用于黑色素瘤类型检测的集成学习

Rashmi Patil, Sreepathi Bellary
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引用次数: 3

摘要

黑色素瘤是一种潜在的致命类型的皮肤癌,这些黑色素细胞不受控制地发展。恶性黑色素瘤是黑色素瘤的另一个名字。澳大利亚和新西兰的黑色素瘤发病率是世界上最高的。预计每15个新西兰白人中就有一个人在一生中的某个阶段患上黑色素瘤。侵袭性黑色素瘤是2012年男性和女性中第三大最常见的恶性肿瘤。黑色素瘤可以侵袭任何年龄的成年人,但在年轻人中极为罕见。据推测,黑色素瘤起源于基因转化的黑色素细胞干细胞不受控制的增殖。皮肤镜检查早期诊断黑色素瘤可大大提高生存率。另一方面,黑色素瘤的检测是非常困难的。因此,自动识别皮肤癌对病理学家的准确性极为有利。本文提供了一种集成深度学习策略,用于在早期阶段准确分类黑色素瘤。拟议的模型区分了恶性青斑、浅表扩散和结节性黑色素瘤,从而能够及早发现病毒并及时隔离和治疗,以防止疾病进一步扩散。卷积神经网络(CNN)的深层结构和基于像素的多层感知器(MLP)的浅层结构是代表深度学习(DL)技术和经典非参数机器学习方法的神经网络算法。两种具有不同行为的方法结合在一个简单而成功的方法中,利用基于规则的决策融合方法对非常精细的黑色素瘤类型检测进行分类。在检索自https://dermnetnz.org/的数据集上,检验了集成MLP-CNN分类器的效率。与最先进的方法相比,实验结果表明,所提出的技术在诊断准确性方面更有价值
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Ensemble Learning for Detection of Types of Melanoma
Melanoma is a potentially fatal type of skin cancer in these melanocytes develop uncontrollably. Malignant melanoma is another name for melanoma. Melanoma rates in Australia and New Zealand are the highest in the world. Melanoma is anticipated to strike one in every 15 white New Zealanders at some point in their lives. Invasive melanoma was the third most prevalent malignancy in both men and women in 2012. Melanoma can strike adults of any age, but it is extremely uncommon in youngsters. Melanoma is hypothesised to start as an uncontrolled proliferation of genetically transformed melanocytic stem cells. Early diagnosis of melanoma in Dermoscopy pictures boosts the survival percentage substantially. Melanoma detection, on the other hand, is extremely difficult. As a result, automatic identification of skin cancer is extremely beneficial to pathologists' accuracy. This paper offers an ensemble deep learning strategy for accurately classifying the kind of melanoma at an early stage. The proposed model distinguishes between lentigo maligna, superficial spreading and nodular melanoma, allowing for early detection of the virus and prompt isolation and treatment to prevent the disease from spreading further. The deep layer architectures of the convolutional neural network (CNN) and the shallow structure of the pixel-based multilayer perceptron (MLP) are neural network algorithms that represent deep learning (DL) technique and the classical non-parametric machine learning method. Two methods that have diverse behaviours, were combined in a simple and successful means for the classification of very fine melanoma type detection utilising a rule-based decision fusion methodology. On dataset retrieved from https://dermnetnz.org/, the efficiency of ensemble MLP-CNN classifier was examined. In compared to state-of-the-art approaches, experimental outcomes reveal that the proposed technique is worthier in terms of diagnostic accuracy
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