The environment impacts of former, current and alternative future municipal solid waste management system in Shenzhen

This study aims to investigate the measures implemented in Shenzhen's MSW management systems across different time periods and compare the environmental impacts arising from these systems under various scenarios. This study adopts the LCA methodology and models Shenzhen's past, present, and future MSW management systems by utilizing GaBi software. The findings of the study highlight substantial disparities in the environmental impacts resulting from different waste treatment methods employed within MSW management systems. Incineration continues to hold a pivotal role in Shenzhen's MSW system. Furthermore, recycling of recyclable materials holds the potential to conserve significant quantities of raw materials and reduce emissions produced throughout the production chain, particularly given China's prevailing energy structure, where coal remains a significant source of electricity. Overall, the net values of impact categories exhibit a declining trend in each scenario

ABC-CNN: An Attention Based Convolutional Neural Network for Visual Question Answering

We propose a novel attention based deep learning architecture for visual question answering task (VQA). Given an image and an image related natural language question, VQA generates the natural language answer for the question. Generating the correct answers requires the model's attention to focus on the regions corresponding to the question, because different questions inquire about the attributes of different image regions. We introduce an attention based configurable convolutional neural network (ABC-CNN) to learn such question-guided attention. ABC-CNN determines an attention map for an image-question pair by convolving the image feature map with configurable convolutional kernels derived from the question's semantics. We evaluate the ABC-CNN architecture on three benchmark VQA datasets: Toronto COCO-QA, DAQUAR, and VQA dataset. ABC-CNN model achieves significant improvements over state-of-the-art methods on these datasets. The question-guided attention generated by ABC-CNN is also shown to reflect the regions that are highly relevant to the questions

Lighting up NeRF via Unsupervised Decomposition and Enhancement

Neural Radiance Field (NeRF) is a promising approach for synthesizing novel views, given a set of images and the corresponding camera poses of a scene. However, images photographed from a low-light scene can hardly be used to train a NeRF model to produce high-quality results, due to their low pixel intensities, heavy noise, and color distortion. Combining existing low-light image enhancement methods with NeRF methods also does not work well due to the view inconsistency caused by the individual 2D enhancement process. In this paper, we propose a novel approach, called Low-Light NeRF (or LLNeRF), to enhance the scene representation and synthesize normal-light novel views directly from sRGB low-light images in an unsupervised manner. The core of our approach is a decomposition of radiance field learning, which allows us to enhance the illumination, reduce noise and correct the distorted colors jointly with the NeRF optimization process. Our method is able to produce novel view images with proper lighting and vivid colors and details, given a collection of camera-finished low dynamic range (8-bits/channel) images from a low-light scene. Experiments demonstrate that our method outperforms existing low-light enhancement methods and NeRF methods.Comment: ICCV 2023. Project website: https://whyy.site/paper/llner