For today’s food manufacturing companies to stay competitive, it is crucial to maintain both top-quality output and optimal productivity. To make that happen, food manufacturing companies need to be able to automatically classify products and filter out defective items passing down the production line. The implementation of AI-enabled machine vision can significantly streamline and accelerate this inspection process. By integrating AI, automated optical inspection (AOI) can amplify its capabilities through deep learning to achieve unparalleled speed and accuracy, delivering consistently reliable results not possible with human or traditional rule-based vision inspection.
An AI-enabled embedded vision system is required to make the next generation of machine vision a reality. In order to scan massive numbers of product images in milliseconds and identify subtle features, the desirable system not only needs a high-performance Intel® Xeon® or Core™ processor but also relies on a powerful GPU (Graphics Processing Unit) or VPU (Vision Processing Unit) accelerator to carry out automated defect inspection that is heavily dependent on image interpretation and deep learning technology. In addition, the system must integrate real-time vision I/O for connection to triggers and optical sensors and support multiple camera interfaces to accomplish various applications involving machine vision.
- High-computing GPU & VPU support
- High-performance Intel® Xeon® or Core™ processor
- Integrated real-time vision I/O
- Supports camera interfaces
Axiomtek’s IPC974-519-FL Empowers AI Vision Inspection
Axiomtek has proposed its IPC974-519-FL – an edge AI-enabled machine vision platform leveraging powerful GPU/VPU computing – to address the needs across most automated visual inspections. Built specifically for AI-driven inspection and image analysis, the IPC974-519-FL not only provides multiple PCIe slots for adding GPU or VPU accelerator cards but also supports the most popular software toolkits to make AI technology accessible right on the factory floor. It allows users to develop and perform deep learning applications – from image labeling to model training and inferencing – to accelerate flaw detection and product sorting processes, making sure every food item leaving the production line meets all quality and safety criteria. The IPC974-519-FL also incorporates Axiomtek’s AX92320 frame grabber and AX92352 I/O card to provide vision I/O and camera interfaces required for real-time timing sequence control and multi-camera synchronization, enabling rapid deployment of machine vision inspection with minimal effort.
Key system features & components
- IPC974-519-FL edge AI machine vision platform
- AX92320 frame grabber & AX92352 vision I/O card
- High-performance Intel® Xeon® desktop processor, up to 80W
- 4 expansion PCIe/PCI slots for AI accelerator cards
- Huge data capacity with up to 4x 2.5” SATA drives
- Multi-camera interfaces
- Wi-Fi & 4G LTE via PCI Express Mini Card
- I/O connectivity sensors
- Software compatibility for AI model training & inferencing
How IPC974-519-FL Facilitates Vision Inspection with AI
The IPC974-519-FL enables AI-based inspection by allowing manufacturers to perform deep learning training and inference tasks to increase inspection speed and accuracy:
- Users can train the IPC974-519-FL to identify specific images by performing the tasks of image labeling and model training, or use pre-trained models to perform inferencing directly on image data. The IPC974-519-FL provides a unified user interface to simplify application development and control.
- By running inferencing on captured images or real-time video feeds, the IPC974-519-FL helps to catch defects and irregularities such as surface cracks or broken seals, or sort products by size or quality.
- Based on inference results, the vision system determines a product’s pass/fail status and triggers robotic arms or other actuators to eject defective items from the production line.
The diagram below illustrates how the IPC974-519-FL combines edge AI and machine vision elements to enable food & beverage inspection with greater speed and precision: