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International Businesses: Navigate Global Shipping with Arihant's Expertise

The future of courier services is here! Explore key trends like AI-driven logistics, drone delivery, sustainability, and hyper-personalization shaping package delivery in 2025 and beyond. Learn how businesses can adapt and thrive in this tech-driven world.

d&d robot wizard named Intellibeam Laserstation

(page 1555-1572)

It’s feeling so Act 2 up in here because we are seeing a couple of kids try to figure out Sburb mechanics while being equal parts competent and silly.

But first, a revelation that Jack Noir has ‘a policy of handing out a REGISWORD and a HITLIST to just about everyone who enters your office’ (p.1555). This is in my homestuck jokes hall of fame because it’s a sudden punch of absurdity that adds to the plot and characterization, instead of detracting from them. I think the jokes that don’t hit for me tend to be when a character uses a phrase format or SBAHJ reference that feels out of character for them to say, or when a joke replaces what could be a character moment (for example, p.444). This joke contributes to Jack’s amorality and clear-headedness while inciting disproportionate violence, and preserves PM’s character arc, since it’s significant if she’s the only recipient of this hitlist who actually carries it out.

It sucks that the Queen keeps Jack locked behind a desk watching other people when he has this much flair and style. He should be on the stage. Also I cannot imagine the damage PM would inflict upon Jack if she saw him open that package that isn’t addressed to him. That’s a MAIL CRIME and I for one am not even curious what’s inside until the package reaches its ADDRESSED recipient.

Dave and Jade are a fun combination of Sburb players, because Dave has no concerns with playing the game ‘correctly’ and is willing to go with whatever makes things easier, while Jade has the inventor’s curiosity and wants to exploit hacks and glitches to advance as fast as possible. And Dave may have made fun of Jade for her ‘goofy modusses’ (p.382) but he is definitely benefiting from them now. Jade doesn’t play many games (p.442, 1400) but has spent her whole life engaging with Skaian technology, which is essentially ‘tech that functions on video game logic’ [sidenote: this definition made me decide that the sylladex is also 100% Skaian tech] so I think this helps her intuit how Sburb works.

The ability to alchemize the alchemiter feels right and correct. Alchemiter upgrades and add-ons allow for more complexity in the mechanics without needing more machines than would be practical to work with, just like how Sburb’s Atheneum (p.620) can store previously carved totems so that it’s not necessary to retain the physical objects. It seems like if enough machines are combined into one, the physical steps (moving around, handling and carving cruxite and cards) will be eliminated and the whole process will be automated. On a story level, it allows for power scaling as an upgrade can be anything, and there’s less concern for the time and space that a task takes – small developments like this and the suggestion of transportalizers between planets (p.1531) are still expanding the scope of the story.

I think a portable alchemiter would be a great next step. Gotta have a punch card for a little backpack and then Dave can carry this around while exploring his planet and he won’t end up like John, in a land of copper giclopses far away from weapon upgrades.

But what I love about Sburb is that it doesn’t care if an update is helpful. It lets the players make bad and nonsensical decisions and incorporates them into its logic. It’s open world and if you want a blender or a GameBro bust on your alchemiter then you can. It’s the difference between a game that makes an error sound if your strength is too low to equip the Ultra Greatsword and a game that lets you equip it and then just be a shitty fighter.

Dave struggling for space on page 1563 made me wonder about the smallest space needed to play Sburb. Its name suggests a full house, but a large room, like a well kept studio apartment, might have room. But a dorm room or houseboat or RV or nursing home or hospital simply would not work without modifications, and the idea of playing Sburb in unconventional living spaces is really interesting to me. Maybe if I write fanfiction it will be about that since it seems outside the scope of the comic at this point.

There’s no WAY we find out what the intellibeam laserstation does any time soon – this reveal is definitely getting saved, which leaves room for speculation! ‘Intelli’ comes from intelligence or intelligible, ‘beam’ and ‘laser’ both suggest a highly precise and advanced ray of light, and ‘station’ is a designated place for an activity (or a regular stopping point, and now I am imagining a train station for lasers). So, this is intelligent light, light that can shape and direct itself according to what it’s needed for? Or it’s light that can itself be used as a resource or material, a place for creating light or building with it? Light is a theoretically infinite resource, so could tie into Skaia’s ‘unlimited creative potential’ (p.422). It could even be involved in creating constructs – things with an intelligence of their own – giving lategame players the ability to alchemize their own light kingdom agents to combat the dark.

Seems like the rain stopped again, but it's still pretty cloudy here. At least I don't have to commute in the rain today. (Thank God)

I don't really feel like doing some owl facts today, sorry. HR got back to me and told me if I wanted extra hours, I should transfer over to the other building near us. While I would love the idea of getting even more money for my work, I really like the crew I'm with. We're all on good terms (Even if one of them says, "You look like you're going to jump off a bridge.")

..............!!!

...W—We're on the same sinking ship after all. Gotta have camaraderie, or you'll go bonkers after an hour or two of just packaging water bottles, gelatin, sugar, mouthwash, et cetera. Plus, I work upstairs, and we have tiny windows at the top of the ceiling. It's nice to see the stars. It's a tiny solace, but I'll take what I can get here. (Maybe working a 2nd job during my off-days would be a good idea…No—I-I'd just be more tired…)

It seems to me that they're refusing to let Anya come in. I can only hazard a guess is that they don't see her as an actual nurse. The medics don't seem to believe that she killed someone. At least, that's what some of the "Curlings" translated for us. I really hope that Daisuke and the Big Swans can wake up and vouch for her soon. I think if there are more people backing her up, they'll probably believe it was in self-defense. I'm positive she can vouch for herself! It just doesn't hurt to have more people back you up! I know you would, too!

Also, thanks for speaking to Death for me. I just feel kind of bad, I have a knack for getting myself in near-death situations, so it's probably annoying for her. I'll still be here, though! Talk to you soon, Curly!

-🦉🌙 "Luna"

Cheers, then. I know that was a bother for you.

That’s all right. Damn HR… (What? Why are you having the same conversations with your crew as I was? That’s alarming.)

Right, you… package for a freighter company, don’t you? Hey, you could always switch to a non-manned freighter. Someone still needs to package the stuff. Until they automate that too. Dammit. You’d think that with unemployment so high they’d stop building fucking robots. But that’s Earth for you. (Bad plan. Take those days and rest. I’ve tried taking jobs during my months off and wanted to die.)

At least that means she’s here… How do they think she kept me alive, then?! …Hey, what do you— You don’t think they’re awake yet? Why wouldn’t they be? Is— Do you know something?!

Sure, least I could do. I’ve had a few near-death experiences myself and she seems to like me so you’re probably all right. Hang in there, Luna. Talk soon!

Getting Started with Industrial Robotics Programming

Industrial robotics is a field where software engineering meets automation to drive manufacturing, assembly, and inspection processes. With the rise of Industry 4.0, the demand for skilled robotics programmers is rapidly increasing. This post introduces you to the fundamentals of industrial robotics programming and how you can get started in this exciting tech space.

What is Industrial Robotics Programming?

Industrial robotics programming involves creating software instructions for robots to perform tasks such as welding, picking and placing objects, painting, or quality inspection. These robots are typically used in factories and warehouses, and are often programmed using proprietary or standard languages tailored for automation tasks.

Popular Robotics Programming Languages

RAPID – Used for ABB robots.

KRL (KUKA Robot Language) – For KUKA industrial robots.

URScript – Used by Universal Robots.

Fanuc KAREL / Teach Pendant Programming

ROS (Robot Operating System) – Widely used open-source middleware for robotics.

Python and C++ – Common languages for simulation and integration with sensors and AI.

Key Components in Robotics Programming

Motion Control: Programming the path, speed, and precision of robot arms.

Sensor Integration: Use of cameras, force sensors, and proximity detectors for adaptive control.

PLC Communication: Integrating robots with Programmable Logic Controllers for factory automation.

Safety Protocols: Programming emergency stops, limit switches, and safe zones.

Human-Machine Interface (HMI): Designing interfaces for operators to control and monitor robots.

Sample URScript Code (Universal Robots)

# Move to position movej([1.0, -1.57, 1.57, -1.57, -1.57, 0.0], a=1.4, v=1.05) # Gripper control (example function call) set_digital_out(8, True) # Close gripper sleep(1) set_digital_out(8, False) # Open gripper

Software Tools You Can Use

RoboDK – Offline programming and simulation.

ROS + Gazebo – Open-source tools for simulation and robotic control.

ABB RobotStudio

Fanuc ROBOGUIDE

Siemens TIA Portal – For integration with industrial control systems.

Steps to Start Your Journey

Learn the basics of industrial robotics and automation.

Familiarize yourself with at least one brand of industrial robot (ABB, KUKA, UR, Fanuc).

Get comfortable with control systems and communication protocols (EtherCAT, PROFINET).

Practice with simulations before handling real robots.

Study safety standards (ISO 10218, ANSI/RIA R15.06).

Real-World Applications

Automated welding in car manufacturing.

High-speed pick and place in packaging.

Precision assembly of electronics.

Material handling and palletizing in warehouses.

Conclusion

Industrial robotics programming is a specialized yet rewarding field that bridges software with real-world mechanics. Whether you’re interested in working with physical robots or developing smart systems for factories, gaining skills in robotics programming can open up incredible career paths in manufacturing, automation, and AI-driven industries.

Top 10 Emerging Tech Trends to Watch in 2025

 Technology is evolving at an unprecedented tempo, shaping industries, economies, and day by day lifestyles. As we method 2025, several contemporary technology are set to redefine how we engage with the sector. From synthetic intelligence to quantum computing, here are the important thing emerging tech developments to look at in 2025.

Top 10 Emerging Tech Trends In 2025

1. Artificial Intelligence (AI) Evolution

AI remains a dominant force in technological advancement. By 2025, we will see AI turning into greater sophisticated and deeply incorporated into corporations and personal programs. Key tendencies include:

Generative AI: AI fashions like ChatGPT and DALL·E will strengthen similarly, generating more human-like textual content, images, and even films.

AI-Powered Automation: Companies will more and more depend upon AI-pushed automation for customer support, content material advent, and even software development.

Explainable AI (XAI): Transparency in AI decision-making becomes a priority, ensuring AI is greater trustworthy and comprehensible.

AI in Healthcare: From diagnosing sicknesses to robot surgeries, AI will revolutionize healthcare, reducing errors and improving affected person results.

2. Quantum Computing Breakthroughs

Quantum computing is transitioning from theoretical studies to real-global packages. In 2025, we will expect:

More powerful quantum processors: Companies like Google, IBM, and startups like IonQ are making full-size strides in quantum hardware.

Quantum AI: Combining quantum computing with AI will enhance machine studying fashions, making them exponentially quicker.

Commercial Quantum Applications: Industries like logistics, prescribed drugs, and cryptography will begin leveraging quantum computing for fixing complex troubles that traditional computer systems can not manage successfully.

3. The Rise of Web3 and Decentralization

The evolution of the net continues with Web3, emphasizing decentralization, blockchain, and user possession. Key factors consist of:

Decentralized Finance (DeFi): More economic services will shift to decentralized platforms, putting off intermediaries.

Non-Fungible Tokens (NFTs) Beyond Art: NFTs will find utility in actual estate, gaming, and highbrow belongings.

Decentralized Autonomous Organizations (DAOs): These blockchain-powered organizations will revolutionize governance systems, making choice-making more obvious and democratic.

Metaverse Integration: Web3 will further integrate with the metaverse, allowing secure and decentralized digital environments.

4. Extended Reality (XR) and the Metaverse

Virtual Reality (VR), Augmented Reality (AR), and Mixed Reality (MR) will retain to improve, making the metaverse extra immersive. Key tendencies consist of:

Lighter, More Affordable AR/VR Devices: Companies like Apple, Meta, and Microsoft are working on more accessible and cushty wearable generation.

Enterprise Use Cases: Businesses will use AR/VR for far flung paintings, education, and collaboration, lowering the want for physical office spaces.

Metaverse Economy Growth: Digital belongings, digital real estate, and immersive studies will gain traction, driven via blockchain technology.

AI-Generated Virtual Worlds: AI will play a role in developing dynamic, interactive, and ever-evolving virtual landscapes.

5. Sustainable and Green Technology

With growing concerns over weather alternate, generation will play a vital function in sustainability. Some key innovations include:

Carbon Capture and Storage (CCS): New techniques will emerge to seize and keep carbon emissions efficaciously.

Smart Grids and Renewable Energy Integration: AI-powered clever grids will optimize power distribution and consumption.

Electric Vehicle (EV) Advancements: Battery generation upgrades will cause longer-lasting, faster-charging EVs.

Biodegradable Electronics: The upward thrust of green digital additives will assist lessen e-waste.

6. Biotechnology and Personalized Medicine

Healthcare is present process a metamorphosis with biotech improvements. By 2025, we expect:

Gene Editing and CRISPR Advances: Breakthroughs in gene modifying will enable treatments for genetic disorders.

Personalized Medicine: AI and big statistics will tailor remedies based on man or woman genetic profiles.

Lab-Grown Organs and Tissues: Scientists will make in addition progress in 3D-published organs and tissue engineering.

Wearable Health Monitors: More superior wearables will music fitness metrics in actual-time, presenting early warnings for illnesses.

7. Edge Computing and 5G Expansion

The developing call for for real-time statistics processing will push aspect computing to the vanguard. In 2025, we will see:

Faster 5G Networks: Global 5G insurance will increase, enabling excessive-velocity, low-latency verbal exchange.

Edge AI Processing: AI algorithms will system information in the direction of the source, reducing the want for centralized cloud computing.

Industrial IoT (IIoT) Growth: Factories, deliver chains, and logistics will advantage from real-time facts analytics and automation.

Eight. Cybersecurity and Privacy Enhancements

With the upward thrust of AI, quantum computing, and Web3, cybersecurity will become even more essential. Expect:

AI-Driven Cybersecurity: AI will come across and prevent cyber threats extra effectively than traditional methods.

Zero Trust Security Models: Organizations will undertake stricter get right of entry to controls, assuming no entity is inherently sincere.

Quantum-Resistant Cryptography: As quantum computer systems turn out to be greater effective, encryption techniques will evolve to counter potential threats.

Biometric Authentication: More structures will rely on facial reputation, retina scans, and behavioral biometrics.

9. Robotics and Automation

Automation will hold to disrupt numerous industries. By 2025, key trends encompass:

Humanoid Robots: Companies like Tesla and Boston Dynamics are growing robots for commercial and family use.

AI-Powered Supply Chains: Robotics will streamline logistics and warehouse operations.

Autonomous Vehicles: Self-using automobiles, trucks, and drones will become greater not unusual in transportation and shipping offerings.

10. Space Exploration and Commercialization

Space era is advancing swiftly, with governments and private groups pushing the boundaries. Trends in 2025 include:

Lunar and Mars Missions: NASA, SpaceX, and other groups will development of their missions to establish lunar bases.

Space Tourism: Companies like Blue Origin and Virgin Galactic will make industrial area travel more reachable.

Asteroid Mining: Early-level research and experiments in asteroid mining will start, aiming to extract rare materials from area.

PREPRATION OF A BUEATY SOAP || A2Z SKILLS Manufacturing encompasses a diverse array of processes and technologies aimed at producing a wide range of products, from everyday essentials to specialized components. Take wires, for instance: these are typically manufactured through drawing processes, where metal rods or strips are pulled through dies to reduce their diameter and achieve the desired thickness. This method ensures uniformity and strength, crucial for applications in electronics, construction, and industrial settings. On the other hand, the production of bottles involves molding techniques such as blow molding or injection molding. Blow molding heats plastic resin into a molten state and then inflates it into a mold cavity to create a hollow shape, used extensively for beverage containers and packaging. Injection molding, meanwhile, injects molten plastic into a mold under high pressure, ideal for producing intricate shapes with precision, like medical vials or automotive parts. Both wire and bottle manufacturing rely heavily on materials science, engineering precision, and quality control measures to meet stringent specifications. Advances in automation, robotics, and sustainability practices are transforming these industries, reducing waste, improving efficiency, and expanding design possibilities. Overall, manufacturing processes like these exemplify the intersection of innovation, engineering, and practical application in meeting global OUR LINKS:

TIKTOK: https://www.tiktok.com/@a2zskills YOUTUBE: https://www.youtube.com/@A2ZSKILLS-123 FACEBOOK: https://www.facebook.com/profile.php?id=61562585190878&sk=about INSTAGRAM: https://www.instagram.com/a2zskills123/ VIMEO: https://vimeo.com/?signup=true TUMBIR: https://www.tumblr.com/dashboard HASAHTAGS : #satisfying #manufacturing #molding #shorts #A2Zskills #thermacolplates #thermacol #clay #tips #tipsandtricks #tutorials #prank #youtubeshorts #youtube #manufacture #manufacturer #ytshorts #material #materials #science #sciencefacts #technology #equipments #wires #work #design #efficiency #hacks #reducingwaste #electronic #automobiles

India’s Tech Sector to Create 1.2 Lakh AI Job Vacancies in Two Years

India’s technology sector is set to experience a hiring boom with job vacancies for artificial intelligence (AI) roles projected to reach 1.2 lakh over the next two years. As the demand for AI latest technology increases across industries, companies are rapidly adopting advanced tools to stay competitive. These new roles will span across tech services, Global Capability Centres (GCCs), pure-play AI and analytics firms, startups, and product companies.

Following a slowdown in tech hiring, the focus is shifting toward the development of AI. Market analysts estimate that Indian companies are moving beyond Proof of Concept (PoC) and deploying large-scale AI systems, generating high demand for roles such as AI researchers, product managers, and data application specialists. “We foresee about 120,000 to 150,000 AI-related job vacancies emerging as Indian IT services ramp up AI applications,” noted Gaurav Vasu, CEO of UnearthInsight.

India currently has 4 lakh AI professionals, but the gap between demand and supply is widening, with job requirements expected to reach 6 lakh soon. By 2026, experts predict the number of AI specialists required will hit 1 million, reflecting the deep integration of AI latest technology into industries like healthcare, e-commerce, and manufacturing.

The transition to AI-driven operations is also altering the nature of job vacancies. Unlike traditional software engineering roles, artificial intelligence positions focus on advanced algorithms, automation, and machine learning. Companies are recruiting experts in fields like deep learning, robotics, and natural language processing to meet the growing demand for innovative AI solutions. The development of AI has led to the rise of specialised roles such as Machine Learning Engineers, Data Scientists, and Prompt Engineers.

Krishna Vij, Vice President of TeamLease Digital, remarked that new AI roles are evolving across industries as AI latest technology becomes an essential tool for product development, operations, and consulting. “We expect close to 120,000 new job vacancies in AI across different sectors like finance, healthcare, and autonomous systems,” he said.

AI professionals also enjoy higher compensation compared to their traditional tech counterparts. Around 80% of AI-related job vacancies offer premium salaries, with packages 40%-80% higher due to the limited pool of trained talent. “The low availability of experienced AI professionals ensures that artificial intelligence roles will command attractive pay for the next 2-3 years,” noted Krishna Gautam, Business Head of Xpheno.

Candidates aiming for AI roles need to master key competencies. Proficiency in programming languages like Python, R, Java, or C++ is essential, along with knowledge of AI latest technology such as large language models (LLMs). Expertise in statistics, machine learning algorithms, and cloud computing platforms adds value to applicants. As companies adopt AI latest technology across domains, candidates with critical thinking and  AI adaptability will stay ahead so it is important to learn and stay updated with AI informative blogs & news.

Although companies are prioritising experienced professionals for mid-to-senior roles, entry-level job vacancies are also rising, driven by the increased use of AI in enterprises. Bootcamps, certifications, and academic programs are helping freshers gain the skills required for artificial intelligence roles. As AI development progresses, entry-level roles are expected to expand in the near future. AI is reshaping the industries providing automation & the techniques to save time , to increase work efficiency. 

India’s tech sector is entering a transformative phase, with a surge in job vacancies linked to AI latest technology adoption. The next two years will witness fierce competition for AI talent, reshaping hiring trends across industries and unlocking new growth opportunities in artificial intelligence. Both startups and established companies are racing to secure talent, fostering a dynamic landscape where artificial intelligence expertise will be help in innovation and growth. AI will help organizations and businesses to actively participate in new trends.

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Reminisce the Past, Forecast the Future

"A traveler can change so as the travel they seek."

A way to escape, a breathable surface to take. Traveling can be fun in more ways: through extreme activities, finding leisure in specific places, wondering around the land of beauty, and capturing scenery. The future opens our eyes, but the past holds our hearts. Looking back at all that we have previously and predicting what the future holds is a way to see that these travel trends are continuously growing and evolving widely by the contribution and effect of the market. 

Emerging with technology, the future can be more high-tech in any industry, especially in the tourism field. Some kind of astrotourism or space tourism will be offered where tourists take a peak in outer space. Robots will be introduced and will have a large impact as a travel trend. Automation became widely accepted amidst the pandemic, and even at the end of it, human tasks were taken by this innovation, from service to communicating, where “chatbots” and “jollibots” are one representation. Also, virtual reality tours will continue to grow, as some consumers have already encountered them. Through the lens of this invention, we can witness and be mesmerized by the beauty of a place. The mention of the future is filling us with excitement, but let’s now talk about what we had before we reached this conclusion. Wellness and retreat travel are two of the travel trends that all ages have undergone. They are getaways that you can do alone or in groups. The goal is to take a break, deeply breathe, and focus on setting yourself free. Then comes the entry of travel agencies, where tour packages arise. This made travel easy for travelers; with the use of tour itineraries, brochures, and flyers, all tourist needs are one pack away. Adventure travel is also one, as defined by the word itself: adventurous activities are executed. Last is the educational tour, a popular tour that takes place outside of schools every year.

 

#travelwritingandphotography #traveltrends

From €142 million to €1 billion ($1.1 billion) a year. The European Commission is pressing the accelerator on investment in weapons and defense technologies. From a total €590 million invested between 2017 and 2020, Brussels has moved to a €7.3 billion ($7.9 billion) package for the 2021 to 2027 period. This year alone, the European Defense Fund (EDF) has put €1.1 billion on the plate, divided into 34 calls for as many military-related research topics. From developing new drone models to sensors to increase radar capabilities. From systems to counter hypersonic missile attacks to enhancements in the analysis of images collected by satellites. From “smart weapons” to advanced communication technologies. The bidding process opened in late June, and there is time until November 5 to share a slice of the pie—and then a year to deliver the project.

The project for a common defense has distant origins and was formalized in 2015, but it was Russia's invasion of Ukraine that accelerated the European Commission's march to spend on arms, ammunition, and military technology. One only has to scroll through the list of projects vying for 2024 funding to get an idea of what Brussels is looking for. On the plate is €100 million to develop a new long-range, medium-altitude drone equipped with advanced intelligence, surveillance, target acquisition, and recognition systems (or Istar) and piloted remotely. On a similar project, the European Union has already invested, allocating €98 million of the total €290 million needed to develop a similar aircraft, dubbed Eurodrone, to a consortium consisting of France's Airbus and Dassault Aviation plus Italy's Leonardo. Another €11 million from the EDF goes to the prototype of a small, autonomously guided aerial drone.

Telecommunications and AI

Much of the resources go to strengthening communication and data exchange channels—in order to prevent, for example, someone from taking over the controls of the remotely piloted drone. The EDF allocates €25 million to a 5G network intended for the military sphere, the same amount to prototypes for satellite communications, and €24 million to develop dedicated systems for undersea drones. Information needed to feed algorithms and automatic analysis tools will have to be transferred through these secure channels. One grant awards €45 million for an AI software prototype that would make automated means and operations centers operated by live personnel talk to each other.

According to an article by Anthony King, professor at the University of Exeter, published in the Journal of Global Security Studies, so far in the military, “AI has not been used primarily to produce robotic or autonomous weapon systems. Over the past two decades, the military has sought to leverage big data to generate a richer and deeper understanding of the battlefield by tracking the footprints left in cyberspace by their adversaries. Because there is such a vast amount of digital data in cyberspace, the armed forces have begun to leverage the potential of AI, algorithms, and machine learning to identify patterns and signatures, thereby improving their awareness and so that crucial pieces of information are not missed.”

It's a pattern also pursued by European investments. Already last year, the EDF supported with €4 million a communication model to command swarms of autonomous vehicles, and as much went to strengthening undersea cables, the backbone of the internet and a military target. To make sure the data collected from space “speaks,” and provides a real-time and accurate representation of potential risks, there is a €157 million project, run by Leonardo, Airbus, and ArianeGroup (an aerospace company), to integrate information on a single platform, following in the footsteps of two previous projects. But if we add up all the intelligence programs through sensors, satellites, and other digital sources, the 2023 plan alone has deployed another €70 million on the subject. With another €6 million, the EU also tries to guard against communications blackouts, supporting an Estonian-driven plan for drone navigation technology that works even without satellite signals, relying on real-time analysis of what the machine sees.

New Weapons

The European Defense Fund, however, is also hunting for prototypes of new weapons. There is €25 million for the next generation of armored vehicles, €30 million for the creation of smart and increasingly accurate weapons, and €20 million earmarked for identifying at least four potential solutions for navigating a drone in “non-permissive” environments, which, translated from diplomatic jargon, means areas of war or those characterized by great instability.

Another €50 million concerns the creation of a new ground drone, equipped with “lethal functions.” What kind? This is best explained in an annex to the Commission's green light for EDF 2024. It says the program is to study a “fully autonomous process of targeting against different targets and solutions for mobility and engagement,” but also to produce an analysis of the “ethical and legal aspects of integrating autonomous combat drones into European armed forces.” With a clarification: “If necessary, research should be included to support recommendations and decisions” on these aspects. As in: Give us material to plead the case.

In the case of smart weapons, on the other hand, the EU calls for greater accuracy of missiles and rockets, but also refers to “loitering munitions,” i.e., suicide drones, which circle a defined area until they locate the target and hit it, bringing it down—a controversial military technology. The EU is also interested in copying the Iron Dome model, Israel's missile shield.

Tanks and Corvettes of the Future

Shortly before opening the new calls for proposals, the Commission also announced the 54 winning projects for the 2023 program. These include Marte, or the Main ARmored Tank of Europe, a program to develop new technologies to be integrated on a tank. Sharing the €20 million in funding is a string of some 40 companies, including the two defense champions from Italy and Germany, Leonardo and Rheinmetall, respectively. Just as much has been received by a similar project, again to upgrade the tank's architecture, which France's Thales is leading instead. From Brussels, €154 million will help fund the approximately €288 million needed to develop the new EU patrol corvette (Epc2), with Italy's Fincantieri among the project leaders. Another €25 million is earmarked for the construction of a prototype self-driving boat, 12 meters long, that rides on hydrofoils (i.e., with the hull out of the water).

Leonardo is spearheading a project to develop counter-aircraft systems for military drones, exploiting sensors, disturbances in telecommunications networks, and other technologies. France's Cilas, on the other hand, is spearheading a program to develop Europe's first laser weapon, backed by €25 million. A prototype electro-magnetic-propelled missile launcher has grossed €4 million, €26 million for an artificial intelligence agent called to autonomously manage protection and counterattack in response to cyber aggression, €80 million for a study on defense from hypersonic weapons. Another €27 million will support the creation of a new missile system with a range of 150 kilometers, €40 million is going to a military cargo ship, and €44 million is allocated for offensive technologies on undersea drones.

Funds and Alliances

But the channels for fueling Europe's military industry are varied. Alongside the EDF is Eudis, a scheme worth €2 billion for the seven-year period that supports the acceleration of startups and small and medium-size enterprises (target: 400 per year). There's also the European Investment Fund (EIF), managed by the European Investment Bank (EIB), which helps fund the defense sphere, particularly when it comes to dual (civilian and military) technologies. Its aim is to act as a key investor, consequently attracting other players willing to share the risk, but until 2027 it has €175 million to spend. The European Security Industry Bank can mobilize another €8 billion, also over the next three years.

Seven deals have already been signed. These include €10 million to Germany's Quantum Systems for vertical-takeoff drones, €30 million to Spain's Skydweller for its solar-powered self-driving aircraft, and €600 million on two space communications programs. Italy's Leonardo also benefited from EIB loans, which provided €260 million for research and development activities in various technological fields.

In recent days, the EIF signed an agreement with the NATO Innovation Fund (NIF), the first multinational sovereign venture capital fund backed by 24 of the 32 countries that are part of the Atlantic Alliance. NIF has a billion euros in the till to provide "friendly" funds for innovative companies in frontier technologies such as artificial intelligence, space, robotics, new materials, and biotechnology. The two vaults have decided to team up to increase investment firepower and accelerate the results of business strategies. NATO has started placing its bets: It has funded four startups, in space, materials, semiconductors, and robotics. Among the beneficiaries is Arx Robotics, based in Oberding, Bavaria. The startup makes autonomously guided defense vehicles that can be used to move up to 500 pounds, conduct surveillance, or act as targets. Its devices are already in use by the armies of Germany, Austria, Hungary, and Switzerland and have also been deployed on the Ukrainian front.

In turn, NATO is scouting startups through Diana, its accelerator program. Last year, it funded 44 of them, in the energy, telecommunications, and surveillance sectors, with a check for €100,000 and six months of incubation in its centers scattered across Europe. It recently launched five new calls for proposals. Companies have until August 9 to submit ideas not only in the three fields already covered in 2023, but also in health, logistics, and critical infrastructure. Special attention will be given to ideas that intersect these areas of interest with applications in space, resilience, and sustainability.

A Growing Industry

The defense industry is experiencing particular growth in Europe, driven by the arms race following the invasion of Ukraine. According to the investment bank Goldman Sachs, defense stocks listed on the continent's stock exchanges have increased in value by an average of 45 percent. The Euro Stock Aerospace & Defense Index, an index of the German stock exchange that brings together major military-related stocks (such as Airbus, Rheinmetall, Leonardo, and Bae), has soared 194 percent since February 2022. The European Defense Agency calculates that in 2022, military spending of the EU's 27 countries averaged 1.5 percent of gross domestic product, totaling €240 billion.

And the EDF paves the way for new technologies to be bought. As the policy document states, the fund will have to ensure that by 2027 the EU can have ready prototypes of combat drones, locally developed command and control programs, interoperable radio systems, and integrations between air defenses and the swarm of Earth-observing satellites. Cloud platforms to store and process collected information, new early-warning systems for missile attacks, and new naval and ground combat assets are also in the works. A boundless research program, divided among hundreds of companies (1,200 were involved at multiple levels in the 157 projects funded between 2021 and 2023), which will now have to go through the scrutiny of the nascent Commission, even more bent on opening the purse when it comes to spending on weapons. It is not just a matter of preparing for war. For a European Union obsessed with migration, drones, surveillance systems, and control, technologies can also be an ally in strengthening border closures.

>Call post office where I dropped off a package that has not been updated. >5min of ring then busy tone. >Call the post office Customer Care Center. >4min of navigating the robot caller. >Get into the line for a person. >Gets kicked out back to the automated menu.

>Call back say, "Agent" >You want to talk to an Agent? >Yes >Back to the automated menu

Automated menus are the devil and they need a button to press to toss you into an agent line.

Global top 13 companies accounted for 66% of Total Frozen Spring Roll market(qyresearch, 2021)

The table below details the Discrete Manufacturing ERP revenue and market share of major players, from 2016 to 2021. The data for 2021 is an estimate, based on the historical figures and the data we interviewed this year.

Major players in the market are identified through secondary research and their market revenues are determined through primary and secondary research. Secondary research includes the research of the annual financial reports of the top companies; while primary research includes extensive interviews of key opinion leaders and industry experts such as experienced front-line staffs, directors, CEOs and marketing executives. The percentage splits, market shares, growth rates and breakdowns of the product markets are determined through secondary sources and verified through the primary sources.

According to the new market research report “Global Discrete Manufacturing ERP Market Report 2023-2029”, published by QYResearch, the global Discrete Manufacturing ERP market size is projected to reach USD 9.78 billion by 2029, at a CAGR of 10.6% during the forecast period.

Figure.   Global Frozen Spring Roll Market Size (US$ Mn), 2018-2029

Figure.   Global Frozen Spring Roll Top 13 Players Ranking and Market Share（Based on data of 2021, Continually updated）

The global key manufacturers of Discrete Manufacturing ERP include Visibility, Global Shop Solutions, SYSPRO, ECi Software Solutions, abas Software AG, IFS AB, QAD Inc, Infor, abas Software AG, ECi Software Solutions, etc. In 2021, the global top five players had a share approximately 66.0% in terms of revenue.

About QYResearch

QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.

QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.

Food Processing Revolution: Innovations Shaping the Industry

In the dynamic domain of food processing, innovation serves as the fundamental basis for advancement.  The food processing business has seen a significant evolution over time, mostly influenced by technological improvements, shifting customer preferences, and an increasing recognition of the importance of sustainability and health.  The revolution in question has had a profound impact on the methods employed in the production, packaging, and consumption of food.  Make Vadodara the hub of your efficient food processing.  Explore solutions for improved productivity, quality, and compliance at Modern Food Products - ranked among the top companies in the Food processing industry in Vadodara!

This blog post aims to explore the noteworthy advancements that are now affecting the food processing industry and their impact on its overall trajectory.

·         Automation and Robotics:

In the dynamic domain of food processing, innovation serves as the fundamental basis for advancement.  The food processing business has seen a significant evolution over time, mostly influenced by technological improvements, shifting customer preferences, and an increasing recognition of the importance of sustainability and health.  The revolution in question has had a profound impact on the methods employed in the production, packaging, and consumption of food.  This blog post aims to explore the noteworthy advancements that are now affecting the food processing industry and their impact on its overall trajectory.

·         Internet of Things (IoT) and Data Analytics:

The incorporation of Internet of Things (IoT) technology in the food processing industry enables the continuous monitoring of production lines in real time, hence facilitating the achievement of optimal performance and the reduction of wastage.  Internet of Things (IoT) devices have the capability to gather significant data, which can be subjected to analysis in order to enhance process optimisation, forecast maintenance requirements, and enhance overall quality control.  The utilisation of data analytics offers significant insights into customer behaviour, hence empowering enterprises to customise their products in accordance with specific tastes.

·         3D Printing in Food Manufacturing:

The utilisation of 3D printing technology in the realm of food manufacturing has garnered significant attention due to its ability to provide novel and tailored solutions for the creation of complicated and personalised food designs.  The utilisation of 3D printing technology has the capacity to significantly transform our understanding and production of food, encompassing the creation of distinctive shapes and textures, as well as the printing of customised nutritional profiles.  This technological advancement presents promising prospects for fostering culinary innovation and addressing specific nutritional needs.

·         Food Preservation and Packaging Innovations:

The primary objectives of advancements in food preservation and packaging are to prolong the duration of shelf life, minimise food wastage, and preserve the nutritious content of food products.  In the field of packaging, notable advancements include Modified Atmosphere Packaging (MAP), hoover packaging, and intelligent packaging equipped with embedded sensors for freshness monitoring.  These technologies are designed to ensure that consumers are provided with products that are both safe and of high quality, while simultaneously mitigating the environmental consequences associated with packaging.

·         Clean Label and Natural Ingredients:

The demand for clean-label products is on the rise among consumers, prompting the food processing industry to embrace natural ingredients that have undergone little processing.  The driving force behind this transition is motivated by a strong inclination towards openness and a predilection for nourishing healthful dietary options.  Food processors are engaging in the process of reformulation in order to remove artificial additives, preservatives, and synthetic colours from their goods.  This strategic action is in accordance with the growing customer preference for healthier alternatives.  Join the league of successful Food processing companies in Gujarat.  Implement state-of-the-art technologies and witness unprecedented growth.  Get in touch with Modern Food Products today!

·         Plant-Based and Alternative Proteins:

The emergence of plant-based and alternative protein sources represents a notable transformation in consumer dietary preferences.  Food processors are utilising innovative techniques to create plant-based meat alternatives that mimic the sensory attributes, such as taste and texture, of conventional meat products.  These inventions play a significant role in promoting sustainability since they effectively mitigate the environmental consequences associated with traditional meat production, all the while accommodating the needs of an expanding group of individuals who follow vegetarian or flexitarian diets.

·         Nanotechnology in Food Processing:

The utilisation of nanotechnology in food processing allows for the meticulous manipulation of food characteristics on a molecular scale, resulting in improved sensory attributes such as taste and texture, as well as enhanced nutritional composition.  Nanoencapsulation is a technique that facilitates the precise delivery of nutrients to specific targets, hence enhancing the nutritional content of food products through the addition of vital vitamins and minerals.  Furthermore, the application of nanosensors is being employed to enhance quality control measures, thereby guaranteeing the safety and freshness of food products across the whole supply chain.

·         High-Pressure Processing (HPP):

HPP is a food preservation method that uses elevated pressure levels to eliminate pathogenic microorganisms and prolong the shelf life of food products.  This technology achieves these objectives without subjecting the food to thermal treatments, hence preserving its nutritional composition and sensory attributes.  The utilisation of this approach is increasingly being recognised for its ability to generate newly produced, secure, and minimally treated goods, thereby satisfying the growing need for uncontaminated and consumer-friendly food items.

Final Thoughts:

The food processing business is currently experiencing a significant transformation propelled by technological advancements, a focus on sustainability objectives, and the changing demands of consumers.  These developments are not only exerting a significant influence on the sector but also fundamentally altering our perspectives and patterns of food consumption.  The future of food processing encompasses a range of cutting-edge technologies, including automation, robotics, 3D printing, and nanotechnology.

These innovations hold great potential to revolutionise the global food industry and significantly impact the methods by which we sustainably nourish our growing population.  Please remain engaged as we see the gradual progression of this transforming expedition into the forthcoming realm of sustenance.  Ready to secure a top place in the Food processing industry in Vadodara? Modern Food Products’ expert team in Vadodara is prepared to optimize your operations.  Reach out for personalized advice and solutions.

How 5g Technology Change The World

The world is getting ready to a technological revolution, and on the coronary heart of this alteration is 5G era. As the 5th generation of mobile networks, 5G guarantees extremely-speedy speeds, low latency, and extraordinary connectivity. This advancement is ready to reshape industries, improve every day existence, and create new opportunities across more than one sectors. From healthcare and transportation to entertainment and clever towns, 5G isn't always simply an upgrade; it's miles a catalyst for a brand new virtual generation.

what is 5g and how it works 

The Fundamentals of 5G Technology

5G era is designed to provide extensively faster information speeds than its predecessor, 4G LTE. It operates on three special spectrum bands:

Low-band spectrum – Provides broad coverage however with highly slower speeds.

Mid-band spectrum – Offers a balance between pace and insurance.

High-band spectrum (millimeter-wave) – Delivers extremely fast speeds but has confined range.

With information speeds attaining up to 10 Gbps, 5G networks will enable seamless connectivity, permitting gadgets to communicate in actual-time with minimum delay (latency as little as one millisecond). This bounce in community functionality will pave the manner for improvements that had been previously impossible.

Transforming Industries

1. Healthcare

5G technology is revolutionizing the healthcare industry through allowing faraway surgical procedures, telemedicine, and real-time affected person tracking. With ultra-low latency and high-speed connectivity, surgeons can perform robotic surgical procedures from different elements of the world, expanding get admission to to existence-saving techniques. Additionally, 5G allows for stepped forward records transfer between clinical devices, ensuring timely prognosis and higher affected person care.

2. Smart Cities and Infrastructure

5G is a key aspect inside the improvement of smart towns. By connecting billions of gadgets through the Internet of Things (IoT), 5G lets in for efficient visitors management, smart lighting, and waste management structures. Autonomous motors will gain from actual-time verbal exchange with traffic indicators and different cars, reducing injuries and improving traffic waft. Cities will become more sustainable, energy-green, and safer for citizens.

Three. Manufacturing and Automation

The manufacturing quarter is undergoing a transformation with the appearance of 5G. Smart factories prepared with AI-powered robots and IoT gadgets will operate with minimum human intervention. Predictive renovation powered by means of real-time records will reduce downtime and decorate productiveness. Augmented fact (AR) and virtual reality (VR) packages will streamline employee education and improve efficiency on manufacturing unit flooring.

4. Entertainment and Media

The enjoyment industry is also experiencing a shift with 5G generation. High-definition streaming, cloud gaming, and immersive AR/VR reviews becomes the norm. With minimal buffering and high-speed connectivity, customers can enjoy seamless content intake. Additionally, 5G allows real-time interaction in stay events and esports, offering a more engaging experience for audiences worldwide.

5. Education and Remote Work

5G is gambling a crucial function inside the evolution of schooling and far off work. Virtual lecture rooms, interactive gaining knowledge of modules, and terrific video conferencing are becoming greater accessible. Students in faraway regions can advantage from advanced internet connectivity, bridging the virtual divide. Businesses, however, can put into effect flexible paintings models with uninterrupted video calls and faster cloud get entry to, boosting productivity and performance.

The Impact of 5G on Everyday Life

Beyond industries, 5G will significantly enhance normal reviews. Smart houses prepared with 5G-enabled IoT devices will provide better safety, energy management, and comfort. Personal assistants, consisting of AI-powered voice assistants, will become extra responsive and intuitive. Augmented fact packages will remodel purchasing experiences with the aid of allowing consumers to visualise products earlier than buying.

Moreover, the gaming industry will see a shift in the direction of cloud gaming platforms, wherein high-cease gaming reports are handy with out the need for steeply-priced hardware. With decreased latency, multiplayer gaming will become smoother, allowing gamers to compete in real time with minimal disruptions.

Challenges and Concerns

While the advantages of 5G are plain, there also are demanding situations that need to be addressed. Some of the key concerns consist of:

Infrastructure Development – The deployment of 5G calls for a big funding in new infrastructure, including small cell towers and fiber-optic networks.

Security and Privacy – With accelerated connectivity comes the hazard of cyber threats. Ensuring sturdy safety features is essential to shield user statistics and prevent cyberattacks.

Health Concerns – There have been debates regarding the capability fitness risks associated with 5G radiation. However, clinical research have now not observed conclusive proof linking 5G to health troubles.

Digital Divide – While urban areas may enjoy fast 5G adoption, rural and underserved areas may additionally face delays in deployment, probably widening the virtual divide.

The Future of 5G

The destiny of 5G era seems promising as countries and agencies continue to invest in its improvement. With advancements in artificial intelligence, side computing, and quantum computing, 5G will release even more opportunities. The transition to 6G in the coming years will in addition push the limits of connectivity, making futuristic concepts consisting of holographic verbal exchange and brain-computer interfaces a fact.

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MAKING A BALLONS WITH LIGHTS || A2Z SKILLS Manufacturing encompasses a diverse array of processes and technologies aimed at producing a wide range of products, from everyday essentials to specialized components. Take wires, for instance: these are typically manufactured through drawing processes, where metal rods or strips are pulled through dies to reduce their diameter and achieve the desired thickness. This method ensures uniformity and strength, crucial for applications in electronics, construction, and industrial settings. On the other hand, the production of bottles involves molding techniques such as blow molding or injection molding. Blow molding heats plastic resin into a molten state and then inflates it into a mold cavity to create a hollow shape, used extensively for beverage containers and packaging. Injection molding, meanwhile, injects molten plastic into a mold under high pressure, ideal for producing intricate shapes with precision, like medical vials or automotive parts. Both wire and bottle manufacturing rely heavily on materials science, engineering precision, and quality control measures to meet stringent specifications. Advances in automation, robotics, and sustainability practices are transforming these industries, reducing waste, improving efficiency, and expanding design possibilities. Overall, manufacturing processes like these exemplify the intersection of innovation, engineering, and practical application in meeting global OUR LINKS:

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