SMART AI POWERED ANIMAL BODY HARNESS AND ARMOUR SYSTEM FOR REAL TIME MONITORING OF HUMAN HEALTH AND BEHAVIOUR WHEN WITHIN PROXIMITY TO ANY SUPPORT ANIMAL OR PET
The invention discloses smart Artificial Intelligence powered body harness system for support animals or pets such as a dog and which is capable of real time monitoring of human health, wellbeing, behavior and status of an owner or handler or any of the person of interest within proximity of the equipped support animal or pet. Further, the smart body harness and armor system is capable of monitoring the emotional state and body biometrics and health of the support animals or pet and to transmit in real time the collected data to a centralized monitoring center for AI and human analysis and then reporting on those results to the pet owner and any interested person or organization granted secure access via his/her smartphone or any other network enabled device. The smart body harness system of present invention is comprising of: a flexible body of a harness capable of conforming the body shape of the pet support animals which is further augmented with a network of plurality of electronically connected housings built within the flexible body of harness to support the real time monitoring instruments; each such base stations of the body harness incorporates one or more electronic sensor base plate or mounting platform all of which are networked together as a part of global monitoring network; a plurality of weatherproof, waterproof and shock resistant container having not less than a microcomputer with integrated peripheral devices including but not limited to, a camera, a microphone, a 4G and 5G wireless network components, a Bluetooth module, a Wi-Fi, Battery pack and many more mounted within the base stations of the body harness which acts as a mounting receptacle for the container. Further, each such container has transparent housing for its camera device and each container device is interchangeable with other container device due to the ability of containers to snap-in to the housings via mechanical, magnetic or clip-on mechanisms.
