AI in Cybersecurity

Research on sports image classification method based on SE-RES-CNN model Scientific Reports

Learning generalizable AI models for multi-center histopathology image classification npj Precision Oncology

ai based image recognition

However, due to the massive scale of IR projects and the distribution of images, actual image datasets face an imbalance problem. As a result, the model still exhibits various overfitting phenomena during the training process. You can foun additiona information about ai customer service and artificial intelligence and NLP. Faced with massive image data, the huge computational workload and long training time still leave significant room for improvement in the timeliness of the model. Improvement ai based image recognition of recognition accuracy should also focus on the improvement of recognition efficiency, and should not satisfy the accuracy improvement and consume huge computational cost. In this regard, the study was carried out for the change optimization of the feature extraction module of DenseNet, and at the same time, the image processing adaptability of the parallel algorithm was improved.

The application of improved densenet algorithm in accurate image recognition – Nature.com

The application of improved densenet algorithm in accurate image recognition.

Posted: Mon, 15 Apr 2024 07:00:00 GMT [source]

Once the model’s outputs have been binarized, the underdiagnosis bias can be assessed by quantifying differences in sensitivity between patient races. Sensitivity is defined as the percentage of chest X-rays with findings that are identified as such by the AI model, whereas specificity is defined as the percentage of chest X-rays with no findings that are identified as such. The underdiagnosis bias identified by Seyyed-Kalantari et al. and reproduced here manifests in a higher sensitivity for white patients than for Asian and Black patients1. By substituting the amplitude of the source patch with that of the target patch.

Synthetic imagery sets new bar in AI training efficiency

Detection localizes and identifies the presence of organoids recognized by the model, providing the number of organoids that the model finds or misses compared to the ground truth. In the context of detection, OrgaExtractor detects organoids with a sensitivity of 0.838, a specificity of 0.769, and an accuracy of 0.813 (Fig. 2e). This research aims to introduce a unique Global Pooling Dilated CNN (GPDCNN) for plant disease identification (Zhang et al., 2019). Experimental evaluations on datasets including six common cucumber leaf diseases demonstrate the model’s efficacy.

ai based image recognition

In such areas, imaged based deep learning models for ECG recognition would serve best of which there are few studies in the literature. A recent paper created a model superior to signal based imaging achieving area under the received curve (AUROC) of 0.99 and area under Precision-Recall curve (AUPRC) 0.86 for 6 clinical disorders (Sangha et al., 2022). A machine learning-based automated approach (Suttapakti and Bunpeng, 2019) for classifying potato leaf diseases was introduced in a separate study. The maximum-minimum color difference technique was used alongside a set of distinctive color attributes and texture features to create this system. Image samples were segmented using k-means clustering and categorized using Euclidean distance.

We investigated several automated frameworks and models that have been proposed by researchers from across the world and are described in the literature. It is clear that AI holds great promise in the field of agriculture and, more specifically, in the area of plant disease identification. However, there is a need to recognize and solve the various issues that limit these models’ ability to identify diseases. In this part, we list the primary challenges that reduce the efficiency of automatic plant disease detection and classification. This research (Kianat et al., 2021) proposes a hybrid framework for disease classification in cucumbers, emphasizing data augmentation, feature extraction, fusion, and selection over three stages. The number of features is cut down with Probability Distribution-Based Entropy (PDbE) before a fusion step, and feature selection with Manhattan Distance-Controlled Entropy (MDcE) is done.

While the algorithm promises to excel in these types of sub-categorifications, Panasonic notes that this improved AI algorithm will help with subject identification and tracking in general when working in low light conditions. Frequent reversing operations of the Disconnecting Link often result in insufficient spring clamping force of the contact fingers and abrasion of the contact fingers. The local temperature maximum T1, T2, T3…Tn are obtained, the maximum value is selected as the hot spot temperature Tmax and the minimum value is selected as the normal temperature Tmin, and the relative temperature difference δt is obtained.

Incorporating the FFT-Enhancer in the networks boosts their performance

We specifically sought to develop strategies that were relatively easy to implement, could be adapted to other domains, and did not require knowledge of patient demographics during training or testing. The first approach consists of a data augmentation strategy based on varying the window width and field of view parameters during model training. This strategy aims to create a model that is robust to variations in these factors, for which the race prediction model exhibited patterns across different races.

ai based image recognition

The extraction of fiber feature information was more complete, and the IR effect has been improved6. To assist fishermen in managing the fishery industry, it needed to promptly eliminate diseased and dead fish, and prevent the transmission of viruses in fish ponds. Okawa et al. designed an abnormal fish IR model based on deep learning, which used fine-tuning to preprocess fish images appropriately. It was proved through simulation experiment that the abnormal fish IR model has improved the recognition accuracy compared to traditional recognition models, and the recall rate has increased by 12.5 percentage points7. To improve the recognition efficiency and accuracy of existing IR algorithms, Sun et al. introduced Complete Local Binary Patterns (CLBP) to design image feature descriptors for coal and rock IR.

What is AI? Everything to know about artificial intelligence

With the emergence of deep learning techniques, textile engineering has adopted deep networks for providing solutions to classification-related problems. These include classification based on fabric weaving patterns, yarn colors, fabric defects, etc.19,23. We investigated the performance of six deep learning architectures, which include VGG1624, VGG1924, ResNet5025, InceptionV326, InceptionResNetV227, and DenseNet20128. Each model is trained with annotated image repositories of handloom and powerloom “gamuchas”. Consequently, the features inherent to the fabric structures are ‘learned’, which helps to distinguish between unseen handloom and powerloom “gamucha” images.

Rhadamanthys Stealer Adds Innovative AI Feature in Version 0.7.0 – Recorded Future

Rhadamanthys Stealer Adds Innovative AI Feature in Version 0.7.0.

Posted: Thu, 26 Sep 2024 07:00:00 GMT [source]

Despite its advantages, the proposed method may face limitations in different tunnel construction environments. Varying geological conditions, diverse rock types, and environmental factors can affect its generalizability. Unusual mineral compositions or highly heterogeneous rock structures might challenge accurate image segmentation and classification. Additionally, input image quality, influenced by lighting, dust, or water presence, can impact performance.

Furthermore, we envision that an AI algorithm, after appropriate validation, could be utilized on diagnostic biopsy specimens, along with molecular subtype markers (p53, MMR, POLE). It is possible that with further refinement and validation of the algorithm, which can be run in minutes on the diagnostic slide image, that it could take the place of molecular subtype markers, saving time and money. First, the quality control framework, HistoQC81, generates a mask that comprises tissue regions exclusively and removes artifacts. Then, an AI model to identify tumor regions within histopathology slides is trained.

  • The horizontal rectangular frame of the original RetinaNet has been altered to a rotating rectangular frame to accommodate the prediction of the tilt angle of the electrical equipment.
  • It’s important to note that while the FFT-Enhancer can enhance images, it’s not always perfect, and there may be instances of noise artifacts in the output image.
  • Summarizing all above, we can see that transfer learning has been shown to be an effective technique in improving the performance of computer vision models in various business applications.

Powdery mildew, downy mildew, healthy leaves, and combinations of these diseases were all included in the dataset. They used the cutting-edge EfficientNet-B4-Ranger architecture to create a classification model with a 97% success rate. Cucumbers, a much-loved and renewing vegetable, belong to the prestigious Cucurbitaceae family of plants.

Though we’re still a long way from creating Terminator-level AI technology, watching Boston Dyanmics’ hydraulic, humanoid robots use AI to navigate and respond to different terrains is impressive. GPT stands for Generative Pre-trained Transformer, and GPT-3 was the largest language model at its 2020 launch, with 175 billion parameters. The largest version, GPT-4, accessible through the free version of ChatGPT, ChatGPT Plus, and Microsoft Copilot, has one trillion parameters. The system can receive a positive reward if it gets a higher score and a negative reward for a low score.

  • Second, we aimed to use the knowledge gained to reduce bias in AI diagnostic performance.
  • Due to the dense connectivity, the DenseNet network enables feature reuse, which improves the algorithm’s feature representation and learning efficiency.
  • The optimal time for capturing images is usually after blasting when the dust has settled and before the commencement of preliminary support work, as shown in Fig.

Our study introduces a novel deep learning model for automated loom type identification, filling a gap in existing literature and representing a pioneering effort in this domain. AI histopathologic imaging-based application within NSMP enables discernment of outcomes within the largest endometrial cancer molecular subtype. It can be easily added to clinical algorithms after performing ChatGPT App hysterectomy, identifying some patients (p53abn-like NSMP) as candidates for treatment analogous to what is given in p53abn tumors. Furthermore, the proposed AI model can be easier to implement in practice (for example, in a cloud-based environment where scanned routine H&E images could be uploaded to a platform for AI assessment), leading to a greater impact on patient management.

For the Ovarian, Pleural, and Bladder datasets, whole slide images (WSIs) serve as the input data. For computational tractability, we selected smaller regions ChatGPT from a WSI (referred to as patches) to train and build our model. More specifically, we extracted 150 patches per slide, with 1024 × 1024 pixels resolution.

The most common subtype (NSMP; No Specific Molecular Profile) is assigned after exclusion of the defining features of the other three molecular subtypes and includes patients with heterogeneous clinical outcomes. Shallow whole genome sequencing reveals a higher burden of copy number abnormalities in the ‘p53abn-like NSMP’ group compared to NSMP, suggesting that this group is biologically distinct compared to other NSMP ECs. Our work demonstrates the power of AI to detect prognostically different and otherwise unrecognizable subsets of EC where conventional and standard molecular or pathologic criteria fall short, refining image-based tumor classification.

The closer it is to red, the more likely it is to be classified as a ground truth label, while the closer it is to blue, the less likely it is. Heatmap analysis of samples (a, b) from the source domain and (c, d) from the target domain of the Ovarian cancer dataset. Despite its promising architecture, our evaluation of CTransPath’s impact on model performance yielded mixed outcomes. CTransPath achieved balanced accuracy scores of 49.41%, 69.13%, and 64.60% on the target domains of the Ovarian, Pleural, and Breast datasets, respectively, which were lower than the performance of AIDA on these datasets.

ai based image recognition

The model comprises different sized filters at the same layer, which helps obtain more exhaustive information related to variable-sized patterns. Moreover, Inception v3 is widely adopted in image classification tasks32,33 and is proved to achieve 78.1% accuracy with ImageNet Dataset and top-5 accuracy about 93.9%. The significance of this study lies in its potential to assist handloom experts in their identification process, addressing a critical need in the industry. By incorporating AI technologies, specifically deep learning models and transfer learning architectures, we aim to classify handloom “gamucha”s from power loom counterparts with cotton yarn type.