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dynaloginc · 1 day ago

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Why Robot Accuracy Matters in Automation — and What Dynalog-US Does

In today's ever-evolving world of manufacturing, robot accuracy is not only a benefit, it is a necessity. In every manufacturing sector, whether it is automotive, aerospace, electronics, or medical device manufacturing, the level of robot accuracy can affect the bottom line. Errors, even as small as a millimeter, can lead to defective products, more rework, and loss of productivity due to downtime. This is where Dynalog-US can help, transforming industry views on robotic precision and system calibration.

What Is Robot Accuracy?

In its simplest form, robot accuracy refers to the robot's ability to reach a point in space, not just on the first attempt, but every time. It's not to be confused with repeatability, which just means hitting the same point each time, and not necessarily the correct point. For industries where correct reference of absolute positioning is required - welding, machining, or assembly, etc. - true robot accuracy is paramount.

To put it another way: If you have a robotic arm as a laborer assembling smartphones, a misalignment of 0.2 mm could result in malfunctioning buttons, cracked screens, or circuit boards that just do not work. In aggregate, this could lead to increased return rates, loss of brand reputation, and wasted materials.

Why Routine Calibration Can’t Do the Job

In many facilities, the use of default manufacturer settings or basic calibration is enough to get by in ensuring accuracy. However, modern robotics requires more than that. With regards to the working environment, payload being handled, attachment of the tool, and wear on the robot over time, robot positioning can and will be off.

This is the main reason that robot calibration and TCP (Tool center point) correction is now seen as a necessary step to ensure peak robotic performance. No one is more aware of this than Dynalog-US.

Dynalog-US: Setting the Standard for Robot Performance

With decades of experience in robotic inspection, calibration, and automation optimization, Dynalog-US has established themselves as a trusted name to industry clients laying on the line the ability to do their job well. Their specialty is the enhancement of robot performance, providing an array of calibration tools and methods that redefine accuracy.

One of offerings is robotic calibration systems, that enable automated and accurate identification and correction of robot parameters. Regardless of base frame calibration, tool centre point calibration, or the calibration of an entire robotic cell, Dynalog takes every step necessary to exert your robotic system to perform as advertised, every time.

The Benefits of Superior Accuracy

✅ Less Scrap and Rework

When precision is maximized, manufacturing errors are cut drastically. Parts are assembled correctly on the first try.

Bringing it All Home

From complex weld paths in the automotive sector, to the delicate assembly of microelectronics, along with many other applications, Dynalog's methods of calibration are making a real difference in industries all around the world. For example, automotive companies utilize systems from Dynalog to calibrate robotic arms on production lines for the precise location of each spot weld with micron to sub-micron accuracy.

Aerospace manufacturers can depend on Dynalog to maintain tight tolerances on mission-critical parts such as wing mounts and gear assemblies.

Medical device manufacturers use Dynalog's calibration technology to assemble tiny, intricate components with the utmost accuracy.

Regardless of the industry, robot accuracy has a direct impact on worker safety, compliance, and customer satisfaction- that's why companies choose Dynalog.

The Future of Robot Accuracy: Artificial Intelligence Meets Calibration

Dynalog is currently leading the charge in the realm of integrating artificial intelligence and machine learning into the calibration process of robots, which means that systems will not only be able to self-correct, but they will also have the ability to predict when a robots' accuracy might drift- before it becomes a problem. This predictive maintenance will arm companies with insight on when to service their robots, which in turn helps 'maximize' the lifespan and reliability of a robot.

Why Dynalog-US?

Years of Proven Experience: Dynalog is not only a subsidiary of Accu-Spec/US, with 60 years of field experience, Dynalog is a leader in robotic accuracy and system calibration.

Best in Class Hardware and Software: Its calibration software and hardware are some of the best and most advanced in the

#Robot Accuracy #Robotic Calibration #Dynalog-US #Robot TCP Calibration #Industrial Automation #Precision Robotics #Robotic Inspection Systems #Manufacturing Automation #Robot Performance Optimization #Robot Accuracy Solutions

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starssoblue · 2 months ago

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"the reason adrien is just instantly good at everything he tries is because he is programmed to be that way as a senti" aside from the fact that i don't think that's how it works (and also while he was decent at everything he tried with marinette he wasn't instantly good at all of them, and what marinette actually said to him was that he could improve in anything with practice but it was a great first attempt) did we all collectively forget about how adrien actually canonically isn't the best singer?

#adrien agreste #miraculous #miraculous ladybug #ml s6 spoilers #ml season 6 #ml climatiqueen #miraculous spoilers #ml spoilers #actually never saw that episode in french so maybe the french voice actor did a better job idk but given that adrien doesn't #usually sing for kitty section or ever the way i saw it was he used his poetry writing skills to write a song #and as a songwriter he was probably great but being a good lyricist doesn't make you a great singer obviously #so to me that's what his deal is #i actually like that throughout this show adrien has some things he picks up easily and some things he has to work on and might never do as #well as people with more experience #i also think as a kids show the lesson they want to put out is anyone can improve with effort and attempt #like he fumbled that science lab experiment but enjoys particle physics #languages tend to come easily to him precisely because it's been something he was forced to do since he was young #a lot of polygots especially if they start young develop skills and see linguistic patterns and iirc he already knew some #japanese from anime and his familiarity with mandarin should help #but i love that he took it further and took on morse code like the cute nerd he is #and now he's studying ancient greek for fun??? what a cute #marinette says his macarons tasted fine but we saw him struggle with the creme #what i mean to say is #he has discipline (basically second nature now) and dedication so he can do well but it DOES require effort #and i think it dismisses how much adrien TRIES or the fact that a lot of skills he was taught to have since a young age aid him #and i just don't think all sentis are “perfect” in an AI robotic way (even if that's how their parents wished they were)#it also just lessens his humanity and iirc the writers have stated multiple times that they are still human #(we can discuss how inconsistent ml is about sentis in general but eh idc for that conversation tbh agdhsjsjks)#anyway adrien will forever be #my nerdy son i love him so much

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lord-squiggletits · 10 months ago

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The time scale of IDW1's Cybertronian civilization is fucking bizarre (positive) because they're long-lived, virtually immortal giant alien robots. Yet there are a significant number of them who have been alive since Cybertron's pre-civilization era (pre Golden Age) and even a significant number who were alive at the start of/during the Golden Age. A shitload who were born 1-0 million years before the war and a good amount during the war.

But basically what I mean is imagine that your grandparent (who's in the same state of fitness as you are btw) was alive in fucking Mesopotamia and got to hear Gilgamesh recited live, and your parent was present during the crucifixion of Jesus, and you were an adult during the European Dark ages. That's basically what generational differences among Cybertronians are like.

Like jfc I literally cannot emphasize enough that there are multiple living Cybertronians in great health who were alive for the fucking dawn of civilization and they're doing perfectly fine living alongside people who weren't born/built until like 6 million years later during Nominus/Sentinel's era. IMAGINE IF THE DAWN OF HUMANITY WAS WITHIN LIVING MEMORY AND YOU COULD ASK YOUR FUCKING GRANDPARENTS ABOUT IT JSXJANNCD

#squiggposting #a lot of this is possible precisely bc theyre inorganic alien robots and not humans #but like it's just crazy how despite being so long lived #in terms of the number of generations of cybertronians that have existed #there's only been like 4 or 5 major eras with a couple rough 'generations' of the same ahe group #shit is fucking crazy

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superbellsubways · 10 months ago

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stupid concept

#no bc ive thought about making something like this for months auughhhh Someday.#all my bots would have routes 😊 including a secret one #you'd have to do secret inputs to unlock it #bitz route would SUCK btw.hes too obsessed with himself even during dates so you'd have to be Precise with your choices and such #for him to actually take a bit of interest in you #he sucks. kill this guy #oc #robot #showbitz #digital art #original character

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dreamyblanket · 7 months ago

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Imagine how your f/o wraps gifts, be it for the holidays or just your birthday.

Are they really good? Is it a clean wrap first try or do they need to scrap the whole thing couple time to get it correct?

Are they really bad? Do they try their hardest but you can still see bits poking out?

Do they use ribbon? Stick on bows?

Plain or patterned paper?

Or maybe they'll use bags!

Do they tape it shut or fill it with paper then?

There are so many things to choose...!

#you should tell me all about it in the tags btw i wanna hear ^^#for me it would depend...#if it was pomme then she would be such a sweat at it. they would be perfectly wrapped and have like. ribbon and a bow #they would look almost too cute to rip apart #she would also use red plaid for everyone other than me. mine would be star themed ^^#caramel would use bags i love her but she cannot wrap a gift to save her life #metal is a robot. its gunna be precise and all wrapped with star themed paper and no ribbon.#they know its not my favorite thing to take off unless i can untie it and keep it #⭐️stardust hourglass🌙#[♦️we meet again♦️]#[🧋]#f/o imagines #f/o imagine #selfship #OH I FORGOR MY PARENTS!!!#uhhhh sound w. would definitely wrap it all up #in like plain purple or paper with cute snowflakes on it. they really like snow its one of their favorite things about earth!#shock w. just puts it in a bag #he does not care about holidays that much. the only reason he partakes is because sound w. forces him to #not because he doesn't care about me and lazer but bc it takes so much time out of his work #platonic f/o #romantic f/o #ok im done

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tapakah0 · 2 years ago

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Heya! I’m going around and asking a bunch of my favorite Tmnt artists the same questions out of curiosity

How did you discover/get into Tmnt?

When did you start drawing/actively start trying to improve your art?

Pffthth My friend got me into rottmnt, I watched it very superficialy, it didn't really grab me at first Oh, I always try to improve my art, that's what you do for all your life when you have passion (All your life you'll be improving, I guess sometimes it will be very slowly) But more actively I started drawing after discovering some specific artists here

#to be more precise #Sara #Robot #Spectra #and then I found Cass #And my brain made deadly BOOOOOM #Now I'm slowly getting to everything I like here

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whatsthatmagiccard · 1 year ago

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Really gotta get better poll ideas.

This is meant for the type as a whole, but here are some examples.

#did you know over half of all robots printed are legendary?#which may be the highest ratio of legends for types with 10+ cards #don't quote me on that #56% to be more precise. thanks UB!

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dynaloginc · 8 days ago

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Optimizing Precision in Automation: The Importance of Robot Calibration by Dynalog-US

In today's fast-evolving world of industrial automation, precision is not just a luxury—it's a necessity. Whether in automotive manufacturing, aerospace engineering, electronics assembly, or robotic surgery, the accuracy and repeatability of robotic systems can make or break operations. One key process at the heart of achieving this high level of precision is robot calibration.

At Dynalog-US, we specialize in helping companies unlock the full potential of their robotic systems through advanced robot calibration solutions. With decades of experience, our technologies are trusted globally to optimize performance, reduce downtime, and ensure consistently high-quality output in automated environments.

What is Robot Calibration?

Robot calibration refers to the process of identifying and correcting inaccuracies in a robot’s positioning and movement. Even the most advanced robotic systems can have discrepancies due to mechanical wear, thermal expansion, installation errors, or slight variations in joint angles. These small deviations can add up and significantly impact the end-effector’s ability to reach precise coordinates.

Calibration involves comparing the robot's real-world behavior with its digital model and applying correction parameters to align the two. The result? Enhanced positional accuracy, improved repeatability, and optimized system performance.

Why is Robot Calibration Crucial?

Many manufacturers assume that robots are perfectly accurate straight out of the box. However, that’s rarely the case. A typical robot may have repeatability within ±0.02 mm but a positional accuracy of ±1 mm or worse. For high-precision applications—like welding seams, laser cutting, part assembly, or robotic inspection—that level of inaccuracy is unacceptable.

By investing in robot calibration, companies can:

Ensure product quality by minimizing variation

Reduce rework and scrap due to positional errors

Boost throughput by allowing robots to operate faster with confidence

Optimize programming time by simplifying offline simulation and path planning

At Dynalog-US, we understand that in the world of robotics, accuracy equals efficiency—and efficiency translates into profit.

Dynalog-US: Your Robot Calibration Partner

At Dynalog, we go beyond basic correction. We offer comprehensive calibration and measurement solutions tailored to industrial robots of all sizes and brands. Our proprietary systems and software are designed to ensure your robots perform at their highest potential—no matter the task or environment.

Our calibration tools and services include:

1. Robot TCP Calibration

Tool Center Point (TCP) calibration ensures that the robot knows exactly where the end-effector is located. An inaccurate TCP can throw off entire production sequences. Our TCP calibration tools provide fast and precise identification of the tool's position and orientation.

2. Robot Base Calibration

Base calibration aligns the robot's coordinate system with the real-world environment. Misalignment here can lead to major inaccuracies, especially in multi-robot cells. Dynalog’s solutions ensure your robots are correctly oriented within their workspace.

3. Kinematic Calibration

This is the heart of robot calibration. Dynalog uses advanced algorithms to identify deviations in joint parameters and correct them with high precision. This process compensates for the robot's geometric imperfections and leads to dramatic improvements in accuracy.

4. Robot Workcell Integration

When robots work alongside conveyors, vision systems, or other machines, precise coordination is critical. We provide calibration systems that align all components within a unified frame of reference, ensuring seamless integration and real-time performance.

Real-World Benefits of Dynalog's Robot Calibration

Companies using Dynalog’s calibration systems often see a measurable return on investment in a matter of months. Here’s what sets us apart:

Traceable Accuracy: Our solutions are based on ISO and NIST traceable standards, providing confidence in your results.

Brand Agnostic: Whether you’re using FANUC, ABB, KUKA, Yaskawa, UR, or another manufacturer—our systems are compatible across the board.

Global Trust: Trusted by Fortune 500 companies and leading research institutions, our reputation speaks for itself.

Automation-Ready: Dynalog’s systems are designed with Industry 4.0 in mind, making it easy to integrate with smart factory workflows.

Future-Ready with Robot Calibration

As robotics continues to expand into sectors like e-commerce, medical devices, renewable energy, and beyond, the demand for high-precision automation is only increasing. Forward-thinking companies are already investing in robot calibration to prepare for this shift. With AI, machine vision, and real-time data processing becoming standard, the ability for a robot to “know” its position in space—accurately and in real-time—is more critical than ever.

Partner with Dynalog-US

When you choose Dynalog-US for robot calibration, you're choosing a partner that understands both the technical and practical challenges of modern automation. We’re not just calibrating machines—we’re calibrating success.

Whether you’re a manufacturer looking to improve output quality, an integrator designing a multi-robot cell, or a research lab pushing the boundaries of robotics, Dynalog’s solutions provide the accuracy, reliability, and support you need.

Get in touch with Dynalog today to learn more about how our robot calibration solutions can transform your operations. Let us help you fine-tune your automation for optimal performance.

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perpetuallyuneloquent · 5 months ago

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guys when i thought i was gonna do astro i always thought it'd be observational or theoretical but look at me. instrumentation.

yippeeeee

the signs were there all along i'm ngl

#perpetually rambling #idk ive been thinking about how funny this is #genuinely never thought i'd be in instrumentation but its fun #by the signs i mean #my first paper/research project was observing the precision between two star systems in an org that normally #confirms double star or binary star pairings and i never realized this was more instrumentation than observational #and then i did robotics for so long #like 4 years #anyway this is really fun yippeeeeeee i have so much cs to do wtf

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mastergarryblogs · 4 months ago

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Unveiling the Power of Position Velocity Feedback Transmitter Systems in Modern Industries

Introduction: The Importance of Position and Velocity Feedback Systems in Precision Control

Position and velocity feedback transmitter systems are integral to industries that demand high-precision control and motion tracking. These systems are employed to monitor the position and velocity of moving objects in real-time, providing critical data for automated operations. The evolution of these systems has been significant, with advancements in technology enabling more compact, accurate, and reliable feedback mechanisms that drive automation, robotics, aerospace, automotive, and healthcare applications.

With the global shift towards increased automation, the demand for such systems is on the rise. Industries across the board require precise control of machinery, vehicles, and robots to enhance performance, improve safety, and optimize productivity. The growing need for smart manufacturing, autonomous vehicles, and medical robotics underscores the vital role these systems play in modern industries. Despite some challenges, such as high upfront costs and integration complexities, the long-term benefits of precision, efficiency, and reliability outweigh these hurdles.

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Position Velocity Feedback Transmitter Systems Market Dynamics: Drivers, Challenges, and Opportunities

Drivers of Growth

The Position Velocity Feedback Transmitter Systems market is experiencing robust growth driven by several key factors:

Advancements in Automation and Robotics: Industries across manufacturing, automotive, and aerospace are increasingly adopting automation technologies. These systems allow for faster, more accurate control, driving the need for precise position and velocity feedback.

Technological Advancements in Sensors: Innovations in sensor technology, particularly in digital systems, are facilitating the development of more accurate and miniaturized position velocity feedback systems. The integration of Internet of Things (IoT) technologies is making these systems smarter and more adaptable, driving their adoption in industries such as healthcare, smart manufacturing, and autonomous vehicles.

The Rise of Industry 4.0: Industry 4.0 technologies are revolutionizing production lines, with automation and data-driven decisions at their core. Position velocity feedback systems play a critical role in enabling smarter, more efficient manufacturing processes.

Emerging Applications in Healthcare and Autonomous Vehicles: In healthcare, robotic surgeries and diagnostics systems demand highly accurate motion control, while autonomous vehicles require precise feedback systems for safe operation. Both sectors are driving significant demand for position and velocity feedback systems.

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Challenges to Position Velocity Feedback Transmitter Systems Market Adoption

Despite the promising growth, several barriers could slow the widespread adoption of position velocity feedback transmitter systems:

High Initial Investment Costs: The cost of acquiring and integrating high-precision position velocity feedback systems can be prohibitive, especially for small and medium-sized enterprises (SMEs). High upfront costs can deter organizations from upgrading or adopting these systems, limiting market expansion.

Complexity of System Integration: Integrating new feedback systems with existing infrastructure and machinery can be complex and time-consuming, especially in industries that have legacy systems. This complexity increases the time to market and may discourage immediate adoption.

Specialized Training Requirements: The operation, calibration, and maintenance of advanced position velocity feedback systems require highly specialized knowledge and skills. The shortage of skilled labor in these fields may hinder growth, particularly in developing regions.

Key Opportunities

Several emerging trends present substantial opportunities for the growth of the position velocity feedback transmitter systems market:

Smart Manufacturing: As manufacturing processes become increasingly automated, there is a growing demand for position velocity feedback systems to enhance productivity and reduce human error. These systems are integral to improving the efficiency of production lines and ensuring consistent product quality.

Healthcare Robotics: Surgical robots, diagnostic devices, and rehabilitation technologies require real-time motion control. The healthcare sector’s increasing reliance on these technologies provides a substantial opportunity for the growth of high-precision position feedback systems.

Autonomous Vehicles: The rapid development of autonomous vehicles (AVs) hinges on accurate motion tracking and feedback systems for safe navigation. As the demand for AVs increases, so too will the demand for position and velocity feedback transmitters that ensure precise vehicle control.

Position Velocity Feedback Transmitter Systems Market Segmentation and Analysis

By Type

The position velocity feedback transmitter systems market can be divided into two key types:

Position Feedback Transmitter: This sub-segment is expected to dominate the market, driven by the increasing demand for precision in industrial automation applications. Position feedback transmitters provide accurate location tracking, ensuring the correct placement of components in automated systems.

Velocity Feedback Transmitter: While this segment is smaller, it is growing rapidly due to the need for precise speed control in applications such as robotics, aerospace, and automotive industries.

By Technology

Analog Systems: While still in use, analog systems are being increasingly replaced by more sophisticated digital feedback systems that offer greater accuracy and scalability.

Digital Systems: Dominating the market, digital systems provide real-time, highly accurate feedback for a range of applications, particularly in industries like automotive, aerospace, and healthcare. The continued innovation in sensor technology and integration with IoT is expected to fuel further growth in this segment.

By Application

The demand for position and velocity feedback systems spans a variety of industries:

Industrial Automation: Expected to maintain the largest market share, industrial automation continues to be the leading driver of demand for precise motion control systems. These systems are integral to ensuring the accuracy and speed of machinery in sectors such as manufacturing and material handling.

Aerospace and Defense: Aerospace applications require high-precision feedback systems for tasks such as flight control, navigation, and satellite positioning.

Automotive: As automotive systems become more automated, the demand for position and velocity feedback systems grows. These systems ensure precise vehicle control in autonomous and semi-autonomous driving technologies.

Energy: The energy sector, particularly in renewable energy systems, requires high-performance motion control to optimize energy production and distribution.

By Region

The market is geographically diverse, with distinct growth patterns across various regions:

North America: Dominating the market, North America is poised to continue leading the position velocity feedback transmitter systems market due to its advanced industrial sectors, including aerospace and automotive.

Asia-Pacific: The Asia-Pacific region is expected to witness the highest growth rate, driven by rapid industrialization and the increasing adoption of automation technologies in countries like China and India.

Europe: Europe’s strong automotive and industrial automation sectors will continue to contribute to the growth of this market.

Latin America and Middle East & Africa: While smaller markets, the demand for these systems is expected to rise as industries in these regions embrace automation and robotics.

Position Velocity Feedback Transmitter Systems Market Competitive Landscape

Key Players

The market for position velocity feedback transmitters is highly competitive, with several industry leaders at the forefront:

Pepperl+Fuchs: Known for its next-generation sensors, Pepperl+Fuchs continues to innovate with solutions tailored to the needs of the automotive and industrial automation sectors. The company launched new high-performance sensors aimed at enhancing precision in harsh industrial environments in 2024.

Temposonics: Specializing in digital feedback systems, Temposonics has made significant strides in the robotics and aerospace sectors. Their advanced systems offer real-time position and velocity tracking, catering to industries that demand high-speed and high-accuracy solutions.

Other Key Players: Other companies in this market include Balluff, Siemens, and Honeywell, each offering various solutions across different applications, from industrial automation to healthcare.

Emerging Trends in Competition

Integration of IoT: Manufacturers are increasingly integrating IoT technologies into their position velocity feedback systems to enhance data collection, improve connectivity, and enable predictive maintenance.

Customization and Tailored Solutions: Companies are focusing on providing customized solutions for specific industries to cater to the unique needs of sectors such as automotive, aerospace, and healthcare.

Sustainability Initiatives: With growing environmental concerns, companies are developing energy-efficient systems that not only meet performance requirements but also adhere to sustainable production practices.

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Conclusion:

The Position Velocity Feedback Transmitter Systems Market is on a rapid growth trajectory, driven by advancements in automation, robotics, and sensor technologies. The demand for high-precision motion control systems is intensifying as industries seek to improve efficiency, safety, and productivity. Despite challenges such as high initial costs and integration complexities, the opportunities presented by emerging applications in healthcare, autonomous vehicles, and smart manufacturing are substantial.

With continued innovation and a focus on integration with IoT and digital technologies, the market is well-positioned for long-term expansion. As the industrial landscape continues to evolve, the role of position and velocity feedback systems will be pivotal in shaping the future of automation and precision control across various sectors.

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simcardiac-arrested · 1 year ago

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i know the hate triangle is liek.

fta —-> ns <—-> nwb (fates haaates sep, sep hated wayback first and then he started hating them in return) but it does make me wonder if there’s anything weird between nwb and fta, animosity or not

hoho …. i didnt make it a triangle for nothing ☝️ Yes there is smth going on between fates and wayback but it is, of course, one sided—he sees her as someone he gets to occasionally bother for fun, just casual buddies . she Hates him. for your usual hater reasons, yes—he’s an annoying and stupid and a nuisance and his music sounds bad and etc etc . she can find a reason to hate aaaanyone. But also for reasons deeper than that. because really, they are both the same. they both live in sep’s shadow. they are both worse than everyone else in their group—hell, on some technical level wayback is even worse than fates (he can’t work at all while she can, just…really badly). and yet he’s happy. he makes the most of it. he shares his music and shows it to the world even if it sucks. he makes friends with people easily even if he doesn’t have much value as an iterator. he sees the best in life, makes the most of it, enjoys every cycle that passes by (and of course he struggles, he still has his Moments, but at least he tries). fates has stopped trying. she wallows in hate, envies anyone she can find. she hides her hobbies and projects from everyone in fear of getting judged, in fear of it being just another thing she is not good at. she doesn’t see the point in anything anymore, in trying—why would she? she was made wrong. she was born wrong. there is nothing she can do.

…and yet wayback’s happy. she is jealous of him. she hates him. because he is a version of fates that was dealt even worse cards, and yet he tries anyway. it is a reminder to her that if fate had played out any other way, she might’ve ended up as fulfilled as him.

#my bad went off. thinking about mentally ill robots again #ughhh their parallelsssssss HEEEELP HELP MEEEE !!!! HEEELP !!!!!!!!#and wayback doesn’t even know either how similar they are. how despite everything; despite being the only 4th gen; despite being the only #model built in this specific way; *there is still someone out there who is like him*#AND HE DOESN’T KNOW !!!!!!! AND THAT SOMEONE HATES HIM PRECISELY FOR THE REASON OF BEING JUST LIKE HER FR (BUT BETTER SOMEHOW)#aaaauehggh #cramswering

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