The Modern & Largest Industrial Company in this Field
We, Taiho Unicorn, are dedicated to providing high-quality and efficient solutions for industrial automation and material handling. Our range of advanced machines includes Automated Conveyor Systems, Robotic Arms, Smart Inspection Systems, Packaging Machines, Sorting Machines, and more. Leveraging our in-depth industry knowledge and the expertise of our highly skilled team, we specialize in developing cost-effective, high-performance automation solutions. Our goal is to reduce operational costs and enhance productivity for our clients. We achieve this by offering cutting-edge technology that improves sorting, grading, and material handling processes. To ensure maximum convenience, we provide doorstep delivery, flexible payment options, and excellent after-sales support.
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Taiho Unicorn was founded by [Founder Name] in [Year] with a vision to transform industrial automation. Our team comprises experienced engineers and dynamic professionals committed to innovation and excellence. With an average team age of [XX] years, we are always motivated to push the boundaries of automation technology.
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Features of Our Solutions:
✔ High performance ✔ Durability & reliability ✔ Low operational costs ✔ Minimal noise & energy efficiency ✔ Exceptional after-sales support
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VISION:
To be a global leader in industrial automation and innovative manufacturing solutions.
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MISSION:
Developing cost-effective, efficient, and innovative automation systems.
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OBJECTIVES:
✔ Utilize cutting-edge technology to reduce production costs ✔ Expand region-wise sales & service centers to cater to the global market ✔ Offer end-to-end solutions for industrial automation and material handling ✔ Ensure high-quality standards and timely delivery ✔ Provide superior after-sales support to maximize client satisfaction
Who We Are
- National high-tech enterprise - National Enterprise Technology Center - Demonstration Enterprise of Manufacturing Single Champion - Chinese Famous Trademark
TECHNOLOGY
AI Intelligent Vision Technology
By using various image recognition algorithms, we can accurately distinguish the subtle differences between good and bad products, achieving the sorting requirements of precision and high cleanliness.
Multispectral Composite Imaging Technology
By fusing multiple spectra of X-ray/visible/infrared images, as well as multiple band infrared images, multi-dimensional analysis of materials is carried out from the aspects of object density, surface characteristics, and materials, effectively improving the ability of material sorting.
Remote operation and maintenance technology
Comprehensively use 4G, 5G, 485, CAN, Ethernet and other communication methods to control the operation status of equipment in real time, and use big data technology to configure solutions online and analyze and solve equipment problems.
SOC Technology
An image data processing platform that combines the flexibility of data processing with the ability to handle massive amounts of data.
Edge Computing Technology
Using intelligent hardware such as GPU and FPGA to synchronize data collection and computation at edge nodes, reducing data transmission, improving data security and real-time device operation.
Transfer Learning Algorithm Technology
y using the latest transfer learning, self-learning and other algorithms, high-precision detection and classification models can be obtained by collecting only a small number of samples on the basis of pre trained models, improving system installation and debugging speed.
Deep Learning Techniques
Collect a large number of material samples, pre train algorithm models based on artificial intelligence deep learning algorithms, and achieve online detection, segmentation, and classification of materials to be inspected.
AI Intelligent Vision Technology
By using various image recognition algorithms, we can accurately distinguish the subtle differences between good and bad products, achieving the sorting requirements of precision and high cleanliness.
Multispectral Composite Imaging Technology
By fusing multiple spectra of X-ray/visible/infrared images, as well as multiple band infrared images, multi-dimensional analysis of materials is carried out from the aspects of object density, surface characteristics, and materials, effectively improving the ability of material sorting.
Remote operation and maintenance technology
Comprehensively use 4G, 5G, 485, CAN, Ethernet and other communication methods to control the operation status of equipment in real time, and use big data technology to configure solutions online and analyze and solve equipment problems.
SOC Technology
An image data processing platform that combines the flexibility of data processing with the ability to handle massive amounts of data.
Edge Computing Technology
Using intelligent hardware such as GPU and FPGA to synchronize data collection and computation at edge nodes, reducing data transmission, improving data security and real-time device operation.
Transfer Learning Algorithm Technology
y using the latest transfer learning, self-learning and other algorithms, high-precision detection and classification models can be obtained by collecting only a small number of samples on the basis of pre trained models, improving system installation and debugging speed.
Deep Learning Techniques
Collect a large number of material samples, pre train algorithm models based on artificial intelligence deep learning algorithms, and achieve online detection, segmentation, and classification of materials to be inspected.