Tmall Genie functions include doorbells, call bells, smart switches, one-touch calling, playback control, personalized scenes, song playback, and global voice control of various home appliances.

Tmall Genie is an AI smart product brand released by Alibaba Artificial Intelligence Laboratory on July 5, 2017. Tmall Genie can understand Chinese Mandarin voice commands, bringing a new experience of human-computer interaction. Understanding Mandarin Chinese voice commands can realize smart home control, voice shopping, mobile phone recharge, ordering takeout, audio music playback and other functions, bringing a new human-computer interaction experience.

Relying on Alibaba Cloud's machine learning technology and computing power, AliGenie can continue to evolve and grow, understand users' preferences and habits, and become a human intelligent assistant. The team behind Tmall Genie has done a lot of research on noise reduction technology. They have conducted thousands of experiments on various materials and environments such as glass, wood, concrete, metal, and stone in kitchens, living rooms, bedrooms, studies, etc. , and is specially optimized for home use scenarios, and can be woken up and used normally even in noisy environments.

Appearance features

Tmall Genie adopts a chip specially developed for the intelligent voice industry, and has made special efforts in decoding, noise reduction, sound processing, multi-channel collaboration, etc. Optimization processing. For working environments that require a lot of audio processing and sound synthesis, the custom chip incorporates an independent NEON processing unit. NEON technology can accelerate audio and speech processing, phone calls and sound synthesis, etc., thereby bringing better speech recognition and audio processing effects. .

Six-microphone radio array technology is used in the radio sound plan. There is a six-microphone pickup array on the top, with six highly sensitive microphones that help collect sounds from different directions, making it easier to identify useful information in the surrounding noise to achieve better far-field interaction effects.