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Author name: SmartMore

ViMo Studio

ViMo Studio

Product Description

ViMo Studio is an industrial machine vision software created by Smartmore. It is a user-friendly solution that utilizes a graphical interface for easy operation. With its flexible configuration options, users can efficiently implement a wide range of machine vision applications, including size measurement, assembly positioning, defect detection, OCR, and code reading. The software incorporates cutting-edge algorithm modules like deep learning, and it offers the capability to export running software and SDK to cater to the intricate and diverse requirements of industrial applications.



Product Features


Rich Algorithm Tailored to Specific Needs:

Our solution offers a wide range of powerful algorithms tailored to specific inspection requirements. By combining traditional visual tools with deep learning algorithms, we create robust quality control systems for industrial applications.
Drawing on over 20 years of research and practical experience, our deep learning algorithms excel in complex industrial scenarios. The general model quickly identifies target defects, while our library of traditional vision tools handles tasks like calibration, positioning, detection, measurement, logic, and calculations.


One-click Generation of Visual Schemes:

With our intuitive graphical interface, you can effortlessly construct a visual inspection process in minutes. The running software designer provides a practical UI control library, granting control over running processes, yield statistics, performance monitoring, and user permissions. This caters to the diverse needs of engineers and operators in different roles. Our end-to-side software design eliminates the need for programming, reducing labor costs and expediting the implementation of visual inspection projects.


Extensive Hardware Compatibility, Flexible Integration with Production Line:

Our solution is highly adaptable to various hardware configurations, allowing seamless integration with production lines. It supports popular industrial camera brands for easy image acquisition and communicates flawlessly using common protocols. The export side's independent deployment ensures stable operation on the production line.

Application Cases


SMore AIoT

SMore AIoT

Product Description

SMore AIoT industrial internet platform integrates core technologies such as AI, computer vision, digital twin, IoT, and big data. It is a comprehensive application platform designed for industrial enterprises, extending from the OT layer to the IT layer. The AIoT platform covers multiple scenarios across the device, production line, factory, and enterprise layers. It provides end-to-end digital services for intelligent production, operation, management, and visual decision-making, empowering manufacturing enterprises to reduce costs, optimize inventory, save energy, and reduce emissions. improve quality, and enhance efficiency, thus creating a new generation of intelligent factories.



Product Function Points

功能点 拷贝



Equipment Process Layer

IoT, Optimization of Industrial Parameters

产品优势 拷贝

Production&Factory Layer

Transparent Factory of Digital Twin, Smart Logistics, Predicative Operation Management of Equipment, Optimization of Equipment, Optimization of Consumption Analysis, Visual Lean Operation Management, Quality Management of AI-ADC, AI-OCR for Non-Intelligent Device


Enterprises Applications

Data Lake, Enterprise Management Dashboard

Application Cases

Defect detection of ground finish surface of steering knuckle

Top 3 Applications of Barcode Scanning Devices & Their Benefits

lithuim battery
The production process in today's highly automated and complex manufacturing systems involves integrating numerous components, each with specifications, tolerances, and tracking requirements. The intricate interplay of these various elements demands a rigorous method for ensuring that each part is correctly identified, assessed, and incorporated into the final product. Not only that, but this daunting task is further exacerbated by the need to comply with stringent quality control standards and monitor the vast amount of data generated during production.
Barcode scanning devices like SmartMoreInside’s VS series code readers are a robust solution to this challenge and offer an efficient and reliable means of tracking and verifying components throughout the production process. They read and decode the unique patterns of bars and spaces found on barcodes, representing vital information about a component's identity, attributes, and origin. By rapidly and accurately scanning these barcodes, production line workers and automated systems can effortlessly access the necessary data to confirm the suitability of a component, monitor its progress along the production line, and maintain comprehensive records for quality assurance and traceability purposes.

What is SmartMoreInside's VS Series Code Reader?

The SmartMoreInside VS1000 code reader is a versatile, high-performance solution for reading 1D and 2D codes across various materials and challenging conditions. The surprising thing is that utilizing machine learning algorithms, a high-speed multi-core SMP processor, and a megapixel image sensor, the VS1000 can accurately and rapidly identify codes, even on low contrast, poorly printed, or curved and reflective surfaces.
The VS1000 features an ultra-flexible light source (red, white, and polarized) system to accommodate different backgrounds and lighting conditions. Its four independently controlled lighting units ensure consistent and optimal code reading. The device also offers a high-precision field of view with four fixed-focus lens models for reading codes between 30mm and 125mm.
Moreover, the parallel deployment method allows the VS1000 barcode scanning device to be used in a network for maintaining scanning performance while expanding the field of view or scanning multiple angles and surfaces simultaneously. It suits various application scenarios, including 3C manufacturing, car manufacturing, electronics manufacturing, and food production.
barcode scanner

Applications of VS series Barcode Scanning Devices

Here we have a look at the most significant applications of barcode scanning devices:

Lithium Battery

Barcode scanning devices are crucial in the manufacturing and tracking of lithium batteries. During production, barcode labels are affixed to each battery cell, which allows for real-time tracking of critical parameters such as capacity, voltage, and internal resistance. By scanning these barcodes, quality control teams can access detailed information about individual cells and monitor their performance during assembly, testing, and final inspection. Undoubtedly, this level of traceability ensures that only high-quality lithium batteries reach end-users while reducing the risk of performance issues and enhancing the complete safety of battery-powered devices.


In the PCB industry, barcode scanning devices facilitate efficient production and quality control processes. PCBs are assigned unique barcodes during fabrication that enable precise tracking of individual boards through each manufacturing stage, like drilling, etching, solder mask application, and component placement. Smart barcode readers collect data on component identification, manufacturing date, and batch numbers and allow for streamlined inventory management and traceability. It also enables quick identification of faulty PCBs and the implementation of corrective actions to prevent further defects, ensuring high-quality products reach the market.
2d industrial camera


Barcode scanning devices are integral to the electronics industry and provide an effective means of inventory management, quality control, and product traceability. Manufacturers can streamline production workflows, automate data collection, and reduce individual errors by attaching barcode labels to electronic components and devices. Scanners facilitate real-time tracking of component sourcing, assembly, and testing while providing valuable information for process optimization and reducing manufacturing lead times. Furthermore, barcodes allow manufacturers to maintain detailed records of the whole supply chain, enabling rapid identification and resolution of issues that may arise during transportation or storage.
fix electronics

How SmartMoreInside's VS Series Solves Challenges

Implementing SmartMoreInside’s barcode scanning devices in the above applications presents several challenges.

    • Multi-Code Reading for One Time

Traditional barcode readers can struggle to read multiple codes at once, leading to longer processing times and potential errors. SmartMoreInside's VS series barcode reader uses advanced image recognition technology to read multiple codes simultaneously, improving efficiency and accuracy.

    • Large Field of View Reading

In a retail store, reading barcodes on items located on shelves is essential. Conventional barcode readers have a narrow field of view, making it challenging to read codes placed on shelves. The SmartMoreInside VS series barcode reader has a broad field of view that enables the user to scan codes over vast distances, simplifying the scanning process.

    • Dirty or Messy Code Reading

Scanning dirty or incomplete barcodes can be challenging for standard barcode readers. However, SmartMoreInside's barcode reader VS series features advanced algorithms and lighting systems that allow it to accurately capture even the most complex codes, regardless of their condition.

    • Reading Codes on Reflective Surfaces

Reflective surfaces, such as metal or glass, can cause issues for traditional barcode readers due to glare and reflections. SmartMoreInside's VS series barcode reader uses specialized lighting and imaging technologies to overcome these obstacles, making it possible to read codes on even the most reflective surfaces.

    • High-Speed Code Reading

Scanning dirty or incomplete barcodes can be challenging for standard barcode readers. However, SmartMoreInside's barcode reader VS series features advanced algorithms and lighting systems that allow it to accurately capture even the most complex codes, regardless of their condition.

Wrapping Up

In these industries, barcodes are often found on various materials with different reflective properties, rendering it difficult for traditional scanners to read codes accurately. Plus, codes may be presented on curved surfaces or at different angles, further complicating the scanning process.
The industrial barcode reader VS series from SmartMoreInside owns many capabilities to overcome these challenges, featuring a high-speed multi-core SMP processor, an ultra-flexible light source system, a high-precision field of vision, and a parallel deployment mechanism. For more information about smart barcode readers, be sure to contact us at any time, and we will remove your puzzles with practical solutions.

Logistics 4.0: How Machine Vision Products Help Build Logistics Automation

man scan qr code
Over the past few years, the logistics industry has experienced momentous growth, driven by increasing global trade, e-commerce, and high-tech advancements. As reported, the global logistics industry is expected to grow at a 6.3% CAGR from 2023-2028, reaching a value of over USD 14.37 trillion, up from USD 9.96 trillion in 2023.
This progression can be attributed to rising demand for same-day and next-day deliveries, expanding global trade routes, and the growing importance of reverse logistics. On the other hand, this rapid expansion has equally put immense pressure on the logistics industry to increase efficiency and throughput to meet the growing consumer expectations.
In response to these challenges, the logistics industry has invested heavily in automating and upgrading its logistic storing and distributing processes. Advanced technologies such as warehouse automation systems, robotics, and other solutions driven by machine vision products are being implemented to streamline operations.

Visual Analysis and Automation to Transform Supply Chains

The logistics industry's supply chain consists of interconnected processes that ensure the efficient flow of goods from suppliers to end consumers. The processes include goods receiving, preparation for storage, storage, retrieval, and delivery – each stage ensures the timely and accurate delivery of products, thereby maintaining customer satisfaction and fostering business growth.
Keep in mind that visual analysis and logistics automation powered by machine vision products could be helpful in meeting the objectives and requirements at each step.

  • Good Receiving: Visual analysis in this stage helps identify and inspect the received goods for potential damages or discrepancies. Automation benefits include increased accuracy, fewer mistakes, and improved efficiency in the handling and sorting of goods.
  • Prepare for Storage: Visual analysis aids inappropriately labeling, sorting, and palletizing products. Logistics automation streamlines these processes, enhances organization, and minimizes the risk of misplaced or incorrectly stored items.
  • Storage: Visual analysis helps optimize warehouse layout, monitor inventory levels, and track product locations. Automation may result in increased efficiency in space utilization, fewer work expenditures, and enhanced inventory management.
  • Retrieving: Visual analysis assists in locating and picking items for order fulfillment. The accuracy of picking can be improved by using automated solutions, which also cut down on the amount of time spent looking for objects and promote overall productivity.
  • Delivery: Visual analysis is needed for route planning, vehicle tracking, and delivery confirmation. Automation in this stage can optimize routing, minimize fuel consumption, and enhance real-time tracking, which results in more efficient and reliable deliveries.

scanning the package

How Machine Vision Products Can Be Helpful?

Let's have a look at how the following machine vision products play their roles in meeting the needs for visual analysis and automation in the logistics supply chains:

Barcode Reader

A barcode reader is a key machine vision product in supply chains for accurate identification, tracking, and data collection. It employs advanced optical and digital image processing techniques to scan and decode linear or 2D package barcodes. The core components of a barcode reader include a light source, a lens system, a photoelectric detector, and a decoder module.
The light source illuminates the barcode, and the lens system focuses the reflected light onto the photoelectric detector, which captures the image and converts it into an electrical signal. The decoder module processes the electrical signal, interprets the barcode's symbology, and outputs the encoded data to a connected system. At the same time, the data is essential for inventory management, shipping, and traceability within the logistics supply chain.
barcode reader

2D Industrial Camera

The inspection process can result in long shutdown times, posing a challenge for automotive manufacturers. When vehicles are taken off the assembly line for inspection, it can interrupt the production flow and create inefficiencies. Any issues discovered during the inspection may require additional time for rework or repair, further extending the shutdown period. For example, if a vehicle's paintwork is found to have flaws, it may need to be sent back for repainting, which causes delays in the production process and potentially impacts delivery times to customers.
2d industrial camera

Smart Machine Vision System

A smart machine vision system like SMore ViMo is an intelligent, self-contained solution for automated visual analysis in logistics supply chains. Fundamentally, it combines advanced image processing algorithms, machine learning techniques, and integrated hardware to perform object recognition, defect detection, and pose estimation tasks. The system typically consists of a high-resolution camera, an embedded processor, and specialized software, which enables it to process images and make real-time decisions without relying on external computers.
In logistics, smart machine vision systems can be used for tasks like automated sorting of packages, palletizing and depalletizing, and robotic guidance for loading and unloading operations, leading to increased efficiency and improved safety.
smore vimo vision inspection and more

About SmartMoreInside

SmartMoreInside specializes in developing and manufacturing innovative, cost-effective solutions, including sensors, machine vision products, and control systems. With a strong focus on serving multiple industries such as quality inspection, factory digitalization & automation, logistics, traffic monitoring, and many more, SmartMoreInside continually expands its product lines and employs the latest technology in its manufacturing units to ensure the highest production standards. We have a global network of over 1000 employees and a commitment to innovation, which supports us in providing smarter manufacturing solutions for our worldwide customers, fostering growth and efficiency across various sectors.

Everything You Should Know about Automotive Appearcance Inspection

Over the past few years, the automotive sector has experienced rapid growth and development, with increasing numbers of new vehicles being designed and manufactured globally. This worldwide spike can be linked to technological advancements, varying consumer preferences, and the need for more sustainable transportation solutions. Around 80 million automobiles were produced worldwide in 2021, a rise of three percent from the previous year; increased production means that the automotive industry is on the mend following the rough years of 2019 and 2020.

Considering the boosting market, here we will discuss the challenges associated with the automotive inspection of a car’s appearance and how machine vision products, including visual sensors, can help inspect in this regard. So, let’s get started.

Challenges of Automotive Appearance Inspection

The following are the challenges associated with automotive appearance inspection. In essence, these problems highlight the significance of adding visual sensors to inspect car appearance.


The high volume of vehicles produced in the automotive industry presents a significant challenge for appearance inspection. With thousands of automobiles manufactured daily, inspectors must examine each quickly and accurately while ensuring they meet the desired quality standards. As a result, the sheer number of vehicles that must be inspected can lead to potential errors, bottlenecks, or increased costs. E.g., a busy production line may struggle to maintain optimal quality control, which leads to issues like paint imperfections or body panel misalignments going unnoticed.


Achieving the required level of preciseness in the automotive inspection of a vehicle is yet another challenge. Inspectors must scrutinize every aspect of a vehicle's exterior and look for defects such as dents, scratches, uneven paint, or misaligned parts. Sometimes, these imperfections may be minuscule or barely visible and hence makes their detection even more problematic. For instance, slight color variations or subtle texture differences in the paint finish may only be apparent under specific lighting conditions, which ultimately requires inspectors to be highly attentive and knowledgeable about the specific requirements of each automobile.

Long Shutdown Time during the Inspection

The inspection process can result in long shutdown times while posing a challenge for automotive manufacturers. When vehicles are taken off the assembly line for inspection, it can interrupt the production flow and create inefficiencies. Any issues discovered during the inspection may require additional time for rework or repair, further extending the shutdown period. For example, if a vehicle's paintwork is found to have flaws, it may need to be sent back for repainting, which causes delays in the production process and potentially impacts delivery times to customers.

How SmartMoreInside’s Machine Vision Products Inspect the Appearance?

Here we see how machine vision products like visual sensors help inspect the car's appearance:


Machine vision products utilize visual sensors, such as industrial cameras and sensors, to inspect car frames for structural integrity and proper alignment. These devices recognize the code on the frame and capture high-resolution images of defects like cracks, corrosion, or misaligned components that can be identified through advanced image processing algorithms. E.g., a machine vision system might detect minute deformations in the frame's structure and alert quality control teams to potential safety concerns.


Visual sensors are indispensable for assessing the quality of car tires during manufacturing and usage. These sensors can capture images of tire surfaces, treads, and sidewalls and hence enable the detection of defects like uneven wear, punctures, or manufacturing inconsistencies. A common example includes using machine vision solutions to identify the presence of foreign objects embedded in the tire, which could compromise its performance and safety.

Solder Joint

Machine vision products inspect solder joints in a car's electronic components. High-resolution cameras and advanced image processing can evaluate the quality of these joints by assessing their shape, size, and position – the process helps identify any weak or defective solder connections that could lead to electronic failure. An example of this technology in action includes examining the solder joints on a car's engine control unit, ensuring that all connections are secure and reliable.

Car Paint

Visual sensors and machine vision systems inspect car paint quality and consistency. These systems can detect defects, including scratches, dents, or inconsistent coloration, by capturing images of the paint surface at various angles and under different lighting conditions. For instance, a machine vision solution might identify areas of a car where paint has been applied too thinly or has not adhered well while ensuring that customers receive a flawless finish.

SmartMoreInside's Visual Sensor VN Series

Let's now introduce the cutting-edge VN series of visual sensors by SmartMoreInside, designed and developed to revolutionize your automation and inspection processes. The VN2000 model boasts an impressive high-resolution camera, lightning-fast processing speeds, and a robust algorithm library, which eventually ensures superior image acquisition and accurate, real-time detection. Its compact size, versatile functionality, and seamless integration into various industrial applications make it ideal for quality control, object recognition, and positioning tasks.

Final Words

Machine vision visual sensors are powerful tools that can be used to inspect cars for a variety of defects. It is a valuable quality control tool that can help to ensure that cars are safe and meet quality standards.
We at SmartMoreInside believe that innovation is essential for the growth of individuals and businesses. Besides the appearance inspection in the automotive industry, SmartMoreInside provides a wide range of products for multiple industries, including logistics, packaging, retail, medical, food, etc.
So, experience unparalleled performance and efficiency with the VN series, the perfect blend of innovation, reliability, and simplicity to meet the demands of today's fast-paced industries!

How QR Codes Empower Smart Packaging?

The significance of quality inspection in manufacturing can never be underrated, as bad quality can ruin even the best of products.

However, many factories still resort to human quality inspectors to manually inspect their products, which is more costly, less efficient, and prone to errors. In 2021, quality control still relied up to around 80% on human resources for manual inspection. Therefore, any company managing to reduce the proportion of manual inspection will likely take the lead in the competition.

In order to address the above issue, we would like to offer our smart solutions:

  • Automatic inspection
  • Compatible model
  • Optical design
  • Hardware acceleration
  • Algorithm R&D

Automatic inspection

Many manufacturers prefer automatic inspection to human inspection because no further value is created during the quality inspection. With automatic inspection, skilled inspectors will be released to focus on the work with higher value.

Fortunately, our team consists of engineers with automation know-how and practical experience in system architecture, mechanical design, electronics, and communications. With such a team, we are able to offer you solutions that can automatically inspect your products.

Take our SMore ViMo for example. SMore ViMo is an online industrial AI platform helping you perform model training tasks based on our leading deep learning capabilities. You can apply the trained models to your production line, enabling you to inspect the products automatically.

Compatible model

Worrying about the compatibility of our trained models is unnecessary.

Let’s still take our SMore ViMo for example. Trained models can be exported from SMore ViMo into SDK, supporting a range of mainstream programming languages, such as Python, C, C++, and others.

In other words, no matter what industrial software you are using, our SDK of trained models will be compatible with your software.

Our SMore ViMo is an end-to-end general platform that provides full-stack smart capabilities for the entire industrial manufacturing process.

Optical design

If SMore ViMo is our smart brain for training models, then SMore ViScanner is our smart eye for capturing images of your products.

A scanner without excellent optical performance cannot be called a good scanner. Our scanners are able to capture images and read code reliably under harsh conditions, attributed to our optical engineers who are adept at configuring the cameras, models, and light sources.

Our ViScanner is highly flexible and easy to use.

Hardware acceleration

AI projects usually demand high requirements for computing power or hardware specifications, but that is not the case for SmartMore.

Why? The answer is that our engineers make full use of chip architecture and optimize the model code. Our R&D team achieves the ISP level by maximizing the computing performance on your CPU+GPU/NPU/AI chips.

For example, 1 GPU will be sufficient for our SMore ViMo to train models when many other AI projects require 2 GPUs. Therefore, you may not need to purchase more high-level hardware, further lowering your cost.

Algorithm R&D

Our competitive solutions can never be accomplished without the backup of R&D team.

Led by our founder, Jiaya Jia, a professor of Department of Computer Science and Engineering at The Chinese University of Hong Kong (CUHK), our R&D team consist of various technical talents where 60% of them hold doctoral or postgraduate degrees, accounting for over 75% of our employees in total.

We are also one of the earliest teams in the world engaging in machine vision technology. We have accumulated more than 20 years of world-leading academic and scientific research experience with the core technology capabilities of matrix-style computer vision.

SmartMore helps you build the smart factory.

Our 5 Solutions to smart manufacturing

In today’s market where competition is increasingly fierce, a company equipped with the process of automatic inspection will likely triumph over its rivals. With our 5 solutions, upgrading into smart manufacturing will be at your fingertips.

  • Automatic inspection
  • Compatible model
  • Optical design
  • Hardware acceleration
  • Algorithm R&D

Please feel free to contact us for more information.

4 Ways SmartMore’s Machine Vision System Helps Ensure Food Safety

machine vision helps food industry

Food safety is a critical concern for both consumers and food manufacturers. As the World Health Organization (WHO) indicates, about 600 million people worldwide become ill due to contaminated food every year, and 420,000 die as a result. In the United States alone, the Centers for Disease Control & Prevention (CDC) estimates that 1 in 6 Americans become ill due to foodborne diseases, resulting in 128,000 hospitalizations and 3,000 deaths annually.

The most frequent causes of foodborne illness include bacterial contamination, such as E. coli and salmonella, and chemical contamination, like lead and other heavy metals. The traditional methods of detecting these contaminants (visual inspections and microbial testing) are time-consuming and error-prone. However, equipping a machine vision system can help solve these problems while analyzing images of food products and detecting contaminants. In this article, we will introduce the safety challenges in food production and how SmartMoreInside solves them with a set of advanced machine vision products.

Current Safety Challenges in Food Production

Foreign Objects: Accidental contamination of food with foreign objects, such as glass, metal, or plastic, can pose serious health risks to consumers. Unfortunately, these objects can cause physical injury, choking, or even internal bleeding.
Deterioration: Food deterioration can occur due to improper handling, storage, or transportation in the food production facility. This can result in the growth of harmful bacteria, mold, or other pathogens, eventually leading to foodborne illnesses.
Missing Label: Incorrect or missing labeling on food products can lead to confusion among consumers, which may ultimately cause them to consume allergens or unintentionally violate their dietary or religious restrictions.
Expired Food: Consumption of expired food products can result in food poisoning or other illnesses and can equally cause serious health consequences.
No Tracking or Tracing: In the event of a foodborne illness outbreak, tracking and tracing the origin of the contaminated food products is essential to identify the source and prevent further contamination. Nevertheless, not all food producers have an effective tracking and tracing system like a machine vision system, and this ignorance can lead to delays in identifying the source of contamination and containing the outbreak.
food production line

How Machine Vision Systems Help Protect Food Safety

Machine vision systems can play a crucial role in ensuring food safety by identifying and preventing contamination, defects, and other food processing and packaging issues. Accordingly, here are machine vision systems applied in food production that work together to protect food safety:

Material Storage: Barcode Scanner

Before production begins, raw materials and ingredients must be stored properly to prevent contamination; barcode scanners track and identify materials, ensuring the correct ingredients are used in production. The barcode scanner reads the barcode on each material and sends the information to a database, which then tracks the material throughout the production process.

For example, a barcode scanner could track a bag of flour entering the production line, making sure that it is not contaminated and has not passed its expiration date. Not only that, but a barcode scanner of a machine vision system in a meat processing facility can likewise verify that the incoming meat is from an approved source and has been properly stored and transported.

Inspection: Industrial Camera + Light Source + Industrial Computer

During the production process, food products are inspected to ensure they meet quality and safety standards – industrial cameras, light sources, and industrial computers capture images of food products and analyze them for any defects or contaminants. The industrial camera captures high-resolution product images, which are then analyzed by the industrial computer, and the light source provides optimal lighting conditions for the camera to capture accurate images.

Let's consider an example; an industrial camera could be used to inspect a bag of fruit for any foreign objects, including but not limited to a tiny insect that could pose a safety risk to consumers. In extensive food production facilities, an industrial camera can be used to inspect signs of mold or other defects, while an industrial computer can be used to analyze the images and alert workers if any issues are detected.

Storage + Delivery: Barcode Scanner

Machine vision systems can also ensure food products are stored and delivered safely – barcode scanners can track the movement of food products throughout the supply chain, guaranteeing that they are stored at the correct temperature and delivered to the right location. Indeed, this can help prevent spoilage, contamination, and other issues arising during storage and delivery. That’s why food industries never hesitate to choose a reliable barcode scanner manufacturer for high-quality scanners.
storage inspection
For instance, a barcode scanner could track a box of packaged cookies moving from the production line to a storage area and then to a delivery truck for transportation to a retail store. Moreover, in a grocery store, a barcode scanner can track the movement of perishable products like dairy and meat, ensuring that they are stored at the correct temperature and sold before expiration.

Whole Process: SMore ViMo

Last but not least, here comes the protection of the complete process in food production, where SMore ViMo functions as a robust machine vision system solution developed by SmartMoreInside, a machine vision products manufacturer. Vision Inspection and More, or SMore ViMo for short, is an end-to-end intelligent industrial no-code platform that performs recognition, detection, segmentation, and classification for over a thousand industrial applications.
SMore ViMo offers various intelligent full-process services, such as data management, data labeling, model training, project design, model operation, and project administration. It has the potential to be used in a wide variety of industrial settings, including the detection of numerous objects, the identification of fractures, laser engraving, and the classification of bent characters.

Start Your Machine Vision Journey With SmartMore

Codes, whether barcode, QR code, or DPM code, have been widely adopted by industries for tracking and traceability, quality control, batch info recognition, and more. As applications become more complex, users demand agile and flexible code-reading capacity. With Smart Grid advanced capturing technology and advanced algorithms, SmartMore’s code-reading product and solution have enabled clients to speed up warehouse inbound and outbound logistics flows by 70% using batch scanning of up to 200 product units and integrating real-time data into IMS. SmartMore’s module can achieve full inspections for various types of supply chain management. Just follow SmartMore and start your advanced machine vision journey!

SMore VS2000


SMore VS2000

High-end Industrial Barcode Scanner

Product Description

Powered by deep-learning algorithms, SMore VS2000 is able to provide outstanding reading services for both 2D and 3D codes on over 50 materials. Defined as a smart industrial barcode scanner, SMore VS2000 supports deployment in various complicated and severe environments and provides rapid and accurate code-reading solutions.

Product Features


Abundant Lens Mount

  • Provide different lens options of M-mount and C-mount. M-mount covers focal lengths of 8mm, 12mm, 16mm, 25mm, and 35mm. Combined with flexible C-mount lenses, the largest range covers field applications.

Ultra-high Speed Focus

  • Equipped with a distance sensor, SMore VS2000 is capable of inspecting the accurate position between material and lens. Besides, it can provide rapid inspection with only a few barcode samples.


High Resolution & Broad View

  • Equipped with an image sensor above 5MP, it realizes a large field of view that is several times larger than before, and satisfies barcode reading in a large field of view.

Modular Light Source Design

  • Modular light source design is adopted, providing a standard light source module with 16 LED lights and a high-brightness light source module with 34 LED lights. You can choose a suitable light source according to different scenarios and reduce the need for high-cost external lighting.


SMore VN4000


SMore VN4000

Advanced Industrial Vision Sensor

Product Description

Integrated with deep learning algorithms, SMore VN4000 can achieve various vision inspections by a few training samples without any parameters deploying and adjusting. It supports a flexible working distance that can hold different installation spaces.

Product Features


Binary Classification

  • Integrated with deep-learning algorithms, SMore VN4000 is more powerful to inspect presence/absence, counting, U/D, and other error-proofing scenarios. With stronger computing power, SMore VN4000 supports more complicated applications by binary classification.

Low-shot Learning

  • With the adoption of advanced pre-training model, SMore VN4000 supports few learning samples to reach better performance.


Various Communication Modes

  • SMore VN4000 supports various communication modes, including TCP Server, TCP Client, ModBus TCP, MELSEC, class="nowrap">SLMP, RS-232, EtherNet/IP to transfer data.

SMore VN2000


SMore VN2000

Smart Industrial Vision Sensor

Product Description

SMore VN2000, equipped with advanced vision algorithms, is a compact industrial intelligent vision sensor that can be applied to various inspection scenarios and industries, such as automotive, food, medical, cosmetics, and precision industry. Besides, small in size and one-click tuning function support manufacturers to plug and conduct in severe environments.

Product Features


Advanced Liquid Focus

  • Equipped with self-developed Cube-A technology, SMore VN2000 is able to reach millisecond-level zoom speed in a single operation. In addition, it also supports automated adjustment of focus, exposure, gain, light source switching, and other parameters according to the dark and bright field with the function of one-click tuning.

No Code Solutions

  • Easy-to-use software can be installed without any technical skills. Solutions can be deployed and adjusted quickly only by four steps.


Abundant Vision Algorithms

  • With built-in high-precision positioning and detection algorithms, SMore VN2000 is capable of detecting presence/absence, counting, U/D and other error-proofing scenarios. It supports a working distance of 40-400 mm, also providing multiple vision inspection applications.

Flexible Light Sources

  • SMore VN2000 succeeds in providing rich optics from polarized, half-polarized, unpolarized light to red/white light source according to different scenarios and various materials.