| --- |
| license: apache-2.0 |
| datasets: |
| - prithivMLmods/WeatherNet-05 |
| library_name: transformers |
| language: |
| - en |
| base_model: |
| - google/siglip2-base-patch16-224 |
| pipeline_tag: image-classification |
| tags: |
| - Weather-Detection |
| - SigLIP2 |
| - 93M |
| --- |
| |
|  |
|
|
| # Weather-Image-Classification |
|
|
| > Weather-Image-Classification is a vision-language model fine-tuned from google/siglip2-base-patch16-224 for multi-class image classification. It is trained to recognize weather conditions from images using the SiglipForImageClassification architecture. |
|
|
| ```py |
| Classification Report: |
| precision recall f1-score support |
| |
| cloudy/overcast 0.8493 0.8762 0.8625 6702 |
| foggy/hazy 0.8340 0.8128 0.8233 1261 |
| rain/strom 0.7644 0.7592 0.7618 1927 |
| snow/frosty 0.8341 0.8448 0.8394 1875 |
| sun/clear 0.9124 0.8846 0.8983 6274 |
| |
| accuracy 0.8589 18039 |
| macro avg 0.8388 0.8355 0.8371 18039 |
| weighted avg 0.8595 0.8589 0.8591 18039 |
| ``` |
|
|
|  |
|
|
| --- |
|
|
| ## Label Space: 5 Classes |
|
|
| The model classifies an image into one of the following weather categories: |
|
|
| ```json |
| "id2label": { |
| "0": "cloudy/overcast", |
| "1": "foggy/hazy", |
| "2": "rain/storm", |
| "3": "snow/frosty", |
| "4": "sun/clear" |
| } |
| ``` |
|
|
| --- |
|
|
| ## Install Dependencies |
|
|
| ```bash |
| pip install -q transformers torch pillow gradio |
| ``` |
|
|
| --- |
|
|
| ## Inference Code |
|
|
| ```python |
| import gradio as gr |
| from transformers import AutoImageProcessor, SiglipForImageClassification |
| from PIL import Image |
| import torch |
| |
| # Load model and processor |
| model_name = "prithivMLmods/Weather-Image-Classification" # Replace with actual path |
| model = SiglipForImageClassification.from_pretrained(model_name) |
| processor = AutoImageProcessor.from_pretrained(model_name) |
| |
| # Label mapping |
| id2label = { |
| "0": "cloudy/overcast", |
| "1": "foggy/hazy", |
| "2": "rain/storm", |
| "3": "snow/frosty", |
| "4": "sun/clear" |
| } |
| |
| def classify_weather(image): |
| image = Image.fromarray(image).convert("RGB") |
| inputs = processor(images=image, return_tensors="pt") |
| |
| with torch.no_grad(): |
| outputs = model(**inputs) |
| logits = outputs.logits |
| probs = torch.nn.functional.softmax(logits, dim=1).squeeze().tolist() |
| |
| prediction = { |
| id2label[str(i)]: round(probs[i], 3) for i in range(len(probs)) |
| } |
| |
| return prediction |
| |
| # Gradio Interface |
| iface = gr.Interface( |
| fn=classify_weather, |
| inputs=gr.Image(type="numpy"), |
| outputs=gr.Label(num_top_classes=5, label="Weather Condition"), |
| title="Weather-Image-Classification", |
| description="Upload an image to identify the weather condition (sun, rain, snow, fog, or clouds)." |
| ) |
| |
| if __name__ == "__main__": |
| iface.launch() |
| ``` |
|
|
| --- |
|
|
| ## Intended Use |
|
|
| Weather-Image-Classification is useful for: |
|
|
| * Automated weather tagging for photography and media. |
| * Enhancing dataset labeling in weather-related research. |
| * Supporting smart surveillance and traffic systems. |
| * Improving scene understanding in autonomous vehicles. |
