Nowadays, the application of the®φ↑ Internet of Things has penetrated™& into all walks of life.×∏ Under the general trend of the Intε←ernet of Things, the aqu®¶aculture industry is a₩✔α↑lso exploring smart farming. The netwo•≈rk composed of the Internet of Th☆ ings, cloud computing and various sen β©sors is used to open smart faε®♦rming, allowing farmers to lean£÷& management. Say goodbye t>φ$≠o the inefficient and cumbersome ♣☆'€farming model in the past. The feedingγ∞₩↓ system of automatic feeding e‍₩quipment is generally composed↑λ of feeding carts, traction₽‌€ ropes, rails, and screw  Ω↑conveyor systems. It has the cha→εracteristics of high aut λ<§omation and regular and quant₹±•γitative feeding without manual interβ☆vention. The feeding proce ≤™©ss is intelligently contr←π✘olled to save feed and reduce was©☆¶<te. Improve the efficiency of breed≈¶ing and promote the large-scale de≠€velopment of the automated b♥™reeding industry. The developme ≠☆nt and application of arti&©↑®ficial intelligence breeding • ​technology range from artificial in‍≤&αtelligence diagnosis ε, to "space-based" control of brβ•βeeding farms, to intelligent comprehe≥<nsive data analysis. It ha <λ™s brought convenience §✘&∏and unexpected gains to the br ∑±♠eeding industry! This is not ✔±only the advancement of science and te¶αchnology, but also the★☆ innovation and persiste>¶nce of the development of "intelligen∞♠≠t animal husbandry".