Hikvision's intelligent storage bar code management scheme integrates oms-e app, ordinary weighing platform, OMS transmitter, printer and scanner by using wireless data transmission. In scheme setting, during material transfer, the app generates or splits the unique code to count and print the unique code label of the material after scanning the code (unique code / other bar code) or manually entering the field (unique code/material No./batch No./supplier No./quantity). The only code printed is composed of quantity, material code, reserved, batch number, serial number, disk number and supplier ID.

Hikvision intelligent storage bar code management scheme is a traceable and intelligent solution. Truly realize accurate and efficient operation and safe data management.

Hikvision's intelligent storage bar code management scheme integrates oms-e app, ordinary weighing platform, OMS transmitter, printer and scanner by using wireless data transmission. In scheme setting, during material transfer, the app generates or splits the unique code to count and print the unique code label of the material after scanning the code (unique code / other bar code) or manually entering the field (unique code/material No./batch No./supplier No./quantity). The only code printed is composed of quantity, material code, reserved, batch number, serial number, disk number and supplier ID.

Hikvision intelligent storage bar code management scheme is a traceable and intelligent solution. Truly realize accurate and efficient operation and safe data management.

YAMAHA intelligent data system solution, using wireless data transmission, integrated OMS-E APP customized version, ordinary weighing platform, OMS transmitter, YAMAHA EIP supply table conversion system, printer and scanner. The data of OMS-E APP customized version and EIP supply table conversion data system can be directly exchanged, replacing paper printing, manual inspection of materials and manual counting in traditional materials; helping users to shorten working hours and improve in production process. Production efficiency, semi-automatic and digital realization of picking.

The APP sifts and distributes the data task according to the data of the EIP supply table. The operator searches for the material storage location according to the task. After the scanner identifies the material, the number is weighed. When the number of tasks is reached, the APP will automatically save the data; the operator puts the required materials into the KIT cart, and the remaining materials are labeled ( APP prints) and puts it back into the storage location.

‌Applications of AI and Object Recognition in Supermarket Checkout Scales and Industrial Weighing Systems‌ 

Building on the broader applications of AI in retail, object recognition and AI-driven weighing technologies are transforming both supermarket checkout scales and industrial weighing systems, enhancing accuracy, efficiency, and user experience. 

‌1. Supermarket Checkout Scales‌

‌Automated Product Identification‌: AI-powered scales with integrated cameras or barcode scanners can identify fresh produce or bulk goods by analyzing visual features (e.g., shape, color) or scanning labels. This eliminates manual input errors and speeds up checkout. For example, when a customer places a banana on the scale, AI instantly recognizes the item and calculates the price based on weight and category. 

‌Dynamic Pricing Integration‌: AI scales can sync with inventory systems to apply real-time promotions or price adjustments. If a product is on sale, the scale automatically updates the price without requiring staff intervention. 

‌Fraud Prevention‌: Advanced scales detect anomalies in weight or packaging, such as when a customer attempts to weigh a premium product as a cheaper alternative. AI alerts staff to potential discrepancies, reducing shrinkage. 

‌2. Industrial Weighing Systems‌

‌Smart Material Handling‌: In manufacturing, AI-equipped scales identify raw materials or finished goods by analyzing their physical attributes (e.g., size, texture) or RFID tags. This ensures precise batch weighing for production processes, such as in pharmaceuticals or food processing.

‌Predictive Maintenance‌: AI monitors scale performance by analyzing vibration patterns, temperature, and load data. It predicts when components like load cells or sensors may fail, scheduling maintenance proactively to avoid costly downtime. 

‌Quality Control‌: In industries like agriculture or logistics, AI scales assess product quality by cross-referencing weight with visual inspection data. For instance, it can reject underweight produce or detect contaminants in bulk shipments. 

‌Supply Chain Optimization‌: AI scales integrate with IoT platforms to track inventory movement in real-time. They provide data on shipment weights, enabling efficient logistics planning and reducing overloading risks.

‌Synergy with Previous Applications

These advancements complement earlier AI use cases in supermarkets, such as cashier-less checkout and smart shopping carts, by adding a layer of precision in weight-based transactions. Similarly, in industrial settings, they align with inventory management and quality control systems, creating end-to-end AI-driven workflows.

By leveraging AI and object recognition, weighing systems in both retail and industrial contexts achieve higher accuracy, reduce operational costs, and deliver seamless experiences for businesses and consumers alike.