the Silvera Domain-Specific Language

Suljkanović¹,

Milosavljević

Inđić

et al. 2022

Applied Sciences

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Microservice Architecture (MSA) is a rising trend in software architecture design. Applications based on MSA are distributed applications whose components are microservices. MSA has already been adopted with great success by numerous companies, and a significant number of published papers discuss its advantages. However, the results of recent studies show that there are several important challenges in the adoption of microservices such as finding the right decomposition approach, heterogeneous technology stacks, lack of relevant skills, out-of-date documentation, etc. In this paper, we present Silvera, a Domain-Specific Language (DSL), and a compiler for accelerating the development of microservices. Silvera is a declarative language that allows users to model the architecture of microservice-based systems. It is designed so that it can be used both by inexperienced and experienced developers. The following characteristics distinguish Silvera from similar tools: (i) lightweight and editor-agnostic language, (ii) built with heterogeneity in mind, (iii) uses microservice-tailored metrics to evaluate the architecture of the designed system, and (iv) automatically generates the documentation. Silvera’s retargetable compiler transforms models into runnable code and produces the documentation for each microservice in the model. The compiler can produce code for any programming language or framework since code generators are registered as plugins. We present a case study that illustrates the use of Silvera and also discuss some current limitations and development directions. To evaluate Silvera, we conducted a survey based on A Framework for Qualitative Assessment of DSLs (FQAD), where we focused on the following DSL characteristics: functional suitability, usability, reliability, productivity, extendability, and expressiveness. Overall, the survey results show that Silvera satisfies these characteristics.

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“…This restriction makes DSLs more expressive and concise [12]. Furthermore, the DSL approach fosters the building of a community of domain experts who speak the same language [21].…”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…Kosar et al [21] present a unique hand rehabilitation platform RehabHand based on DSL and code generation techniques. The language uses a simple textual syntax and enables therapists to write rehabilitation exercises in natural, domain-specific terminology and share them with patients.…”

Section: Domain-specific Languagesmentioning

confidence: 99%

PyFlies: A Domain-Specific Language for Designing Experiments in Psychology

Dejanović

Dejanović²,

Vidaković

et al. 2021

Applied Sciences

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The majority of studies in psychology are nowadays performed using computers. In the past, access to good quality software was limited, but in the last two decades things have changed and today we have an array of good and easily accessible open-source software to choose from. However, experiment builders are either GUI-centric or based on general-purpose programming languages which require programming skills. In this paper, we investigate an approach based on domain-specific languages which enables a text-based experiment development using domain-specific concepts, enabling practitioners with limited or no programming skills to develop psychology tests. To investigate our approach, we created PyFlies, a domain-specific language for designing experiments in psychology, which we present in this paper. The language is tailored for the domain of psychological studies. The aim is to capture the essence of the experiment design in a concise and highly readable textual form. The editor for the language is built as an extension for Visual Studio Code, one of the most popular programming editors today. From the experiment description, various targets can be automatically produced. In this version, we provide a code generator for the PsychoPy library while generators for other target platforms are planned. We discuss the language, its concepts, syntax, some current limitations, and development directions. We investigate the language using a case study of the implementation of the Eriksen flanker task.

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A Case Study on the Design and Implementation of a Platform for Hand Rehabilitation

Cited by 9 publications

References 54 publications

Robot-Assisted Rehabilitation Architecture Supported by a Distributed Data Acquisition System

Robot-Assisted Rehabilitation Architecture Supported by a Distributed Data Acquisition System

Developing Microservice-Based Applications Using the Silvera Domain-Specific Language

PyFlies: A Domain-Specific Language for Designing Experiments in Psychology

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