#python#3d_reconstruction#3d_vision#monocular_depth_estimation#monocular_geometry_estimation
MoGe-2 is a powerful tool for estimating 3D geometry from single images. It can create detailed point maps, depth maps, and normal maps with high precision. This model is especially useful because it can predict geometry in metric scale, meaning it provides accurate measurements. It also enhances visual sharpness, making it better than previous versions. Users benefit from MoGe-2 by getting precise 3D information from just one photo, which is helpful for applications like robotics or video games. It's fast and works well with different image sizes.
https://github.com/microsoft/MoGe
🚀 WeChat Pay Launches AI Integration Toolbox for Seamless Payment Solutions
WeChat Pay has officially introduced an AI-native integration toolbox designed to offer merchants and developers a streamlined payment integration solution. According to ChainCatcher, this toolbox facilitates the rapid generation of payment function code through natural language commands.
The toolbox comprises Skill packages, AI-friendly documentation, and APIs, enabling one-click calls in mainstream AI development environments. Its 'verbal code generation' feature significantly reduces the development process from days to minutes, allowing quick integration of over 20 functions, including mini-program payments, H5 payments, refunds, and profit-sharing.
Additionally, the toolbox includes AI diagnostic capabilities that automatically identify code logic issues and provide suggestions for fixes, minimizing financial and system risks during integration. It also supports interface troubleshooting and legacy code upgrades for existing system developers. This upgrade further advances the standardization and AI adaptation of payment capabilities, lowering the digital business barriers for small and medium-sized enterprises.
#WeChatPay#AIintegration#PaymentSolutions#Developers#Merchants#AItoolbox#CodeGeneration#DigitalBusiness#SMEs#TechInnovation#PaymentAPI#Automation#SystemUpgrade