🚀🤖 The Future of Robotics is Here! 🤖🚀 👉 Meet the Unitree G1 Humanoid Robot 🤩💡 ✅ Walks at 2 m/s speed 🏃‍♂️ ✅ 360° Vision for Smart Navigation 👀🛰 ✅ Deep Learning for Real-World Tasks 📚💻 ✅ Handles Fragile Objects with Care 🥛🖐 ✅ Ideal for Healthcare 🏥, Manufacturing 🏭 & Space Exploration 🚀🌌 💵 Price starts at $116,000 💸 🔥 Game-changer for Industries! 💥 👉 Want to know more? Click here! 📲👇 🔗 #UnitreeG1 #HumanoidRobot #AI #FutureTech #Robotics #Innovation 🚀🛠

Discover how artificial intelligence and robotics are transforming welding—from early robotic arms to modern AI‑powered cobots, smart sensors, real‑time monitoring, adaptive control, and IoT‑enabled systems. Learn how intelligent welding robots elevate quality, efficiency, flexibility, and safety, while skilled professionals gain new opportunities through advanced training. This article explores key advances—arc welding bots, cobots, spool‑welding, sensor fusion, and machine‑learning‑driven path planning—that are reshaping the future of metal fabrication.

Exploring the Benefits of Dreame's Robot Vacuum Wet and Dry

In today's fast-paced world, keeping our homes clean can be a challenge. Fortunately, the Smart Home industry has made significant advancements, and one standout brand is Dreame. Their innovative robot vacuum offers a perfect solution for maintaining cleanliness with minimal effort.

This versatile device not only vacuums but also mops, ensuring that your floors are spotless and shining. With its advanced sensors, the Dreame robot vacuum navigates your home efficiently, avoiding obstacles and covering every corner. Whether you have hardwood, tile, or carpet, this robot adapts to different surfaces, making it a practical addition to any household.

Moreover, the wet and dry feature allows for a comprehensive cleaning experience. You can easily switch between vacuuming and mopping modes, tackling various messes with ease. Imagine coming home to a clean environment without lifting a finger!

Dreame's commitment to quality and user-friendly technology makes their robot vacuum a great investment for anyone looking to simplify their cleaning routine. Embrace the future of home cleaning with Dreame's robot vacuum, and enjoy more free time to spend on the things you love!

home automation

Exploring the Best Robot Vacuum for High Thresholds: Dreame's Innovation

In the ever-evolving world of smart home technology, finding the best robot vacuum for high thresholds can be a game changer for maintaining a clean and comfortable living space. Dreame has emerged as a leading brand in this arena, offering innovative solutions designed to tackle various cleaning challenges.

Dreame's robot vacuums are equipped with advanced sensors and powerful suction capabilities, making them ideal for homes with high thresholds. Whether it's transitioning from hardwood to carpet or navigating over door frames, these vacuums ensure a thorough clean without any hassle.

What sets Dreame apart is their commitment to user-friendly features, including smart app controls and voice assistant compatibility. This means you can schedule cleanings, monitor progress, and even direct the vacuum to specific areas, all from the convenience of your smartphone.

Moreover, the sleek design of Dreame vacuums allows them to blend seamlessly into your home while providing top-notch performance. With long battery life and easy maintenance, these vacuums are perfect for busy households.

In conclusion, if you're in the market for the best robot vacuum for high thresholds, look no further than Dreame. Their innovative technology and thoughtful design will help you keep your home clean and welcoming, making your life easier and more enjoyable.

Exploring the Future of Smart Homes with Dreame's Cat Tank Roomba

The smart home industry is rapidly evolving, and brands like Dreame are at the forefront of innovation. One of their standout products is the Cat Tank Roomba, a remarkable robotic vacuum that combines cutting-edge technology with user-friendly features.

The Cat Tank Roomba is designed to make cleaning effortless, effectively navigating through your home while ensuring that every corner is spotless. With advanced sensors and mapping technology, it can easily avoid obstacles and adapt to various floor types, making it perfect for homes with pets.

Moreover, the Cat Tank Roomba comes equipped with a powerful suction system that picks up dirt, dust, and pet hair with ease. Its sleek design and quiet operation make it a great addition to any household, allowing you to maintain a clean environment without the hassle of traditional vacuuming.

As we embrace the convenience of smart home devices, Dreame's Cat Tank Roomba stands out as a reliable and efficient solution for modern living. The future of cleaning is here, and it's more exciting than ever!

Exploring the Smart Home Revolution with SwitchBot's Floor Cleaning Robot

In the ever-evolving world of smart home technology, SwitchBot has emerged as a leader, particularly with its innovative floor cleaning robot. This remarkable device not only simplifies the cleaning process but also enhances the overall convenience of maintaining a tidy home.

Imagine coming home to spotless floors without lifting a finger! The SwitchBot floor cleaning robot is designed to navigate your space effortlessly, ensuring that every corner is reached. With advanced sensors and smart mapping technology, it adapts to various floor types, making it a perfect addition to any household.

Moreover, SwitchBot offers seamless integration with other smart home devices, allowing you to control your cleaning schedule right from your smartphone. Say goodbye to the hassle of manual cleaning and hello to more free time for the things you love!

If you're looking to elevate your home cleaning routine, consider the SwitchBot floor cleaning robot. It's not just a cleaning tool; it's a step towards a smarter, more efficient home!

Exploring the Smart Home Revolution with SwitchBot's Robot Floor Cleaner

The smart home industry is rapidly evolving, bringing convenience and efficiency to our daily lives. One standout brand in this space is SwitchBot, known for its innovative and user-friendly smart home products.

One of their most exciting offerings is the SwitchBot Robot Floor Cleaner. This incredible device takes the hassle out of cleaning, allowing you to enjoy your time without worrying about dust and dirt on your floors. With its advanced sensors and smart navigation, the SwitchBot Robot Floor Cleaner glides effortlessly across various surfaces, ensuring a thorough clean every time.

What makes the SwitchBot Robot Floor Cleaner particularly appealing is its compatibility with other smart home devices, allowing you to control it from your smartphone or through voice commands. Imagine coming home to spotless floors after a long day, all thanks to the reliable performance of this amazing robot cleaner.

In a world where technology simplifies our lives, SwitchBot is paving the way for a smarter, cleaner future. If you're looking to elevate your smart home experience, the SwitchBot Robot Floor Cleaner is an excellent investment that will keep your home sparkling clean!

Exploring the Benefits of SwitchBot's Low Profile Robot Vacuum

When it comes to smart home technology, SwitchBot is leading the way with its innovative products, including the remarkable low profile robot vacuum. This sleek and efficient vacuum is designed to seamlessly fit into your home, making cleaning a breeze.

The low profile design allows it to navigate under furniture and reach those hard-to-clean areas without any hassle. With advanced sensors, it can intelligently map out your space, ensuring that every corner is covered. Plus, its quiet operation means you can run it at any time without disturbing your daily activities.

SwitchBot's commitment to user-friendly technology means that you can easily control the vacuum through your smartphone, allowing you to schedule cleanings or start it remotely. This convenience is perfect for busy lifestyles, making home maintenance more manageable.

In summary, SwitchBot's low profile robot vacuum is not just a cleaning tool; it's a smart home companion that enhances your living experience. Embrace the future of home cleaning with SwitchBot!

Dreame's Innovative Robot Cleaning Solutions for Smart Homes

Dreame, a leading brand in the smart home industry, is revolutionizing the way we approach household cleaning with its cutting-edge robot cleaning solutions. With a focus on convenience, efficiency, and advanced technology, Dreame's robot vacuums and mops are designed to make your life easier while ensuring a spotless living environment.

One of Dreame's flagship products is the Robot Vacuum and Mop, a versatile and intelligent cleaning companion that combines powerful suction and precise navigation to meticulously clean your floors. Equipped with advanced sensors and mapping technology, this robot cleaner can navigate your home with ease, avoiding obstacles and cleaning every nook and cranny. Its long-lasting battery ensures uninterrupted cleaning sessions, while its smart app integration allows you to schedule cleanings, monitor progress, and even control the robot remotely.

In addition to its robot vacuums, Dreame also offers a range of robot mops that effortlessly clean and sanitize your hard floors. These innovative devices use advanced cleaning technologies and intelligent navigation systems to deliver a thorough and efficient cleaning experience. With their ability to automatically detect and avoid carpets, you can rest assured that your hard floors will be spotless without risking any damage to your carpeted areas.

Dreame's commitment to innovation extends beyond just its products. The company continuously invests in research and development to stay ahead of the curve and introduce cutting-edge features that enhance the user experience. From advanced mapping and navigation capabilities to improved battery life and cleaning performance, Dreame is dedicated to providing smart home solutions that truly make a difference in your daily life.

With Dreame's robot cleaning solutions, you can enjoy a hassle-free and spotless living environment while embracing the convenience of modern technology. Say goodbye to tedious cleaning chores and hello to a smarter, more efficient way of maintaining a clean and healthy home.

Dreame Vacuum Cleaning Robots: Revolutionizing Smart Home Cleaning

Welcome to the exciting world of smart home technology, where innovation meets convenience. Today, we'll explore the remarkable advancements in vacuum cleaning robots, with a special focus on the pioneering brand Dreame.

Dreame has emerged as a trailblazer in the vacuum cleaning robot industry, offering cutting-edge solutions that seamlessly integrate into modern smart homes. Their state-of-the-art robots are designed to make your life easier, ensuring a spotless living environment with minimal effort on your part.

Equipped with advanced sensors and mapping technologies, Dreame's vacuum cleaning robots navigate your home with precision, efficiently cleaning every nook and cranny. These intelligent machines adapt to different floor surfaces, adjusting their suction power and cleaning patterns to deliver thorough and customized cleaning experiences.

But Dreame's innovations go beyond mere cleaning prowess. Their robots boast smart features that elevate the user experience to new heights. With voice control integration and mobile app connectivity, you can effortlessly manage and monitor your robot's cleaning cycles, schedules, and even receive real-time updates on its progress.

Dreame's commitment to sustainability is another standout aspect. Their robots are designed with energy-efficient motors and long-lasting batteries, ensuring a reduced environmental impact while delivering exceptional cleaning performance.

As the smart home industry continues to evolve, Dreame remains at the forefront, continuously pushing the boundaries of innovation and user-friendly technology. With their vacuum cleaning robots, you can enjoy a hassle-free, spotless living environment while embracing the convenience of the future.

The Synergy of Robots and Press Brakes: Transforming Manufacturing Precision

In the ever-evolving landscape of manufacturing, the integration of robotics has become a game-changer, significantly impacting efficiency, precision, and overall productivity. One notable area where this synergy is making waves is in the realm of press brakes–essential tools used in metal forming processes.

Press brakes have been a part of metalworking for generations, offering the ability to bend and shape metal sheets with precision. Traditional press brakes operated manually, requiring skilled operators to adjust settings and oversee the process. While effective, this method often posed limitations in terms of speed, consistency, and the ability to handle complex tasks.

The arrival of robotics prompted a paradigm shift in manufacturing. Robots, equipped with advanced sensors, vision systems, and programmable precision, emerged as a partner to traditional machinery. In the context of press brakes, robots have become integral for automating repetitive tasks, enhancing precision, and enabling the seamless handling of intricate sheet metal designs.

Advantages of Robot-Enhanced Press Brakes

Precision and Consistency: Robots excel in executing tasks with unparalleled precision, eliminating variations that can arise from human intervention. This precision is particularly crucial in metal forming processes where accuracy is paramount for achieving desired shapes and dimensions consistently.

Increased Efficiency: By automating the loading, unloading, and bending processes, the integration of robots with press brakes significantly improves overall efficiency. Robots operate tirelessly, reducing cycle times and increasing the throughput of the manufacturing process.

Complex Forming Capabilities: The combination of robots and press brakes enables the handling of complex forming tasks that might be challenging for traditional methods. This includes intricate designs, multiple bends, and the production of components with high geometric complexity.

Safety: Robots—particularly cobots—are evolving into helpmates that can work in proximity to humans safely. By taking over repetitive and potentially hazardous tasks, they contribute to a safer working environment. This not only minimizes the risk of accidents but also allows human operators to focus on more strategic and complex aspects of production. They do the dull, dirty, and dangerous work.

Challenges and Considerations

While the integration of robots with press brakes brings numerous advantages, it is not without its challenges. Initial setup costs, programming complexities, and the need for skilled technicians to operate and maintain these systems are common hurdles. Additionally, there is a learning curve for manufacturers transitioning from traditional methods to automated systems.

As technology continues to advance, the collaboration between robots and press brakes is likely to evolve further. The integration of artificial intelligence (AI) and machine learning into robotic systems holds the promise of adaptive and self-optimizing manufacturing processes. This can lead to even greater efficiency, reduced waste, and improved overall production outcomes.

The fusion of robots with press brakes offers new levels of precision, efficiency, and versatility. While challenges exist, the long-term benefits far outweigh them, paving the way for a future where the integration of robotics becomes synonymous with enhanced manufacturing precision and productivity.

Prowl always feeling that he's off balance because he's missing his Mech's almost instinctive environment scanning. It's like he's missing one of his senses, so all his other senses try to make up the difference.

All I'm saying, Prowl being overwhelmed by his human senses trying to make up the missing mech sensors, once he disconnects. He probably gets migraines and extra sensitive to light, smells, and sounds quite often.

Imagine if he becomes more and more paranoid over the years of piloting because he gets so used to constantly being an uh. alive radar essentially. His mech can “see” literally everything. Can track hundreds of enemies at once and he HAS TO constantly keep track of all the enemies and their movements and coordinate his own team to respond accordingly. The advanced scanning technology becomes so natural that when he disconnects he feels like he’s wearing a blindfold. His brain keeps telling him that there might be danger anywhere around him and he has to keep watching. But he can’t.

Basically

Pilot Jazz was spending a lot of time inside his Mech because he loved being a giant robot

Prowl spends a lot of time inside his Mech because he hates being a human

Meet the MOLA AUV, a multimodality, observing, low-cost, agile autonomous underwater vehicle that features advanced sensors for surveying marine ecosystems. 🤖🪸

At the core of the MOLA AUV is a commercially available Boxfish submersible, built to the CoMPAS Lab's specifications and enhanced with custom instruments and sensors developed by MBARI engineers. The MOLA AUV is equipped with a 4K camera to record high-resolution video of marine life and habitats. Sonar systems use acoustics to ensure the vehicle can consistently “see” 30 meters (100 feet) ahead and work in tandem with stereo cameras that take detailed imagery of the ocean floor. 

Leveraging methods developed by the CoMPAS Lab, the vehicle’s six degrees of freedom enable it to move and rotate in any direction efficiently. This agility and portability set the MOLA AUV apart from other underwater vehicles and allow it to leverage software algorithms developed at MBARI to create three-dimensional photo reconstructions of seafloor environments. 

In its first field test in the Maldives, the MOLA AUV successfully mapped coral reefs and collected crucial ocean data. With the MOLA AUV’s open-source technology, MBARI hopes to make ocean science more accessible than ever. Watch now to see MOLA in action. 

Learn more about this remarkable robot on our website.

GUYS LOOK AT THIS LEAK I FOUND OF DONALD!!

OMG ITS DONALD FERGUSONS BLUEPRINT AND ITS EXACTLY HOW I WOULD HAVE IMAGINED HIS ENDOSKELETON TO LOOK LIKE!!

...

.....

kidding.

i made it lol :p

So I made this blueprint because one, I am obsessed with cyborg dudes and two I have no life and got bored lmao. I did do a lot of research on cybernetics and hope I got it as accurate as I could. So without further ado...

Let me give a tour of Donald's blueprint!

..............................................................................................................

Latch- Located on top of Donald's metal head which can be opened via key insertion and is safely guarded by Cecil Stedman who only knows its location.

Imaging Process Software- Built inside Donald's eyes which allows him to see and process what he is visualizing it also allows him to imagine things much more accurately than the average human

Scent Processors or Sensors- built inside Donald’s nose which allows him to smell and process scents, unfortunately, it's not as advanced as his visual processors so he actually smells things with less accuracy than he did before he died, though he doesn't notice this as often.

Ultrasonic Processors or Receivers/Emitters- Built inside Donald's ear canals which allow him to ear and process sounds at a much higher frequency than the average human

Diagnostic CPU or Chip and the Insertion Port- a cylindrical hole located on top of Donald's forehead which is where the CPU (Central Process Unit) chip is used to diagnose any minor malfunctions and auto-corrects it. If any malfunction is too severe (such as limb amputations) it would require manual repairs to be fixed. However, the reason why Cecil is keeping this diagnostic chip from Donald is because if inserted, it would revive all of the previous lost memories since the DC identifies them as errors to be corrected. There is a key that can be also inserted in the port on his head which opens the latch that reveals his brain. When he dies they must quickly remove his brain which is protected by a thin layer of gelatin in his metal head. It is also connected to metal segments magnified to the outer layer of his brain which can be easily detached without any repercussions. when they detach his brain they must quickly preserve it in a preservation tank before it starts to decompose. (essentially he is a brain in a jar lmao.) And yes, this is the same preservation tank as the one they used for Robot/Rudy Connors in the comics.

Optical Sensors- Located in his bionic eyes, they give off the illusion of human eyes accurately  they also allow Donald to differentiate between light variations they can also allow him to see in infrared and give him night vision...but he doesn't know this yet...hehe

Eye Subsystem are motors that allow Donald to express emotions and are composed of his eyebrows, eyelids, and of course, eyes. Now given his nature he very rarely ever emotes but the subsystem is very accurate nonetheless. There are two buttons located on his eye subsystem which are called trigger buttons. When both are activated it will open up his face plate to reveal his metal skull. This allows the mechanics to repair him much faster and efficiently, unfortunately, they can be triggered easily so if he gets punched in the face or sleeps in a weird position it's likely he will accidentally trigger them which can end up in an uncomfortable situation.

Mouth Subsystem- these are motors that are composed of his mouth parts such as his lips, teeth, gums, tongue, and vocal folds. Much like with his eye subsystem, they allow him to express himself and communicate with others.

Bionic Eye and Eye Mechanisms- These are mechanisms that allow Donald to see and express himself.

Silicone Skin Outer Surface- This is Donald's fake skin which is composed of silicone accurately replacing human flesh. hair follicles can also be inserted in Donald’s skin to allude to organic body hair. unfortunately, his artificial skin cannot regenerate on its own and requires manual repairs

Microphone Sensor/Ear Detection EM Waves- This allows Donald to hear sounds that average humans cannot hear (Electromagnetic sound waves) This is done by converting em sound waves to audible sounds. It also allows him to communicate through other devices by sending audible signals

Artificial Teeth- This mimics the function of human teeth and is composed of acrylic resin they are much more durable and sturdy allowing them to decompose slower over time if used too much.

Linear Motion Mechanism- This allows Donald to move his neck up and down and convert from rotational or horizontal movement to vertical

Audible Larynx- This allows Donald to allow air to move through the passageway and also allows him to vocalize sound or talk. This artificial larynx also prevents his voice from sounding robotic or augmented, if damaged, his voice will come off as robotic.

Linear DC Servo Neck Motor- This allows Donald to rotate his neck in many positions

Artificial Nervous System- (ANS) mimics the biological function of the human nervous system which is composed of neuroreceptors, nerve stimulators, nerve receptors, and neuron circuitry allowing Donald to react to stimuli similar to how he used to before he died.

Power Core Energy Conductor- Even though Donald's brain is his body's main source of power, he still requires a source to conduct energy or electricity through his body especially when he's on low power. His body, just like most humans, requires "charge" to restore energy but he relies on an external source other than sleep which is a charging station. If his Power core is damaged it will result in an automatic shutdown. His power core is essentially his actual heart.

Hip Joint Motor- This is a motor that acts as an artificial hip and allows Donald to move in all positional possible by humans by all axes

Rotary Arm Joints- These joints allow Donald to move his arms in several positions

Artificial Internal Digestive Unit- This is an artificial digestive system that mimics most of the function of organic digestive systems though is not advanced enough to replicate the silhouette. It also digests the nutrient intake Donald consumes and transports the nutrients to his brain to absorb.

Artificial Pelvic Region- This acts as an artificial pelvis and even mimics Donald’s original silhouette

Hydraulic Hand Actuators- This allows Donald to move his hands via using pressurized liquid (oil) however this can result in janky movement sometimes though before he found out about his robotic nature he assumed that he was developing arthritis (which is reasonable considering he's in his 50s)

Artificial Rectum- Um...do i really need to explain this? Ok..well as the term implies this allows him to go to the bathroom but he doesn't really need to it just mimics human bodily function to avoid suspicion what's interesting is that the contents that he consumes, especially liquids are only dyed to appear like urine but because he doesn't have actual blood they can't break down the contents ad hey cant be filtered to his kidneys because..well he doesn't have any. So the mechanisms in his rectum and digestive system dye the content he consumes kind of like some kind of chemical lab process in his body just to make an illusion that he can relieve himself. however, he doesn't really need to eat or to drink.

Tactile and Biosensors- This allows Donald to feel sensations in his fingers and through his body albeit not as efficiently as before he died.

Neuro Stimulators- These much like his biosensors allow him to receive pain signals through his body via electrical impulses that are connected to his brain and make up his artificial nervous system to mimic the feeling of pain or nerve receptors in humans.

Angular Encoders- These help measure movements in Donald to mov his joints much more precisely which help him move more quickly and accurately esp when fighting

Servo Motor Controls- These are rotary actuators that allow more precise movement in Donald esp when rotating limbs

Titanium Limbs- These are the material that his endoskeleton and body parts are composed of titanium

Rotary Ankle Joints- These allow Donald to move his ankles relative to a how a human moves their ankles via a servo motor

Also here's more versions!!

oooh and heres more!

Here's more label info on his other blueprint-

Artificial Tongue Composed of Rubber- This tongue which is obviously located in his mouth, allows him to speak and eat clearly much like the function of organic tongues in humans. It's composed of resin and dyed rubber.

Remaining Organic Tissue- The remaining organic tissue in Donald is obvi his brain which isolated in his metal skull

Multifilament Muscles- These muscles operate similarly to humans but function at a much more efficient rate, they are also more sturdy and are less likely to tear compared to regular humans. They are composed of silk which is a very strong and elastic material esp strung together like yarn.

Artificial Fat (foam)- The artificial fat as it implies is composed of soft foam similar to humans but slightly off in feeling. Of course, Donald shrugged it off as "getting older" because what other logical reason would explain feeling weird in your own body?

Artificial Lungs (air sacs)- The artificial lungs are air sacs similar to cars and inflate and deflate based on Donald's breathing patterns. They also transport oxygen from outside Donald's body into his brain to produce the required energy to function.

Extracorporeal Membrane Oxygenation (ECMO)- The artificial respiratory system it pumps blood from donalds body and adds oxygen and removes carbon dioxide. blood flows from the artificial heart back to the ECMO.

Artificial Titanium Secondary Skeleton- This secondary skeleton only serves as to illude the silhouette and feel of an organic skeleton to prevent any further suspicion.

Internal Cooling System- This system allows Donald's body to regulate temperature much like thermoregulation, it circulates a coolant through channels to absorb heat from an engine or other system. This prevents Donald's systems from overheating and causing short-circuitry and other malfunctions from occurring. However, if damaged or exposed to extremely high temperatures, his system will start to overheat and he will start to malfunction.

Artificial Heart- This acts as an actual heart and functions by keeping the artificial blood flowing through Donald's body.

Wires Underneath Skin- The wires underneath Donald's body are used to send electrical signals to his body and prevent them from affecting his body. They also are used to transmit information from the brain to the body such as electrodes.

Artificial Blood- This functions like human blood, it can be able to circulate energy and information through the body. It also transmits oxygen and carbon dioxide to and from the body. However, Donald cannot produce blood on his own and doesn't require as much as most humans. It's mostly meant for the show to convince him and others he's human.

Artificial Urinary System- As the term implies it acts as an organic urinary system and automatically assists in preventing involuntary "urine" leakage. He has an artificial bladder that stores the "urine" which is really just dyed liquid as his body can no longer abide by the three-step process of producing urine such as filtration, reabsorption, and secretion. Though, the bladder functions as any human bladder and when it is filled up it will release the urine through the urethra and outside the body. The purpose is to convert nutrients into energy which the remaining nutrients will be spread to the blood and brain.

Artificial Reproductive System- As the term implies the reproductive system acts as an organic human reproductive system which consists of...um...you know what? Let's skip this one. I really really don't want to have to explain this tbh. (even though I put it here.)

Wired Circulatory System- This consists of wires and circuitry that acts as a network of vessels that circulate Donald's artificial blood throughout his body whilst delivering oxygen to his brain cells. It also delivers electrical signals or information to his body when he feels pain.

Gastric Pump as Artificial Digestive System- This consists of synthetic tubes that can expand and contract like actual intestines that way contents can pass through with little struggle. on the outside of the intestines is which is made from silicon and rubber and can mimic how oxygen passes through the gut and can even stimulate the ability to vomit. He also contains an esophagus made from rubber which allows many foods to pass through. He does have taste in his artificial tongue however it's not as efficient as his old one. When food passes through his digestive tract acidic enzymes break it down into small chunks and are squeezed through this molding system where it dyes and transforms the content into a "stool" or "urine" kind of like playdough factory toys. (don't worry it's not as gross as it sounds) 

Bionic Eyes- the function by converting images from built-in cameras connected to the brain and siding electric signals that stimulate the brain which interprets it as an image.

Image Processing and Tracking Software- These allow Donald to manipulate and analyze data as images but also track where certain subjects move with high precision. Enhancing his mental images and giving him a "keen" eye.

Artificial Regenerative Hair Follicles- these are made from synthetic material that can expand in very thin strings to give the illusion that they can grow. They often increase in length when exposed to high temperatures. So basically Donald can cut his hair but it can't grow very long. his nails are made from the same materials

Backup Charging Port- located on Donald’s neck, this charging port is mainly for emergencies just in case if his chest charging port is malfunctioning. It is located above his power trigger buttons which can result in a shutdown if activated or stimulated by high stress levels.

Titanium Spine - This is located on Donald's back and is composed of titanium which is very difficult to crush...unless you're a pure-blood viltrumite. 

Oh, and another thing, although Da Sinclair didn’t make Donald’s 39th endoskeleton, he was asked to revise some parts by the old man himself, Cecil Stedman. The reason being that Cecil wanted to make Donald much stronger than last time replacing actuators and adding more multifilients in certain places. He did it out of care but also knowing the questionably ethical methods he must take in order to keep Donald alive.

Thomas, Engineer

Part 1

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

Watching Tranquility Base drift away as the Noah launched on its maiden voyage from Earth’s moon left Thomas Hibbs with an odd feeling of deja vu. He’d worked on dozens of ships, but always in the engineering decks where the only windows were peering into the mechanical arrays. Peering out into the void of space was…actually pretty damn cool in Thomas’s opinion.

I wonder if this thing has a VR Grid, he thought.

In the 50 years since humanity had joined the GAIL, it hadn’t been all space hoppers and life saving medical breakthroughs, the entertainment industry had made huge jumps in realism and simulated realities. One species in particular, the machine people known as the Padrino, had such a realistic virtual reality environment code that practically every other species in the assembly paid top dollar for a copy of it. Thought most used it for information storage and practical exploits, Humans were the first to turn it into a hyper advanced game simulation. The Padrino weren’t exactly pleased to learn the code they used to store their memories and experiences was being used to fight monsters with supernatural powers at weekend game tournaments on Earth, but they didn’t complain that much. Thomas had the idea to upload a compatible version of an old game called PAC-MAN where you’re your own avatar running the mazes into the ships computers. He couldn’t wait to get that high score again.

The engineering deck was right below the science labs, and Thomas saw one of the 3 other humans on board with him. He thought her name was Liz or something, but didn’t stop to say hi. She looked preoccupied with something, and talking to people was hard. Machines were good listeners. Thomas could talk for hours to machines while he worked, even if they weren’t the kind that could talk back, thought this ship did have those. Maybe here he could meet some people who get him.

The engineering deck was all catwalks and overhead piping, service lights and ventilation ducts. Computer terminals threw blue light against the opposite wall as Thomas made his way to the Engineer ‘locker’ room. Thomas figured that’s what it was, given the cubbies for the crew’s personal items and racks and shelves of tools and equipment for the ‘fixers’ to use.

There were about two dozen people moving around the room, none of them human, several of which were non biological as well. 2 Padrino were there, speaking their machine language while they sorted tools across a long workbench against the far wall. There were several other species as well that Thomas didn’t recognize, lots of different shapes and sizes. He felt a little insecure, being just the basic human he was.

Thomas found his name on the cubby wall and stuff his own tool bag in there, as well as a change of clothes and safety gear. Then he very carefully hid a hand held game pad under his spare jumpsuit, for emergencies. He’d been stuck in an air duct once before for hours twiddling his thumbs. Never again.

Just as he finished stuffing away his gear, something small bumped against his boot. He looked down, and saw a small robot waiting patiently for him to lift his foot. Apparently he’d been trailing confetti from the launch ceremony around the ship the whole time because these droids weren’t supposed to be down here in engineering. It had probably been following him since he’d walked in. The little guy had a cylinder torso, no real neck but his head looked like it turned in circles with two tiny exhaust pipes sticking out the top. Two ‘eyes’, or sensors with aesthetics, were all that made up the face. His little feet reminded Thomas of a chicken’s, and he had two little arms with tiny hands on each.

“Oh my god you’re so cute I love you,” Thomas half squealed as he picked the little robot up like a baby. “Have you been following me this whole time? Doing such a good job, keeping the ship clean. Did you get lost? Do you need help?”

The little machine just looked at him and wiggled its legs, probably the gyroscope trying to compensate for the sudden shift in balance.

One of the other engineers laughed.

“It’s just a service drone, it can’t actually understand you. It probably just followed your trail of waste and its sensors can’t get it back to the upper decks anymore.”

Thomas looked up from the tiny robot to see a fair number of his co workers looking at him, some trying to hide smiles, some not bothering being so polite. He felt his face begin to burn as a blush came to his cheeks and surged down his neck.

Oh my god I can’t believe I did that but it’s so freaking cute how can I not how can they not love it maybe there’s more on the ship this cute, his brain might implode at the rate it was going. The service drone continued to wiggle in his grip. To Thomas it was almost the size of a toy, maybe a solid 4 inches tall. It stopped squirming and looked up at his face, its tiny head whirring and clicking as gears shifted inside its chassis. It reached out one of its tiny hands and poked his thumb.

“Beep.”

“Beep.”

“Beep.”

Thomas’s mouth dropped. How could a machine with no higher functioning AI be this adorable?

“I’m gonna call you Roomba.”

“That’s just its service alarm. It’s processing an inability to perform its tasks so it thinks it’s stuck somewhere, ergo it’s alerting other drones to come assist it. It probably thinks you’re rectifying the obstacle.”

There were some snickers, a few openly laughed, but Thomas couldn’t care about them right now. The little droid was so adorable in Thomas’s eyes it was like looking at puppies.

He did, however, notice the 2 Padrino staring at him, motionless. For a moment he worried he’d maybe offended them by gushing over the little toy like robot. One of them approached. The Padrino had a clearly mechanical body with chrome plating encasing its joints and limbs. Its torso was thin but solid, whirring quietly as it walked over. Its head had a single antenna with a tinted face plate, which Thomas figured just was it’s ‘face’.

“It has been observed that Humans form an emotional bond to many different species and objects. Is this what is occurring, Human Thomas?”

Gauging the inflections of their voice was difficult, they didn’t have any kind of body language and the voice itself was entirely synthesized, adding layers of difficulty. Thomas thought for a moment, then just shrugged.

“I didn’t mean to cause a scene in here, I just got excited. It’s small and kinda cute so I just lost control for a moment.”

“Apologizing is unnecessary. We’d simply like to understand how Humans function to better improve the efficiency of this division.”

“Beep.”

The service drone wiggled in his hand again.

“It appears the small droid is out of range of its directive. It is asking for assistance with a new objective to replace its task queue.”

“Wait, you can understand it?”

“Yes, the alert sound is not a language. It’s sending out a very short range signal burst with information embedded in it, which I can receive with internal sensors. It’s AI is crude and simple, but it does have the basic functionality to form an artificial language. You’ve replaced its designation D7 with the name Roomba.”

Thomas looked from the Padrino to the little droid and back again.

“Does it like the name?”

“Beep.”

“It says it is a sufficient new designation and is awaiting a new task queue.”

“Oh good, I’m not good at naming stuff so I was worried-”

“Since the ship has launched, the service drones have gone inactive due to safety features. Since this one, new designation Roomba, was here on the engineering deck, it was outside the proximity of the ship’s AI core transmissions. It has exhausted its task queue and requests a new one.”

“Beep.”

“It is repeating the request.”

“Yeah, yes, got that, thank you. Okay, and I can just give it something to do?”

“That is correct.”

“Beep.”

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

“Roomba, can you hand me another bolt please?”

“Beep.”

[Primary task in the queue has not been completed: obtain high score]

“I know buddy, but you can pause it with that little button on the side there. I need that bolt real quick.”

Roomba looked where Thomas was pointing on the game pad. The pad itself was bigger than the drone, by a good half inch, so it was like Roomba was standing on a flat screen built into the floor, or playing one of those retro dance machine games from way back.

“Beep.”

[Acknowledged]

The Padrino had been kind enough to give Thomas’s ear piece translator an quick upgrade, so now he was able to receive Roomba’s signal burst data and understand what he was ‘saying’. They��d even given Roomba’s AI a little tune up so he could understand more complex tasks and ideas. Roomba had disconnected from the ship’s core code when he’d gone to the engineering deck so Thomas figured it’d be fine, the little guy could hang out with him now.

It took Roomba’s whole hand to get the game pad to register the pressed button and pause PAC-MAN, which was cute. And what was even cuter was the bolt Thomas needed was half the little robots size so it struggled just a little to bring it over the few feet to him.

“Good job buddy, thank you,” Thomas said, grinning.

“Beep.”

[Acknowledged. Returning to primary task]

“You do that. Good luck Roomba.”

At the time, the only thing the Padrino had asked for in return for their help and upgrades was the chance to observe biological lifeforms and their tendencies to ‘bond’ with others. The Padrino were a sort of hive mind it seemed, each unit being just an interface with the main AI back on their home planet. When units were out of range of communication with the home office, the main AI base code was copied into the machines and split off to collect information. When they got home, they dumped the data into the main computers and integrated back into the main AI core.

Thomas thought they were the coolest people he’d ever met. He’d said ‘sure, observe all you want, I just wanna thank you guys for your help.’

The game pad trilled, a little tune to congratulate moving up a level.

“Beep.”

[Update: progress has been made. Continuing primary task: obtain high score]

“Good work Roomba. You keep at it buddy, you’ll get there.”

From down the hall the 2 Padrino watched the strange little robot ‘playing video games’ next to the human doing an actually productive task.

“More data must be collected. The human, a deathworlder, has bonded to the drone.”

“We will continue to observe.”

“Agreed.”

100 Inventions by Women

LIFE-SAVING/MEDICAL/GLOBAL IMPACT:

Artificial Heart Valve – Nina Starr Braunwald

Stem Cell Isolation from Bone Marrow – Ann Tsukamoto

Chemotherapy Drug Research – Gertrude Elion

Antifungal Antibiotic (Nystatin) – Rachel Fuller Brown & Elizabeth Lee Hazen

Apgar Score (Newborn Health Assessment) – Virginia Apgar

Vaccination Distribution Logistics – Sara Josephine Baker

Hand-Held Laser Device for Cataracts – Patricia Bath

Portable Life-Saving Heart Monitor – Dr. Helen Brooke Taussig

Medical Mask Design – Ellen Ochoa

Dental Filling Techniques – Lucy Hobbs Taylor

Radiation Treatment Research – Cécile Vogt

Ultrasound Advancements – Denise Grey

Biodegradable Sanitary Pads – Arunachalam Muruganantham (with women-led testing teams)

First Computer Algorithm – Ada Lovelace

COBOL Programming Language – Grace Hopper

Computer Compiler – Grace Hopper

FORTRAN/FORUMAC Language Development – Jean E. Sammet

Caller ID and Call Waiting – Dr. Shirley Ann Jackson

Voice over Internet Protocol (VoIP) – Marian Croak

Wireless Transmission Technology – Hedy Lamarr

Polaroid Camera Chemistry / Digital Projection Optics – Edith Clarke

Jet Propulsion Systems Work – Yvonne Brill

Infrared Astronomy Tech – Nancy Roman

Astronomical Data Archiving – Henrietta Swan Leavitt

Nuclear Physics Research Tools – Chien-Shiung Wu

Protein Folding Software – Eleanor Dodson

Global Network for Earthquake Detection – Inge Lehmann

Earthquake Resistant Structures – Edith Clarke

Water Distillation Device – Maria Telkes

Portable Water Filtration Devices – Theresa Dankovich

Solar Thermal Storage System – Maria Telkes

Solar-Powered House – Mária Telkes

Solar Cooker Advancements – Barbara Kerr

Microbiome Research – Maria Gloria Dominguez-Bello

Marine Navigation System – Ida Hyde

Anti-Malarial Drug Work – Tu Youyou

Digital Payment Security Algorithms – Radia Perlman

Wireless Transmitters for Aviation – Harriet Quimby

Contributions to Touchscreen Tech – Dr. Annette V. Simmonds

Robotic Surgery Systems – Paula Hammond

Battery-Powered Baby Stroller – Ann Moore

Smart Textile Sensor Fabric – Leah Buechley

Voice-Activated Devices – Kimberly Bryant

Artificial Limb Enhancements – Aimee Mullins

Crash Test Dummies for Women – Astrid Linder

Shark Repellent – Julia Child

3D Illusionary Display Tech – Valerie Thomas

Biodegradable Plastics – Julia F. Carney

Ink Chemistry for Inkjet Printers – Margaret Wu

Computerised Telephone Switching – Erna Hoover

Word Processor Innovations – Evelyn Berezin

Braille Printer Software – Carol Shaw

⸻

HOUSEHOLD & SAFETY INNOVATIONS:

Home Security System – Marie Van Brittan Brown

Fire Escape – Anna Connelly

Life Raft – Maria Beasley

Windshield Wiper – Mary Anderson

Car Heater – Margaret Wilcox

Toilet Paper Holder – Mary Beatrice Davidson Kenner

Foot-Pedal Trash Can – Lillian Moller Gilbreth

Retractable Dog Leash – Mary A. Delaney

Disposable Diaper Cover – Marion Donovan

Disposable Glove Design – Kathryn Croft

Ice Cream Maker – Nancy Johnson

Electric Refrigerator Improvements – Florence Parpart

Fold-Out Bed – Sarah E. Goode

Flat-Bottomed Paper Bag Machine – Margaret Knight

Square-Bottomed Paper Bag – Margaret Knight

Street-Cleaning Machine – Florence Parpart

Improved Ironing Board – Sarah Boone

Underwater Telescope – Sarah Mather

Clothes Wringer – Ellene Alice Bailey

Coffee Filter – Melitta Bentz

Scotchgard (Fabric Protector) – Patsy Sherman

Liquid Paper (Correction Fluid) – Bette Nesmith Graham

Leak-Proof Diapers – Valerie Hunter Gordon

FOOD/CONVENIENCE/CULTURAL IMPACT:

Chocolate Chip Cookie – Ruth Graves Wakefield

Monopoly (The Landlord’s Game) – Elizabeth Magie

Snugli Baby Carrier – Ann Moore

Barrel-Style Curling Iron – Theora Stephens

Natural Hair Product Line – Madame C.J. Walker

Virtual Reality Journalism – Nonny de la Peña

Digital Camera Sensor Contributions – Edith Clarke

Textile Color Processing – Beulah Henry

Ice Cream Freezer – Nancy Johnson

Spray-On Skin (ReCell) – Fiona Wood

Langmuir-Blodgett Film – Katharine Burr Blodgett

Fish & Marine Signal Flares – Martha Coston

Windshield Washer System – Charlotte Bridgwood

Smart Clothing / Sensor Integration – Leah Buechley

Fibre Optic Pressure Sensors – Mary Lou Jepsen