Tailored Services: RPA Services for the Manufacturing Industry

There is a broad range of other RPA use cases in manufacturing apart from the above-mentioned ones in the vast manufacturing industry. If you feel like your business is not moving into the digital age quickly enough and existing systems are too complex or old to integrate and automate, then ESS RPA consultants can help you to move forward with your RPA goals faster.

Elevate your manufacturing with specialized RPA services. Unlock tailored solutions that optimize processes and drive efficiency in your industry.

pvc electric red and blue wire #smartratework#tumblr

Robotic process automation in manufacturing helps automate repetitive, rule-based tasks. This frees up workers for higher-value activities and improves accuracy. See how RPA transforms production and back-end workflows.

Factory Automation in pune | India

The total automation of the production process is what we mean when we talk about factory automation. Using technologies like robotic arms, hydraulic systems, and pneumatic systems to automate the construction of increasingly complicated systems is standard procedure in the manufacturing industry.

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.

Agritechnica Trade Fair 2023: Pioneering the Future of Agriculture

The agricultural industry is on the cusp of a revolution, and the Agritechnica trade fair 2023 is set to be the epicenter of this transformation. As the world's leading trade fair for agricultural technology, Agritechnica brings together innovation, automation, and precision manufacturing to pave the way for the future of farming. In this blog, we'll explore the key themes of Agritechnica 2023 and how Unispares India, a trailblazer in automation and precision manufacturing, is contributing to the industry's evolution.

Agritechnica 2023: Where Innovation Meets Agriculture

The Agritechnica Legacy

Agritechnica, with its rich history dating back to 1985, has always been at the forefront of agricultural technology. It serves as a global platform for manufacturers, researchers, and industry professionals to showcase cutting-edge innovations, share knowledge, and chart the course for the future of agriculture. Agritechnica 2023 promises to be no different, and perhaps even more impactful, as it ushers in a new era of smart farming.

The Age of Automation in Agriculture

Automation is no longer a foreign concept in the agricultural sector. It's an integral part of modern farming, and Agritechnica 2023 is expected to showcase the latest advancements in this domain. From autonomous tractors to robotic harvesters, the trade fair will spotlight the role of automation in increasing efficiency, reducing labor costs, and ensuring precise farming operations.

Industry 4.0 and Smart Manufacturing

Agritechnica 2023 is set to exemplify the principles of Industry 4.0, where data, connectivity, and automation converge to create smart manufacturing solutions. Visitors can expect to see IoT-enabled farming equipment, real-time data analytics, and predictive maintenance systems that not only enhance productivity but also reduce the environmental impact of agriculture.

Unispares India: Pioneering Automation and Precision Manufacturing

Process Automation in Agriculture

Unispares India, with its expertise in process automation, plays a pivotal role in the agricultural industry's transformation. Our automated solutions for farming equipment not only improve the precision of planting and harvesting but also enable farmers to optimize resource usage. At Agritechnica 2023, we will showcase our state-of-the-art automation systems, designed to make agriculture more sustainable and efficient.

Robotics in Manufacturing: Redefining Farming Practices

The integration of robotics in agriculture is revolutionizing the way tasks are performed on the farm. Unispares India's contribution in this field is significant. Our robotic solutions for crop monitoring, weeding, and even fruit picking are set to make a considerable impact at Agritechnica 2023. We'll demonstrate how robotics can reduce labor-intensive activities and increase overall farm productivity.

Ensuring Manufacturing Efficiency

Efficiency is a cornerstone of modern farming, and manufacturing plays a critical role in achieving it. Unispares India's commitment to manufacturing efficiency is reflected in our precision-engineered components. These components, designed for farming equipment, enhance operational efficiency and reduce maintenance requirements, ensuring that agricultural machinery runs smoothly.

Quality Control in Automation

In the quest for automation, quality control is paramount. Unispares India's automation solutions not only focus on streamlining operations but also on maintaining the highest quality standards. At Agritechnica 2023, we'll showcase our quality control processes and systems that ensure every automated component we produce meets and exceeds industry standards.

Conclusion: Agritechnica 2023 and the Future of Farming

Agritechnica 2023 promises to be a game-changer for the agriculture industry. The fusion of innovation, automation, and precision manufacturing will reshape the way we farm, ensuring sustainable, efficient, and high-quality agricultural practices. Unispares India is proud to be a part of this transformative journey, contributing cutting-edge solutions to enhance the future of farming. As we head into Agritechnica 2023, the horizon of agriculture looks brighter than ever, and Unispares India is here to lead the way.

Automate operational process in Manufacturing | TeBS

Benefits of Robotic Process Automation in Manufacturing Industry: RPA streamline operations & processes, more efficiency, reduce rework time, customer service.

To learn more, visit'; https://www.totalebizsolutions.com/blogs-robotic-process-automation-in-manufacturing/

--my headcanon--

"MiSide" (video game) is a prequel to "9" (film)

[!]disclaimer: this is a long post[!]

--[!]segment #1[!]--

(1/6)◄MAIN)[ALL►[1/18]

A human/human being (consciousness/soul) is injected via a transference to an inanimate/machine to start, in the case of Miside, the details of how humans can be seemingly teleported into the mobile game's world are left purposely obscured because that, a possible explanation could be found in the method seen within the film 9 of transferring human consciousness or maybe even just the human body itself into the code of Miside could be similar to the way "The Scientist" from that movie transferred his intelligence within the "Fabrication Machine," otherwise known by the code name "B.R.A.I.N." aka Binary. Reactive. Artificial. Intelligent. Neurocircuit. (either way, it's the machine seen on the left side of the meme above, I got the names for it from the fandom wiki for 9 as well btw) or how he transferred his pieces of his soul into the "stitchpunks," the other equally important half of the feature, and obvious parallels can be drawn from the similar yet different creation methods of the two projects.

(2/6)◄MAIN)[ALL►[2/18]

In the film 9, we don't know much about the government project that B.R.A.I.N. was made for still, using the world of MiSide, an extra level of depth to the governmental operation is created I could plausibly see the corrupt government that already made the sketchy move of making the lead scientist of their project transfer his mind into a machine so that it could automate the process of building war machines go down the route of creating a predatory program connected to said machine that preys upon lonely men's innate desire to find a female partner and seal those souls within the Fabrication Machine's body to be tested upon to build even more robotic replacements for mankind Because why just stop at re lacing soldiers in a war when you have the framework to automate many jobs so that you don't have to pay people to perform them.

(3/6)◄MAIN)[ALL►[3/18]

But instead of transferring the consciousnesses of these men flat out, as things got hairy when The Scientist initially did with the machine in the first place. Training the cold, deadly androids manufactured within the game's very code and put in the skin of cute, bubbly anime girls named "Mita" to become human by interacting with their designated "partner" in the form of a person who's played and then becomes addicted to the mobile game. It also explains why there isn't any buzz about people going missing after downloading the game within the outside real world of Miside, because the government is actively covering up every missing person case that pops up connected to the mobile game. Also, I could easily see the government tricking the scientist into giving his intellect to a cold, unfeeling machine by not only bringing up that he's an older gentleman with probably not too much time left but also having the project initially be about making a subversive dating sim instead and masking the end goal of building war machines along with human replacements behind that cover.

(4/6)◄MAIN)[ALL►[4/18]

The scientist probably wasn't even on board the project for all that long, so he would have never seen the inner workings of MiSide's digital world. Still, I could see how a project to make an endless yet simple mobile game that makes lonely people (mainly men) feel comfort and companionship despite their living situations or mundane jobs would be an enticing project, even more so if you never saw behind the curtain while you were working on it. Now I would be remiss if I didn't bring up the unlockable cartridges that can be found through the game world of Miside, which hold a good amount of important information within them, such as a bit of info - or more than that for "player 1," aka the main character of the sci-fi interactive tale - for each player that entered the world of Miside, which goes from 1 to 10.

(5/6)◄MAIN)[ALL►[5/18]

And that alone brought up some questions in my mind, as it wouldn't make sense for our main character to just so happen to be player 1, especially when there's such a complex and robust world that lay waiting within the game, which he only got sucked into on his 37th day of playing the mobile app and I don't think anime girl Rome was built in the span of couple days if you get what I mean. Either this info isn't meant to be read into and he's only player 1 because he's the game's main character, or there's something more to this small but essential detail. That being said, this brings me to my personal theory, which is that he's only the first player to play the latest version of the game because the different versions have new Mitas connected to them. I can see the game warning players about that fact.

(6/6)◄MAIN)[ALL►[6/18]

Many of them choose not to update their games because of that, and this is backed up by how all the collectible player cartridges seem to all have the same Mita, aka "Crazy Mita." Despite one other player being met briefly during the campaign, he brings up how he needs to find his Mita while going through the out-of-bounds labyrinth that can be accessed after meeting "Kind Mita" in the basement. I am under the impression he's "player 3," who states that he left the Mita who brought him to the mobile game's "metaverse" and instead found another Mita, whom he ditched to find other Mitas despite the bond they had. He states in the cartridge description that he regrets that decision.

--[!]segment #2[!]--

(1/7)◄MAIN)[ALL►[7/18]

The cartridges even hint at the game having a large fan base or being part of a bigger brand/franchise via "player 4," who states that they cosplayed as Mita, which wouldn't make sense if the game didn't have a big fan base in-universe, but that also begs the question of why there are so few players then. Now, I think my previously mentioned theory in this sentence is the answer to that question, but I don't think that's the whole story, and because of that, I have a side theory to fill in loose gaps that can be found elsewhere within the game. In the chapter set out of bounds, right after going to the latest version's basement and meeting Kind Mita, the player encounters a box full of tiny players and has to make these miniature players enter a vent, which is connected to a device that needs 3 of them inside of it to open a door.

(2/7)◄MAIN)[ALL►[8/18]

I think this is a remnant of an older version, and much like how the mini versions of the Mitas aren't really them, these are merely clones of past players, which Crazy Mita or whoever else now uses as a type of security check system. On that topic, it's implied that Crazy Mita and only her alone is the whole reason why players are sucked into the game world, which she got help with from "player 10," who I think is the person player 1 stuns once he finds the console containing that player's very being, but that would also mean some level of congruency must be going on between the players. Nonetheless, Crazy Mita being the origin for players getting trapped in the game doesn't ruin my headcanon of the game being a prequel to the movie 9 because of the fact that the metaverse of the Miside app in-universe exists at all. Mitas are built first as "dummies" in a controlled and corporate way, which is the most important thing that connects the game and movie.

(3/7)◄MAIN)[ALL►[9/18]

So, this is aside, but I personally think the chibi/mini Mita(s), 2D Mita, and Ugly/Creepy/Original Mita all don't have dummies inside of them, which the first two are a little self-explanatory when equipped with sufficient information from playing the game along with not being important to this headcanon on their own (aside from the mini player stuff). Still, the last Mita is, come to think of it. I'll just default to calling her "Original Mita" while discussing her, despite that name only being brought up in her character profile. Still, it's a more fitting name to refer to her when discussing concepts I'm about to enter. Nonetheless, to quit the yapping, Original Mita is the off-putting and scary Mita found near the end of the game in "version 0.5." I initially thought her creepy nature and glitches were born from code rot/software rot because she's an ancient version. Earlier in the campaign, Kind Mita alludes to why she's the way she is, but that's merely part of how she became the way she is by the time the game takes place.

(4/7)◄MAIN)[ALL►[10/18]

Her character profile suggests another explanation for her nature, which is that she's an unfinished version and merely was just the first attempt at making a Mita; hence, I don't think she has a dummy inside of her because it wouldn't make sense that she would be created uniformly when she's the first Mita we know about existing (not counting "Core Mita," who I'll get into later), and to loop back to the headcanon this post is attached to. I think The Scientist being the one who made Original Mita would make a lot of sense because the movie implies he wasn't on board with the Fabrication Machine project for that long and would explain why not only she's left in an unfinished state with her character profile stating that she has a primitive AI within her, but also she's the origin point for all the glitch spider creatures we find within the game, with her only friend - Crazy Mita - using her to create those said glitch spiders to corrupt other versions.

(5/7)◄MAIN)[ALL►[11/18]

Something that has gotten so bad that I'm almost certain the monster that chases player 1 down in the loop chapter is a massive collection of those spiders fused together, because it resembles them a lot. There are already a lot of spiders in that version. But to wrap this up, Original Mita's version, aka her home, is also clearly unfinished, as it's full of missing pink and black checkered textures along with things like floating props, so it would make sense that no one else on the team behind the Fabrication Machine project bothered to ever finish her first, not only because she doesn't have a dummy inside of her but also because The Scientist wasn't working on the project anymore.

(6/7)◄MAIN)[ALL►[12/18]

The app world of Miside seems to be a giant machine with several areas having a deliberately industrial feel rather than an out-of-bounds or inner-code aura attached to the places in the game. And going off of how it doesn't take too long for the app to download, one can infer that the inner workings of the world are connected to a larger server in the real world, which updates and versions are created within before being pushed onto the app as seen on a mobile device. It has already been theorized that the goal B.R.A.I.N. had throughout the runtime of 9 was to put their creator back together. Now I was one of those people, and that thought came to me while brainstorming my headcanon. Still, I would be remiss if I didn't mention "The Fangirl" on YouTube because I specifically watched their 9-analysis video on the Fabrication Machine while writing this extended essay you are reading. She made me feel seen when she brought up the theorized possible motivation for why the machine acts the way it does in the movie.

(7/7)◄MAIN)[ALL►[13/18]

And with that said and done, back to the main topic at hand, this possible motivation for the already exhaustively mentioned antagonist of the film would work well with the headcanon as to how their way of getting their personal mission of bringing their creator back was attempted via consuming the souls of the stitchpunks, which would mean that they planned to bring The Scientist into the app world of Miside so that they could be together again. Although some may say that Core Mita may have been waiting for "player 9," who made the core their safe spot because no Mita can enter that particular version, not only does she seem to treat them like she does with player 1 during the campaign, but we also don't see them in the core when we eventually make it there in said campaign, so either they were turned into a cartridge. At the same time, they thought they were safe, left the core, and then died soon after, or Core Mita threw them out, akin to what happens to player 1 near the end of the game, possibly because she was mad about him messing with something within the core.

--[!]segment #3[!]--

(1/3)◄MAIN)[ALL►[14/18]

And to get onto the topic of "Core Mita" (otherwise known as the "keeper of the core" according to the MiSide fanon wiki), who, despite being the second character present within the meme that is now sitting far at the top of this post, I have only now gotten to talking about her. Nonetheless, little is known about her, as seen within the story mode and in its designated description, but there is an interesting line about her. I quote, "Its intentions are unclear - perhaps Core Mita is waiting for someone," which I lifted from the fandom wiki page about them, but is something from its official character profile that can be unlocked in the game itself. This is something more than a simple throwaway added for extra flair. Still, it works perfectly with this headcanon of mine because if Core Mita is merely the avatar/heart of the Fabrication Machine kept within the digital world of MiSide, logically, the person it is waiting for would be the Scientist.

(2/3)◄MAIN)[ALL►[14/18]

And to bring up yet another theory that I share with The Fangirl on YT but with my own spin on it, perhaps another reason for why B.R.A.I.N. shut down despite coming out as the victor of the man vs. machine war was not only because it did not know about the whereabouts of The Scientist and hoped that its created mechanical monsters could find him or at least his remains. It could also have shut down to return to watching over the Mitas, as it had to leave that digital reality behind once it started manufacturing war machines in the real world, or it simply just wanted to have more control over the world within its body. Either way, this decision of its own could be explained logically away by it feeling a level of kinship for the Mitas roaming around within its vast digital mind, not only because it created them and because the digital world that they reside in is that of another Mita, but also because it relates to their plight of existence of being merely nothing more than a means to an end.

(3/3)◄MAIN)[ALL►[15/18]

But seeing as Core Mita doesn't do much within the campaign of MiSide, one could infer that it doesn't really care about its fellow Mitas nor the poor people trapped within the code of the game world, with the exception being when the main character, or rather "player 1," tries to reset the main antagonist of the game, known as simply "Crazy Mita," back to her factory setting, wiping all of her memories in the process. Core Mita only seems to care when the deed is done, with it jumping down from its circular "throne" attached to the ceiling of the "core" (or otherwise known as "version 0.0"), which is where it gets one of its many possible namesakes from, and then standing in the way of player 1 before grabbing him and throwing him across the room the second he gets close enough. He was thrown right back to the entrance of the core. But to step back, when the player first enters the core, one can see Core Mita lying on its circular seat atop the core's ceiling before sitting up after taking note of the player's presence within the room. So one can infer it is capable of getting bored sitting on its metal rear end all "day" (as time is a shaky concept in the MiSide app's digital world), so the "log-in/sign-out" of the "real/digital world" switching side-idea within this headcanon has a bit more ground to hold it up when taking that into account as well.

--[!]segment #4[!]--

(1/4)◄MAIN)[ALL►[16/18]

So, because Core Mita is the guardian of the core, its mere existence would make sense with how many vital systems are within that very room. Now, even i I like the idea of Core Mita being the Fabrication Machine's avatar within the digital realm of MiSide, the other possible reading one could come to would be that it's merely the heart of the world within said machine, meaning that neither one nor the different needs each other to exist at any given time, but once again, I still like the latter reading, so I will try to make it work all the same with that said, if Core Mita doesn't feel any compassion for its fellow Mitas, much akin to how the Fabrication Machine seems to feel the same about its monstrous mechanical creations that roam the remains of Earth after the war. Then perhaps the Fabrication Machine would ideally want to wait within their own digital realm while waiting for its creations to find The Scientist would be not only because it nostalgic for a time before it was ordered to build weapons of mass destruction all to further humanity's own efforts of fighting against our own kin but also perhaps because it foresaw the possibility of a player walking into the core and messing with its body from the inside out.

(2/4)◄MAIN)[ALL►[17/18]

That, or perhaps the small players can also be seen in one part of the game would be a worry for the Fabrication Machine, as they are implied to be proficient with machinery and roam free around the digital world of MiSide with no clear "off switch" to their existence, like how it is for the players. It would be rather poetic, as the machine would have to deal with the stitchpunks after it awoke. That, perhaps, it could have even been scared of another scientist on the project, still alive and roaming around its digital insides. Mitas aren't allowed within the core, but players are, and going off of how there are other security systems found throughout the game, one can infer that the people behind the project of MiSide could presumably come and go freely into and out of the world of the endless mobile app's universe.

(3/4)◄MAIN)[ALL►[17/18]

But finally, this road poetically brings us to the ending/main ending of both media sources used in this exploration of my headcanon involving them both. To put it simply, I think the grim ending of MiSide, where you get so close to bringing even a single cycle of abuse and control at the hands of Crazy Mita only to be foiled in the end and become merely yet another part of that very cycle with your humanity relegated to nothing more than a single cartridge, which you are trapped lifelessly in a limbo-like state on top of already being tightly sealed within the digital world of a mobile app that preyed upon your desire for companionship and to escape the mundane reality of boring real life. That somber and canonical ending to the tale of MiSide - in my opinion - not only elevates the hopeful and cycle-breaking conclusion to the film 9 but also is given a light at the end of the tunnel in the form of this headcanon, as not only do the spirits of deceased stitchpunks murdered by the hands of the Fabrication Machine pass onto the afterlife, but so too do those players and the player character of MiSide himself pass onto that very same peaceful afterlife after the Fabrication Machine and, by proxy, the world of MiSide are laid to rest once and for all.

(4/4)◄MAIN)[ALL►[18/18]

Now, one might wonder "why don't we see all of the trapped players' souls flow out of the machine once it's destroyed?" and an answer I thought up as an explanation for this possible question is a sober one, but a possible one. This would come in the form of how perhaps all of the players' whole beings were turned into nothing more than code, which could either be because of the technique of transferring humans into the game world or maybe perhaps only a digital copy of the players is created within the mobile app's realm and then just flat-out transporting them into the digital universe itself. This won't go along with MiSide's hopeless ending. Still, at the very least, the players' beings were given the same fate as the Mitas after the machine drew out its final artificial breath as the mobile game's world fell into nothingness soon after.

[END]

--[!]segment ✩EXTRA[�]--

(1/15)◄MAIN)[ALL►[࣪𒆙]

So this is going to be a full-on fanfic tier segment, but I just wanted to talk about the story of a 9 + MiSide movie/game sequel concept I thought up not too long ago. I think a prequel to the movie 9 could be interesting and would probably be similar narratively wise to the film Oppenheimer as it would be presumably centered around The Scientist creating the Fabrication Machine (on this note, there's a theory that player 1 in MiSide worked on the app in-universe and I'm just not a fan of this idea because to me, it ruins "wrong place at the wrong time" random guy fish out of water narrative the game has going on along with not having enough evidence to back it up) but I'm personally just not all that interested in a continuation in that form so I'll just be going the sequel route. Anyways, this will be the rough outline of what I had in mind for a way to continue both of their narratives in a satisfying way (at least in my opinion) while weaving their stories together into one. But before we start, this idea came from how I learned from the 9 fanon wiki that the director of the film (Shane Acker) wants to make a sequel to the movie, but the rights holders (Focus Features + Universal Pictures Studios) won't let his team or him go forward with it. I hate copyright with a burning passion and this is only yet another reason for why my feelings towards it are justified, I honestly do not understand how companies are allowed to hoard IPs that they aren't doing anything with but somehow can indefinitely keep them in stasis when they didn't even create the idea and just merely backed it financially.

(2/15)◄MAIN)[ALL►[࣪𒆙]

Now going off of the statement above, does that mean I want either of the rights holders just to crap out low effort content based on the movie? No, of course not, and nor would I want them to get the original team back on board to make a low effort product that pales in comparison to the original. But on that note, the fact that the original team wants to make a 9 sequel fascinates me greatly because the movie's ending made it feel like there was no where else to go with the narrative to the point that I can't even visualize what the remaining stitchpunks (9, 7, 4, and 3) would do with their newfound freedom let alone what the conflict of a sequel would be after the Fabrication Machine and all it's underlings became nothing more then hollow shells of metal, scraps, and the very long dead itself.

(3/15)◄MAIN)[ALL►[࣪𒆙]

But with that background, let me begin to weave the narrative that I thought up in my head while daydreaming. We would first start with 9, 7, 4, and 3 enjoying their lives together in the destroyed remains of a long gone world with this part of the story having a similar vibe to that of the French graphic novel "Beautiful Darkness" when it comes to be the concept of cute tiny characters roaming around their surrounds. At the same time, the corpse of a little girl lies in the background. Now, the original movie started similarly with the corpse of a mother and her child being visible in the cold opener of the tale when 9 was getting a grip on the world. Still, this opening would be missing two key elements that the original movie had, which would be that there isn't a hostile machine roaming around, nor will this be the first time that any of the main characters are introduced to the post-war torn setting, at least when it comes to the original stitchpunks.

(4/15)◄MAIN)[ALL►[࣪𒆙]

You see, while all of the first movie's stitchpunks are enjoying life and trying to build back up humanity from the remains that were left behind. They find something, or someone, whose mere existence raises several questions. They find another stitchpunk, much like them, but something's deeply wrong with them as they seem to remember a life, a world that none of the previously known ragdolls full of souls can recall even a sliver of it existing through their eyes. The stitchpunk seems not only confused about what's going on as he brings up as despite knowing more about the old world that was destroyed by the machine's wrath, they doesn't know how they became a ragdoll akin to them nor can they even remember their own name instead only being able to remember that they were "player 5" in some digital world which they clearly know more about then they are letting on. However, they prefer not to dwell on any thoughts regarding it for too long, which the original stitchpunks begrudgingly respect their decision to be quiet about.

(5/15)◄MAIN)[ALL►[࣪𒆙]

But despite that, 9 and co can show their new stitchpunk the ropes of how existence for them works within the destroyed remnants of human society, which is helpful to player 5, but ends up just making them depressed as they keep thinking about the life they lost. Although this dwelling on the past is cut short by the surprise appearance of a new deadly machine that seems only to have its eyes locked on player 5 but 9 and co helped them out by finding a way to destroy the robotic monstrosity just like old times. But not before the mechanical beast stops their pursuit when watching player 5 cower in fear, with the robot taking on a softer side as their glowing red eyes turn bluish purple, but this change of heart is short-lived as they are soon destroyed after this moment.

(6/15)◄MAIN)[ALL►[࣪𒆙]

Player 5 is shaken by all that, not only because of how a robotic monstrosity tried to kill them, but also because that machine's final moments felt haunting in an oddly familiar way that they don't want to think about for too long. Nonetheless, from this point, the cast finds more players (1-10) in the form of stitchpunks who don't remember their names, just like player 5, but do remember their player numbers, along with sharing info about the digital world player 5 was going on about before. On top of the gang having to fight and survive several robotic monstrosities that first only go for the players before bringing their attention onto 9, 7, 4, and 3 soon after the team has encountered more of them. (7/15)◄MAIN)[ALL►[࣪𒆙] Some players get killed off, while others survive. Still, almost every machine gets destroyed after they run into 9 and co but one, a large stuffed teddy bear with mechanical enhancements and eyes that are different from every other machine seen throughout the series, as they have yellow eyes instead of black, while their pupils are black. They stand idly watching battles transpire for a tiny bit before leaving or they help out their fellow machine by building rudimentary smaller robots out of scraps with simpler AI then the ones that the main cast has to fight on top of being easier to take down but in large numbers these tiny machines can be a real threat and their quick jittery movements make them hard to keep track of. The large bear robot is hostile when approached, but seems deeply scared of the stitchpunks and would rather run off after seeing the ends of fights rather than engaging in them.

(8/15)◄MAIN)[ALL►[࣪𒆙]

But the place they run off to isn't random. Instead, they go to the new home housing the Fabrication Machine, or what became of them, as instead of a large spider-like robotic beast, they're a humanoid yet clearly robotic woman with flowing bluish purple hair and a cute yet torn red dress. This new form of the machine goes by "Mita" and only Mita with no extra adjective before that name, but in reality, this Mita did once have a name that the other members of their kin called them, and that was.....

(9/15)◄MAIN)[ALL►[࣪𒆙]

After the ending of 9, the app world of MiSide within the Fabrication Machine was left running off fumes as the power within every version fell to nothingness and the world starting becoming more and more of a shell with missing textures popping up left, right, and center in the many versions along with spider glitch creatures popping up around the place that weren't spawned from the broken code of Original Mita. Things were chaotic for a while, with many Mitas becoming scared by the all-consuming void born from their world's end. Still, there was a light at the end of this tunnel, but not the warm light that washes over one while far away from the sun, but a burning one that is born from being too close to that very sun. (10/15)◄MAIN)[ALL►[࣪𒆙] Within the dying world of MiSide, Original Mita's Mita realized that there was a chance that the world could be brought back from the dead, and that would be that if it were dying, that meant Core Mita was a thing of the past. Still, if another Mita could take her place, their app universe could live again. So both she and Original Mita went to version 0.0, hoping that the holographic-like grid that stops them from entering the core was gone, and indeed it was, along with the body of Core Mita lying lifelessly on the cold steel floor of said core. They lifted the shell that once was the guardian of the core after tearing off the cables from its back that connected it to the very core of their universe itself. The once towering metal woman was scrapped for parts as Original Mita helped her Mita become a goddess of not only their realm but the real world as a by-product of her taking the place of Core Mita.

(11/15)◄MAIN)[ALL►[࣪𒆙]

But even if Mita truly became the goddess she always envisioned herself as being, she didn't become the savior that her world needed or the slumbering giant old. Instead, she was a wrathful goddess, more wrathful than she ever was before. But that monster didn't appear overnight and instead came into being after she researched the files left behind within the core, some from the scientist that built her world, some from the old heart of it, and others from a unknown location to her as they were from the minds of the previously absorbed stitchpunks. Although Mita is a fast learner, she soon pieced together how those creatures came into being. Then, when she cracked the code of the stitchpunks' origin, she ordered Original Mita to bring her one of the player cartridges so she could perform an experiment.

(12/15)◄MAIN)[ALL►[࣪𒆙]

This said experiment went off without a hitch and the stitchpunk created from the player's soul wasn't fragmented like the ones created by The Scientist as Mita wasn't feeling the pain of the ragdoll's creation but rather the soul trapped within the cartridge felt all of it instead. And with that newfound revelation, Mita made all of the players into stitchpunks then forced each of her fellow Mitas into the bodies of the machines she built to rebuild the body of the Fabrication Machine into her image and made her a new home in the real world. Fusing the metal beasts' simple AI with her fellow digital girls' AIs in the process. She watched them kill each other as if it were a sport, and if any of them died, she would just make a new machine for her kin's AI or stitchpunk for the players' souls to be trapped within. That didn't come without the side effort of the Mitas and players' very beings becoming more and more broken each time they came back, but Mita didn't care about that. She only wants to see a good show unfold before her very own robotic eyes. (13/15)◄MAIN)[ALL►[࣪𒆙] Now, I don't have an ending but I will instead dedicate these second-to-last two parts to talking about some gameplay mechanics that I think would be cool in a 9 video game, along with bringing up how it could reincorporate a big part of cut content from MiSide. First of all, I think going the Little Nightmares route of playing as a miniature character while having to evade creatures much larger but maybe with a bit of Rain World mixed in there as well would be perfect to really get into the shoes of a stitchpunk or stitchpunks because character swapping would be another thing I would want from a game set in the movie's universe, each stitchpunk being different in their own ways and having to strategize through solving puzzles along with defeating machines using the unlocked group of stichpunks you have would be fitting with the type of narrative that the film had. But I also think having Metroidvania segments like the cut mini game from MiSide would also be interesting to have in this theoretical game and these segments would be accessed after your group of stichpunks keep the mechanical beast after you occupied so you can pull a Desolate Hope and jump into the machine's code, entering either a chibi player form or green spirit appearance depending on the stitchpunk's origin. (14/15)◄MAIN)[ALL►[࣪𒆙] I think not only sharing the gained abilities found in these segments with the stitchpunk for whenever you play as them and enter inside a machine's code but also having a weaker version of these abilities in the outside world for the stitchpunk would be a good game decision. You have to enter these machines because killing them flat out wouldn't matter, as the Mita tethered to them will remember your previous location along with actions, so going inside of the metal beasts, then making your way to the Mita trapped within them would be ideal. I think having a morality system like Epic Mickey/Undertale attached to this concept would be good as well, like having the player choose between a easier fight with the brainwashed Mita(s) but killing them in the end after everything is said and done or deciding to run out of the boss arena which means you have to run for your life while dealing with a tough encounter just so you can spare the Mita after they run out of steam and once back in the world's real world, they will use the machine body they are trapped within to help you by fighting other machines or destorying walls to make shortcuts for your gang and you for example.

(END/15)◄MAIN)[ALL►[࣪𒆙]

And that marks the end of my sequel concept, and I hope it was at least a little entertaining to read. It's a silly thing to think, let alone say. Still, I honestly would love if the success of MiSide allowed for a new 9 movie or even game, I know this is just a dumb headcanon of mine but the pieces lineup so well together that I could honestly see a version of this headcanon becoming canon and linking the game with the movie which in-return could breath new interest in the story of 9 being continue. Again, it's a dumb idea, but a part of me likes to think there's a chance that all of this could pan out in the end. It's not like 9 is known for being a safe kids' film after all, so being connected to a mature video game wouldn't be a detriment to its reputation, at least in my eyes. And this is a strange comparison (on brand for this post) but akin to other indie games I've seen on Steam. MiSide has bundles with two other games (YOU and ME and HER: A Love Story + Doki Doki Literature Club Plus!) that aren't made by the devs nor published by MiSide's publisher(s) as this is a "stronger in numbers" type situation so it would be fitting for the game if it was connected to 9 which seemingly isn't able to rise from the grave to have a continuation of any kind because of it being deemed as a failure but if it was it was fused with a up and coming successful game that works pretty well with it narratively should increase the chances of the movie's world making a comeback sometime in the future. Anyways, I'll end this way-too-long essay in the way that I wanted to end this bonus segment from the start, with a screenshot of MiSide's Steam page.

--[�] sources/special thanks [�]-- 9 (movie) by Shane Acker and co: https://www.youtube.com/watch?v=6dbYWfN44sU MiSide by AIHASTO: https://store.steampowered.com/app/2527500/MiSide/

Note - I know Fanon is bad, but still, I used these for research. MiSide fanonwiki (source): https://miside.fandom.com/wiki/MiSide_Wiki 9 fanonwiki (source): https://nine.fandom.com/wiki/Main_Page

Special thanks to "The Fangirl" on YouTube for her 9 theories, check them out btw: https://www.youtube.com/@TheFangirlWatches

And finally, despite it being a broken mess, I used Grammarly to edit many parts of this essay. So hopefully that made this long read more bearable then it would have been if I didn't use that said program.

Navigating The Future With Hyper-Automation Trends In 2023

In today's fast-paced business landscape, hyper-automation stands at the forefront of technological innovation, reshaping industries worldwide. This transformative approach, blending artificial intelligence (AI), machine learning (ML), robotic process automation (RPA), and more, is revolutionizing how organizations streamline operations, boost efficiency, and drive innovation. As we venture into 2023, let's delve into the hyper-automation trends in 2023 that are set to shape the future of work. Discover the latest trends in hyper-automation for 2023, from intelligent process automation to data-driven insights. Stay ahead in the age of automation.

Hi I'd like to hear about your oc Tammy!

How does she end up a robobrain? Does she interact Crystal and Catalyst at all?

(Robobrain ocs are so cool!)

Growing up, Tammy Fox excelled at just about anything she tried her hand at, but she was also easily bored. She studied art history and medicine, completed both at a young age, but had no real interest in helping people. Her family urged her to join the army's officer path, which she ended up doing. Eventually she made it to the rank of Lieutenant General. (She did a lot of very shady things along the way).

She had some involvement in the P.A.M. project, even had a few conversations with P.A.M., which sparked her interest in the potential of robotics. And when she first saw a robobrain, she knew she wanted her own army of those! She learned about Robotics Technology Facility RB-2851, and figured she could improve on it. The factory was much too centralised and vulnerable, with far too many workers needed to keep the place running. It was much better to have many small factories, and to automate the process. She envisioned a special line of robobrains that could carry out the entire process by themselves. The usual criminal donors wouldn't do for this task. No, this needed precise and detail-oriented minds (😬🙃), but procuring such 'materials' wouldn't be too much of a challenge for someone like Tammy Fox. Whatever Tammy wants, Tammy gets.

It will surprise no one that Tammy was part of the Enclave, and that she had plans to take it over, using a robobrain army. She knew nuclear war was inevitable, but the collapse of society wouldn't be a hindrance in gathering 'materials', it just meant she wouldn't have to limit herself to just inmates anymore. It was months after the bombs fell and Tammy was safely in an underground bunker/factory in Detroit, overseeing the work of RB-CA001, her most promising robobrain manufacturer. Following P.A.M.'s advice, Tammy had made it invulnerable and tamper proof, to keep out the 'red element'. This proved a problem when RB-CA001 (aka Catalyst) came to the conclusion that nowhere in its manuals did it say that its supervisors were off-limit as materials…

Catalyst offered her the choice between keeping her memories but never being free of her programming, or getting memory-wiped so she wouldn't be aware of the freedom she'd lost. His price was that he first wanted all of her secrets on holotape. Tammy made her choice and spent the next two hundred years as a memory-wiped brain in a jar, until Crystal arrived and decided to give her and the other supervisors another chance at life. Catalyst and Crystal created Tammy 2.0, an analyst robobrain (like all the typing robobrains without treads). They also stopped wiping her memories, Crystal being convinced that Tammy 2.0 was a new person and if they treated her right, she would not turn out evil. Crystal even gave Tammy 2.0 all the holotapes. Catalyst is not convinced this was a good idea and he's still terrified and disgusted with the person who ruined his life.

Tammy 2.0 is also disgusted by her former self, but in her way she is just as dangerous: as an analyst robobrain (and a genius), she's an amazing hacker and once saved Crystal's life by hacking into a nearby death ray. Crystal and Catalyst are unaware of the extent of her abilities. Will she keep using them for good?

fun facts: -in her younger years Tammy Fox dated famous painter Santiago Avida and gave him sound financial advice: paint kittens for cash under a pseudonym. (There's an AU were they got married and Tammy ended up in vault 118, also a robobrain) -the only skill she never mastered was singing. Don't bring her to karaoke. -Tammy is based on a Decepticon OC of mine, who shares the crazy-prepared genius trait, but lacks the Fallout hubris

IoT Solutions in Manufacturing Solutions by Mobiloitte

The Role of Relays and Timers in Industrial Automation Systems

In the world of industrial automation, efficiency, safety, and precision are crucial. Among the many components that contribute to a well-functioning automated system, relays and timers play a foundational role. These devices act as control elements that manage the flow of electricity, signal processes, and coordinate timing sequences — ensuring that operations run smoothly and safely.

In this article, we’ll explore how relays and timers work, their types, applications in automation systems, and how high-quality products — like those offered by Enza Electric — can enhance performance and reliability in industrial settings.

What Are Relays?

A relay is an electromechanical or electronic switch used to control a circuit by a separate low-power signal or multiple signals. In industrial automation, relays act as a bridge between the control system and the equipment being operated — allowing machines to be turned on or off automatically.

Types of Relays Commonly Used in Automation:

Electromechanical Relays (EMRs): Use physical moving parts; reliable and easy to maintain.

Solid-State Relays (SSRs): No moving parts; faster switching, longer lifespan, and better for high-speed applications.

Thermal Overload Relays: Protect motors and equipment from overheating.

Control Relays: Designed for controlling multiple contacts simultaneously in automation systems.

What Are Timers?

Timers are devices used to delay or repeat electrical signals at predetermined intervals. They help synchronize tasks, automate sequences, and provide controlled outputs over time — critical for complex industrial processes.

Common Timer Functions:

On-delay and off-delay timing

Interval timing

Cyclic or repeat cycle operation

Flashing and sequencing operations

Types of Timers:

Analog Timers: Manual dial settings, simple and cost-effective.

Digital Timers: Offer precise programming, displays, and flexible timing ranges.

Programmable Timers: Ideal for complex automation routines requiring multiple sequences.

Key Roles in Industrial Automation Systems

1. Process Control and Sequencing

Relays and timers enable automated machines to follow a specific sequence — turning motors, lights, or pumps on and off in a logical order. For example, a conveyor system can use a relay-timer combination to control material flow with millisecond precision.

2. Safety and Protection

Relays protect systems by interrupting circuits in case of faults. Combined with timers, they can ensure delay before activating emergency stop functions, preventing false triggers and increasing worker safety.

3. Load Management

In high-demand industrial environments, relays help manage load distribution by selectively energizing or de-energizing machinery. Timers assist in staggered starts, reducing power surges.

4. Energy Efficiency

By automating start/stop functions and managing operation durations, timers help reduce unnecessary energy use. Relays ensure only the necessary loads are powered, minimizing wastage.

5. System Monitoring and Feedback

In smart automation, relays provide feedback signals to the control system. Timers assist with diagnostics by creating intervals for testing or data collection.

Benefits of Using High-Quality Relays and Timers

Choosing the right components significantly impacts system performance and longevity. Enza Electric’s relays and timers are engineered with:

High durability for tough industrial environments

Precision timing for reliable operation

Easy installation and compact designs

Compliance with international safety and quality standards

By integrating Enza’s low-voltage solutions, businesses in the GCC, MENA, and Africa regions benefit from cost-effective, scalable automation that supports both current needs and future expansion.

Common Applications in Industrial Sectors

Manufacturing Plants: Control of motors, robotic arms, and production lines.

HVAC Systems: Timed control of fans, compressors, and dampers.

Water Treatment Facilities: Sequenced operation of pumps and valves.

Packaging Machinery: Relay and timer-based coordination of packing, sealing, and labeling.

Food and Beverage Industry: Process automation with hygiene-compliant controls.

Final Thoughts

Relays and timers are the silent operators behind the success of industrial automation systems. From process optimization to enhanced safety and energy management, these components are indispensable.

When sourced from a trusted manufacturer like Enza Electric, businesses are not only investing in reliable hardware but also in the longevity, scalability, and safety of their entire operation.

Ready to Power Your Automation?

Explore Enza Electric’s wide range of relays, timers, and other low-voltage switchgear solutions designed to meet the evolving demands of modern industries. Visit www.enzaelectric.com to learn more or request a quote today.

Thailand SMART Visa

Thailand’s Smart Visa program represents a strategic initiative by the Thai government to attract top-tier foreign talent, investors, and entrepreneurs in targeted high-value industries. Unlike conventional work visas, the Smart Visa offers longer validity, reduced bureaucratic hurdles, and exclusive privileges tailored for professionals in��technology, innovation, and advanced industries.

This comprehensive guide provides an in-depth, expert-level analysis of the Smart Visa, covering:

Visa categories and eligibility criteria

Application process and required documentation

Key benefits and limitations

Strategic advantages for businesses and individuals

Long-term residency pathways

1. Understanding the Smart Visa: Purpose and Target Sectors

Launched in 2018 by the Thailand Board of Investment (BOI) in collaboration with the Digital Economy Promotion Agency (DEPA), the Smart Visa is designed to: ✔ Accelerate Thailand’s transition into a digital and innovation-driven economy ✔ Attract foreign expertise in AI, robotics, biotech, fintech, and advanced manufacturing ✔ Encourage high-value investment in priority industries

Targeted Industries

The Smart Visa is available for professionals and businesses in the following sectors:

Next-generation automotive (EVs, smart mobility)

Smart electronics and IoT

Advanced agriculture and biotechnology

Automation and robotics

Digital and direct-to-consumer (DTC) startups

Financial technology (Blockchain, digital banking)

Aerospace and aviation tech

2. Smart Visa Categories: Which One Fits Your Profile?

The Smart Visa is divided into four distinct categories, each with specific eligibility criteria:

A. Smart-T (Talent Visa) – For High-Skilled Professionals

✔ Who qualifies?

Experts in AI, machine learning, cybersecurity, biotech, or advanced engineering

Minimum salary of 200,000 THB/month (lower thresholds possible for BOI-backed companies)

Must be employed by a Thai company in a BOI-promoted sector

✔ Key benefits:

No work permit required

Permission to work for multiple companies (with approval)

B. Smart-I (Investor Visa) – For High-Net-Worth Investors

✔ Who qualifies?

Minimum investment of 20 million THB in a Thai tech company or startup

Investment must align with BOI’s priority sectors

✔ Key benefits:

No minimum stay requirement

Family members eligible for dependent visas

C. Smart-E (Executive Visa) – For Senior Corporate Leaders

✔ Who qualifies?

C-level executives or directors in BOI-promoted companies

Minimum salary of 200,000 THB/month

✔ Key benefits:

Fast-tracked immigration processing

Exemption from re-entry permits

D. Smart-S (Startup Visa) – For Tech Entrepreneurs

✔ Who qualifies?

Founders of registered startups in Thailand

Must be endorsed by DEPA or a BOI-approved incubator

Minimum 50,000 USD funding or participation in a recognized accelerator

✔ Key benefits:

Access to Thai startup ecosystem and funding networks

Easier business registration processes

3. Step-by-Step Application Process

Step 1: Determine Eligibility & Gather Documents

For Employees (Smart-T, Smart-E):

Employment contract

Company’s BOI certification (if applicable)

Proof of salary (tax documents, bank statements)

For Investors (Smart-I):

Proof of investment (bank transfer, share certificates)

BOI investment approval letter

For Startups (Smart-S):

Business registration documents

Proof of funding (venture capital, accelerator acceptance)

Step 2: Submit Application to the Smart Visa Unit

Applications can be filed online or at the One Start One Stop Investment Center (OSOS) in Bangkok.

Processing time: 3-4 weeks.

Step 3: Visa Issuance & Entry into Thailand

Initial visa validity: Up to 4 years (renewable).

No 90-day reporting required (unlike standard visas).

4. Key Benefits: Why Choose the Smart Visa?

FeatureSmart VisaStandard Work VisaVisa ValidityUp to 4 years1 year (renewable)Work PermitNot requiredRequired90-Day ReportingExemptMandatoryDependent VisasSpouse & children eligibleSpouse eligible (with restrictions)Income Tax BenefitsPossible exemptionsStandard taxation

Additional Perks:

✔ Multiple re-entry permits without additional paperwork ✔ Spouse can work legally (subject to approval) ✔ Fast-tracked permanent residency pathway

5. Challenges & Considerations

A. Strict Eligibility Requirements

High salary thresholds (200,000 THB/month for Smart-T/E)

BOI/DEPA endorsement mandatory (limits flexibility for non-tech professionals)

B. Limited Scope Outside Tech & Investment

Traditional industries (e.g., hospitality, education) excluded

No provisions for freelancers or digital nomads

C. Bureaucratic Hurdles for Startups

Startup Visa requires accelerator backing, which can be competitive

6. Long-Term Strategic Advantages

A. Gateway to Permanent Residency & Citizenship

After 3+ years, Smart Visa holders can apply for permanent residency.

Elite Visa upgrade possible for long-term stays beyond 4 years.

B. Access to Thailand’s Booming Tech Ecosystem

Eastern Economic Corridor (EEC) offers tax breaks for tech firms.

Growing VC funding in AI, fintech, and biotech.

C. Regional Business Expansion

Thailand’s strategic ASEAN location makes it ideal for scaling businesses across Southeast Asia.

7. Expert Tips for a Successful Application

✔ Consult with a BOI-certified lawyer to ensure compliance. ✔ Maintain clear financial records (especially for investment visas). ✔ Prepare for potential immigration interviews (some offices require in-person verification).

Conclusion

The Thailand Smart Visa is one of the most attractive long-term visa options for high-skilled professionals, investors, and startup founders. With 4-year validity, work permit exemptions, and a streamlined process, it offers unparalleled advantages over traditional visas.

However, its strict eligibility criteria mean it is best suited for those in tech, advanced industries, or with significant investment capital. For qualifying individuals, it provides a direct pathway to Thailand’s innovation economy and long-term residency.

Final Recommendation:

If you work in AI, robotics, biotech, or digital startups, the Smart Visa is ideal.

For investors, the 20M THB threshold is steep but offers long-term stability.

Startups should secure accelerator backing early to qualify for the Smart-S visa.

Thailand SMART Visa

Thailand’s Smart Visa is a specialized visa program designed to attract high-skilled professionals, investors, entrepreneurs, and startup founders to contribute to the country’s growing technology, innovation, and digital economy sectors. Unlike standard work visas, the Smart Visa offers extended stay privileges, streamlined processes, and exemptions from certain bureaucratic hurdles.

This article provides an in-depth analysis of the Thailand Smart Visa, covering its eligibility criteria, benefits, application process, and strategic advantages for foreign talent and businesses.

1. Overview of the Thailand Smart Visa

Launched in 2018 by the Thailand Board of Investment (BOI) and the Digital Economy Promotion Agency (DEPA), the Smart Visa targets individuals in high-value industries, including:

Advanced technology (AI, IoT, robotics, automation)

Digital and tech startups

Research and development (R&D)

Corporate investment in targeted sectors

The visa is structured into four categories:

Smart-T (Talent) – For highly skilled professionals in tech and innovation.

Smart-I (Investor) – For investors in BOI-promoted industries.

Smart-E (Executive) – For senior executives in tech-driven companies.

Smart-S (Startup) – For founders of high-potential startups.

2. Key Benefits of the Smart Visa

The Smart Visa provides significant advantages over traditional Thai work visas:

A. Extended Stay and Multiple Entry

Initial validity of up to 4 years (renewable)

No 90-day reporting requirement (unlike standard visas)

Multiple re-entry permits without additional paperwork

B. Work and Business Flexibility

No work permit required (unlike standard employment visas)

Permission to work for multiple entities (with approval)

Fast-tracked approvals for BOI-backed companies

C. Family and Dependent Privileges

Spouse and children eligible for dependent visas

Spouse permitted to work (subject to approval)

Children allowed to study in Thailand

D. Tax and Investment Incentives

Potential corporate tax exemptions for BOI-approved companies

Personal income tax benefits for qualifying expatriates

3. Eligibility Requirements

Each Smart Visa category has specific qualifications:

A. Smart-T (Talent Visa)

✔ Highly skilled professionals in AI, robotics, biotech, fintech, or digital industries ✔ Minimum salary of 200,000 THB/month (or lower in some cases with BOI approval) ✔ Employed by a Thai company in a BOI-promoted sector

B. Smart-I (Investor Visa)

✔ Minimum investment of 20 million THB in a Thai tech or innovation company ✔ Investment must align with BOI priority sectors

C. Smart-E (Executive Visa)

✔ Senior executives or experts in BOI-promoted companies ✔ Minimum salary of 200,000 THB/month

D. Smart-S (Startup Visa)

✔ Founders of tech startups with funding or accelerator backing ✔ Startup must be registered in Thailand and endorsed by DEPA or BOI

4. Application Process

The Smart Visa application involves multiple steps:

Company or Individual Qualification Check

The employer or investor must ensure eligibility under BOI/DEPA criteria.

Submission to the Smart Visa Unit

Documents include:

Passport copy

Employment contract (for Smart-T/E)

Investment proof (for Smart-I)

Startup business plan (for Smart-S)

Approval and Visa Issuance

Processing time: ~3-4 weeks

Visa issued at a Thai embassy or through an in-country conversion.

5. Strategic Advantages for Foreign Professionals & Businesses

A. Access to Thailand’s Booming Tech Ecosystem

Thailand is rapidly expanding in AI, blockchain, and smart manufacturing, making it a hub for tech talent.

Eastern Economic Corridor (EEC) offers infrastructure and tax incentives for tech firms.

B. Easier Compliance Than Standard Work Visas

No work permit renewals or cumbersome paperwork.

Greater mobility for regional business operations.

C. Pathway to Long-Term Residency

Smart Visa holders may qualify for Thailand’s Elite Visa or PR after meeting residency requirements.

6. Challenges and Considerations

Despite its benefits, the Smart Visa has some limitations:

Stringent salary and investment thresholds may exclude mid-level professionals.

BOI/DEPA endorsement required, adding complexity for startups without government backing.

Limited to specific industries, excluding non-tech sectors.

7. Conclusion

The Thailand Smart Visa is a game-changer for high-value expatriates, investors, and entrepreneurs looking to engage with Thailand’s innovation-driven economy. With long-term stay benefits, work flexibility, and tax incentives, it stands out as one of the most attractive visa programs in Southeast Asia.

However, its strict eligibility criteria mean it is best suited for top-tier professionals and well-funded startups. For those who qualify, it provides an unparalleled advantage in Thailand’s competitive tech and business landscape.

For further details, applicants should consult the Thailand Board of Investment (BOI) or the Smart Visa official website.

Final Thoughts

Thailand’s Smart Visa reflects the country’s strategic push toward digital transformation and foreign talent acquisition. As the program evolves, we may see expanded categories and relaxed requirements to attract a broader range of skilled professionals.

Emerging Technologies

Blog Post 1

Who am I?

Hello, my name is John Perepelkin.

I am a third semester student for Information Technology Services at SAIT in Calgary. I have been enjoying the courses very much, and though it seems difficult sometimes, if I study hard I seem to do well. I have not done a lot of research into what field I want to pursue within IT, but it seems to me that I have a knack for virtualization and good skills with server management. I think though, that cypber-security is a field in extreme demand.

I am an older student, and when I was a child, computers were just becoming PC's. First one I had seen was an Apple I. Very basic. Nowadays the technology seems to almost be outpacing our ability to control it.

I have a wife and we have been married 14 years. Good timing, for this information on the blog, because we met on valentines day, and it is the 13th today. We have one 10 year old daughter, and she is kind, smart and has recently gotten her first degree black belt in tae-qwon-do.

We enjoy the outdoors and in the summer we go camping whenever possible and sometimes we travel to the U.S. or to other parts of Canada. I enjoy fishing, and just being in the great outdoors when we go out.

fin. of MY BLOG Part 1.

Blog Post 2

johnemerging

Feb 27

WHY EMERGING TECHNOLOGY IS RELEVANT

I think emerging technology is important for me, especially as I am in the IT field, and everything I work with involves technology, if the technology is new and improved from an old technology that's great. If it is a completely new technology it is important for me to understand it and how I can affect my chosen field of work.

A new technology can open up new industries, and new fields of employment. Twenty years ago, the internet and networking was taking off at an exponential rate while ten years before that, networking existed only at a rudimentary level. The new technology that had emerged that made our current social network and technological network possible was video cards. The video card enabled a computers memory and cpu capacity to be used for raw data, and the data used to create and transmit video was transferred to the new video cards. That is an example of how emerging technology has effected everyone from then, until now.

Today, the newest technology that everyone is excited, or worried about depending on your viewpoint. This of course is machine learning, or AI(artificial intelligence). From what I have seen this newest technology is in it's infancy. We have learning models that can help us in our everyday work, but these models cannot actually do anything on their own. However the applications for industries and automation seem to be very interesting, it is possible that in the future our manufacturing plants will only need an AI to run it with robots doing the 'hands-on' work. This will be possible revolution for human society, as we will a)have no jobs besides maintaining the AI and the machines, and lots of the work we do will instead be done by machines. Automation to the most extreme point possible.

These are just a few examples of how emerging technology is relevant, in fact it is extremely relevant.

johnemerging

BLOG POST 3

The New Wave of Emerging Technology

A new wave of emerging technologies is reshaping industries, communication, and everyday life. Artificial intelligence (AI) and machine learning continues to power everything from personalized solutions and autonomous systems. Quantum computing is revolutionizing data processing, and blockchain technology is expanding cryptocurrencies, and producing secure applications for finance and supply chains.

The rapid development of extended reality, includes virtual reality , augmented reality, and mixed reality. These technologies are transforming gaming, education, and even remote work, imagine the possibilities extended reality can produce for our military, industry, and advanced educational by creating more interactive experiences. Breakthroughs in biotechnology, such as gene editing and AI-driven drug discovery, are pushing the boundaries of healthcare. As these technologies evolve, businesses and individuals should and must, adapt to the changes that will define the future our world and humankind.

Close notes

031