Abstract
Artificial intelligence (AI) is an effective technology for automatic brain tumor MRI image recognition. The training of an AI model requires a large number of labeled data, but medical data needs to be labeled by professional clinicians, which makes data collection complex and expensive. Moreover, a traditional AI model requires that the training data and test data must follow the independent and identically distributed. To solve this problem, we propose a transfer model based on supervised multi-layer dictionary learning (TSMDL) for brain tumor MRI image recognition in this paper. With the help of the knowledge learned from related domains, the goal of this model is to solve the task of transfer learning where the target domain has only a small number of labeled samples. Based on the framework of multi-layer dictionary learning, the proposed model learns the common shared dictionary of source and target domains in each layer to explore the intrinsic connections and shared information between different domains. At the same time, by making full use of the label information of samples, the Laplacian regularization term is introduced to make the dictionary coding of similar samples as close as possible and the dictionary coding of different class samples as different as possible. The recognition experiments on brain MRI image datasets REMBRANDT and Figshare show that the model performs better than competitive state of-the-art methods.
Highlights
Brain tumor is a common neurological disease
We present the effect of TSMDL on T1 and T2 tasks
It is indicated that the multi-layer framework of dictionary learning can exploit the instinct structure of data samples and can build a relationship between source and target domains
Summary
Brain tumor is a common neurological disease. As a high incidence disease, its incidence rate has reached 1.34 per 100,000 in China, and over 200,000 patients diagnosed with primary or metastatic brain tumors in the United States every year. Among the incidence of systemic tumors, brain tumors are second only to those of the stomach, uterus, breast, and esophagus, accounting for approximately 2% of systemic tumors and the proportion of deaths has exceeded 2% (Sun et al, 2019; Sung et al, 2021). The incidence rate of brain tumors is the highest among children, and the highest incidence is 20–50-year-old young adults. Brain tumors are the second most common, after leukemia. Brain tumors cause physical and mental suffering to patients, and place a heavy financial burden on their families. As a standard technique for non-invasive brain tumor diagnosis, magnetic resonance
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