US20260080114
2026-03-19
Physics
G06F30/13
The wearable smart device is designed as a headgear, specifically eyeglasses, to assist delivery personnel. It integrates various technologies, including forward-aligned cameras, displays, processors, memory, and communication systems. This configuration enables the device to scan and associate physical tags like RFID, hash, or barcodes on products. It also activates GPS and node-based positioning systems to guide users with turn-by-turn directions to their destinations and track product movement through checkpoints.
The smart eyeglasses are equipped with multiple sensors such as accelerometers, vibration detectors, magnetometers, and location sensors. These sensors detect movements like jarring, dropping, and changes in orientation, as well as the direction of interest. The device communicates with distributed nodes and facility transceivers to refine location accuracy and confirm delivery arrival. A wrist strap with physiological sensors connects wirelessly to the eyeglasses, translating hand and finger gestures into control commands.
The headgear offers a digital display of contextual information, including items within the camera's view and map overlays that show items of interest in relation to the delivery person's location. This feature enhances situational awareness by providing real-time data and visual cues, improving efficiency and accuracy during deliveries.
The technology is particularly relevant for cold storage facilities, where it can quantify and alert users about environmental conditions and product locations. Wireless communications between transceivers help determine locations and conditions like temperature, humidity, and air quality. This system ensures that products are stored under optimal conditions and provides alerts if deviations occur, maintaining product quality throughout the cold chain.
The invention includes methods and systems for tracking products, employees, infrastructure, and environmental conditions within cold storage facilities. By creating a 3D profile of environmental data, it allows for the optimization of HVAC operations and provides insights into the conditions experienced by products over time. Additionally, user interfaces and systems enable remote monitoring, allowing users to visualize the interior of storage facilities and ensure compliance with temperature specifications during shipment.