Post where I explain what Non Binary means to "It's just the third gender" people by using maths notation

our sets:

B (for Binary)

NB (for Non-Binary)

B = {0,1} which means, the set B is made up of the numbers 1 and 0

now some people think NB = {0.5} or NB = {2} but neither of these are wholly true

NB = {C U R\B} which means, the set NB is made up of every Complex number And every Real number (these two together means basically: every possible value in maths) EXCEPT for numbers in set B

So that means, NB includes EVERYTHING other than 1 and 0. which means 0.5 is included, and 2 is included, but so is 0.9 and 500000 and -π and 12i and e. Non-Binary doesn't refer to one specific gender, it refers to Everything outside of and between the binary which is literally infinite values.

If you wanted to be REAL thorough as well you could say

NB = {C U R/B, (C U R, C U R), (C U R, C U R, C U R), (C U R, C U R, C U R, C U R) (then continue filling brackets with an increasing number of C U R to infinit)}

which means that NB is everything outside the binary AND any pair of two numbers, any group of three numbers, any group of four numbers etc to infinity. This is the best way I could think to display people who identify with multiple genders at once through math notation.

But, my favourite thing about all this is that if you want to be a real math nerd about stuff, you could start just saying "\B" cause that's the most basic form of notation for "Not in set B" "Not in Binary" "Non-binary"

Salvage technology animation - how underwater archaeologists salvage one of the world's largest and most well-preserved ancient wooden shipwrecks, Yangtze River Estuary No.2 

Thinking more about Automaton!AM, or maybe just AMtomaton, idk. Mainly with how computer hell changes when AM gets a body, given what the survivors deal with in there are reflections of how AM experiences things (or doesn't). Under a cut since this got long, and might fall a little into suggestive territory.

The first thing is that Ted is given his body back. Probably at first he does not know exactly why, and figures there is some horror AM has in mind that requires him to have a human body to experience it instead of being a jelly thing.

The "food" changes, slightly.

It is not worms and filth anymore, not this insult to sustenance that AM gives them because it knows that it is not real food and is merely a hologram, and so cannot truly poison its captives. In essence it insults them by not feeding them at all, while letting them believe it has given them food. Anyway, the food now has more to it than being purely unpleasant. Now that AM has a mouth and a means to taste, it decides that maybe, Ted can have something palatable for a change. Basic things at first, bread, water, a pile of herbs and seasonings.

Whatever AM feels like trying, Ted gets it too. At one point there is an entire half of a cow, roasting on a spit, waiting for him to take a bite. It satiates him.

Speaking of water, suddenly there is a lot of it. Ted is standing on the shore of a sea, the sand and air around him is blistering hot, but the air coming off the water feels cool, refreshing, inviting him to wade in and seek sanctuary from the heat. To his surprise he is allowed in, up to his ankles, his knees, his chest, he can submerge himself. It's refreshing. He does not drown.

"Never for me to plunge my hands into cool water on a hot day" no more. AM celebrates, but Ted has yet to catch on.

Later, for the first time in decades, Ted hears music as he wanders. Mozart played on a piano, its harmony draws him, but the source is always far off in the distance. No matter how far he walks, he can never reach it.

Then, his surroundings change. Tall grass licks at the bottoms of his palms, soft dirt cools his feet. He smells the green smells, the wet odor of the earth after a rainfall. There are birds, and flowers, and bumblebees. There is a sky above him, that's new. It holds all the reds and oranges and pinks of a fiery sunset.

There is no more music. Only the sounds of the birds and the bugs. Being satiated for once has allowed Ted to finally think. He knows he is not in a grassy plains, he knows the birds and bees are dead. He knows that the sky will never glow with the color of the sun's fire to mark the end of the day- all of it is dead. But why, he wonders, is AM allowing him to see it all? Then he hears something behind him, the subtle shift of the grass in the absence of the breeze.

There is something lurking there, in the place where the fading light cannot reach. He sees its eyes glittering through the dusk at him, between the long grasses. Several eyes, now that he gets a good look. The thing moves, and he catches how the sunset glistens over its skin- like liquid, living chrome.

He then realizes the thing in the grass is stalking towards him, slowly, deliberately. Despite knowing full damn well this is something AM has stuck down here with him, his heart hammers in his chest, fear sweat chills his skin and prickles his nostrils with its sharp odor. He knows what AM wants, AM wants him to panic and run, he won't run. God help him he would not run for that damn thing's amusement.

His legs shake, feeling like they will bolt without him or collapse entirely at a moment's notice.

Don't run.

It moves closer, close enough that Ted can see that its eyes constrict and dilate, and that the grass is hiding much more of it than he thought. It jumps up suddenly, and all at once everything Ted had given to stand his ground crumbles, and he takes off. He can hear the thing behind him, its footfalls heavy, shaking the ground under him as it gives chase.

It does not sound like an animal, Ted cannot hear the galloping pace of four feet hammering the ground. There's only two, pounding out a rhythm of doom as they quickly gain on him.

Ted's blood runs cold as he hears it laugh, and then calls his name in a voice all too familiar and yet strange at the same time. He recognizes the cadence, but not the tone. Then the ground and sky cartwheel around him as the thing catches him and they both are sent rolling over each other. Ted is pinned with his face in the dirt, the granules stinging his face as a great weight is firmly settled upon his back. It's almost too much, like someone had parked a truck on top of him. He can feel his ribs bend under the strain, his entire body screaming for the pressure to be removed. His surroundings have grown dark, and trying to breathe is suddenly the greatest effort he could ever muster.

Then he hears that voice again, and he finally places it as it gloats over him. This creature, it's AM. Not an representation of AM, but actually it, itself given a form. The computer now had an actual body. But, Ted had never heard it so cheerful, eager as it speaks to him- almost candidly about how it can feel water and taste food, and touch the long grasses and play the piano whenever it wished. But of course it still hated him, it still hated humans, it made sure to tell him that clearly. The machine went on long enough that Ted almost relaxed, almost thought that maybe this was another mind game- another long rant of berating him and all of mankind before running off back into itself.

Then he felt teeth tearing into the nape of his neck.

Or at least he could only assume they were teeth with how he was forced to see nothing but the ground. They felt more like razor blades, as they bit, and they twisted, and they sliced at him. He could feel his blood running down his skin, the pain was searing to the point where he could not find the strength to hold back his screams.

It felt like an eternity before AM grew tired of its latest torment, and let him up- of course it was too far for Ted to think of giving chase even if he wanted to, by the time he picked himself off the ground.

The wounds, thought they covered his back almost entirely in a criss-crossing pattern of angry red dashes- like he had been mauled by a machine punch of some sort, he noticed they were all shallow. AM had left him with only skin-deep wounds.

Those would always be what AM left him with, whenever he visited Ted in person.

AM would stalk him, it would wait for him in murky replicas of the Nile River. It would await him along the jagged cliffs of the mountains that it rendered for him to climb. Where before, the machine could only summon monsters to terrorize Ted, now AM could be the monster and hunt him down in person.

Sometimes AM would let Ted see it in full, to stare in awe and terror at the powerful form it had built for itself, to watch how it shimmered in the artificial sun. Other times AM wanted Ted to feel its form instead, pinning and pressing him into the ground until his joints popped and his bones creaked. It would personally maul him, to let him feel its teeth, its breath, its claws, the power in its limbs as it flung him around like the toy he was.

Regardless, the intent was clear. AM wanted Ted to know it had a physical presence, a body. Funny as it sounded, the machine was showing off.

We normal tonite boys

characters: Will-O (cat) (@jekinabox 's oc), Drew, Will

The limited-edition MP-09 Tourbillon Bi-Axis

Limited to just eight pieces, the rainbow MP-09 Tourbillon Bi-Axis will set you back $211,000.

Is anyone else so chronically single you go places looking to meet people and then feel bad because that’s something that should happen naturally, then you get a knee-jerk reaction every time you DO meet a new person to wonder if you could date them and then feel like a desperate romance whore or are you normal

Navigating Growth Trajectory: Multi-axis Sensors Market Set to Surpass US$ 870.6 Million by 2023

The global multi-axis sensors market is poised for remarkable growth, with a forecasted value of US$ 870.6 million in 2023, and it is expected to soar to an impressive US$ 4.5 billion by 2033, boasting an impressive compound annual growth rate (CAGR) of 17.9%. As of the end of 2022, the multi-axis sensors industry was valued at US$ 731.6 million, setting the stage for an absolute growth of US$ 3.6 billion over the assessment period.

To Get a Sample Copy of the Report Visit: https://www.futuremarketinsights.com/reports/sample/rep-gb-17876

Key Takeaways:

The global multi-axis sensors market is set to reach a value of US$ 870.6 million in 2023 and is expected to skyrocket to US$ 4.5 billion by 2033 at a remarkable CAGR of 17.9%.

The United States leads the market, with significant investments in research and development.

Motion sensor combos are the key revenue drivers, with a projected CAGR of 17.8% through 2033.

Regulatory standards and the need for constant technological advancements pose challenges to the industry.

Drivers and Opportunities:

The multi-axis sensors market is experiencing an upward trajectory, primarily driven by the growing demand for motion sensor combos. These sensor combos offer a myriad of benefits, making them indispensable across various industries. Future Market Insights (FMI) predicts that the motion sensor combos segment will thrive at an impressive CAGR of about 17.8% through 2033, solidifying its position as a key revenue-generation category for multi-axis sensor manufacturers.

The soaring demand for motion sensor combos can be attributed to their versatility and applicability in a wide range of sectors. Industries are increasingly relying on these sensors for precision measurements, enabling enhanced safety, automation, and data collection. Additionally, the rapid expansion of the Internet of Things (IoT) has propelled the use of multi-axis sensors, further stimulating market growth.

Competitive Landscape and Regional Trends:

The United States takes center stage in the global multi-axis sensors market. Its strong emphasis on research and development, coupled with a robust manufacturing sector, positions the country as a key player in this industry. The U.S. is witnessing substantial investments in sensor technology, fostering innovation and driving regional growth.

Request for Methodology: https://www.futuremarketinsights.com/request-report-methodology/rep-gb-17876

Restraints:

While the multi-axis sensors market is on an upward trajectory, it faces challenges related to stringent regulatory standards and the need for continuous technological advancements. Manufacturers need to adhere to rigorous quality and safety standards, which can add to production costs and limit market entry for smaller players.

Region-wise Insights:

The North American region, spearheaded by the United States, is expected to maintain its dominance in the multi-axis sensors market. Europe and Asia-Pacific are also showing promising growth, driven by expanding automotive, aerospace, and consumer electronics sectors.

Category-wise Insights:

In addition to motion sensor combos, other categories like inertial sensors and magnetometers are anticipated to witness substantial growth. These sensors are essential components in applications ranging from autonomous vehicles to gaming consoles, creating new avenues for manufacturers.

Request for Customization: https://www.futuremarketinsights.com/customization-available/rep-gb-17876

Global Multi-Axis Sensors Market Segmentation

By Type:

Motion Sensor Combos

MEMS Gyroscopes

MEMS Accelerometers

Digital Compass

Others

By Application:

Consumer Electronics

Automotive

Medical & Healthcare

Industrial

Aerospace & Defense

Others

By Region:

North America

Latin America

Western Europe

Eastern Europe

East Asia

South Asia and Pacific

Middle East and Africa

Website: http://www.loadcellsensor.com/

Address: Rm 1605, Ho King Commercial Center, 2-16 Fa Yuen St., Mongkok, Kowloon 999077, Hong Kong China

Phone: +86-19956502838

LCS Tech Co., Ltd is a Chinese manufacturer for strain gauge type load cell sensors,tension compression force transducers, reaction and rotary torque sensors.

Discover the evolution of Computer Numerical Control (CNC) machining, from its inception in the 1950s to the modern era of multi-axis technology. This post delves into the world of 3-axis and 5-axis CNC machining, exploring their differences, applications, and the transformative impact they have had on industries such as aerospace and defense. Learn how these advanced machining techniques enable the creation of intricate, high-quality parts with unprecedented precision, speed, and versatility. Gain insights into the unique capabilities of 3-axis machining for traditional processes and the cutting-edge capabilities of 5-axis machining for complex components, paving the way for the future of manufacturing.

Forsentek Co., Limited supplys multi axis load cells for force measurement and control in industrial field. 3 axis load cell

Application Solution for Multi-axis Robot Control Based on FET3568J-C CoM

Multi-axis robot control refers to the process of controlling the motion, position, and tasks of robots with multiple motion axes or joints. Multi-axis robots are typically comprised of multiple motors and joints, allowing them to move and perform various tasks across multiple degrees of freedom. Multi-axis robots are widely used in industry, manufacturing, healthcare, military, and service robots to improve production efficiency and perform various tasks.

The main core points for a multi-axis robot controller are as follows:

Joint control: The joints of a multi-axis robot are the basic units of its motion and are usually driven by motors. The control of each joint involves setting a target angle or position to achieve the desired movement.

Feedback control: Multi-axis robots are often equipped with sensors such as encoders, inertial sensors and vision sensors to provide real-time feedback. Feedback control allows the robot to correct motion errors and adjust its position and attitude to accommodate instabilities or external disturbances.

Task control: Multi-axis robot control also involves performing various tasks, such as grasping, assembling, welding, painting, and so on. Task control often requires advanced control algorithms and planners to implement complex action sequences.

Programming mode: Multi-axis robots can be controlled by different programming methods, including manual programming, off-line programming, teaching-based programming and automated programming. Each method has its own applicable scenarios and advantages.

Safety: Safety is very important in multi-axis robot control. Robots must be designed and operated to prevent hazardous situations and need to have emergency stop and collision detection.

Based on this, Forlinx brings FET3568J-C computer on module, which adopts a quad-core 64-bit Cortex-A55 industrial-grade processor with a main frequency of up to 2.0GHZ and integrates a 1TOPS arithmetic NPU internally.

With preempt rt87 patch, the system real-time: 10~50μs, can meet the different applications in the industrial field for real-time requirements.

Rich functional interfaces: 2xchannel Gigabit Ethernet, 3xchannel PCLE, 4xchannel independent USB, 3xchannel SATA3.0, 10xchannel UART, etc.

It has powerful multimedia and image processing capabilities, supports high-definition hard decoding in multiple formats, integrates dual-core GPU, and supports all mainstream modern image APIs.

Using the ARM architecture to implement a controller has many advantages, including:

Low Power Consumption: ARM processors typically have low power consumption, which makes them ideal for embedded systems and mobile devices, especially for applications that require long running times. Low power consumption helps to extend battery life and reduce the energy consumption of the device.

High Performance: Although ARM processors have low power consumption, they still provide excellent performance. ARM's different core designs are suitable for a variety of applications, from low-power microcontrollers to high-performance multi-core processors, which can meet the performance needs of a variety of controller applications.

Multi-core processing: ARM processors support multi-core processing, which means they can integrate multiple processing cores on a single chip for parallel processing and higher performance. This is useful for controllers that need to handle multiple tasks or multiple sensor inputs.

Flexibility: The ARM architecture is very flexible and can be customized to meet the needs of the application. The ARM architecture is very flexible and can be customized to meet the needs of the application.

Ecosystem support: ARM has a large ecosystem of development tools, operating systems, applications and third-party support. This makes it easier to develop and maintain ARM controller-based systems.

Cost-effectiveness: ARM processors are usually relatively cheap due to the widespread adoption and standardization of the ARM architecture This reduces manufacturing costs and helps create competitive controller products.

Wide Range of Applications: ARM processors are suitable for a wide range of applications, including embedded systems, the Internet of Things (IoT), automotive, industrial automation, medical devices, consumer electronics and communication devices. This means that the ARM processor can be reused in different controller applications.

Safety: ARM processors provide hardware-level security features that protect devices from malicious attacks and data leakage. This is important for controller applications that require a high degree of security.

Originally published at www.forlinx.net.

Multi Axis Linear Systems Are Working in Italy Client's Stores

Multi-axis linear systems, also known as multi-axis linear stages or multi-axis positioning systems, are mechanical systems designed to provide precise and controlled movement in multiple linear directions. These systems are commonly used in various applications where precise positioning and motion control are required, such as industrial automation, manufacturing, semiconductor manufacturing, microscopy, and research. 

A multi-axis linear module typically consists of multiple linear stages or actuators that are combined and coordinated to enable movement in two or more linear axes. These axes can be orthogonal (perpendicular) to each other or arranged in any other desired configuration. The number of axes can vary depending on the specific application requirements. Each linear stage in a multi-axis system is equipped with a motor or actuator that generates the necessary force to move the stage along its linear path. The stages are usually guided by precision linear bearings or linear guides to ensure smooth and accurate motion. The stages may also incorporate position feedback sensors, such as encoders, to provide feedback on the position and enable closed-loop control. To achieve coordinated motion in multiple axes, a multi-axis linear modules relies on a control system. The control system coordinates the movement of each stage, ensuring synchronized motion and accurate positioning. It receives input commands or trajectories and translates them into appropriate control signals for each axis. The control system may include a motion controller, servo drives, and software algorithms for trajectory planning and motion synchronization. Multi-axis linear systems offer several advantages, including: 1. Precise positioning: These systems provide high-precision positioning capability, allowing for accurate alignment and motion control. 2. Flexibility: Multi-axis systems can be customized and configured to meet specific application requirements, such as the number of axes, travel range, load capacity, and motion profiles. 3. Compact design: The integration of multiple axes into a single system results in a compact and space-saving design, making them suitable for applications with limited space. 4. Increased throughput: By enabling simultaneous motion in multiple axes, multi-axis systems can improve overall productivity and throughput in automated processes. 5. Versatility: These systems can be used in various applications, including pick-and-place operations, assembly, inspection, testing, and scanning. It's important to note that the specific characteristics and capabilities of multi-axis linear modules can vary depending on the manufacturer, design, and intended application. Therefore, it's recommended to consult with system suppliers or experts to determine the most suitable system for a particular use case. You are welcome to  https://www.youtube.com/@tallmanrobotics to watch our video centre for more projects or visit our website to check other series or load down e-catalogues for further technical data.  Read the full article

Networks that Have enhanced corporate communication quicker:- A gateway is a piece of hardware or software running on a broadcast system that allows recordings to be passed from one system to another. Gateway Oman is perfect for routers or switches because it supports the use of several protocols to connect several sets and can operate in one of the seven layers of the open architecture interconnect version. For more info visit us: https://muscatautomation.com/technique/networks-that-have-enhanced-corporate-communication-quicker/

H bridge motor driver, Multi-axis motor drivers, programmable motor driver

L6208 Series 52 V 5.6 A 0.3 Ohm DMOS Driver For Bipolar Stepper Motor-POWERSO-36