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riya2510 · 6 months ago

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The Industrial IoT Revolution: Market Forecast and Leading Players to Watch in 2023–2031

Industrial IoT Market Report: Growth, Trends, and Future Outlook

The Industrial Internet of Things (IIoT) represents a transformative wave in industrial operations, leveraging the power of connected devices, sensors, and advanced analytics to optimize processes, improve efficiency, and unlock new business opportunities. IIoT connects machines, devices, sensors, and systems to collect and analyze data in real time, enabling industries to achieve smarter decision-making, reduce operational costs, and enhance productivity.

The global Industrial IoT (IIoT) market was valued at USD 334.53 billion in 2022 and is projected to reach USD 2,916.21 billion by 2031, growing at an impressive CAGR of 27.2% during the forecast period (2023–2031). This rapid growth highlights the increasing demand for IoT-enabled technologies across various industrial sectors, making IIoT a vital part of the digital transformation process in manufacturing, supply chains, and infrastructure.

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Key Trends in the Industrial IoT Market

Increased Adoption of Smart Manufacturing: Manufacturers are embracing IIoT for process automation, predictive maintenance, real-time monitoring, and supply chain optimization. This trend is expected to continue as more companies focus on reducing downtime and improving product quality through connected devices.

Advancements in Edge Computing and AI Integration: The rise of edge computing is reducing latency, enabling faster data processing at the source. Integrating AI and machine learning with IIoT systems allows industries to gain insights from real-time data, improving decision-making capabilities.

Focus on Cybersecurity: As the number of connected devices increases, so does the potential vulnerability to cyberattacks. Ensuring robust cybersecurity measures within IIoT systems is becoming a top priority for businesses.

5G Connectivity: The rollout of 5G technology is enhancing the capabilities of IIoT by offering faster and more reliable communication between connected devices. This enables applications that require low latency, such as autonomous vehicles and real-time remote monitoring.

Sustainability and Energy Efficiency: Industries are increasingly adopting IIoT technologies to improve energy efficiency, reduce emissions, and support sustainability goals. Sensors and data analytics enable more efficient resource management, leading to reduced waste and energy consumption.

Industrial IoT Market Size and Share

The IIoT market is witnessing substantial growth across various regions, driven by technological advancements, an increasing number of connected devices, and the need for automation. The major industrial sectors benefiting from IIoT include manufacturing, energy, automotive, pharmaceuticals, and more. Businesses are investing heavily in IIoT to streamline their operations, reduce operational costs, and ensure more efficient use of resources.

The market is also being driven by increasing government initiatives aimed at fostering smart city projects, digital infrastructure, and sustainable industrial practices. As industries continue to digitize their operations, the demand for IIoT solutions is poised to grow exponentially.

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Industrial IoT Market Statistics

The global market value was USD 334.53 billion in 2022.

The market is expected to grow to USD 2,916.21 billion by 2031, with a CAGR of 27.2% during the forecast period (2023–2031).

North America holds a significant share of the market, driven by the adoption of advanced industrial technologies and the presence of key players like Cisco, IBM, and Honeywell.

Asia Pacific (APAC) is expected to witness the highest growth due to rapid industrialization, increasing investments in smart factories, and government support for smart manufacturing initiatives.

Regional Trends and Impact

North America: The North American region, particularly the United States and Canada, dominates the global IIoT market due to a robust manufacturing base, the presence of key technology companies, and early adoption of IoT-enabled technologies. The region’s focus on automation, smart factories, and energy efficiency has led to a high demand for IIoT solutions.

Asia Pacific (APAC): APAC is expected to witness the fastest growth in the IIoT market, primarily driven by the increasing industrialization in countries like China, Japan, and India. The region's push towards smart manufacturing, government initiatives supporting industrial automation, and rapid adoption of advanced technologies like AI, robotics, and 5G are propelling the growth of the IIoT market.

Europe: Europe is another key region for IIoT, driven by strong industrial sectors such as automotive, chemicals, and energy. The European Union’s focus on Industry 4.0 and digital transformation is increasing the demand for IIoT technologies across manufacturing, energy, and logistics.

LAMEA (Latin America, Middle East, and Africa): While still a developing market, the LAMEA region is showing significant potential for IIoT growth, especially in industries such as oil and gas, utilities, and agriculture. Increased investment in infrastructure and digitalization is expected to drive the demand for IIoT solutions in these regions.

Industrial IoT Market Segmentation

By Offering

Hardware:

Industrial Robots: These robots are essential for automating repetitive tasks in industries such as manufacturing and automotive, improving efficiency and reducing errors.

Industrial PC: Industrial PCs are used for data processing, monitoring, and control in industrial environments.

Industrial Sensors: Sensors play a critical role in collecting data from machines and devices to monitor conditions like temperature, pressure, and vibration.

Distributed Control System (DCS): DCS solutions enable centralized control of industrial processes, helping manage large-scale production systems.

Smart Meters: Smart meters are essential for monitoring and managing energy consumption in industries, contributing to energy efficiency.

Human Machine Interface (HMI): HMIs provide a visual interface for operators to interact with industrial control systems.

Control Devices: Devices that help regulate and control industrial processes, ensuring smooth operations.

Software: Software solutions in IIoT are used for data collection, processing, analytics, and visualization. These software tools enable industries to derive actionable insights from the vast amount of data generated by IIoT devices.

Services:

Training & Consulting Services: These services help organizations integrate IIoT technologies into their existing systems and operations.

Support and Maintenance Services: These services ensure that IIoT solutions continue to operate efficiently and without disruption.

By Connectivity

Wired Connectivity:

Ethernet: Provides high-speed, reliable data transmission for industrial applications.

Fieldbus: Used in process control systems for connecting field devices and control systems.

Wireless Connectivity:

Wi-Fi, Bluetooth, Cellular Connectivity, Satellite Connectivity: Wireless connectivity solutions offer flexibility and scalability for IIoT applications, especially in large industrial environments.

By End-use Industry

Aerospace and Defense

Automotive

Chemicals

Energy & Power

Food & Beverage

Metal and Mining

Oil & Gas

Pharmaceutical

Semiconductor & Electronics

Others (Healthcare, Water & Wastewater, etc.)

Each of these industries is increasingly adopting IIoT technologies to improve operational efficiency, ensure product quality, reduce costs, and enhance safety.

Market Segmentation with Insights-Driven Strategy Guide: https://straitsresearch.com/report/industrial-iot-market/segmentation

Top Players in the Industrial IoT Market

Several companies are leading the way in the IIoT market, providing innovative solutions and services:

Huawei Technology Co., Ltd.

Cisco

General Electric

Schneider Electric

Rockwell Automation

ABB

Texas Instruments

Honeywell

IBM

KUKA AG

NEC Corporation

Bosch

Siemens AG

SAP

Endress+Hauser

Accenture PLC

STMicroelectronics

These companies are at the forefront of developing and implementing IIoT solutions, helping industries to leverage IoT technologies for better efficiency, safety, and profitability.

Table of Contents for the Industrial IoT Market Report: https://straitsresearch.com/report/industrial-iot-market/toc

Conclusion

The Industrial IoT market is experiencing rapid growth as industries worldwide adopt connected devices, advanced analytics, and automation to enhance productivity, reduce costs, and improve decision-making. With significant investments in IIoT infrastructure, the market is poised to expand substantially in the coming years, especially in sectors such as manufacturing, energy, automotive, and pharmaceuticals. As technologies like AI, 5G, and edge computing continue to evolve, the potential for IIoT to drive industrial transformation will only increase, presenting enormous opportunities for businesses and industries to embrace the future of connected manufacturing and operations.

About Straits Research

Straits Research is a leading provider of market research and intelligence services. With a focus on high-quality research, analytics, and advisory, our team offers actionable insights tailored to clients’ strategic needs.

Contact Us Email: [email protected] Address: 825 3rd Avenue, New York, NY, USA, 10022 Tel: UK: +44 203 695 0070, USA: +1 646 905 0080

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tagbintech · 6 months ago

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AI in Manufacturing Innovation: Transforming the Future of Production

Artificial Intelligence (AI) is revolutionizing industries worldwide, and manufacturing is no exception. With its ability to enhance efficiency, reduce costs, and unlock unprecedented opportunities, AI is spearheading a new era of manufacturing innovation. This article delves into the profound impact of AI on manufacturing, the technologies driving the change, and the future it promises.

Understanding AI in Manufacturing

AI in manufacturing involves using advanced algorithms and machine learning to automate processes, optimize workflows, and predict outcomes. From production line automation to quality control, AI empowers manufacturers to meet rising demands with precision and speed.

Applications of AI in Manufacturing Innovation

Predictive Maintenance: AI-powered systems analyze machinery data to predict maintenance needs, reducing downtime and preventing costly breakdowns.

Quality Assurance: AI detects defects with unparalleled accuracy, ensuring high-quality output and reducing waste.

Supply Chain Optimization: By analyzing market trends and logistical data, AI enhances inventory management, supplier coordination, and delivery schedules.

Robotics in Production: Smart robots, driven by AI, perform repetitive and dangerous tasks with precision, improving safety and productivity.

Demand Forecasting: AI analyzes consumer data and market trends to anticipate product demand, optimizing production schedules and inventory.

Benefits of AI in Manufacturing

Increased Efficiency: AI-driven automation streamlines workflows, boosting productivity.

Cost Reduction: By minimizing errors and waste, AI significantly reduces operational costs.

Enhanced Flexibility: Adaptive AI systems enable manufacturers to pivot quickly to market changes.

Sustainability: AI facilitates resource optimization, promoting eco-friendly practices.

Challenges and Solutions

High Implementation Costs: While initial investment is high, ROI from increased efficiency and reduced downtime offsets the expense.

Workforce Transition: Upskilling workers to collaborate with AI systems ensures a harmonious integration of human expertise and technology.

Data Security: Robust cybersecurity measures safeguard sensitive manufacturing data from breaches.

Case Studies of AI-Driven Manufacturing Innovation

Tesla: Tesla employs AI in its Gigafactories for automation, predictive maintenance, and quality control, setting benchmarks in automotive manufacturing.

Siemens: Siemens uses AI for intelligent robotics and process optimization, leading to cost-efficient production cycles.

GE Aviation: GE leverages AI for predictive analytics, optimizing engine performance and maintenance schedules.

The Future of AI in Manufacturing

AI's integration with emerging technologies like the Internet of Things (IoT) and 5G will further revolutionize manufacturing. Smart factories, characterized by autonomous systems and real-time data exchange, are set to become the industry norm. AI will also drive sustainable manufacturing by optimizing resource use and reducing carbon footprints.

Conclusion

AI in manufacturing is not just a technological advancement; it’s a transformative force reshaping the entire industry. By integrating AI solutions like predictive maintenance, robotics, and quality assurance systems, manufacturers can achieve unmatched efficiency, cost-effectiveness, and sustainability. Despite challenges such as high implementation costs and workforce adaptation, the benefits far outweigh the hurdles. As industries continue to evolve, AI will play a pivotal role in driving innovation, fostering adaptability, and ensuring a sustainable future. Companies embracing this revolution are poised to lead the charge in setting new benchmarks for productivity and excellence in manufacturing.

#tagbin #tagbin boardroomai #writers on tumblr #artificial intelligence #technology #ai in manufacturing #Manufacturing Innovation #Smart Factories #Predictive Maintenance #Future of Manufacturing #Sustainable Manufacturing #Manufacturing Trends #Automation #Industrial AI #AI in Manufacturing Innovation

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rubylogan15 · 11 months ago

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Learn how generative AI addresses key manufacturing challenges with predictive maintenance, advanced design optimization, superior quality control, and seamless supply chains.

#Generative AI In Manufacturing #AI-Driven Manufacturing Solutions #AI For Manufacturing Efficiency #Generative AI And Manufacturing Challenges #AI In Manufacturing Processes #Manufacturing Innovation With AI #AI In Production Line Optimization #Generative AI For Quality Control #AI-Based Predictive Maintenance #AI In Supply Chain Management #Generative AI For Defect Detection #AI In Manufacturing Automation #AI-Driven Process Improvements #Generative AI In Factory Operations #AI In Product Design Optimization #AI-Powered Manufacturing Insights

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viaterra256 · 23 days ago

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All Hard Parts for Motorcycle: Essential Upgrades for Performance and Safety

Motorcycles are more than just machines—they're expressions of freedom, power, and personal style. Whether you're a casual rider or a performance enthusiast, upgrading and maintaining your bike's hard parts is key to ensuring it runs smoothly, looks sharp, and remains safe on the road. These components form the mechanical backbone of your motorcycle, affecting everything from how it handles to how fast it goes.

What Are Motorcycle Hard Parts? Hard parts refer to the essential mechanical and structural components of a motorcycle. These are not cosmetic or soft accessories like seat covers or tank pads—they're the parts that keep the bike running and safe to ride. Common examples include engine parts, suspension systems, brakes, wheels, and frames. Unlike aesthetic upgrades, hard parts directly influence performance, safety, and durability.

Main Categories of Motorcycle Hard Parts Engine components include pistons, valves, camshafts, and crankshafts. Upgrading or replacing these can significantly improve your bike’s horsepower and responsiveness. Exhaust systems are another critical area, comprising headers, pipes, mufflers, and catalytic converters. A performance exhaust can reduce weight, increase power, and give your motorcycle a more aggressive sound. Suspension systems, such as forks, rear shocks, and swingarms, control how your bike handles and absorbs bumps. Quality suspension upgrades offer better control, smoother rides, and safer handling, especially at high speeds or rough terrain. Brake systems consist of rotors, calipers, pads, and master cylinders. These are essential for safety. Upgrading your braking system enhances stopping power and reduces brake fade during aggressive or prolonged riding. Transmission and drivetrain parts like clutches, chains, sprockets, and gearboxes dictate how power from the engine reaches the wheels. High-performance parts ensure smoother shifting, quicker acceleration, and better efficiency. Wheels and tires are foundational for traction, balance, and speed. Lighter wheels and high-performance tires can drastically change how your bike feels on the road or track. The frame and subframe are the bike’s skeleton, supporting every other part. Some riders choose lightweight frames for racing performance, while others upgrade for aesthetics or specific riding ergonomics. Controls and levers such as handlebars, footpegs, brake levers, and shifters are not just for comfort—they’re critical for proper bike control. Premium components offer better grip, adjustability, and feedback. Cooling systems like radiators, hoses, and fans are essential for high-performance engines to avoid overheating and maintain consistent power output. Fuel system parts, including tanks, pumps, injectors, and carburetors, affect how fuel is delivered and consumed. Efficient systems lead to better mileage and smoother throttle response.

Why Should You Upgrade Hard Parts? Upgrading hard parts enhances your motorcycle’s performance, making it faster, more responsive, and more reliable. It also adds to customization, allowing your bike to match your personal style or riding needs. High-quality hard parts offer better durability, meaning fewer breakdowns and lower maintenance in the long run. Most importantly, they improve safety—better brakes, suspension, and control systems make every ride more secure and predictable.

OEM vs. Aftermarket Hard Parts When upgrading your motorcycle, you'll face the choice between OEM (Original Equipment Manufacturer) and aftermarket hard parts. OEM parts are made by the bike's manufacturer and are guaranteed to fit and perform to factory standards. However, they tend to be more expensive and offer limited customization. On the other hand, aftermarket parts are made by third-party companies and come in a wide variety of designs and performance levels. They're often more affordable and customizable, but quality can vary. To ensure safety and reliability, it's crucial to choose well-reviewed brands and parts that are specifically designed to fit your motorcycle model.

Tips for Choosing the Right Hard Parts Before purchasing or installing hard parts, always check your motorcycle’s specifications. Knowing your bike’s make, model, and year helps ensure compatibility. Be clear about your goals—whether it’s increasing speed, improving ride comfort, enhancing safety, or achieving a specific look. Take time to research the best brands, read rider reviews, and if needed, consult with a mechanic for proper installation and advice.

Conclusion Investing in all hard parts for motorcycles is not just about upgrades—it's about transforming your machine into a safer, more efficient, and more personalized ride. From the engine to the brakes, each component plays a vital role in your motorcycle’s performance. Whether you’re tuning your bike for speed, comfort, or endurance, quality hard parts are essential. Choose wisely, maintain regularly, and enjoy the power and freedom your upgraded motorcycle can deliver.

#tail bags for motorcycles #tank bags #motorsport #motorcycle #hydration pack #motorcycle tail bags #motorcycle luggage #motorcycle accessories #motorbike #essential series

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vatssautomation · 2 months ago

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CNC Press Brake Machine in India: Shaping the Future of Metal Bending

In the dynamic world of metal fabrication, CNC Press Brake Machines have become indispensable. These machines are critical in industries that demand precision bending and forming of sheet metal components. In India, the rising focus on infrastructure development, automotive manufacturing, and localized production has driven the adoption of CNC press brake technology across various sectors.

From small workshops to large-scale factories, CNC press brakes are revolutionizing how Indian manufacturers handle metal forming—efficiently, accurately, and consistently.

What is a CNC Press Brake Machine?

A CNC (Computer Numerical Control) Press Brake Machine is used to bend and shape metal sheets with precision. It uses a punch and die to perform various bends, guided by a CNC system that ensures exact specifications for angle, length, and repetition.

Modern CNC press brakes are far more advanced than traditional mechanical or hydraulic versions. They come with programmable controls, automated back gauges, and advanced sensors to deliver high-speed and high-precision bending.

Why CNC Press Brakes are Gaining Popularity in India

1. Precision and Consistency

In sectors like automotive, aerospace, and electronics, even minor deviations in part dimensions can lead to quality issues. CNC press brakes eliminate human error and ensure consistent output across batches.

2. Growing Industrialization

India’s expanding industrial base, especially in Tier 2 and Tier 3 cities, is fueling demand for reliable fabrication equipment. CNC press brakes allow businesses to scale up production without compromising on accuracy.

3. Labour Efficiency

With a skilled labor shortage and rising wages, automation is becoming more attractive. CNC press brakes require minimal human intervention, reducing labor costs and dependency on manual operators.

4. Government Incentives

Government initiatives like Make in India and Production Linked Incentive (PLI) Schemes are encouraging manufacturers to invest in advanced machinery, including CNC press brakes, for higher productivity.

Key Features of CNC Press Brake Machines in the Indian Market

High-Tonnage Capability: Machines ranging from 30 to 1000+ tons to suit various applications.

CNC Control Systems: Brands like Delem, ESA, and Cybelec offer intuitive interfaces for programming and automation.

Servo-Electric or Hydraulic Drive Systems: Depending on precision, energy efficiency, and speed requirements.

Multi-Axis Back Gauge: Enables complex bends and reduces setup time.

Automatic Tool Changers (ATC): For higher production environments.

Leading Indian and International Brands

India has a strong presence of both domestic and international CNC press brake manufacturers. Some notable names include:

Hindustan Hydraulics

Electropneumatics

Energy Mission

LVD India

Amada (Japan)

Durma (Turkey)

Yawei (China)

These companies offer machines tailored to the needs and budget of Indian manufacturers.

Applications in India

Automobile Body & Chassis Manufacturing

Kitchen Equipment Fabrication

Electrical Enclosures & Cabinets

Elevator and Escalator Components

Construction and Infrastructure Products

Railways and Defence Equipment

Challenges for Indian Buyers

High Initial Investment: CNC press brakes can be capital intensive, though the ROI is excellent over time.

Skill Development: Operators need training to use CNC systems effectively.

After-Sales Service: Choosing a vendor with reliable local support is crucial for maintenance and uptime.

The Road Ahead: Smart Factories & Industry 4.0

India is steadily moving towards smart manufacturing. CNC press brakes are now integrating with IoT, ERP systems, and robotic automation, enabling real-time monitoring, predictive maintenance, and remote troubleshooting. This evolution is making Indian factories more agile and globally competitive.

Conclusion

The CNC Press Brake Machine is no longer a luxury—it's a necessity in modern Indian manufacturing. With its unmatched accuracy, efficiency, and automation capabilities, it empowers businesses to meet rising customer expectations while optimizing operational costs.

As India continues to climb the global manufacturing ladder, CNC press brake machines will play a pivotal role in shaping the future—quite literally.

#CNC Press Brake Machines

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hypocrite-human · 2 years ago

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AI & IT'S IMPACT

Unleashing the Power: The Impact of AI Across Industries and Future Frontiers

Artificial Intelligence (AI), once confined to the realm of science fiction, has rapidly become a transformative force across diverse industries. Its influence is reshaping the landscape of how businesses operate, innovate, and interact with their stakeholders. As we navigate the current impact of AI and peer into the future, it's evident that the capabilities of this technology are poised to reach unprecedented heights.

1. Healthcare:

In the healthcare sector, AI is a game-changer, revolutionizing diagnostics, treatment plans, and patient care. Machine learning algorithms analyze vast datasets to identify patterns, aiding in early disease detection. AI-driven robotic surgery is enhancing precision, reducing recovery times, and minimizing risks. Personalized medicine, powered by AI, tailors treatments based on an individual's genetic makeup, optimizing therapeutic outcomes.

2. Finance:

AI is reshaping the financial industry by enhancing efficiency, risk management, and customer experiences. Algorithms analyze market trends, enabling quicker and more accurate investment decisions. Chatbots and virtual assistants powered by AI streamline customer interactions, providing real-time assistance. Fraud detection algorithms work tirelessly to identify suspicious activities, bolstering security measures in online transactions.

3. Manufacturing:

In manufacturing, AI is optimizing production processes through predictive maintenance and quality control. Smart factories leverage AI to monitor equipment health, reducing downtime by predicting potential failures. Robots and autonomous systems, guided by AI, enhance precision and efficiency in tasks ranging from assembly lines to logistics. This not only increases productivity but also contributes to safer working environments.

4. Education:

AI is reshaping the educational landscape by personalizing learning experiences. Adaptive learning platforms use AI algorithms to tailor educational content to individual student needs, fostering better comprehension and engagement. AI-driven tools also assist educators in grading, administrative tasks, and provide insights into student performance, allowing for more effective teaching strategies.

5. Retail:

In the retail sector, AI is transforming customer experiences through personalized recommendations and efficient supply chain management. Recommendation engines analyze customer preferences, providing targeted product suggestions. AI-powered chatbots handle customer queries, offering real-time assistance. Inventory management is optimized through predictive analytics, reducing waste and ensuring products are readily available.

6. Future Frontiers:

A. Autonomous Vehicles: The future of transportation lies in AI-driven autonomous vehicles. From self-driving cars to automated drones, AI algorithms navigate and respond to dynamic environments, ensuring safer and more efficient transportation. This technology holds the promise of reducing accidents, alleviating traffic congestion, and redefining mobility.

B. Quantum Computing: As AI algorithms become more complex, the need for advanced computing capabilities grows. Quantucm omputing, with its ability to process vast amounts of data at unprecedented speeds, holds the potential to revolutionize AI. This synergy could unlock new possibilities in solving complex problems, ranging from drug discovery to climate modeling.

C. AI in Creativity: AI is not limited to data-driven tasks; it's also making inroads into the realm of creativity. AI-generated art, music, and content are gaining recognition. Future developments may see AI collaborating with human creators, pushing the boundaries of what is possible in fields traditionally associated with human ingenuity.

In conclusion, the impact of AI across industries is profound and multifaceted. From enhancing efficiency and precision to revolutionizing how we approach complex challenges, AI is at the forefront of innovation. The future capabilities of AI hold the promise of even greater advancements, ushering in an era where the boundaries of what is achievable continue to expand. As businesses and industries continue to embrace and adapt to these transformative technologies, the synergy between human intelligence and artificial intelligence will undoubtedly shape a future defined by unprecedented possibilities.

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thinkleaptechnology · 5 months ago

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The Need for Digitization in Manufacturing : Stay Competitive With Low-Code

Industry 4.0 is transforming manufacturing with smart factories, automation, and digital integration. Technologies like the Internet of Things (IoT), artificial intelligence (AI), and low-code applications are enabling manufacturers to streamline processes and develop customized solutions quickly. Low-code platforms empower manufacturers to adapt to global demands, driving efficiency and innovation.

Previously, cross-border transactions in manufacturing faced delays due to bureaucracy, complex payment mechanisms, and inconsistent regulations. These challenges led to inefficiency and increased costs. However, Industry 4.0 technologies, such as digital payments, smart contracts, and logistics tracking, have simplified international transactions, improving procurement processes.

Low-code applications are key in this transformation, enabling rapid development of secure solutions for payments, customs clearance, and regulatory compliance. These platforms reduce complexity, enhance transparency, and ensure cost-effective, secure global supply chains. This shift aligns with the demands of a connected global economy, enhancing productivity and competitiveness.

The Need for Digitization in Manufacturing

Digitization has become crucial for manufacturing to stay competitive, with new technologies and the need for automation driving the sector’s transformation. Key features include ERP systems for centralized management of inventory, finances, and operations; digital supply chain tools for visibility and disruption prediction; real-time data for performance monitoring; sustainability tracking; and IoT/RFID for better tracking, accuracy, and reduced waste.

Low-code applications play a pivotal role in digitization by enabling rapid development of tailored solutions for inventory management, supply chain optimization, and performance analytics. These platforms streamline processes, reduce manual work, and enhance agility, helping manufacturers implement digital transformations quickly and cost-effectively.

Upgrading Manufacturing Capabilities in the Era of Industry 4.0 with Low-code Solutions

Low-code applications are becoming essential for digital transformation in manufacturing, addressing operational challenges while managing increased production demands and a shortage of skilled staff. These platforms enable manufacturers to quickly develop tailored applications without needing specialized coding expertise, fostering faster, more flexible operations. By streamlining processes and aligning with modern consumer demands, low-code technology helps bridge the skills gap, empowering manufacturers to stay competitive and seize new opportunities in a rapidly evolving market.

Low-code Technology Benefits for Modern Industries

As digital transformation becomes increasingly crucial for manufacturing, many enterprises in the sector face challenges with outdated processes, legacy system limitations, customization challenges, and inadequate resources. Low-code applications offer a compelling solution, enabling manufacturers to streamline operations by eliminating paper-based processes and automating workflows across functions such as Production, Sales, Logistics, Finance, Procurement, Quality Assurance, Human Resources, Supply Chain, and IT Operations. Additionally, low-code platforms enhance compliance and safety standards through built-in automated tools.

These platforms deliver impressive results, including over 70% improvement in productivity and close to 95% improvement in output quality in specific scenarios. This is particularly evident in automating complex processes like order fulfillment—from receiving customer orders to delivering finished products and managing invoicing with customers. Use cases also include automating inventory management, enhancing predictive maintenance with real-time data, and optimizing supply chain operations. Low-code solutions make it easier for manufacturers to implement changes quickly, boosting agility and reducing time-to-market while improving overall operational efficiency.

Conclusion

Low-code platforms are driving digital transformation in manufacturing, addressing sector-specific challenges in industries like automotive, aviation, and oil & gas. With Industry 4.0 and smart manufacturing, iLeap’s low-code platform helps integrate IoT, advanced analytics, and end-to-end automation, leading to optimized workflows and real-time decision-making. By adopting agile development, manufacturers can quickly adapt to new technologies and market demands, making iLeap the ideal partner for digital transformation. Unlock the potential of Industry 4.0 with iLeap and turn challenges into growth opportunities.

#low code #no code #lowcode #digital transformation

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engineers-heaven · 6 months ago

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Vehicle Design and Manufacturing Processes

Introduction: Vehicle design and manufacturing processes have evolved dramatically over the years. From manual assembly lines to high-tech automation, the automotive industry has witnessed numerous advancements that enhance vehicle performance, safety, and sustainability. This blog explores the latest trends in vehicle design and the manufacturing processes that are transforming the industry.

Design Considerations: Designing a vehicle is a complex and multi-disciplinary process that involves engineering, aerodynamics, ergonomics, safety, and aesthetics. Engineers must consider factors like fuel efficiency, performance, and environmental impact, all while ensuring the vehicle’s safety for occupants and pedestrians.

For example, modern car designs prioritize aerodynamics to reduce fuel consumption, with sleek shapes and specialized components that minimize air resistance. Additionally, the safety of the vehicle is ensured by incorporating advanced safety systems, such as collision avoidance technologies, airbags, and crumple zones.

Manufacturing Technologies: The rise of automation has revolutionized vehicle manufacturing. Robotic arms, AI, and 3D printing are now integral to automotive production. Robotics allows for faster and more precise assembly, while AI systems help in predicting maintenance needs and optimizing production schedules.

One significant advancement is the use of 3D printing for creating prototype parts and even some vehicle components. This technology enables manufacturers to design and produce intricate parts with reduced material waste and lower costs. Additionally, automation has sped up assembly lines, allowing for mass production while maintaining consistent quality.

Sustainability: As the world becomes more eco-conscious, the automotive industry has shifted toward more sustainable practices. Electric vehicles (EVs) are at the forefront of this revolution, offering a cleaner alternative to traditional gasoline-powered cars. In addition to EVs, car manufacturers are adopting environmentally friendly materials, such as recycled plastics and plant-based composites, to reduce the carbon footprint of their vehicles.

Furthermore, energy-efficient manufacturing practices, such as using renewable energy to power factories and reducing waste, are helping the industry move toward a more sustainable future.

Future Trends: The future of vehicle design and manufacturing is exciting. One of the biggest trends is the development of autonomous vehicles, which use sensors, AI, and machine learning to navigate roads without human intervention. These vehicles promise to increase safety, reduce traffic, and improve transportation efficiency.

Modular vehicle design is also gaining traction. This approach allows manufacturers to produce customizable vehicles with interchangeable components, which can be tailored to meet different customer needs.

Conclusion: The automotive industry is undergoing a revolution, driven by innovative design principles and advanced manufacturing technologies. As sustainability becomes increasingly important and new technologies such as autonomous driving and electric vehicles take center stage, the future of vehicle design looks promising. By continuing to prioritize safety, efficiency, and environmental responsibility, the industry will continue to transform how we think about transportation.

For comprehensive information and resources on engineering topics, please visit the Engineer's Heaven website.

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websyn · 4 months ago

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Revolutionising Smart Factories with Digital Twin Technology

Discover how digital twin technology transforms smart factories with real-time monitoring, maintenance, & optimised workflows for efficiency and growth.

#digital twin technology #smart factories #real-time monitoring #predictive maintenance

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ablconsultants · 7 months ago

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Top Civil and Structural Engineering Consulting Trends in Singapore

Singapore is known worldwide for its cutting-edge urban landscape, where sustainable development, technology integration, and efficient land use are crucial to the nation's growth. With limited land space and a dense population, civil and structural engineers in Singapore face unique challenges that push them to adopt the latest design, technology, and sustainability trends. As Singapore strives to remain a Smart Nation, civil and structural engineering consultants embrace these trends to drive infrastructure resilience, efficiency, and sustainability.

Below are some of the top civil and structural engineering consulting trends currently transforming the industry in Singapore.

Green and Sustainable Building Practices

As Singapore aims to meet its Green Plan 2030 goals, sustainable building practices have become a cornerstone of civil and structural engineering. Engineering consultants are adopting eco-friendly materials, efficient designs, and green technologies to minimize environmental impact and reduce energy consumption.

Green Mark Certification: Civil and structural engineering firms work closely with the Building and Construction Authority (BCA) to meet Green Mark standards and promote sustainable building practices. Like those in Marina Bay and the Central Business District, green buildings are designed with energy-efficient systems, natural ventilation, and innovative cooling solutions.

Carbon-Neutral Infrastructure: Many consulting firms are incorporating carbon-neutral designs, using renewable energy sources and materials with low embodied carbon. Projects are planned with lifecycle carbon analysis to understand and reduce emissions at each stage of a building's life.

Smart and Digital Infrastructure

Singapore's Smart Nation initiative pushes the envelope to integrate technology with infrastructure. Civil and structural engineers now embed smart sensors, IoT (Internet of Things) devices, and data analytics to optimize building operations, monitor structural health, and ensure safety.

Building Information Modeling (BIM): BIM has become a core tool, allowing engineers to create digital models that enhance project planning, improve coordination, and reduce construction errors. Engineers can simulate various scenarios, identify potential issues, and ensure projects remain on budget and schedule.

Digital Twin Technology: Digital twins – virtual replicas of physical structures – are increasingly used to monitor real-time performance and simulate different operational conditions. This helps facility managers conduct predictive maintenance and optimize the efficiency and lifespan of infrastructure.

Prefabrication and Modular Construction (PPVC)

Prefabricated Prefinished Volumetric Construction (PPVC) and other modular construction techniques are gaining traction in Singapore rapidly. PPVC involves creating modular units off-site, which are then transported to the construction site for assembly, reducing construction time and labor needs.

Reduced On-Site Labor and Waste: Prefabrication significantly reduces on-site and construction waste, addressing Singapore's limited labor pool and sustainability goals. This method also minimizes disruptions in dense urban areas by reducing on-site construction activities.

Quality Control and Faster Project Delivery: Engineering consultants can better monitor quality and adhere to high safety standards by manufacturing components in a controlled factory environment. The streamlined process allows projects to be completed faster without compromising on quality.

Resilient and Climate-Adaptive Design

With Singapore's vulnerability to rising sea levels and extreme weather, resilient and climate-adaptive design has become critical. Civil and structural engineering consultants focus on creating infrastructure to withstand future climate challenges.

Flood-Resistant Infrastructure: Engineers are developing elevated foundations, stormwater management systems, and permeable pavements to prevent flooding in low-lying areas. Coastal areas like Marina Barrage have advanced drainage systems to protect against rising sea levels.

Heat-Resistant and Weather-Proof Materials: Using durable, weather-resistant materials that reduce heat absorption is now a priority. Engineers are incorporating innovative materials that adapt to Singapore's tropical climate, such as cool pavements and high-albedo coatings, which reflect rather than absorb heat.

High-Density and Multi-Use Developments

Singapore's land scarcity drives the trend towards high-density, multi-functional developments that maximize space efficiency. Engineering consultants design buildings that combine residential, commercial, and recreational spaces within the same structure, creating "vertical cities."

Efficient Land Use: High-density buildings make the most of limited land resources, meeting demand for housing, office space, and amenities. These developments reduce travel distances and support walkable, connected communities.

Community-Centric Design: Many developments incorporate public green spaces, communal areas, and easy access to amenities, aligning with Singapore's "City in a Garden" vision and fostering social interaction within urban environments.

Enhanced Safety Standards and Regulatory Compliance

Singapore's strict regulatory environment requires engineering consultants to comply with rigorous safety standards to ensure structural stability, safety, and environmental responsibility.

Advanced Safety Modeling: Safety simulations, using technologies like finite element analysis (FEA), allow engineers to test how buildings will react to stress, wind, and seismic forces. By predicting structural vulnerabilities, engineers can enhance safety and compliance.

Sustainable Compliance and Audits: Engineering firms perform regular sustainability audits to ensure projects meet environmental regulations. Consultants work closely with government bodies to ensure all structures adhere to the latest environmental and safety standards, which is critical for maintaining Singapore's reputation as a global leader in urban planning.

Use of Artificial Intelligence and Machine Learning

Artificial intelligence (AI) and machine learning transform how civil and structural engineering consultants analyze data, predict structural performance, and manage projects.

Predictive Analytics for Maintenance: Machine learning algorithms analyze data from sensors embedded in buildings and infrastructure, identifying wear-and-tear trends to predict when maintenance is required. This predictive approach helps avoid costly repairs and reduces downtime.

Optimized Structural Design: AI is helping engineers design structures with optimal material usage, reducing costs and environmental impact. AI tools can process data from similar projects to propose the most efficient and durable designs for new projects.

Underground and Vertical Expansion

As Singapore's population grows, civil and structural engineers look underground and upward to expand the city-state's usable space. This trend is essential in meeting the demand for infrastructure without encroaching on limited green spaces.

Underground Infrastructure: Singapore is expanding its subterranean network from underground expressways to data centers. Civil engineers are exploring how to optimize underground spaces safely and efficiently, reducing surface congestion.

Skyscraper Engineering: With advancements in structural materials and design techniques, engineering consultants are pushing the boundaries of vertical architecture. Skyscrapers are designed to withstand strong winds, optimize natural light, and incorporate energy-efficient features to minimize environmental impact.

Emphasis on Lifecycle Assessment and Circular Economy

Singapore's construction industry embraces lifecycle assessment and circular economy principles to minimize waste and promote resource efficiency throughout a building's lifespan.

Recycling and Reuse of Materials: Engineering firms are repurposing materials from demolished buildings, reducing demand for new raw materials. By prioritizing recyclable materials in building designs, consultants contribute to Singapore's Zero Waste Master Plan.

Lifecycle-Based Design: By considering the entire lifecycle of structures, from design and construction to decommissioning, engineering consultants can maximize long-term value and sustainability.

Conclusion

Singapore's civil and structural engineering landscape is rapidly evolving as consultants adopt innovative solutions to meet the unique challenges of a growing, land-scarce city. From sustainable building practices to integrating AI and digital technologies, these trends are reshaping Singapore's infrastructure, ensuring it remains resilient, sustainable, and adaptable to future demands. As these trends continue to evolve, Singapore's civil and structural engineers are set to remain at the forefront of global urban innovation, building a future-ready city that balances growth with sustainability.

#consultants #civil engineering #structural engineering services #Singapore

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thehomophobe · 8 months ago

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Latest & Greatest Chapter 7: Superior Bots, Secondary Barrage, Super Besties

Through bustling streets and the chatter of people, you moved through the metropolitan underground. The GPS on your phone kept glitching in and out. (Wow. To this day and age, technology still has bugs.) You must've restarted your phone seven times after you left the hospital. You checked your messages to see if Vanessa ever responded back

(Y/N): Why? What do you need?

(Y/N): Where's the observation tower?

The messages on your phone was left alone and unresponsive. She didn't even leave you on read. She must be busy with whatever's going on at the tower.

Speaking of tower how is it so hard to find a tower in a city? Strike that, how is it hard for you to find a tower in a city? It's a tower for God's sake. Now you're here relying on your GPS on your shitty phone.

The screen glitched at you in jest. "Stupid thing." You cursed.

The app finally accepted defeat, allowing you to see the map clearly. The tower is just a few blocks down. Thank god! You thought you were turned around after all that fuss. You looked up from your screen, trying to pinpoint which tower is it. There's one made of glass with tinted windows covering the inside. There's one made of brick and mortar which was shorter than the rest. That one looks like a factory. It can't be the steel building on the left. Maybe the one with a satellites and electrical rods on top. No that probably the news broadcaster.

There's no point in guessing, you got to get moving fast before Vanessa yells at you.

So turns out the one with the satellites was the observation tower. You should've known. (Fucking dumbass) At least you didn't walk into the strip club that was neighbor it.

Inside the tower were dozen upon dozen of radios. And not the kind you would have outside on windowsill. We're talking ginormous radios, the size of the IBM, with large microphones and headphones connected brings thin brightly colored wire. The broadcaster wore brown and each sat next to each other, tuning in and tuning out of different channels. They would plug in one wire and take out another. Their words jumbled together in egregious harmony, all asking and responding to whoever was beyond the headphones. It reminded you of the radios used during WW2, where the communes would sit together in a cramped dark room telephoning the soldiers out on the battlefield. You couldn't make out a single word from anyone's conversations. It wasn't until a woman in a beige sweater vest, brown pants and a bob took off her headphones and swiveled her chair to face you.

"Can we help you?" She chided, adjusting her glasses. She looked at you like you're retarded.

"Dr. huh..." You don't remember Vanessa last name. "Vanessa asked me to come here for something important."

"Go up." She pointed to the elevator.

"Thanks." You said. She immediately puts her headphones back on and continued working. How sweet.

As you rose from the bottom, what was the common darkness later revealing the shining light of the metropolis. You could see the roofs of the suburban housings, the dusty gray tops of facilities and shops. The shopping district lit up like a golden coin in the ocean. The maintenance facility looked like a kingdom on the horizons. The citizens looked like ants in the dirt. It was nice; it probably looks even better at night, when all the shops have their lights to contrast with the dark. A view like that, and to share it with someone you love, what could be better.

Your quixotic dreaming stop when the artificial lights go out and the wall of darkness greets you again. The elevator slowed to a halt. You made it to the top.

The doors open. If you thought there was a lot of radios on the first floor, get ready for this.

Rows of radars and radios roll through the room. The screens were dark with different patterns and circles color coded, tracking and predicting things that you don't quite understand just yet. Their lights being the only reason you could see since the blinds covered the daylight. In the middle was a map of the global spotted with little red dots that moved like particles on a science simulation. The hologram was colossal; with the top floor being massive, it looked like an observatory. Well obviously, it's called an "observation tower" (Fucking dumbass).

"Where have you been?!" A familiar voice shouted. "I asked you to get here early and you just come walking in like a fucking dumbass."

"Hey! I texted you that I was coming. You never responded back!" You argued. Pulling your phone from your pocket, you proved your claim with evidence. The same two text were there followed by another one.

(Y/N): Found it.

"Ugh I can't even argue with you right now. Just come here." Vanessa ordered. Sadly you obeyed the scientist, even if she was a bitch.

"So what's up?"

"I've been analyzing your video, trying to accurately distinguish how far you searched. The factory line. Was there any reason you investigated it?"

"The survivor needed to find someone in there."

"Did you find them?"

"Like I said, we were attacked. The raptures flushed us out the doors before looked any further." Vanessa hummed at your response. "What's wrong?"

"I was concerning about the sudden rapture population. It increase by 3.89% in the past few weeks. That means the at least over 7 million raptures have inhabited the world by now, with here having about 1.2 million rapture across our territories."

...

Y-You weren't confused. You were just running the numbers...

"And?"

"And," Vanessa finagled with the hologram, zooming into the conquered areas the Final Nation acquired. Another button sorted the map into pieces, the territories the chief commanders had declared. "it has been reported that hoards--or as you said "hives"--of raptures have been inhabiting large spacious areas like factories and power plants." The map showed videos of other commanders: Schmidt, Conners, Baroulette, Fitzgerald and other surnames you've never heard of labeling the holographic map with their record data. You could catch the other androids in combat and investigating the ruins left on the world. "Squadrons were asked to bring home as much evidence as they can for the science center to compare. Pieces of raptures parts, strange machinery, any that didn't look man-made." You felt a little jealous. These commanders look so cool...way cooler than you did...

"What did you find?"

"That those rapture pieces are significantly stronger than the ones originally. Which means--"

"They're getting stronger?!" You completed her sentence.

"Exactly." Vanessa nodded. "Somehow, the steel we use here on Earth fused with the raptures' armor created a harder shell for them. Thus, it be harder for regular guns like ours to penetrate their bodies." She concluded. Guess the pistol you got from Beatriz is useless now.

"Does that mean the android fighter guns won't hit their shells as fast as before?" You asked, worried about your comrades.

"Yes, but the science center and the research lab planned for this enhancement. We've tested the new artillery already and donated it to all androids. The V.7 squadron was the last ones to get the upgrades." Vanessa commented. Well that's good. At least your squad won't be left behind.

"Speaking of those guys, I hope your keeping an eye on them." The researcher crossed her arms. "I'm not letting the science center and research fund the repairs for them. It's your responsibility so don't come crying to me when one breaks down." She chided.

"Of course. Thanks Dr. Vanessa." You smiled.

"Yeah yeah get out of here."

After pass by the glaring eyes of the telecommuters, you couldn't stop thinking about the raptures. "Somehow, the steel we use here on Earth fused with the raptures' armor created a harder shell for them." They figured out a way to fuse with our materials and now they multiplied even more.

And their spreading.

You remembered seeing the news broadcast showing dozens of raptures stampeding over people. The camera catches glimpses of their claws gashing through the flesh of people. The reporter had to shout because the screams of the people and the call of the military muted his voice. He shouted about the war, the monsters, the horror. The innocent lives of woman and children. The camera was splashed with human organs. And then pitch black.

*Rrr Rrr*

Hm?

You pick up your phone. A red notification alerted your messaging. A new but familiar person popped up on your screen, greeting you with a warm message.

Freddy: Hello Commander!

(Y/N): Freddy?

Freddy: I am glad you responded to my message. I was worried you would "leave me on read."

You swore he had to be a dad in his past life.

(Y/N): I wouldn't do that to a friend.

You were half-lying.

(Y/N): Did you need anything?

Freddy: I came to ask where is your location and if you were not busy at the moment.

(Y/N): I just came out of the observation tower. And I'm not busy.

Freddy: That is great Commander (Y/N). The concern is about Daya and their living quarters.

Daya? Who's Daya?

Wait...

(Y/N): Daya?

Freddy: Yes. Daya Panaglan, the survivor we've rescued from our first mission together. They have been properly healed from their ailment and lefted the hospital.

Freddy: They wanted me to speak to you about their new living quarters here in the plex.

Oh shit. You completely forgot about that. You meant to return to your place and find a vacant place for her. It wasn't until Vanessa called for you when you got sidetracked. And you can't you use your phone to open the browser. (God you really need to fix your phone. Or get a new one.) You're surprised the messaging app even works.

You didn't respond to Freddy's text, unsure how to answer him.

Freddy: Commander?

(Y/N): Yea Im still here.

Freddy: That is good. Daya would like to speak to you as well.

Oh god. The hell are you gonna say? "Hey sorry you gonna have to live on the streets for while cause i forgor :)." You can't leave Lorelei homeless like this. Maybe there's still some time to---

Freddy: hey sergeant shithead

Oh god...

Freddy: now about that "luxurious" housing...

Freddy: i got the stuff needed to register. i just need some help finding a good place

Freddy: we're outside the leasing office of one of the apartments

Great. At least they did some window-shopping without you. A link to the location was sent followed by the website for the apartments. Great, more shit with the GPS. At least this time you have a better sense on where it is; you've seen the complex before so there's no doubt you'll get lost this time.

You're glad majority of the places here are at walking distances. It's like New York City. You've been to New York many times before: from vacations to meeting family to visiting your brother while he was away at college. You remember walking through Manhattan, through Times Square, biking in Central Park, eating at Joe's Pizza, the view from the Statue of Liberty. You always thought New York was beautiful---an aesthetic in of itself. If it wasn't for how expensive it was to properly live there, you would move happily inside a cubicle of an apartment.

But it would've put you at a disadvantage against the rapture invasion.

When they came, majority of the people thought that they would be safe staying in New York due to the skyscrapers, subways and water-locked boroughs that can be traveled by the ferry boats. If only they left when they had the chance to. Airborne raptures snatched those who climbed the towers of fragile glass and weakened steel. Burrowing raptures cut off subway systems and power lines, they drilled through those who was prepped to be bury under the earth. Nautical raptures destroyed ferry boats and docks, making the people unable to flee the concrete jungle.

It was a massacre.

Only 10% of New York's population escaped the raptures.

And only 3% made it underground.

You thanked the Lord that Benison made it out of there before he was killed.

"Commander (Y/N)! Over here!" A burly voice called out to you. You look to see Freddy waving over to you. Alongside him was a short, stout Filipina dressed in all black: A tank top covered by a long, heavy cloak, ripped jeans revealing the scabs of survival in the sand and boots with shin guards covering even more scarring from the surface. Her hands were in her pockets but you could see gloves outline the wrist and forearms.

"Hey guys." You smiled, happy to see Lorelei on her feet.

"Hello Commander (Y/N)." Freddy greeted. "I'm glad you're here to aid Daya in finding them a new place to call home."

"Did you get it?" Lorelei asked.

"Get what?"

"The loan."

What loan? "What loan?"

"You didn't get a loan?!" Lorelei shouted. What loan? Were you supposed to get a loan. All you remembered was to help Lorelei window shop for housing once you got to the complex. You shook your head.

"Lorelei assumed that you had the money to pay for their housing. Once I told her that you were never meant to get paid since it was your first mission on the surface, we conspired that getting a loan was your route of choice." Freddy explained. "However, I could see that you made neither option."

"You thought I had the money to pay for this by myself?!" Lorelei scorned. Of course you didn't, you knew---or at least assumed---that everything she owned was either burned or shredded by raptures. You didn't think she'd be making the decision today AT THIS VERY MOMENT.

"I thought you wanted to look at all your options first..." You said meekly.

"I don't have that kind of time sergeant shithead!" She's right. Dusk was slowly rolling in. The day was slowly ending. "So I'm gonna need that loan."

"...Right..." Yeesh. Today was not your day.

"Where are going to stay for the night Mx. Panaglan?" Freddy asked, equally concern for the safety of the survivor.

"A night" Lorelei looked at you as if you just grew a second head.

"Won't that hurt your paycheck?" She raised a brow. "If you even have one."

"Just for the night until I get the loan for you." You thought this was the best solution for now. Either that or another stay at the hospital.

"Fine. But you paying for food too." You could live with that. Hopefully...

"Finally. Home sweet home." You sighed, groggily heading to the showers to clean yourself off. You had to get the loan for Lorelei tomorrow, she was already upset you couldn't get her a home on the first day and bulldozing through all your credits. Now you've got less than 3,000 credits left. (Fucking broke ass. Yeah you thought joke was over huh?) And you really got to get a new phone, this stupid thing couldn't work for shit! You cursed at your phone, staring into the dark screen menacingly.

*Rrr Rrr*

A notification popped up on your phone. "You've been invited to the group chat!" You open your phone again, looking at the number of messages underneath a new chat name: V.7 Squadron.

Chica added Freddy to V.7 Squadron

Chica added Montgomery to V.7 Squadron

Chica added Roxanne to V.7 Squadron

Chica added Sun to V.7 Squadron

Chica added Moon to V.7 Squadron

Chica added (Y/N) to V.7 Squadron

Chica: Yay everyone's here! ^0^

Freddy: Indeed we are Chica.

Montgomery: wtf is this

Roxanne: Chica why did have to put the dumb commander in the chat?

Ouch.

Freddy: Roxanne, you shouldn't insult the commander like that.

(Y/N): Yeah even if I'm here.

Montgomery: fuck off meatsack

Montgomery: nobody asked you

Freddy: Monty please! There's no need for this.

Chica: I just wanted to invite everyone from the squad :(

(Y/N): Thank you Chica.

You assumed Sun and Moon were busy at the hospital and weren't allow to respond while working.

Freddy: Yes. Thank you Chica for inviting all of us.

Chica: :D

Chica: I wish sun and moon didn't have to work some much at the hospital so they can join.

Montgomery: the last thing i want are those two clowns in here too

(Y/N): Those "clowns" are your squadmates Monty. You shouldn't bad mouth them either.

Moon: Unless you want your jaw ripped off your face. That could be a solid option.

Sun: Moonie don't say that!

Freddy: Sun? Moon? Aren't you two at the hospital?

Moon: We just left. We're heading back to the orphanage now.

Sun: Right before we pick up some things for the little ones!

Montgomery: tf with the exclamation points

Roxanne: Ok can we please do something about the chat name?! Its bugging me.

Freddy: What is wrong with the name Roxy? Are we not the V.7 Squadron?

Roxanne: Its just so naisc.

Roxanne: *basic

Montgomery: it is kinda dumb

Chica: We should make it cooler! like The Elites or The Super Soldiers B-)

(Y/N): If want to make a team name it has to unique to us.

Roxanne: Well there's nothing cool about you so mayeb you should sit this one out.

Freddy: I believe we could create a better name for this group chat. Especially if we're going to use this to communicate with each other more often.

Chica: How about "The Rolling Thunders"?

(Y/N): That doesn't really sounds right for us.

Chica: "The Behemoth Squadron"?

Freddy: We're not exactly giants.

Montgomery: yeah the fleshbag only 5'3

Chica: "Classified Reconnaissance Crew"?

Moon: We're too infamous to be called classified.

Chica: I'm running out of ideas guys =[

The chat when silent as everyone tries to create the new name for the group chat.

Roxanne: Hye does anyone else notice these letters on thme?

Roxanne: *them

A picture of what looks like a shoulder revealed bar code-looking print. You couldn't read the numbers--if they even were numbers--but two letters stuck out to you the most. SB

Montgomery: what's sb

Roxanne: Don't know but I just saw it todoay.

Roxanne: *today

Roxanne: These damn claws

Chica: Hey I have that too :-O

Freddy: As do I.

Sun: Me too! And Moonie!

Montgomery: aye meatsack. know what that means.

You never seen those letters before. You never really pay mind to the androids like that. It feels wrong, especially if it's something on their body.

(Y/N): Sorry I've got nothing.

Chica: Since we all have it, how about we name out squad after that! :D

Roxanne: The Superior Bots.

Moon: When have we ever gain superiority?

Roxanne: Sinve when we were created obviously.

Roxanne: *Sonce

Roxanne: *Since

Roxanne: Fuck!

Montgomery: i like it

Montgomery: shows us how much better we are than everyone else

(Y/N): I'm not so sure about it.

Chica: Me neither :/

Freddy: How about The Secondary Barrage?

Montgomery: what's a barrage?

Roxanne: And why are we the second one?

Freddy: A barrage is a heavy barrier of artillery fire to protect one's own advancing or retreating troops or to stop the advance of enemy troops.

Freddy: Secondary means coming after, less important than, or resulting from someone or something else that is primary.

Roxanne: We aren't second best. We're the latest androids of the final nation. The gratest androids.

Roxanne: *greatest

Freddy: My apologies. I shall look for other words to replace "secondary".

(Y/N): You don't have to do that Freddy.

Sun: How about Super Besties?!

Chica: I like that one! ^o^

Montgomery: i veto

Roxanne: Me too.

Sun: What?! Why?!

Moon: I veto as well.

Sun: You too Moonie?!

Moon: Too cutesy

Moon: And we're not well acquainted enough to be considerd "besties".

Sun: (˘･_･˘)

Chica: Aww :[

(Y/N): How about we sleep on it?

(Y/N): It is getting late.

Moon: Adults should get more then 7 hours of sleep.

Moon: It's 10:56 PM. You should've been sleeping instead of being on your phone.

Freddy: Then we shall put this conversation to an end for now. Goodnight Commander (Y/N).

Chica: Night commander (´▽`ʃ♡ƪ)

Sun: Sleep well sunshine!

Moon: Goodnight commander. Makes you get your proper rest and sleep earlier tomorrow.

Montgomery: get to bed meatsack

Freddy left the chat

Chica left the chat

Sun left the chat

Moon left the chat

Roxanne left the chat

Montgomery left the chat

You did what Moon said and head to bed.

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