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Methods/Local Response Normalization

Local Response Normalization

GeneralIntroduced 2000421 papers

Description

Local Response Normalization is a normalization layer that implements the idea of lateral inhibition. Lateral inhibition is a concept in neurobiology that refers to the phenomenon of an excited neuron inhibiting its neighbours: this leads to a peak in the form of a local maximum, creating contrast in that area and increasing sensory perception. In practice, we can either normalize within the same channel or normalize across channels when we apply LRN to convolutional neural networks.

$b_{c} = a_{c}\left(k + \frac{\alpha}{n}\sum_{c'=\max(0, c-n/2)}^{\min(N-1,c+n/2)}a_{c'}^2\right)^{-\beta}$

Where the size is the number of neighbouring channels used for normalization, $\alpha$ is multiplicative factor, $\beta$ an exponent and $k$ an additive factor

Papers Using This Method

MF2Summ: Multimodal Fusion for Video Summarization with Temporal Alignment2025-06-12 Adversarially Robust AI-Generated Image Detection for Free: An Information Theoretic Perspective2025-05-28 A Deep Learning-Driven Inhalation Injury Grading Assistant Using Bronchoscopy Images2025-05-13 DeeCLIP: A Robust and Generalizable Transformer-Based Framework for Detecting AI-Generated Images2025-04-28 DNA Origami Nanostructures Observed in Transmission Electron Microscopy Images can be Characterized through Convolutional Neural Networks2025-03-13 RURANET++: An Unsupervised Learning Method for Diabetic Macular Edema Based on SCSE Attention Mechanisms and Dynamic Multi-Projection Head Clustering2025-02-27 Multi-classification of High-Frequency Oscillations Using iEEG Signals and Deep Learning Models2024-12-22 Synthesising Handwritten Music with GANs: A Comprehensive Evaluation of CycleWGAN, ProGAN, and DCGAN2024-11-25 A Hybrid Approach for COVID-19 Detection: Combining Wasserstein GAN with Transfer Learning2024-11-10 Generation of Indian Sign Language Letters, Numbers, and Words2024-10-23 QIANets: Quantum-Integrated Adaptive Networks for Reduced Latency and Improved Inference Times in CNN Models2024-10-14 Investigating the Effect of Network Pruning on Performance and Interpretability2024-09-29 Evaluating Deep Learning Models for Breast Cancer Classification: A Comparative Study2024-08-29 Guided and Fused: Efficient Frozen CLIP-ViT with Feature Guidance and Multi-Stage Feature Fusion for Generalizable Deepfake Detection2024-08-25 Side-Channel Analysis of OpenVINO-based Neural Network Models2024-07-23 Explainable Differential Privacy-Hyperdimensional Computing for Balancing Privacy and Transparency in Additive Manufacturing Monitoring2024-07-09 Deepfake Audio Detection Using Spectrogram-based Feature and Ensemble of Deep Learning Models2024-07-01 Deep learning for automated detection of breast cancer in deep ultraviolet fluorescence images with diffusion probabilistic model2024-07-01 Research on fusing topological data analysis with convolutional neural network2024-06-19 Mental Stress Detection: Development and Evaluation of a Wearable In-Ear Plethysmography2024-04-12