Using fuzzy logic for diagnosis and classification of spasticity

Alcan, Veysel; Canal, Mehmet Rahmi; Zinnuroğlu, Murat

doi:10.3906/sag-1512-65

Cited by 5 publications

(4 citation statements)

References 36 publications

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“…In the medical and health sciences alone, we found 1124 publications addressing the problem of classification using fuzzy logic. These include the classification of rare diseases or the grouping of patients [46][47][48], but also geological [49,50], climatic phenomena [51,52], human behavior [53], or crop maturity classifications [54].…”

Section: Discussionmentioning

confidence: 99%

Extended Fuzzy-Based Models of Production Data Analysis within AI-Based Industry 4.0 Paradigm

et al. 2023

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Fast, accurate, and efficient analysis of production data is a key element of the Industry 4.0 paradigm. This applies not only to newly built solutions but also to the digitalization, automation, and robotization of existing factories and production or repair lines. In particular, technologists’ extensive experience and know-how are necessary to design correct technological processes to minimize losses during production and product costs. That is why the proper selection of tools, machine tools, and production parameters during the manufacturing process is so important. Properly developed technology affects the entire production process. This paper presents an attempt to develop a post-hoc model of already existing manufacturing processes with the increased requirements and expectations resulting from the introduction of the Industry 4.0 paradigm. In particular, we relied on fuzzy logic to support the description of uncertainties, incomplete data, and discontinuities in the manufacturing process. This translates into better controls compared to conventional systems. An analysis of the proposed solution’s limitations and proposals for further development constitute the novelty and contribution of the article.

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Section: Discussionmentioning

confidence: 99%

Extended Fuzzy-Based Models of Production Data Analysis within AI-Based Industry 4.0 Paradigm

et al. 2023

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“…Results of the RMS and MNF also showed that the stroke affected the magnitude and frequency of the sEMG signals for the GS, but not for the BF ( Fig 5 ). Stroke led to decreased magnitude and frequency of GS, revealing atrophy of muscle fibers, lowered firing rate, weakened capacity of motor-units recruitment, reduced conduct velocity and muscle fatigue by hemiplegia for gait performance [ 15 , 24 ]. The stroke-induced neuromuscular abnormity in GS may result in less than necessary propulsion at the pre-swing phase and thus generate debilitated muscle force for knee flexion during swing stage, all of which could impair the AR of knee flexion in gait [ 25 ].…”

Section: Discussionmentioning

confidence: 99%

“…Li and Hong found when stroke patients took negative-heeled shoes during walking the sEMG amplitudes of GS and BF increased, accompanied by greater knee flexion [ 14 ]. Other studies reported that it was the GS but not the BF that exhibited reduced sEMG amplitude and frequency with decreased knee motion in post-stroke gait [ 15 , 16 ]. These studies inspired us that to further examine the amplitude and frequency information underlying the sEMG signals of the involved muscles would help better understand the causes and solutions of stiff-knee gait in post-stroke patients.…”

Section: Introductionmentioning

confidence: 99%

Associations between lower-limb muscle activation and knee flexion in post-stroke individuals: A study on the stance-to-swing phases of gait

Wang

Yue

et al. 2017

PLoS ONE

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Reduced knee flexion is a leading feature of post-stroke gait, but the causes have not been well understood. The purpose of this study was to investigate the relationship between the knee flexion and the lower-limb muscle activation within the stance-to-swing phases of gait cycle in the post-stroke hemiplegic patients. Ten stroke patients and 10 age- and gender-matched healthy subjects participated in the experiment. The lower-limb kinematic signals and the surface electromyography (sEMG) signals of the left and right rectus femoris (RF), biceps femoris (BF) and lateral gastrocnemius (GS) were recorded during walking. The angle range (AR) of knee flexion, the root mean square (RMS) and the mean frequency (MNF) of sEMG signals were calculated from the terminal stance (TSt) to the initial swing (ISw) phases of gait cycle. Stroke patients showed lower bilateral AR of knee flexion and lower RMS of GS on the paretic side, but higher MNF of RF on the non-paretic side compared with the controls. Within the stroke patients, significant differences were found between their paretic and non-paretic limbs in the AR of knee flexion, as well as in the RMS and MNF of GS (p < 0.05). Regression analysis showed that the RMS of BF, MNF of BF and MNF of GS explained 82.1% of variations in AR of knee flexion on paretic side (r2 = 0.821). But the RMS and MNF of all the muscles (including the RF, GS and BF) could explain 65.6% of AR of knee flexion variations on the non-paretic side (r2 = 0.656), and 45.2% of variations for the healthy subjects (r2 = 0.452). The reduced knee flexion during gait was associated with altered magnitude and frequency of muscle contractions and with simplified muscle synergy in the post-stroke hemiplegic patients. Identifying the muscles that are responsible for knee stiffness may facilitate improvement of rehabilitation strategy for post-stroke gait.

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“…As the LSTM network requires a sequence of data points to train the network, analysis is done on the behaviour of the signals for the various movements to unify them to a single value for each timestamp. Fuzzy Logic provides a means to perform this action in a more interpretable form based on its natural fluctuations[34,35].…”

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confidence: 99%

Fuzzy inference system (FIS) - long short-term memory (LSTM) network for electromyography (EMG) signal analysis

Suppiah¹,

Kim²,

Sharma³

et al. 2022

Biomed. Phys. Eng. Express

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A wide range of application domains such as remote robotic control, rehabilitation, and remote surgery require capturing neuromuscular activities. The reliability of the application is highly dependent on an ability to decode intentions accurately based on captured neuromuscular signals. Physiological signals such as Electromyography (EMG) and Electroencephalography (EEG) generated by neuromuscular activities contain intrinsic patterns for users' particular actions. Such actions can generally be classified as motor states, such as Forward, Reverse, Hand-Grip, and Hand Release. In order to classify these motor states truthfully, the signals must be captured and decoded correctly. This paper proposes a novel classification technique using a Fuzzy Inference System (FIS) and Long Short Term Memory (LSTM) networks to classify the motor states based on EMG signals. Existing EMG signal classification techniques generally rely on features derived from data captured at a specific time instance. This typical approach does not consider the temporal correlation of the signal in the entire window. In this paper, the authors propose Long Short Term Memory with Fuzzy Logic method to classify four major hand movements, forward, reverse, raise, and lower. We extract the features associated with the motor state movement by exploring published with the pattern generated data within a given time window. The classification results are promising to achieve 91.3% accuracy for the 4-way action (Forward/Reverse/GripUp/RelDown) and 95.1% (Forward/Reverse Action) and 96.7% (GripUp/RelDown action) for 2-way actions. The proposed mechanism demonstrates high-level, human interpretable results that can be employed in rehabilitation or medical-device industries.

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Using fuzzy logic for diagnosis and classification of spasticity

Cited by 5 publications

References 36 publications

Extended Fuzzy-Based Models of Production Data Analysis within AI-Based Industry 4.0 Paradigm

Extended Fuzzy-Based Models of Production Data Analysis within AI-Based Industry 4.0 Paradigm

Associations between lower-limb muscle activation and knee flexion in post-stroke individuals: A study on the stance-to-swing phases of gait

Fuzzy inference system (FIS) - long short-term memory (LSTM) network for electromyography (EMG) signal analysis

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