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kishorxox · 1 month ago

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Industrial Robotics Market to be Worth $37.1 Billion by 2031

Meticulous Research®—a leading global market research company, published a research report titled ‘Industrial Robotics Market—Global Opportunity Analysis and Industry Forecast (2024-2031)’. According to this latest publication, the industrial robotics market is projected to reach $37.1 billion by 2031, at a CAGR of 6.8% from 2024–2031.

The industrial robotics market is experiencing growth due to government support encouraging the adoption of industrial robots and the increasing use of robots in the manufacturing sector. However, market growth is hindered by high initial investment requirements and performance issues with robots.

In addition, the increasing automation across the automotive and electronics sectors and the rising focus on reducing human labor across industries are potential growth opportunities for market players. The market faces substantial challenges, including a lack of skilled professionals and safety issues with robots while working with other industrial systems.

Furthermore, the surging adoption of IoT technology for remote monitoring and control of robotic systems and the growing use of human-robot collaboration to automate tasks are prominent trends in the industrial robotics market.

Key Players:

The industrial robotics market is characterized by a moderately competitive scenario due to the presence of many large- and small-sized global, regional, and local players. The key players operating in the industrial robotics market are ABB Ltd (Switzerland), Fanuc Corporation (Japan), YASKAWA Electric Corporation (Japan), KUKA AG (Germany), Mitsubishi Electric Corporation (Japan), Kawasaki Heavy Industries, Ltd. (Japan), Universal Robots A/S (A Part of Teradyne Inc,) (Denmark), Stäubli International AG (Switzerland), Techman Robot Inc (Taiwan), Denso Corporation (Japan), OMRON Corporation (Japan), HD Hyundai Co Ltd (South Korea), Bosch Rexroth AG (A Part of Robert Bosch GmbH) (Germany), Seiko Epson Corporation (Japan), Dürr Aktiengesellschaft (Germany), Comau S.p.A. (Italy), F&P Robotics AG (Switzerland), and Franka Robotics GmbH (Germany).

The industrial robotics market is segmented based on component, payload, application, and end-use industry. The report also evaluates industry competitors and analyzes the industrial robotics market at the regional and country levels.

Among the components studied in this report, the robots segment is anticipated to dominate the industrial robotics market in 2024. The widespread adoption of robots by consumers is driving the expansion of their application across various industries. Robots are increasingly utilized to perform repetitive and hazardous tasks with consistent precision, accuracy, and quality. Key factors contributing to the segment's dominant position in the industrial robotics market include the growing demand for robots to enhance workplace safety, reduce labor costs, improve productivity and profitability, and minimize the risk of physical injury by reducing reliance on human labor for potentially dangerous activities.

Among the payload studied in this report, the up to 60 kg segment is anticipated to dominate the industrial robotics market in 2024. The rising demand for robots with payload capacities of up to 60 kg, driven by increased automation in the electrical and electronics industries for assembly and handling applications, is a key factor in the growth of this segment. Additionally, the widespread adoption of these robots across diverse sectors, including automotive, electronics, logistics, food, pharmaceuticals, and cosmetics, further strengthens their dominant position in the industrial robotics market.

Among the applications studied in this report, the material handling segment is anticipated to dominate the industrial robotics market in 2024. The growing adoption of material handling robots to automate repetitive, labor-intensive, and hazardous tasks on production lines is a key factor driving the growth of this segment. Additionally, the rising demand for material handling robots to enhance production line efficiency and improve customer satisfaction by ensuring timely delivery of high-quality products further contributes to the segment's dominant position in the industrial robotics market.

Among the end-use industries studied in this report, the automotive segment is anticipated to dominate the industrial robotics market in 2024. The growing adoption of robotics in the automotive industry is driven by manufacturers' need to accelerate production, reduce costs, enhance quality, and ensure worker safety. Key benefits offered by industrial robots in this sector—including cost-effectiveness, improved efficiency, enhanced safety, and increased speed and precision—are significant factors contributing to the segment’s dominant position in the industrial robotics market.

Geographic Review

This research report analyzes major geographies and provides a comprehensive analysis of Asia-Pacific (China, Japan, South Korea, Taiwan, Singapore, India, Thailand, Australia & New Zealand, Indonesia, and Rest of Asia-Pacific), Europe (Germany, Italy, Sweden, France, Austria, Denmark, Spain, Netherlands, Norway, U.K., and Rest of Europe), North America (U.S. and Canada), Latin America (Mexico, Brazil, and Rest of Latin America), and Middle East & Africa (UAE, Israel, Saudi Arabia, and Rest of Middle East & Africa).

Asia-Pacific is anticipated to dominate the industrial robotics market in 2024. The widespread adoption of robotics in the region is driven by rising labor costs and the increasing need for manufacturers to automate production processes to manage cost expenses effectively. Additionally, the growing demand for robotics, fueled by the rapid development of industries such as automotive, electronics, consumer goods, and pharmaceuticals, is a key factor contributing to the region's dominant position in the industrial robotics market.

Download Sample Report Here @ https://www.meticulousresearch.com/download-sample-report/cp_id=5278

Key Questions Answered in the Report-

What is the value of revenue generated by the sale component, payload, application, and end-use industry?

At what rate is the global demand for industrial robotics projected to grow for the next five to seven years?

What is the historical market size and growth rate for the industrial robotics market?

What are the major factors impacting the growth of this market at global and regional levels?

What are the major opportunities for existing players and new entrants in the market?

Which offering segments create major traction in this market?

What are the key geographical trends in this market? Which regions/countries are expected to offer significant growth opportunities for the manufacturers operating in the h industrial robotics market?

Who are the major players in the industrial robotics market? What are their specific product offerings in this market?

What recent developments have taken place in the industrial robotics market? What impact have these strategic developments created on the market?

Contact Us: Meticulous Research® Email- [email protected] Contact Sales- +1-646-781-8004 Connect with us on LinkedIn- https://www.linkedin.com/company/meticulous-research

#Industrial Robots Market #SCARA Robot #Robotics Technology #Robotics and Automation Engineering #Palletizing Robot #Manufacturing Robots #Automation Robotics

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diagnozabam · 6 months ago

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Audi începe producția de mașini electrice la noua uzină din China: modele PPE pentru piața locală

Constructorul german Audi a demarat producția de vehicule electrice la noua sa uzină din Changchun, China, prin intermediul joint-venture-ului Audi FAW NEV Company, format în parteneriat cu FAW. Construcția uzinei a început la mijlocul anului 2022, iar acum este complet operațională, având capacitatea de a produce peste 150.000 de unități anual. Fabrica Audi din Changchun: un exemplu de…

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rahulg90 · 1 year ago

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Revolutionizing Manufacturing: The 30% Productivity Leap

Unlocking Efficiency: How the Industrial Metaverse Can Boost Manufacturing Productivity by 30%

The industrial metaverse is the next big thing in manufacturing, combining VR/AR with AI, IoT, and blockchain. While exciting, it also brings challenges like tech integration, cost, security, and workforce training. This article explores both sides to help manufacturers navigate the future.

Defining the Industrial Metaverse

The Evolution of Digital Twinning

Digital twins revolutionized manufacturing by creating virtual replicas. Now, the industrial metaverse takes it further. It builds on these models, integrating them into a dynamic 3D platform that reflects the entire value chain in real time.

Integrating the Physical and Virtual

The industrial metaverse merges physical and virtual worlds. Real-time data fuels smarter decisions, boosting efficiency and reducing costs. Industries like aerospace leverage this for faster development and less waste.

The Combinatory Nature of Technologies

Extended Reality (XR): XR bridges the physical-digital gap with immersive interfaces. These go beyond visualization, enabling real-time interaction and complex assembly tasks.

Robotics and Sensors: Advanced robots with sensors perform precise virtual and physical actions. They collect real-time data for adjustments and optimizations within the metaverse.

Artificial Intelligence (AI): AI analyzes vast data streams within the metaverse. It provides insights, automates decisions, and optimizes operations. AI can predict machine failures, preventing downtime and revolutionizing manufacturing.

Blockchain: Blockchain secures data sharing across the metaverse. This is crucial for complex supply chains with multiple stakeholders, ensuring data integrity and traceability.

Technological Foundations

Cutting-edge technologies like AI, XR, and blockchain form the backbone of the industrial metaverse, driving integration, efficiency, and innovation in manufacturing.

Extended Reality (XR): Bridging the Gap between Virtual and Real

VR, AR, and MR combine to create immersive training and guide complex assembly with AR overlays.

Statistical Insight: A report from PwC predicts that VR and AR could boost the global economy by $1.5 trillion by 2030, with $294 billion of that impact in the manufacturing sector alone.

Real-World Application: Automakers like BMW use AR to cut errors by 50% and improve training during assembly.

Artificial Intelligence (AI): The Brain Behind Automation

AI in the industrial metaverse goes beyond automation, enabling predictive maintenance, production optimization, and real-time decision-making.

Statistical Insight: AI in Manufacturing: Up to 20% production increase and 4% less material consumption (McKinsey & Company)

Real-World Application: AI in Action: Tesla uses AI and machine learning to optimize production, improving quality and speed.

Internet of Things (IoT): The Connectivity Fabric

IoT in the industrial metaverse connects machines and sensors for real-time data flow and system-wide visibility.

Statistical Insight: The IoT in manufacturing market size is projected to reach $136.83 billion by 2026, growing at a CAGR of 10% from 2021, as reported by Fortune Business Insights.

Real-World Application: General Electric has leveraged IoT to create its Predix platform, which monitors industrial machinery to predict failures before they happen, significantly reducing downtime and maintenance costs.

Robotics: Precision and Efficiency in Physical Operations

AI-powered robots with sensors automate complex tasks in the industrial metaverse, ensuring precision and flexibility.

Statistical Insight: The industrial robotics market will likely grow by 10.4% before 2027, driven by increased adoption in manufacturing sectors.

Real-World Application: In the electronics sector, companies like Foxconn have deployed thousands of robots, dramatically increasing production rates and consistency by automating repetitive tasks previously performed by humans.

Blockchain: Securing the Industrial Metaverse

Blockchain secures data in the industrial metaverse for reliable transactions and multi-party exchanges.

Statistical Insight: Blockchain's application in manufacturing, particularly in supply chain management, is expected to generate a market value of $30 billion by 2030.

Real-World Application: Aerospace manufacturer Boeing uses blockchain to track and record thousands of parts throughout the lifecycle of its aircraft, enhancing traceability and security.

Opportunities in the Industrial Metaverse

This section dives into the exciting opportunities of the industrial metaverse, showcasing real-world examples. From boosted efficiency and cost savings to groundbreaking innovation and deeper customer connections, the potential to revolutionize manufacturing is immense.

Operational Efficiency and Productivity

The integration of metaverse technologies significantly enhances manufacturing operations, making them more efficient and less prone to error.

Statistical Insight: Digital twins + IoT boost efficiency by 35% and cut maintenance costs by 20% (Deloitte).

Real-World Application: Siemens' digital twins in electronics manufacturing lead to 25% higher productivity and 30% faster development (Siemens).

Cost Reduction and Resource Optimization

AI predictions and real-time IoT data empower manufacturers to slash waste and optimize resource use.

Statistical Insight: AI cuts costs 40% and downtime 50% through predictive maintenance (Capgemini).

Real-World Application: Chevron saves $1 billion annually with AI and IoT for equipment optimization (Chevron).

Enhanced Innovation and Product Development

The industrial metaverse accelerates innovation by facilitating rapid prototyping, testing, and development through virtual simulations.

Statistical Insight: Companies using AR and VR for product development can see a time-to-market improvement of up to 50%.

Real-World Application: Ford uses VR in design to prototype vehicles virtually, saving millions in physical modeling costs.

New Business Models and Customer Engagement

The industrial metaverse fosters new customer engagement and business models like virtual factories and digital marketplaces.

Statistical Insight: IBM studies show businesses using digital twins as a service see revenue grow 10-15% in the first year.

Real-World Application: Adidas uses a digital twin of its Speedfactory to offer virtual shoe customization, boosting customer engagement and mass customization.

Challenges Facing the Industrial Metaverse

The industrial metaverse's potential is undeniable, but challenges like technological integration and security concerns can hinder adoption. Manufacturers must navigate these hurdles to fully utilize its potential.

Technological Integration and Complexity

Integrating diverse technologies requires significant time and resources.

Statistical Insight: 75% of organizations struggle to choose the right technologies and vendors for IoT due to its complexity (Gartner survey).

Real-World Application: A major automaker faced delays in deploying digital twins due to challenges synchronizing data across VR, AI, and IoT platforms.

High Initial Costs

Expensive tech (AI, IoT, VR/AR) can be a barrier for SMEs.

Statistical Insight: Industrial IoT setup over $100,000 (IoT Analytics).

Real-World Application: Small manufacturer struggles with AR adoption due to cost (Midwest).

Skills Gap and Workforce Adaptation

Emerging tech requires upskilling the workforce.

Statistical Insight: Deloitte: 45% of executives see lack of skilled workers as a hurdle;

Real-World Application: Electronics company delays IoT rollout due to employee training difficulties

Data Security and Privacy Concerns

Increased connectivity raises cybersecurity threats, demanding robust data protection.

Statistical Insight: Cyberattacks surge 300% (IBM Security), making data protection in manufacturing crucial (average data breach cost: $5 million).

Real-World Application: Major energy company suffers data breach from compromised IoT devices.

Regulatory and Compliance Issues

Complexities arise for global manufacturing in the evolving metaverse regulatory landscape.

Statistical Insight: Compliance costs for global manufacturers can reach 10% of sales (Manufacturing Institute).

Real-World Application: Multinational pharmaceutical company faces regulatory challenges with blockchain for supply chain (data handling variations).

Strategic Directions for Stakeholders

This section offers a roadmap for manufacturers, outlining actionable steps and strategies to successfully integrate metaverse technologies and capitalize on its potential.

Developing a Comprehensive Technology Integration Plan

Given the complexity of integrating various technologies, a structured plan is essential for successful deployment.

Action Steps:

Conduct a thorough technology audit to understand existing capabilities and gaps.

Develop a phased integration plan that starts with pilot projects to gauge effectiveness before full-scale implementation.

Invest in middleware solutions that can seamlessly connect disparate systems and platforms.

Investing in Skills Development and Change Management

Continuous learning and effective change management are critical to mitigate the skills gap and prepare the workforce for new technological paradigms.

Action Steps:

Establish partnerships with educational institutions and tech companies to develop training programs tailored to the needs of the industrial metaverse.

Create internal upskilling and reskilling initiatives to enhance employee capabilities in AI, VR/AR, IoT, and data security.

Implement a change management strategy that includes communication plans, support structures, and incentives for adoption.

Enhancing Cybersecurity Measures

With increased connectivity, ensuring the security of data and systems is paramount.

Action Steps:

Develop a comprehensive cybersecurity strategy specific to the industrial metaverse, incorporating advanced threat detection, incident response, and recovery plans.

Regularly update and patch systems and software to protect against new vulnerabilities.

Train employees on cybersecurity best practices and the importance of data security.

Engaging with Regulatory Bodies and Industry Groups

Active engagement with regulatory bodies and industry groups can help navigate compliance challenges and shape industry standards.

Action Steps:

Participate in industry consortia focused on the industrial metaverse to stay updated on best practices and regulatory developments.

Collaborate with regulatory bodies to understand and influence policies that affect the industrial metaverse.

Ensure compliance with international data protection regulations, such as GDPR, and industry-specific standards.

Exploring New Business Models and Revenue Streams

The industrial metaverse opens opportunities for new business models and revenue streams, such as virtual factories and digital twins as a service.

Action Steps:

Identify opportunities for service-based models, such as offering digital twin services to other companies.

Explore the potential for cross-industry collaborations that leverage the industrial metaverse for shared services and facilities.

Develop customer engagement platforms using VR and AR to offer unique, immersive experiences.

Looking Ahead in the Industrial Metaverse

As the industrial metaverse evolves, it reshapes the manufacturing sector with its potential and complexities. Advancements in AI and machine learning will enhance predictive analytics and decision-making capabilities, while the integration of sophisticated robotics and automation technologies poses new challenges and opportunities. Cybersecurity becomes crucial as systems interconnect, necessitating new protections against evolving threats.

The rapid pace of technological change also challenges workforce management, requiring manufacturers to ensure their workforce remains skilled and adaptable. Developing regulatory frameworks for global data exchanges within the industrial metaverse is another critical area for exploration. Ongoing dialogue among manufacturers, technology providers, and regulators is essential to navigate these challenges and realize the full benefits of the industrial metaverse.

Connect with us to ensure your business is ready to harness the full potential of the industrial metaverse and stay competitive in an increasingly complex landscape. Connect with Coditude.

#Industrial metaverse #future of manufacturing #smart factories #manufacturing innovation #manufacturing industries #industry 4 #manufacturing process #automation industry #manufacturing robots #industrial manufacturing companies #ai in automation

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svayarobotics · 1 year ago

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Revolutionizing Automotive Assembly: The Power of Collaborative Robots

Boosting Productivity and Quality on Automotive Assembly Lines with Collaborative Robots

In the rapidly evolving landscape of the automotive industry, manufacturers are continually seeking ways to enhance productivity, efficiency, and quality. One of the most transformative technologies being integrated into automotive assembly lines today is collaborative robots or cobots. These robots are not just reshaping production techniques but are also setting new standards for operational excellence. Svaya Robotics, a leader in the field, exemplifies how advanced collaborative robots are paving the way for a more dynamic and responsive manufacturing environment.

Introduction to Collaborative Robots in Automotive Manufacturing

Collaborative robots in automotive manufacturing are designed to work alongside human operators, combining the precision and consistency of robotic automation with the cognitive and adaptive skills of humans. This synergy is particularly valuable in automotive production, where flexibility and meticulousness are paramount. Cobots are equipped to handle tasks ranging from assembly to inspection, all while ensuring safety and enhancing ergonomics on the shop floor.

The Role of Cobots in Automotive Industry

Cobots in the automotive industry are not just tools for automation; they are partners in production. These robots are uniquely capable of adapting to varied tasks without the need for extensive reprogramming. This adaptability makes them ideal for automotive manufacturers who deal with multiple models and configurations in their product lines. From assisting with intricate wiring harnesses to handling heavy components like windshields, cobots provide a versatile solution that can adjust to the complexities of automotive assembly.

Enhancing Productivity with Cobots in Manufacturing

The integration of cobots in manufacturing extends beyond simple task execution. They enhance productivity by enabling continuous production cycles and reducing downtime. For instance, cobots can operate safely alongside humans during intricate assembly operations, allowing for a seamless blend of tasks that optimize the assembly line. Furthermore, their precision reduces the occurrence of errors and defects, significantly improving overall product quality.

Svaya Robotics: At the Forefront of Cobot Integration

As a leading manufacturer and supplier of collaborative robots for the automobile industry, Svaya Robotics is at the cutting edge of this technological revolution. Their cobots are designed with an emphasis on simplicity, convenience, and reliability, making them accessible for various applications within the automotive sector. Whether it’s assembly, painting, or inspection, Svaya’s robots are engineered to enhance both productivity and quality.

The Impact of Cobots on Automotive Assembly Lines

The introduction of collaborative robots into automotive assembly lines has led to a remarkable transformation in how vehicles are assembled. With cobots, manufacturers can achieve a higher degree of customization and flexibility, which is crucial in today’s market where consumer preferences are constantly changing. Additionally, cobots contribute to a safer workplace by taking on hazardous tasks, thereby reducing the risk of injuries and enhancing worker satisfaction.

Conclusion

The integration of collaborative robots in the automotive industry represents a significant leap towards more efficient and adaptable manufacturing processes. With companies like Svaya Robotics leading the charge, the potential for cobots to revolutionize automotive production is immense. As this technology continues to evolve, the synergy between human workers and robots is expected to unlock new levels of productivity and quality on assembly lines, making the vision of truly collaborative manufacturing a reality.

#collaborative robots #industrial automation #cobots #robotics #automationrobotics #industrial robot manufacturers #manufacturing robots #business

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mayuri-manufacturer · 2 years ago

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miserymet · 27 days ago

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Poster for the second half of season one! Episode 11 starts next week, with five pages every two weeks.

#mega man #megaman #rockman #megaman classic #megaman au #robot master #protoman #roll light #megaman roll #fan comic #megaman manufactured

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vgprintads · 4 months ago

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'Rise of the Robots - "You Too Could Have a Body Like Mine"'

[ARC] [UK] [MAGAZINE] [1994]

"Rise of the Robots, which has stomped its way through every home system, is ready to go coin-op. To make this mechanical one-on-one fighter worthy of your tokens, Mirage plans to add 13 robots to the original crew, juice the A.l., and refine the collision tables. The added attraction is the remixed music soundtrack from Brian May, the legendary Queen guitarist." ~Eye Spy, GamePro ("ECTS: Europe's Electronic Entertainment Showcase", July 1995)

Source: EuroSlot, October 1994 (Vol. 5, #01) || Gaming Alexandria; Dustin Hubbard (via the Internet Archive)

#gaming #advertising #rise of the robots #fighting #sci-fi #arcade #mirage technologies #bell-fruit manufacturing #ports #united kingdom #video games #1994

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pretzlforpresident · 8 months ago

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Manufactured Malice fucks so hard I'm not gonna lie. Oh my god the tragedy of it all and the spin on the roboticized theory. Tania/Metal's loss of self because of Eggman. I've only had this AU for two hours but if anything happened to it I would kill everyone in this room and then myself /ref

SMILES SO BIG AND WIDE I’m so glad you’re enjoying it!!! I’ve been having as much fun making it lol.

Here’s a little sneak peek at a wip I have for it! <3

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supplyside · 2 years ago

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industrial robots

#KUKA #robot #industrial robot #manufacturing #heavy industry #automotive #FIAT #Italy #Torino #Turin #FIAT 500

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butmakeitgayblog · 1 year ago

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Leggie

#alycia debnam carey #the girl is like 85% Leg™#baby's first podcast was also surprisingly good 👀#not in a bad sense but just that it wasn't so ultra manufactured that it was like listening to a robot #and they actually - ya know - let her speak

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leidensygdom · 8 months ago

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I need the world to understand that I'm not a general fantasy artist dabbling in robots, I'm closer to a secret robot artist who pretended for years to be into general fantasy finally revealing the truth-

I spent most of my early RP days playing artificial characters, to which someone in a forum had a very succinct message: "[Syg], have you ever played a character that has come out of a vagina?"

and now. now i'm finally coming back to my roots, a decade later.

#one internet cookie if someone can guess what was the race of the character I played first in a forum #it was of an artificial race from a videogame (that is part of a big franchise)#(the forum was themed after said franchise)#not exactly a robot in that case but still in the “manufactured being” category

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kishorxox · 2 months ago

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Industrial Robotics Market to be Worth $37.1 Billion by 2031