AI-Driven Manufacturing: How Data and Human Intelligence Are Shaping 2025

Manufacturing is going through a major shift. By 2025, smart factories won’t just be a concept, they will define how production happens. This change isn’t just about automation; it’s about using real-time data, AI, and human expertise together to improve manufacturing processes.

The Power Behind Manufacturing

Factories today generate large amounts of data from IoT devices. But raw data isn’t enough — it must be turned into useful insights that improve production.

Better Process Control: Advanced analytics and edge computing help make real-time adjustments. For example, in metalworking, AI can analyze tool vibration and temperature, helping set the right cutting speed and feed rate. This can extend tool life by 20% and improve surface finish by 15%.

Predicting Quality Issues: AI doesn’t just find defects — it can predict when a problem might happen. In semiconductor manufacturing, AI models can spot wafer defects with over 95% accuracy, reducing waste and improving output.

AI: Working Together With People

AI is not about replacing workers — it’s about making better decisions and improving production.

Smarter Robots: AI-powered robots can adjust to different part sizes and shapes, reducing downtime and making production more flexible.

Helping Workers Solve Production Issues: AI systems gather data from various sources, allowing operators to detect and resolve production challenges more quickly.

AI in Product Design: AI-driven design tools can create and test product designs faster, making products stronger, lighter, and easier to manufacture. This is already being used in the aerospace and automotive industries.

Skilled Workers: The Backbone of Smart Factories

Even with all these advancements, experienced workers remain crucial in smart factories. AI and robotics support them, ensuring smoother operations and better results.

Working With Robots: Cobots (collaborative robots) handle repetitive tasks, allowing workers to focus on complex and skilled operations.

AI That Supports Workers: AI systems now explain their suggestions, helping operators understand and make better decisions.

Ensuring Factories Secure and Reliable

With more connected systems, cybersecurity and supply chain risks are growing. Manufacturers need to focus on security to keep operations running smoothly.

Stronger Security Measures: A ‘zero trust’ approach ensures that only authorized users and devices can access factory systems.

Protecting Machines From Cyber Threats: AI-powered monitoring systems track industrial networks to spot unusual activity before it causes problems.

Supply Chain Stability: Data analytics help manufacturers identify risks and build stronger, more flexible supply chains to avoid disruptions.

Manufacturing in 2025: Smarter, Faster, and More Reliable

By 2025, factories will be connected systems where data, AI, and skilled workers work together to improve production. Success will come from using technology wisely, investing in workers, and keeping factories secure. The future of manufacturing isn’t just about automation — it’s about making production smarter, more flexible, and ready for the challenges ahead.

Unlocking the Power of Facial Recognition AI in 2025: Innovations and Challenges

Facial recognition AI is reshaping industries, improving security, enhancing user experiences, and optimizing business operations. As we progress into 2025, this technology has reached new heights, and its use cases are expanding rapidly. While the advantages are clear, implementing facial recognition also comes with a set of challenges that businesses need to address. In this blog, we explore the key use cases, technologies behind facial recognition AI, the role of geofencing, and the hurdles companies face when deploying this innovative solution.

Use Cases of Facial Recognition AI

Workforce Management Facial recognition AI is increasingly used in workforce management, particularly for automating attendance and time tracking. By scanning employees’ faces upon entry or exit, businesses eliminate the potential for time fraud and improve the accuracy of attendance records. This system also ensures quicker and more efficient payroll processing, allowing businesses to focus on more critical tasks.

Security and Access Control In both public and private spaces, facial recognition AI enhances security. Whether in airports, corporate offices, or government buildings, facial recognition allows real-time identification of individuals, ensuring that only authorized personnel can access restricted areas. This improves overall security by reducing human error and preventing unauthorized access.

Visitor Management Systems In sectors like hospitality, real estate, and corporate environments, facial recognition is revolutionizing visitor management. By automating visitor check-ins and integrating facial recognition with access control systems, businesses can enhance security while offering a seamless experience. It ensures that visitors are verified and directed to the right locations without any manual intervention.

Personalized Customer Experiences Retailers are using facial recognition to personalize their customer interactions. By recognizing returning customers, stores can offer tailored experiences, such as personalized product recommendations or discounts based on their purchase history. This not only enhances customer satisfaction but also helps businesses build long-term customer loyalty.

Healthcare Applications In healthcare, facial recognition is employed to verify patient identities, ensuring that medical records and prescriptions are linked to the correct individuals. This reduces the chances of human error and helps maintain patient safety. Additionally, it is used for contactless temperature scanning, providing a safer experience for both healthcare workers and patients.

Geofencing and Location-Based Services Geofencing, when integrated with facial recognition, offers new opportunities in both security and customer service. Geofencing uses GPS or RFID technology to establish virtual boundaries around a specific location. When a person’s face is detected within this virtual boundary, businesses can trigger actions such as granting access, sending location-based promotions, or providing targeted services. For instance, retail stores can send personalized offers to customers as soon as they enter the store, enhancing the shopping experience. In security, geofencing combined with facial recognition ensures that only authorized individuals can access certain areas when they are within a designated zone.

Key Technologies Behind Facial Recognition AI

Deep Learning Algorithms Deep learning algorithms, particularly convolutional neural networks (CNNs), are the backbone of facial recognition AI. These algorithms process vast amounts of data to analyze facial features and match them with an existing database. As AI models continue to advance, they offer greater accuracy and speed, enabling real-time processing.

Infrared and 3D Imaging To overcome challenges such as poor lighting or facial obstructions, facial recognition AI integrates infrared and 3D imaging technologies. These tools ensure that recognition remains accurate in diverse environments, even in low light or when a person wears glasses, hats, or masks.

Edge Computing Edge computing is another critical technology that allows facial recognition systems to process data locally, reducing the reliance on cloud infrastructure. This results in faster processing times and ensures that systems can function in real-time without delays, especially crucial for security applications.

Multi-Biometrics Integration To improve both accuracy and security, facial recognition is often combined with other biometric modalities, such as fingerprint scanning or voice recognition. Multi-modal systems offer a higher level of identification confidence, ensuring that only authorized individuals can gain access to secure areas.

Challenges of Facial Recognition AI

Privacy and Data Protection Collecting sensitive biometric data raises privacy concerns. Businesses must adhere to strict data protection policies, comply with regulations like GDPR, and ensure explicit consent from individuals before collecting data.

Bias and Accuracy Issues AI systems may show bias if training datasets are not diverse, leading to higher error rates for certain groups. To ensure fairness, more inclusive datasets and ongoing performance evaluation are necessary.

Regulatory and Legal Hurdles The regulatory landscape varies by region. Companies must stay updated on local and international regulations to ensure compliance with legal standards.

Technical Limitations Technical challenges, such as poor lighting, aging, and obstructions, can affect accuracy. Continuous improvements in algorithms and hardware are essential to enhance performance.

Security Risks AI systems are vulnerable to hacking and spoofing. To protect data and ensure system integrity, businesses should implement robust security measures like anti-spoofing and encryption technologies.

Conclusion

As facial recognition AI continues to advance in 2025, its potential to revolutionize industries such as security, healthcare, and retail is undeniable. By integrating technologies like geofencing, companies can offer location-based services that enhance both security and customer experiences. However, businesses must also navigate challenges like privacy concerns, biases, and regulatory hurdles. By adopting best practices and addressing these issues, companies can unlock the full potential of facial recognition AI, creating more efficient, secure, and personalized environments for their customers and employees.

Top Industries That Benefit the Most from Time and Attendance Systems with Facial Recognition

Facial recognition technology has changed the way many companies track employee time and attendance. By simply scanning faces, these systems make it easier to keep accurate records, cut down on errors, and prevent fraud. This technology saves time and makes things more efficient for different types of businesses. Here are some of the industries that benefit the most from these advanced time and attendance systems.

1. Manufacturing

Manufacturing companies, which often have large teams and rotating shifts, see great benefits from using facial recognition for time tracking. These systems ensure accurate clock-ins and clock-outs, making it hard for workers to “buddy punch” or clock in for someone else. This accuracy helps manufacturers keep payrolls fair and reduces costs by only paying for the hours worked. Since manufacturing relies on precise schedules, this technology helps managers keep everything running smoothly.

2. Healthcare

Healthcare facilities like hospitals and clinics need staff to be on time because delays can affect patient care. Using facial recognition, these places can track attendance more efficiently, making sure doctors, nurses, and other staff are where they need to be. This system also helps with payroll management, reducing errors that can happen with manual tracking. Another benefit is that it’s a contactless system, which is important in healthcare to maintain hygiene standards.

3. Retail and Hospitality

Retail stores, hotels, and restaurants have high staff turnover and changing shifts, making attendance tracking challenging. Facial recognition helps retail and hospitality businesses keep track of who’s on shift, especially during busy times. By ensuring staff arrive on time, businesses can offer better customer service. This technology also makes it easy to track attendance across different store or hotel locations, ensuring consistency and helping managers schedule shifts more effectively.

4. Construction

Construction sites often have employees and contractors spread across different locations, which makes attendance tracking difficult. Facial recognition simplifies this by providing real-time attendance records, ensuring that only authorized workers are on-site. This technology also reduces manual errors in record-keeping, which is crucial when dealing with complex projects. The system helps construction managers track workers’ hours accurately, which is helpful for payroll and staying compliant with labor regulations.

5. Corporate Offices

In corporate offices, especially those with a large number of employees, facial recognition makes attendance tracking easier and more accurate. With more companies allowing remote work or flexible hours, it’s important to have a reliable system that tracks when employees enter or leave. Facial recognition systems are contactless and efficient, and help HR teams manage payroll and attendance more effectively. This is particularly helpful in offices with hybrid work setups, as it provides accurate tracking for both in-office and remote employees.

6. Education

Schools and colleges face unique challenges when it comes to tracking attendance for both students and staff. Facial recognition makes it easy for institutions to keep track of everyone’s attendance without manual record-keeping. Schools can also use the data to see attendance patterns and address absenteeism, helping create a safer and more organized environment for learning.

7. Transportation and Logistics

The transportation and logistics industry runs around the clock, with workers in different shifts across various locations. Timely attendance is essential to avoid delays in delivery and maintain supply chains. Facial recognition helps ensure workers arrive on time and eliminates the risk of “buddy punching” or other forms of attendance fraud. This technology allows managers to track attendance centrally, improving accountability and reducing errors in scheduling.

Conclusion

Time and attendance systems with facial recognition are helping many industries improve efficiency, reduce costs, and ensure accurate tracking of work hours. From manufacturing plants to hospitals, retail stores, and schools, these systems are proving essential for businesses that need dependable, easy-to-use attendance solutions. By investing in this technology, companies can reduce errors, improve productivity, and streamline workforce management, helping them stay ahead in today’s competitive world.

Facial recognition attendance systems are here to stay, and as more industries adopt them, businesses can look forward to more reliable and secure ways to manage their teams.

Quality Assurance in Manufacturing: Implementing Advanced Technologies to Maintain Quality Standard

In today’s fast-paced manufacturing landscape, maintaining quality standards is critical for business success. With increasing competition, consumer demand, and regulatory pressures, manufacturers must ensure that their products meet strict quality requirements. Quality Assurance (QA) has always been a key aspect of manufacturing, but advanced technologies are now reshaping how manufacturers approach this essential function.

The Evolution of Quality Assurance in Manufacturing

Historically, quality assurance in manufacturing relied on manual inspections, statistical process controls, and post-production testing. While these methods have their merits, they often lead to inefficiencies, inconsistencies, and delayed defect detection. With the advent of Industry 4.0, new technologies are transforming traditional QA practices by enhancing precision, reducing errors, and enabling real-time monitoring.

Advanced Technologies in QA: A Game-Changer

Several advanced technologies have emerged as game-changers in manufacturing QA. These technologies enable manufacturers to streamline their processes, minimize waste, and ensure higher quality products.

Artificial Intelligence (AI) and Machine Learning (ML): AI and ML are making significant contributions to QA in manufacturing. AI-powered systems can analyze vast amounts of data to identify patterns, predict potential issues, and recommend corrective actions before problems arise. Machine learning models continuously improve over time, enhancing the accuracy of defect detection and reducing the need for manual inspections.

For example, AI-based visual inspection systems can identify minute defects that may be missed by human inspectors. These systems use computer vision to analyze images of products and components, ensuring that every item meets quality standards. This reduces the risk of defective products reaching customers, enhances product reliability, and improves customer satisfaction.

Internet of Things (IoT) and Sensor Technologies: IoT has revolutionized manufacturing by connecting machines, sensors, and devices to create a network of data. In QA, IoT-enabled sensors are used to monitor critical parameters such as temperature, pressure, and vibration in real time. This continuous monitoring allows manufacturers to detect deviations from quality standards immediately and take corrective actions before defects occur. Additionally, IoT-driven predictive maintenance ensures that equipment operates optimally, reducing the likelihood of equipment-related defects. Sensors can also track production processes, helping manufacturers identify bottlenecks and inefficiencies that could impact product quality.

Digital Twins: A digital twin is a virtual replica of a physical object, process, or system. In manufacturing QA, digital twins are used to simulate production processes and test different scenarios without affecting actual operations. This allows manufacturers to optimize processes, predict potential defects, and make adjustments before production even begins.

Digital twins enable manufacturers to simulate stress tests, material fatigue, and other factors that may impact product quality. By doing so, manufacturers can identify weak points in the design or production process and implement corrective actions proactively, resulting in higher-quality products and reduced downtime.

Robotic Process Automation (RPA): RPA is increasingly being used in manufacturing QA to automate repetitive tasks such as data entry, testing, and inspection. Robots can perform these tasks with greater accuracy and consistency than humans, reducing the risk of errors. For example, robotic arms equipped with cameras and sensors can inspect products at various stages of production, ensuring that quality standards are met at every step. Furthermore, RPA can streamline data collection and analysis, allowing manufacturers to identify trends and optimize processes based on real-time information. This results in improved quality control, reduced waste, and enhanced operational efficiency.

Benefits of Implementing Advanced Technologies in QA

The adoption of advanced technologies in manufacturing QA offers several significant benefits:

Increased Precision: Automated systems can perform inspections and tests with high precision, reducing the chances of human error and ensuring consistent product quality.

Real-Time Monitoring: Continuous monitoring of production processes allows manufacturers to detect and address quality issues immediately, reducing the risk of defects reaching customers.

Cost Savings: By minimizing defects, manufacturers can reduce waste, rework, and warranty claims, resulting in cost savings and improved profitability.

Enhanced Productivity: Automation and digitalization streamline processes, enabling manufacturers to operate more efficiently and meet production targets faster.

Improved Compliance: Advanced QA technologies help manufacturers meet regulatory requirements by ensuring that products adhere to industry standards and guidelines.

Conclusion

Implementing advanced technologies in quality assurance is no longer an option — it’s a necessity for manufacturers aiming to maintain competitiveness and ensure product excellence. AI, IoT, digital twins, and RPA are just a few of the cutting-edge tools that are transforming QA processes. By embracing these technologies, manufacturers can achieve higher precision, minimize defects, and deliver products that consistently meet quality standards, ultimately enhancing customer satisfaction and driving business success.

Advanced QA technologies are setting new benchmarks in manufacturing, enabling industries to produce superior products and solidify their place in an increasingly competitive market.

Manufacturing 4.0: The Role of AI in Industry Transformation

Artificial Intelligence (AI) is not just changing the game for manufacturing — it’s rewriting the entire playbook. From streamlining operations to sparking unprecedented levels of innovation, AI is driving a revolution that’s reshaping the industry. For companies aiming to thrive in today’s fast-paced, global market, embracing AI is no longer optional — it’s essential. This article dives into the dynamic ways AI is transforming manufacturing and offers a glimpse into the exciting future that lies ahead as this technological evolution continues.

Boosting Production Efficiency with AI

AI is revolutionizing production efficiency in manufacturing. Through AI-driven automation, machines handle repetitive tasks with precision, minimizing human error and boosting output. AI-powered robotics operate 24/7, maintaining consistent quality while drastically reducing production times. Moreover, AI algorithms analyze real-time data from the production line, quickly spotting bottlenecks and optimizing processes to keep operations running smoothly and efficiently.

AI-Driven Predictive Maintenance: Minimizing Downtime

AI is transforming equipment maintenance in manufacturing through predictive maintenance. By analyzing sensor data from machinery, AI can detect early signs of wear and tear, predicting potential failures before they happen. This proactive approach minimizes unplanned downtime and extends the life of costly equipment, leading to substantial long-term savings for companies.

Modernize Quality Control with AI

AI is redefining quality control by moving beyond traditional, error-prone methods. With AI-powered vision systems, products are inspected with microscopic precision, spotting defects that might elude the human eye. Operating at high speeds, these systems ensure that every product meets the highest standards before it leaves the production line. This leads to superior product quality and reduces waste by identifying and removing defective items early in the process.

Facilitating Customization and Flexibility

In an era where consumer demand is increasingly leaning towards customization, AI offers manufacturers the flexibility to meet these expectations. AI algorithms can analyze consumer preferences and market trends, allowing manufacturers to adapt their production lines quickly and efficiently to produce customized products. This flexibility is particularly valuable in industries like automotive and electronics, where customization is becoming a key differentiator.

AI-Powered Supply Chain Optimization: Streamlining Efficiency

AI is revolutionizing supply chain management by analyzing data from suppliers, logistics providers, and market conditions. It predicts demand fluctuations and optimizes inventory levels, ensuring materials are available when needed while minimizing stockouts and excess inventory. Additionally, AI enhances delivery routes and schedules, cutting transportation costs and boosting overall supply chain efficiency.

The Future Work: Redefining Manufacturing Careers

AI isn’t just automating tasks — it’s reshaping the entire workforce in manufacturing. By handling repetitive and mundane duties, AI allows human workers to tackle more complex and creative challenges. This evolution is giving rise to new roles that demand advanced skills in AI and robotics. As a result, there’s an urgent need for reskilling and upskilling programs to equip the workforce for this exciting new era in manufacturing.

AI’s Transformative Impact on Manufacturing: Embracing the Future

AI is revolutionizing manufacturing, enhancing production efficiency, predictive maintenance, quality control, and supply chain management. As AI evolves, its influence will continue to drive innovation, enable customization, and reshape the workforce. For manufacturers, adopting AI is not just a choice but a strategic necessity to excel in the future of industry. ThirdEye AI stands at the forefront of the AI revolution, offering cutting-edge solutions that drive transformation across industries, from optimizing manufacturing processes to enhancing predictive maintenance and quality control.

Revolutionizing Canteen Management with AI-powered Facial Recognition

In the dynamic landscape of canteen management, the adoption of innovative technologies is essential for staying ahead of the curve. Among these technologies, AI-powered Facial Recognition (FR) Systems have emerged as a game-changer, offering a seamless and secure authentication solution for users.

Boosting Efficiency and User Experience

Gone are the days of fumbling with ID cards or tickets. FR Systems provide a seamless experience, eliminating the need for physical items. This streamlines the entry process, reducing wait times and improving user satisfaction.

Data-Driven Decisions for Optimized Operations

Beyond authentication, FR Technology unlocks a treasure chest of valuable data. By analyzing users’ preferences and consumption habits, canteen managers can gain insights to optimize dish selection, inventory management, and overall operations. This data-driven approach ensures resources are allocated efficiently and menus cater to customer preferences.

Scalability for All Sizes

Whether it’s a cozy cafeteria or a bustling corporate dining facility, FR Technology adapts seamlessly. It streamlines authentication and optimizes workflows, enhancing operational efficiency and resource allocation regardless of the size or scale of the canteen.

Personalized Recommendations for Increased Engagement

One of the most exciting features of FR Technology is its ability to personalize the user experience. By analyzing past orders, the system can offer tailored recommendations and promotions. This fosters customer engagement and loyalty, encouraging repeat visits and satisfaction.

Benefits of AI-Powered Facial Recognition

Streamlined Authentication: Eliminates the need for physical items, boosting convenience.

Data-Driven Optimization: Provides valuable insights to optimize operations and menus.

Personalized Experiences: Recommends dishes and promotions based on individual preferences.

Scalable Solution: Adapts seamlessly to canteens of all sizes.

Transforming the Dining Experience

AI-powered Facial Recognition Systems represent a significant shift in canteen management. They offer a multitude of benefits, including streamlined processes, data-driven decision making, and personalized experiences. Embracing these innovative solutions isn’t just about keeping up with the times; it’s a leap towards a more efficient, engaging, and enjoyable dining experience for everyone.

This version emphasizes the user experience benefits and data-driven decision making aspects while avoiding the phrase “enhancing security.

Facial Recognition Solution for Payroll and Attendance

Revolutionize payroll and attendance tracking with ThirdEye AI's facial recognition system. It ensures precise employee identification, reducing timekeeping errors. With offline attendance mode, you can maintain seamless operations even without network access. Generate detailed attendance reports and analytics to improve your payroll process. Connect with ThirdEye AI for a smoother workflow.

Facial Recognition Attendance System Solutions

Transform your workplace with ThirdEye AI's advanced facial recognition attendance system solutions. No more manual tracking—enjoy effortless, secure attendance management. Our technology delivers unmatched accuracy and convenience, automating your attendance process. Ideal for businesses seeking efficient, AI-powered solutions. Reach out to ThirdEye AI today for a smarter, more efficient workforce.

Embracing the Future: Artificial Intelligence Transforms the Automotive Landscape

In today’s rapidly evolving world, technological advancements are reshaping every aspect of our lives, and the automotive industry is no exception. Artificial Intelligence (AI) stands at the forefront of this revolution, ushering in a transformative age for automotive design, manufacturing, and road navigation. In this blog post, we explore the profound impact of AI on the automotive sector, from igniting creativity to driving us towards a future of autonomous vehicles.

Unleashing Creativity in Design and Engineering

AI has become a powerful catalyst for creativity and innovation in car design and engineering. The traditional boundaries of imagination are being shattered as AI enables designers to visualize concepts with unprecedented speed and precision. Industry experts recognize the swift evolution of AI, revolutionizing the production process. For example, automotive visionaries leverage AI to inspire their teams, resulting in groundbreaking designs that push the boundaries of what’s possible.

Furthermore, research laboratories are harnessing AI���s potential to make manufacturing smarter. By addressing tangible challenges faced by engineers and designers, AI is elevating the quality and efficiency of vehicle production, leading to advancements in automotive design and engineering.

Transforming Automotive Technology

Beyond the drawing board, AI is revolutionizing the manufacturing process itself. By enhancing manufacturing quality and reducing time-to-market, AI is transforming how cars are made. Various automotive companies are seamlessly integrating AI into their production processes to identify errors and optimize procedures, resulting in significant improvements in energy efficiency and cost reduction.

Driving Towards an Autonomous Future

Imagine embarking on a journey where vehicles are intelligent companions, capable of understanding both drivers and the road ahead. This vision is becoming a reality, thanks to AI. Once cars are meticulously crafted and ready to explore the world, AI becomes a co-pilot, enhancing our journeys in unprecedented ways.

For instance, advanced AI systems enable vehicles to navigate roads with minimal human intervention, paving the way for a future filled with autonomous vehicles. Looking ahead, the fusion of AI with automotive technology will deepen, resulting in innovation across the way we interact with vehicles.

Embracing the Future of AI in Automotive Innovation

As we look towards the future, the integration of AI with automotive technology holds immense promise. While we’re still on the journey towards fully autonomous vehicles, AI is already revolutionizing how cars are designed, manufactured, and operated. From enhancing creativity in design and engineering to transforming manufacturing processes, AI is driving profound changes within the automotive industry.

In conclusion, as AI continues to evolve, it will play an increasingly integral role in shaping the future of mobility. By embracing AI-driven innovations, the automotive industry is poised to deliver safer, more efficient, and exhilarating driving experiences for people around the world.

Boundary Management Security Solution

Experience efficiency with ThirdEye AI's Boundary Management Security Solutions. Safeguard your operations with real-time monitoring, hazard management, and role-based access controls. Seamlessly integrate CCTV cameras for enhanced security. Gain valuable insights through advanced analytics, ensuring optimized processes and heightened safety. Embrace the future of boundary management with ThirdEye AI.

Facial Recognition Software Development Solutions

Facial Recognition software is revolutionizing security measures, offering precise identification and access control. With this cutting-edge technology, businesses ensure enhanced safety protocols and streamlined operations. Solutions include enhanced security, efficient time tracking, fraud prevention, and improved user experience. ThirdEye AI leads the forefront of this innovation, offering state-of-the-art facial recognition solutions. Experience the future of security with ThirdEye AI, where safety meets sophistication.

Quality Inspection for Cross Car Bar Component

Stay ahead in the #automotiveindustry by embracing the transformative capabilities of computer vision and #ai . Elevate your manufacturing game with ThirdEye AI's digital quality inspection solution, where innovation meets excellence! Our Vision Inspection solution delivers value by significantly improving product's quality and reducing cycle time by vision inspection of automotive parts and components​. ~Automated Hole Count​ ~Hole Presence Absence​ ~Weld Quality​ ~Weld Presence Absence​ ~Weld Measurement​ ~Visibility Child Parts ​ ~Child Parts Positioning​ ~Hole Shift and Weld Shift​ Source link: https://youtu.be/m0q0QwXB0vw