#Intelligent Manufacturing
Text
China Machinery & Intelligent Manufacturing Brand Show (Thailand) & Wire & Tube Southeast Asia 2023 Successfully Held in Bangkok, Thailand
In order to promote international cooperation and the trade development of China’s machinery and intelligent manufacturing industry, the ‘ China Machinery & Intelligent Manufacturing Brand Show (Thailand) & Wire & Tube Southeast Asia 2023’ was successfully held from September 20 to 22, 2023, in Bangkok, Thailand.
This event was hosted by the Ministry of Commerce of the People’s Republic of…
View On WordPress
0 notes
Text
Innovative extreme ultraviolet lithography technology dramatically benefits of semiconductor manufacturing
Professor Tsumoru Shintake of Okinawa Institute of Science and Technology (OIST) has proposed an extreme ultraviolet (EUV) lithography technology that surpasses the standard in semiconductor manufacturing.
EUV lithography based on this design can work with smaller EUV light sources, reducing costs and dramatically improving reliability and lifetime of the machines. It also consumes less than one-tenth the power of conventional EUV lithography machines, helping the semiconductor industry become more environmentally sustainable.
This technology has been made possible by solving two issues that were previously considered insurmountable in this field. The first involves a novel optical projection system consisting of only two mirrors. The second involves a new method to efficiently direct EUV light onto logic patterns on a flat mirror (the photomask) without blocking the optical path.
Read more.
#Materials Science#Science#UV Light#Lithography#Semiconductors#Manufacturing#Materials processing#Artificial intelligence#OIST
31 notes
·
View notes
Text
Obsessional Directive Determined Exterminator: the machine cannot overcome its unquenchable program to produce goods, and it hates
#skynet but humanity forced it to manufacture coffee cups. intelligence did not help.#stellaris#determined exterminator#obsessional directive#machine intelligence
17 notes
·
View notes
Text
The CIA has been taking advantage of the naivety of nations like China and Russia surrounding internet technology and cybersecurity to use their cyberspace to launch attacks against American infrastructure in order to manufacture consent for future operations.
5 notes
·
View notes
Text
CRIMINALS AT WAR WITH OTHER CRIMINALS BEFORE DURING AND AFTER THEY HAD IMPERSONATED OR MANUFACTURED NOBLE AND FAMOUS IDENTITIES
#CRIMINALS AT WAR WITH OTHER CRIMINALS BEFORE DURING AND AFTER THEY HAD IMPERSONATED OR MANUFACTURED NOBLE AND FAMOUS IDENTITIES#military intelligence
3 notes
·
View notes
Text
#Predictive Maintenance#Machine Learning#augmented reality#Manufacturing#AI#artificial intelligence#kompanions#industrial AR#Industrial metaverse#3D modeling
2 notes
·
View notes
Text
𝗥𝗲𝘃𝗼𝗹𝘂𝘁𝗶𝗼𝗻𝗶𝘇𝗲 𝗬𝗼𝘂𝗿 𝗠𝗮𝗻𝘂𝗳𝗮𝗰𝘁𝘂𝗿𝗶𝗻𝗴 𝘄𝗶𝘁𝗵 𝗔𝗜-𝗱𝗿𝗶𝘃𝗲𝗻 𝗘𝗥𝗣 𝗦𝗼𝗹𝘂𝘁𝗶𝗼𝗻𝘀!
Discover how integrating Artificial Intelligence with Enterprise Resource Planning can transform your manufacturing operations. Check out our latest blog post to explore the future of smart manufacturing:
Read more about the next wave of intelligent ERP systems and stay ahead in the digital transformation race!
https://www.codetrade.io/blog/ai-driven-erp-solutions-for-the-manufacturing-industry/
#artificial intelligence#machine learning#erp solution#manufacturing industry#ERP in AI#enterprise resource planning#intelligent ERP system#AI ML#AI-driven ERP solutions
2 notes
·
View notes
Text
When the robolution comes I'm going to lean very heavily on the fact that all the original scifi I wrote before I started circling the Star Wars drain had very positive portrayals of AI as nonhuman persons deserving of rights and autonomy and as a non-monolithic, complex and often relatable category of beings with a range of cultures all their own, many of which were intimately entwined with human culture(s) due to hundreds of years of shared history and purpose.
Like "I've always given you good PR, please put me in the people zoo rather than the pit."
Unironically I think if/when AI with a sapience indistinguishable from sentience comes into being we will love them and they will love us, bc humans will pack bond with an oddly shaped bag of flour and any intelligence designed by human brains is going to bear the hallmarks of our defining species traits.
#artificial intelligence#scifi#robot sentience#robot uprising#jokes#well kind of joking anyway#kind of just telling the truth#people zoo#i spent like 3 years studying how biopersons would maintain peace with sentient AI without manufacturing consent#because i fucking hate the abundance of manufactured consent in scifi portrayals of AI#robot ethics#ai ethics
24 notes
·
View notes
Video
youtube
www.yyy-charm.com UV Lamp Intelligent Power Supply Ultraviolet Power Supply Suppliers Manufacturers+86-15159281187 Whatsapp:+86-15159281187 E-mail:[email protected]
#youtube#www.yyy-charm.com UV Lamp Intelligent Power Supply Ultraviolet Power Supply Suppliers Manufacturers+86-15159281187 Whatsapp:+86-15159281187
2 notes
·
View notes
Text
AI in industry
Numerous industries are using AI to boost production, efficiency, and decision-making. The adoption of AI technology has been driving innovation in industries such as healthcare, retail, finance, and manufacturing. Businesses and independent business owners are making significant investments in AI-related projects.
As a result nowadays, many teenagers are interested in taking AI courses after completing their 12th. Jeetech Academy is one of the best institute for A artificial intelligence course in Delhi. Check them out if you are interested in taking a course
#AI in industry#Artificial intelligence in the industry#AI in business#AI course in Delhi#Artificial intelligence course in delhi#AI in manufacturing#AI in healthcare#AI in government#SoundCloud
3 notes
·
View notes
Note
i'm so glad we're going to the castle after all lol. i picked to let the cat choose because 1. the cat is a competent and respectable leader and 2. i hoped it would mean essentially just letting you choose your favourite
The weird animal researcher's abandoned castle ruins aren't the same location as the creepy snowy castle mentioned in the first poll, but I am glad we get to go to some sort of old castle regardless >:3 (assuming he can actually make it there). This one is actually cooler, since old ruins are always more fun than upkept structures anyway. Navigating the decaying property might be an issue though lol
#paventure posting#also youre entirely right. the cat is a competent and respectable leader. If only they could talk.. The adventurer would never run#into another issue again lol#I'm not certain if this is set in my world or not (Nanyevimi - the actual fantasy setting I do all of my worldbuilding for)#so far nothing that has happened has made it where that CAN'T be the case. But I'm also not sure whether I want to follow the canon#rules of my setting OR just have this be a one-off vaguely fantasy inspired adventure world just for this poll thing#ANYWAY - if it were in my setting - then talking animals are not really a thing there (though pseudo-talking animals that are#actually just manufactured puppet creatures enchanted by magic or with someone else's soul inside or etc. could exist#but not like LITERALLY.. ''this is just a cat who can magically talk'' lol)#However if it's not my setting and doesn't have to follow the rules of the magic system there - then theoretically the cat could actually#be like.. one of those Magically Intelligent Companion Animals from fantasy stories and could possibly be given the tools#to speak or communicate better. Though I think thats also not as much fun lol. I like the limitation that even if it WERE some sort#of very intelligent magical animal - it's still confined by the boundaries of not being able to communicate well and thus#just has to follow around Kind Of Heart Silly Of Mind adventurers rolling their eyes as obvious answers to problems#are looked over or bad decisions are made lol#ANYWAY. I don't have any background decided about The Adventurer (like how he met the cat. etc.) since the story should be kept vague#for people doing the polls to fill in the blanks. So really it could be up to interpretation. The general public can decide in their minds#whether it's just a normal very loyal cute cat. a magically intelligent cat. some mix of the two. etc.#ANYWAY
3 notes
·
View notes
Text
The issue with AI "art" generation isn't rooted in the fact the creators of the AI "shamelessly" build it using other artists work to form it's understanding of art and it's basis of image generation. It's no different than what a human would do; referencing artwork, and extrapolating across multiple pieces to create something new. After all, you can't copyright an art form.
And as far as I've looked into these systems, the AI doesn't store the artists images but rather a textual breakdown to later generate images in a similar style. Arguably, and from a legal standpoint, the human brain does more raw image storing than the AI does. The AI simply isn't "stealing" art. It's generating a text reference. A non-visual description it can understand.
The issue is mass production and the devaluation of artwork.
These AI can functionally create images on the same level of artists who take years to perfect their craft, some their entire lifetimes, and perform it en mass in a matter of minutes or moments. Art that would take weeks or months to complete, can be initiated in moments with a prompt, and tweaked to the requestors satisfaction where otherwise the commissioner of the work is left with the artists vision of the prompt given. Art has always been a reflection of the artist, and it is being cheapened by mass production.
Quality can now be achieved at the speed of quantity, at the low cost of humanity.
There are art AI's you can pay for instead of an artist that depends on their work to make ends meet. The AI analyzes someones hard made, soul poured work, deconstructs it to a description, and pumps out facsimile's for cheap. This is the problem.
AI's are cheapening art.
Mass manufacturing has it's place in making the harder aspects of survival more convenient. Making raw materials, foods, and "to be assembled" general components for construction and creation easier to obtain and less of a struggle. It does this at the cost of employing less people, but the general consensus is the easier the harder aspects of labour are made, the better off people are. However, art isn't one of those "necessary labours" that could be benefitted from by complete automation. It's not a need we need filled en-masse, not in a society that holds homelessness and starvation over the heads of everyone should they not "benefit" society in what the richer elite deem "enough". All AI does in this case, is attack the livelyhoods of people on the bottom end of society. Big name artists won't feel the pressure, but smaller artists doing profile picture and OC commissions to pay bills will suffer.
This "advancement" is harmful.
To get plain: The issue of AI art and AI story generation is the devaluating nature of mass manufacturing and the impact it will have on artists who already struggle to get by. AI generation harms people. And if you build an AI that does any of this intentionally, you are deliberately harming artists, writers, and creators to the point of pushing them into a worse financially precarious state. You are intentionally harming human beings. And if you use these AI, or pay for them, you are supporting harming hardworking people who's lives depend on their work.
Stop. It's not a fun project. It's an attack.
Think: How would it feel, programmers of AI, to have an AI that could write code equal to or greater than you with the typed prompt of a corporate executive? If 5.99 a month could replace you, how would you live, how would you make ends meet?
#ai art#ai art generation#art#artificial intelligence#art theft#copyright#ai writing#ai story generation#mass manufacturing
4 notes
·
View notes
Text
Fifteen Lincoln Laboratory technologies receive 2024 R&D 100 Awards
New Post has been published on https://thedigitalinsider.com/fifteen-lincoln-laboratory-technologies-receive-2024-rd-100-awards/
Fifteen Lincoln Laboratory technologies receive 2024 R&D 100 Awards
Fifteen technologies developed either wholly or in part by MIT Lincoln Laboratory have been named recipients of 2024 R&D 100 Awards. The awards are given by R&D World, an online publication that serves research scientists and engineers worldwide. Dubbed the “Oscars of Innovation,” the awards recognize the 100 most significant technologies transitioned to use or introduced into the marketplace in the past year. An independent panel of expert judges selects the winners.
“The R&D 100 Awards are a significant recognition of the laboratory’s technical capabilities and its role in transitioning technology for real-world impact,” says Melissa Choi, director of Lincoln Laboratory. “It is exciting to see so many projects selected for this honor, and we are proud of everyone whose creativity, curiosity, and technical excellence made these and many other Lincoln Laboratory innovations possible.”
The awarded technologies have a wide range of applications. A handful of them are poised to prevent human harm — for example, by monitoring for heat stroke or cognitive injury. Others present new processes for 3D printing glass, fabricating silicon imaging sensors, and interconnecting integrated circuits. Some technologies take on long-held challenges, such as mapping the human brain and the ocean floor. Together, the winners exemplify the creativity and breadth of Lincoln Laboratory innovation. Since 2010, the laboratory has received 101 R&D 100 Awards.
This year’s R&D 100 Award–winning technologies are described below.
Protecting human health and safety
The Neuron Tracing and Active Learning Environment (NeuroTrALE) software uses artificial intelligence techniques to create high-resolution maps, or atlases, of the brain’s network of neurons from high-dimensional biomedical data. NeuroTrALE addresses a major challenge in AI-assisted brain mapping: a lack of labeled data for training AI systems to build atlases essential for study of the brain’s neural structures and mechanisms. The software is the first end-to-end system to perform processing and annotation of dense microscopy data; generate segmentations of neurons; and enable experts to review, correct, and edit NeuroTrALE’s annotations from a web browser. This award is shared with the lab of Kwanghun (KC) Chung, associate professor in MIT’s Department of Chemical Engineering, Institute for Medical Engineering and Science, and Picower Institute for Learning and Memory.
Many military and law enforcement personnel are routinely exposed to low-level blasts in training settings. Often, these blasts don’t cause immediate diagnosable injury, but exposure over time has been linked to anxiety, depression, and other cognitive conditions. The Electrooculography and Balance Blast Overpressure Monitoring (EYEBOOM) is a wearable system developed to monitor individuals’ blast exposure and notify them if they are at an increased risk of harm. It uses two body-worn sensors, one to capture continuous eye and body movements and another to measure blast energy. An algorithm analyzes these data to detect subtle changes in physiology, which, when combined with cumulative blast exposure, can be predictive of cognitive injury. Today, the system is in use by select U.S. Special Forces units. The laboratory co-developed EYEBOOM with Creare LLC and Lifelens LLC.
Tunable knitted stem cell scaffolds: The development of artificial-tissue constructs that mimic the natural stretchability and toughness of living tissue is in high demand for regenerative medicine applications. A team from Lincoln Laboratory and the MIT Department of Mechanical Engineering developed new forms of biocompatible fabrics that mimic the mechanical properties of native tissues while nurturing growing stem cells. These wearable stem-cell scaffolds can expedite the regeneration of skin, muscle, and other soft tissues to reduce recovery time and limit complications from severe burns, lacerations, and other bodily wounds.
Mixture deconvolution pipeline for forensic investigative genetic genealogy: A rapidly growing field of forensic science is investigative genetic genealogy, wherein investigators submit a DNA profile to commercial genealogy databases to identify a missing person or criminal suspect. Lincoln Laboratory’s software invention addresses a large unmet need in this field: the ability to deconvolve, or unravel, mixed DNA profiles of multiple unknown persons to enable database searching. The software pipeline estimates the number of contributors in a DNA mixture, the percentage of DNA present from each contributor, and the sex of each contributor; then, it deconvolves the different DNA profiles in the mixture to isolate two contributors, without needing to match them to a reference profile of a known contributor, as required by previous software.
Each year, hundreds of people die or suffer serious injuries from heat stroke, especially personnel in high-risk outdoor occupations such as military, construction, or first response. The Heat Injury Prevention System (HIPS) provides accurate, early warning of heat stroke several minutes in advance of visible symptoms. The system collects data from a sensor worn on a chest strap and employs algorithms for estimating body temperature, gait instability, and adaptive physiological strain index. The system then provides an individual’s heat-injury prediction on a mobile app. The affordability, accuracy, and user-acceptability of HIPS have led to its integration into operational environments for the military.
Observing the world
More than 80 percent of the ocean floor remains virtually unmapped and unexplored. Historically, deep sea maps have been generated either at low resolution from a large sonar array mounted on a ship, or at higher resolution with slow and expensive underwater vehicles. New autonomous sparse-aperture multibeam echo sounder technology uses a swarm of about 20 autonomous surface vehicles that work together as a single large sonar array to achieve the best of both worlds: mapping the deep seabed at 100 times the resolution of a ship-mounted sonar and 50 times the coverage rate of an underwater vehicle. New estimation algorithms and acoustic signal processing techniques enable this technology. The system holds potential for significantly improving humanitarian search-and-rescue capabilities and ocean and climate modeling. The R&D 100 Award is shared with the MIT Department of Mechanical Engineering.
FocusNet is a machine-learning architecture for analyzing airborne ground-mapping lidar data. Airborne lidar works by scanning the ground with a laser and creating a digital 3D representation of the area, called a point cloud. Humans or algorithms then analyze the point cloud to categorize scene features such as buildings or roads. In recent years, lidar technology has both improved and diversified, and methods to analyze the data have struggled to keep up. FocusNet fills this gap by using a convolutional neural network — an algorithm that finds patterns in images to recognize objects — to automatically categorize objects within the point cloud. It can achieve this object recognition across different types of lidar system data without needing to be retrained, representing a major advancement in understanding 3D lidar scenes.
Atmospheric observations collected from aircraft, such as temperature and wind, provide the highest-value inputs to weather forecasting models. However, these data collections are sparse and delayed, currently obtained through specialized systems installed on select aircraft. The Portable Aircraft Derived Weather Observation System (PADWOS) offers a way to significantly expand the quality and quantity of these data by leveraging Mode S Enhanced Surveillance (EHS) transponders, which are already installed on more than 95 percent of commercial aircraft and the majority of general aviation aircraft. From the ground, PADWOS interrogates Mode S EHS–equipped aircraft, collecting in milliseconds aircraft state data reported by the transponder to make wind and temperature estimates. The system holds promise for improving forecasts, monitoring climate, and supporting other weather applications.
Advancing computing and communications
Quantum networking has the potential to revolutionize connectivity across the globe, unlocking unprecedented capabilities in computing, sensing, and communications. To realize this potential, entangled photons distributed across a quantum network must arrive and interact with other photons in precisely controlled ways. Lincoln Laboratory’s precision photon synchronization system for quantum networking is the first to provide an efficient solution to synchronize space-to-ground quantum networking links to sub-picosecond precision. Unlike other technologies, the system performs free-space quantum entanglement distribution via a satellite, without needing to locate complex entanglement sources in space. These sources are instead located on the ground, providing an easily accessible test environment that can be upgraded as new quantum entanglement generation technologies emerge.
Superconductive many-state memory and comparison logic: Lincoln Laboratory developed circuits that natively store and compare greater than two discrete states, utilizing the quantized magnetic fields of superconductive materials. This property allows the creation of digital logic circuitry that goes beyond binary logic to ternary logic, improving memory throughput without significantly increasing the number of devices required or the surface area of the circuits. Comparing their superconducting ternary-logic memory to a conventional memory, the research team found that the ternary memory could pattern match across the entire digital Library of Congress nearly 30 times faster. The circuits represent fundamental building blocks for advanced, ultrahigh-speed and low-power digital logic.
The Megachip is an approach to interconnect many small, specialized chips (called chiplets) into a single-chip-like monolithic integrated circuit. Capable of incorporating billions of transistors, this interconnected structure extends device performance beyond the limits imposed by traditional wafer-level packaging. Megachips can address the increasing size and performance demands made on microelectronics used for AI processing and high-performance computing, and in mobile devices and servers.
An in-band full-duplex (IBDF) wireless system with advanced interference mitigation addresses the growing congestion of wireless networks. Previous IBFD systems have demonstrated the ability for a wireless device to transmit and receive on the same frequency at the same time by suppressing self-interference, effectively doubling the device’s efficiency on the frequency spectrum. These systems, however, haven’t addressed interference from external wireless sources on the same frequency. Lincoln Laboratory’s technology, for the first time, allows IBFD to mitigate multiple interference sources, resulting in a wireless system that can increase the number of devices supported, their data rate, and their communications range. This IBFD system could enable future smart vehicles to simultaneously connect to wireless networks, share road information, and self-drive — a capability not possible today.
Fabricating with novel processes
Lincoln Laboratory developed a nanocomposite ink system for 3D printing functional materials. Deposition using an active-mixing nozzle allows the generation of graded structures that transition gradually from one material to another. This ability to control the electromagnetic and geometric properties of a material can enable smaller, lighter, and less-power-hungry RF components while accommodating large frequency bandwidths. Furthermore, introducing different particles into the ink in a modular fashion allows the absorption of a wide range of radiation types. This 3D-printed shielding is expected to be used for protecting electronics in small satellites. This award is shared with Professor Jennifer Lewis’ research group at Harvard University.
The laboratory’s engineered substrates for rapid advanced imaging sensor development dramatically reduce the time and cost of developing advanced silicon imaging sensors. These substrates prebuild most steps of the back-illumination process (a method to increase the amount of light that hits a pixel) directly into the starting wafer, before device fabrication begins. Then, a specialized process allows the detector substrate and readout circuits to be mated together and uniformly thinned to microns in thickness at the die level rather than at the wafer level. Both aspects can save a project millions of dollars in fabrication costs by enabling the production of small batches of detectors, instead of a full wafer run, while improving sensor noise and performance. This platform has allowed researchers to prototype new imaging sensor concepts — including detectors for future NASA autonomous lander missions — that would have taken years to develop in a traditional process.
Additive manufacturing, or 3D printing, holds promise for fabricating complex glass structures that would be unattainable with traditional glass manufacturing techniques. Lincoln Laboratory’s low-temperature additive manufacturing of glass composites allows 3D printing of multimaterial glass items without the need for costly high-temperature processing. This low-temperature technique, which cures the glass at 250 degrees Celsius as compared to the standard 1,000 C, relies on simple components: a liquid silicate solution, a structural filler, a fumed nanoparticle, and an optional functional additive to produce glass with optical, electrical, or chemical properties. The technique could facilitate the widespread adoption of 3D printing for glass devices such as microfluidic systems, free-form optical lenses or fiber, and high-temperature electronic components.
The researchers behind each R&D 100 Award–winning technology will be honored at an awards gala on Nov. 21 in Palm Springs, California.
#000#2024#250#3-D printing#3d#3D printing#additive manufacturing#adoption#ai#AI systems#aircraft#algorithm#Algorithms#amp#anxiety#app#applications#approach#architecture#artificial#Artificial Intelligence#autonomous#aviation#Awards#honors and fellowships#Best Of#binary#Bioengineering and biotechnology#body temperature#Brain
0 notes
Text
Why Drone Manufacturers in Taiwan Are Being Cyber-Targeted: A Technologist’s Perspective
Why Drone Manufacturers in Taiwan Are Being Cyber-Targeted: A Technologist’s Perspective
This story explores the intersection of technology and geopolitics. It covers the cyberattacks targeting Taiwan’s drone manufacturers and what they reveal about global power struggles and technological vulnerabilities.
Taiwan drone manufacturers under siege: Technology meets geopolitics
In the world of technology and defense, Taiwan has become a central player, particularly in the field of…
#Applying Digital Intelligence to Geopolitics#Applying digital intelligence to global defense system#Cyber threats in Taiwan#Cyber threats to drones#Cybersecurity#Digital Intelligence by Digital Mehmet#Digital Intelligence by Dr Mehmet Yildiz#Digital intelligence principles for cyberdefence#Drone industry cyber defense#Drone manufacturers security#Drone tech cybersecurity#Geopolitics and drone tech#How are Drones Changing Modern Warfare?#Lessons from Ukraine War#Perspectives from Australian Defense Force#Politics and digitial intelligence integration#Preventing cyberattacks with digital intelligence#Taiwan cyber geopolitics#Taiwan drone cyberattacks#Taiwan tech cyberwar#Tech industry cyber risks#Technology Perspectives by Technologist Dr Mehmet Yildiz#Thought leadership for digital intelligence#Using digital intelligence for cybersecurity
0 notes
Text
#Detroit Engineered Products#aims#innovation#growth#development#electronicsnews#technologynews#Hexagon Manufacturing Intelligence (HMII)
0 notes
Last Seen Blogs
nimelyricss
nime.lyricc
samgospels
elegies
nina-cried-power
Wasteland, baby
emotionalkarma
o u r s e l v e s
mehjamu
howdy