CT-Based Automatic Spine Segmentation Using Patch-Based Deep Learning

Qadri, Syed Furqan; Lin, Hsien-Te; Shen, Linlin; Ahmad, Mubashir; Qadri, Salman; Khan, Salabat; Khan, Maqbool; Zareen, Syeda Shamaila; Akbar, Muhammad Azeem; Heyat, Md Belal Bin; Qamar, Saqib

doi:10.1155/2023/2345835

Cited by 54 publications

(37 citation statements)

References 50 publications

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“…SC is computed based on AoD and SoE. The other indicators such as recall, precision, specificity, F1-score, and accuracy [ 129 , 130 , 131 , 132 , 133 , 134 , 135 , 136 , 137 ] are computed in Equations (1)–(5) below:

where TP, TN, FN, and FP represent true positive, true negative, false negative, and false positive.…”

Section: Performance Indicatormentioning

confidence: 99%

Yoga Meets Intelligent Internet of Things: Recent Challenges and Future Directions

et al. 2023

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The physical and mental health of people can be enhanced through yoga, an excellent form of exercise. As part of the breathing procedure, yoga involves stretching the body organs. The guidance and monitoring of yoga are crucial to ripe the full benefits of it, as wrong postures possess multiple antagonistic effects, including physical hazards and stroke. The detection and monitoring of the yoga postures are possible with the Intelligent Internet of Things (IIoT), which is the integration of intelligent approaches (machine learning) and the Internet of Things (IoT). Considering the increment in yoga practitioners in recent years, the integration of IIoT and yoga has led to the successful implementation of IIoT-based yoga training systems. This paper provides a comprehensive survey on integrating yoga with IIoT. The paper also discusses the multiple types of yoga and the procedure for the detection of yoga using IIoT. Additionally, this paper highlights various applications of yoga, safety measures, various challenges, and future directions. This survey provides the latest developments and findings on yoga and its integration with IIoT.

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where TP, TN, FN, and FP represent true positive, true negative, false negative, and false positive.…”

Section: Performance Indicatormentioning

confidence: 99%

Yoga Meets Intelligent Internet of Things: Recent Challenges and Future Directions

et al. 2023

Self Cite

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“…Besides, recent advances in medical diagnosis have witnessed a surge in the adoption of deep learning methods. Studies such as (Ahmad, Ai, et al, 2019; Ahmad, Ding, et al, 2019; Alzghoul et al, 2023; Bataineh, 2019; Doppala et al, 2023; Furqan Qadri et al, 2019; Habib & Qureshi, 2023; Hirra et al, 2021; Qadri et al, 2019; Qadri et al, 2021; Qadri et al, 2022; Qadri et al, 2023; Vamsi et al, 2022) have demonstrated deep learning ability in dealing with large datasets and complex patterns. While deep learning methods provide robust performance (Ahmadian et al, 2021; Arora et al, 2022; Jalali, Ahmadian, Ahmadian, et al, 2022; Jalali, Arora, Panigrahi, et al, 2022; Jalali, Osorio, Ahmadian, et al, 2022; Mehnatkesh et al, 2023; Saffari et al, 2023), their computational density and the need for extensive data and training can be limited in certain scenarios.…”

Section: Introductionmentioning

confidence: 99%

An efficient hybrid extreme learning machine and evolutionary framework with applications for medical diagnosis

Al Bataineh,

Jalali,

Mousavirad

et al. 2024

Expert Systems

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Integrating machine learning techniques into medical diagnostic systems holds great promise for enhancing disease identification and treatment. Among the various options for training such systems, the extreme learning machine (ELM) stands out due to its rapid learning capability and computational efficiency. However, the random selection of input weights and hidden neuron biases in the ELM can lead to suboptimal performance. To address this issue, our study introduces a novel approach called modified Harris hawks optimizer (MHHO) to optimize these parameters in ELM for medical classification tasks. By applying the MHHO‐based method to seven medical datasets, our experimental results demonstrate its superiority over seven other evolutionary‐based ELM trainer models. The findings strongly suggest that the MHHO approach can serve as a valuable tool for enhancing the performance of ELM in medical diagnosis.

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“…The success of deep learning is always attributed to the growing number of large data sets and powerful computing hardware, especially in the field of medical images, which rely heavily on accurate labels and gold standards [8,9]. However, the scarcity of medical image data annotation, small sample size, uneven distribution, and poor domain generalization still seriously affect the development of related fields.…”

Section: Introductionmentioning

confidence: 99%

A classification algorithm based on improved meta learning and transfer learning for few‐shot medical images

Bingjie

Gao

Liang

et al. 2023

IET Image Processing

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At present, medical image classification algorithm plays an important role in clinical diagnosis. However, due to the scarcity of data labels, small sample size, uneven distribution, and poor domain generalization, many algorithms still have limitations. Therefore, a deep learning training network for disease classification and recognition of multimodal few‐shot medical images are proposed, trying to solve the above problems and limitations. The network is based on the idea of meta‐learning for training. Specifically, the technology of transfer learning and few‐shot learning are used. In the process of building and improving the network structure, the multi‐source domain generalization method, which performs well in the field of person re‐identification, is combined. Finally, the applicability and effectiveness of the model are verified by using Grad‐CAM tool. The experiments show that the accuracy of classification and recognition of the model is better than the advanced model in this field. The concerned areas of model classification are similar or the same as the manually labelled areas. It is of far‐reaching significance to improve the efficiency of future clinical auxiliary diagnosis and patient diversion, as well as to promote the development of the Wise Information Technology of Med in the future.

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CT-Based Automatic Spine Segmentation Using Patch-Based Deep Learning

Cited by 54 publications

References 50 publications

Yoga Meets Intelligent Internet of Things: Recent Challenges and Future Directions

Yoga Meets Intelligent Internet of Things: Recent Challenges and Future Directions

An efficient hybrid extreme learning machine and evolutionary framework with applications for medical diagnosis

A classification algorithm based on improved meta learning and transfer learning for few‐shot medical images

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