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automatrixinnovation · 7 days

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Navigating the IoT Revolution: The Role of IoT Consulting, Developers, and Specialists

The Internet of Things (IoT) has revolutionized the way businesses operate, connect, and innovate. With billions of connected devices transmitting vast amounts of data every second, industries across the globe are leveraging IoT to enhance productivity, efficiency, and customer experiences. As businesses seek to adopt this transformative technology, the role of IoT consulting, developers, and specialists has become increasingly important in navigating the complex IoT landscape.

The Growing Impact of IoT

IoT’s influence is vast and spans numerous sectors, from manufacturing and healthcare to retail, agriculture, and smart cities. Its ability to integrate physical devices into digital systems allows organizations to gain real-time insights, optimize processes, and even predict issues before they arise. However, implementing IoT systems isn’t as simple as adding a few connected devices to an existing infrastructure. It requires a strategic approach to design, development, and deployment.

This is where IoT consulting, development, and specialist services play a crucial role. These experts help businesses build a roadmap for IoT integration that aligns with their goals while ensuring security, scalability, and sustainability.

The Role of IoT Consultants

IoT consultants are pivotal in the early stages of IoT adoption. They work closely with organizations to understand their specific needs, challenges, and opportunities within their industry. By analyzing the current infrastructure and business objectives, IoT consultants develop tailored strategies that maximize the benefits of IoT implementation.

One of the primary responsibilities of IoT consultants is conducting feasibility studies to determine whether IoT can provide value to a business. This includes assessing the technical, financial, and operational aspects to ensure the organization can effectively adopt and maintain IoT solutions. Additionally, consultants evaluate potential risks, such as data security concerns and compatibility issues with existing systems, and propose solutions to mitigate them.

Furthermore, consultants help businesses choose the right IoT platforms, devices, and communication protocols to ensure seamless integration. They also advise on future scalability, ensuring that the system can grow alongside the business’s evolving needs.

The Role of IoT Developers

Once a business has a clear IoT strategy, IoT developers step in to turn that vision into reality. IoT development involves the creation of custom hardware and software solutions that allow devices to communicate and function as part of a larger network. Developers work on the design, coding, and testing of applications that enable devices to collect, share, and process data.

IoT developers also play a significant role in ensuring the security of IoT systems. With vast amounts of data being transmitted, they must implement strong encryption methods, authentication protocols, and other cybersecurity measures to protect sensitive information from cyberattacks.

The development phase also involves the integration of machine learning and AI capabilities into IoT systems. This allows businesses to automate processes, make data-driven decisions, and predict trends. For example, in manufacturing, IoT devices equipped with AI can identify potential equipment failures before they happen, reducing downtime and maintenance costs.

The Role of IoT Specialists

While IoT consultants and developers focus on strategy and creation, IoT specialists are the experts who manage the day-to-day operations of IoT systems. These professionals are responsible for monitoring, troubleshooting, and optimizing the performance of connected devices and networks.

IoT specialists ensure that devices are functioning as intended and that data is being collected and transmitted correctly. They also perform regular updates and maintenance to keep the system secure and efficient. As the number of connected devices grows, the role of IoT specialists becomes even more critical in managing the complexities of these large-scale networks.

Conclusion

In today’s fast-paced digital landscape, IoT offers incredible opportunities for businesses to innovate and stay competitive. However, successfully implementing IoT requires more than just installing connected devices. It demands the expertise of IoT consultants, developers, and specialists who can guide organizations through the process, from strategy and development to ongoing management.

By leveraging the expertise of these professionals, businesses can harness the full potential of IoT, transforming data into actionable insights and driving future growth.

#IoT Revolution

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automatrixinnovationindia · 27 days

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#IoT revolution #IoT applications #IoT technology #IoT solutions

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semiconductorsandelectronics · 2 days

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Industrial IoT (IIoT) Market Size & Share

[238 Pages Report] The global industrial IoT market size is valued at USD 194.4 billion in 2024 and is projected to reach USD 286.3 billion by 2029; it is expected to grow at a CAGR of 8.1% from 2024 to 2029.

#The Industrial IoT Revolution: Trends #Challenges #and Opportunities

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ai-innova7ions · 23 days

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Micro AI is revolutionizing the way we interact with technology.

Micro AI is transforming our interaction with technology by providing lightweight, hyper-efficient models tailored for Edge devices such as smartwatches, IoT sensors, drones, and home appliances. This cutting-edge innovation facilitates real-time data processing and decision-making directly on the device, eliminating reliance on constant cloud connectivity. Imagine your smartwatch instantly analyzing health data or your smart home system making immediate adjustments based on real-time inputs—all thanks to micro AI. One of the key benefits of micro AI lies in its low latency and local processing capabilities. In industrial automation, it can monitor machinery in real time to predict failures before they occur. For smart homes, it enhances convenience and security by allowing appliances to learn from user behavior while optimizing energy consumption. In healthcare, wearable devices equipped with micro AI can provide critical monitoring of vital signs and alert medical professionals during emergencies—ensuring timely interventions that could save lives.

#microai #EdgeComputing

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john-carle123 · 2 months

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Digital Twins in IoT: Revolutionizing Business Decisions with Virtual Replicas

As a business owner or entrepreneur in the UK, USA, or Middle East, you're constantly searching for innovative ways to stay ahead of the competition and optimize your operations. Enter the world of Digital Twins in IoT – a game-changing technology that's transforming how businesses make decisions and manage their assets. Let's dive into how this cutting-edge concept can revolutionize your business, whether you're running a small startup or a large corporation.

Understanding Digital Twins: Your Virtual Business Doppelganger Imagine having a virtual replica of your entire business operation at your fingertips. That's exactly what a Digital Twin in business offers. But what does this mean for you as a business owner? 1.1 The Basics: What is a Digital Twin? At its core, a Digital Twin is a virtual representation of a physical object, process, or system. It's like creating a digital clone of your business that mirrors real-world conditions in real-time. For example, if you own a manufacturing plant in Birmingham, your Digital Twin could replicate every machine, process, and even environmental factor within your facility. 1.2 IoT: The Backbone of Digital Twins The Internet of Things (IoT) plays a crucial role in bringing Digital Twins to life. IoT sensors scattered throughout your business collect data on everything from equipment performance to energy consumption. This data feeds into your Digital Twin, creating a living, breathing virtual model of your operations. 1.3 Real-Time Insights: Your Business in the Palm of Your Hand Imagine you're a Dubai-based logistics company owner. With a Digital Twin, you could monitor your entire fleet of vehicles, tracking their locations, fuel efficiency, and maintenance needs in real-time. This level of insight allows you to make quick, informed decisions that can significantly impact your bottom line.

Transforming Decision Making: From Gut Feeling to Data-Driven Choices As a business owner, you know the pressure of making critical decisions. Digital Twins can be your secret weapon in this arena, providing you with unprecedented insights to guide your choices. 2.1 Predictive Maintenance: Saving Time and Money Let's say you run a manufacturing business in Manchester. Traditional maintenance schedules often lead to unnecessary downtime or, worse, unexpected breakdowns. With a Digital Twin, you can predict when a machine is likely to fail before it happens. This means you can schedule maintenance only when needed, reducing downtime and saving on unnecessary repairs. 2.2 Optimizing Operations: Efficiency at Its Best For a New York-based e-commerce business, efficiency is everything. A Digital Twin can simulate various warehouse layouts and picking strategies, helping you identify the most efficient setup without disrupting your actual operations. This could lead to significant improvements in order fulfillment times and customer satisfaction. 2.3 Risk Management: Navigating Uncertainties with Confidence In the volatile business landscape of the Middle East, risk management is crucial. Digital Twins allow you to run "what-if" scenarios, simulating potential disruptions or market changes. This capability is invaluable for developing robust contingency plans and making your business more resilient.

Implementing Digital Twins: A Strategic Approach for Your Business

Now that you're excited about the potential of Digital Twins, how do you go about implementing this technology in your business?

3.1 Assessing Your Needs: Identifying the Right Use Case Start by identifying areas of your business that could benefit most from a Digital Twin. For a London-based renewable energy company, this might mean creating a Digital Twin of your wind farm to optimize energy production and maintenance schedules.

3.2 Choosing the Right Technology: Building Your Digital Infrastructure Implementing a Digital Twin requires the right mix of IoT sensors, data analytics tools, and visualization software. As a business owner, you'll need to work with technology partners who understand your specific needs. For instance, a Boston-based healthcare startup might require different IoT sensors and data security measures compared to a manufacturing plant in Leeds.

3.3 Training Your Team: Empowering Your Workforce The success of your Digital Twin implementation largely depends on how well your team can utilize this new tool. Invest in training programs to ensure your employees can interpret and act on the insights provided by the Digital Twin. This might involve bringing in IoT specialists or data analysts to work alongside your existing team.

The Future of Business: Digital Twins as a Competitive Advantage

As we look to the future, it's clear that Digital Twins will play an increasingly important role in business success. Here's how you can leverage this technology to stay ahead of the curve:

4.1 Enhanced Customer Experience: Tailoring Products and Services Imagine you're running a high-end fashion boutique in Beverly Hills. A Digital Twin of your store could help you optimize layout, predict inventory needs, and even personalize the shopping experience for individual customers based on their preferences and past behavior.

4.2 Sustainability and Efficiency: Meeting Environmental Goals For businesses in the UK and Europe, where environmental regulations are becoming increasingly stringent, Digital Twins can be a powerful tool for reducing energy consumption and waste. A manufacturing plant in Frankfurt could use its Digital Twin to identify energy-intensive processes and simulate more efficient alternatives.

4.3 Innovation Acceleration: Faster Product Development In the fast-paced tech scene of Tel Aviv, Digital Twins can revolutionize product development. By creating virtual prototypes, tech startups can test and refine their products in a fraction of the time and cost it would take to build physical prototypes.

Conclusion: Embracing the Digital Twin Revolution

As a business owner or entrepreneur in the UK, USA, or Middle East, the potential of Digital Twins in IoT is too significant to ignore. This technology offers a unique opportunity to gain unprecedented insights into your operations, make data-driven decisions, and stay ahead of the competition.

Whether you're running a small e-commerce startup in London, a manufacturing plant in Chicago, or a logistics company in Dubai, Digital Twins can transform how you do business. By creating a virtual replica of your operations, you're not just keeping up with technology – you're positioning your business at the forefront of innovation.

The journey to implementing Digital Twins may seem daunting, but the rewards in terms of efficiency, cost savings, and competitive advantage are well worth the investment. As you consider your next steps in business growth and digital transformation, make sure Digital Twins are on your radar. They could be the key to unlocking new levels of success in your entrepreneurial journey.

Remember, in the world of business, staying ahead often means embracing the future before it arrives. Digital Twins are that future – and they're here now, ready to revolutionize how you make decisions and drive your business forward.

#Digital transformation #Digital twin #iot #iot services #Digital Twin Revolution

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entrepreneurbar · 4 months

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A profound transformation is silently unfolding within the expansive realm of agricultural practice, where terrestrial and celestial realms converge to orchestrate life cycles. This metamorphosis is propelled by the convergence of technological advancements and traditional methodologies, with the Internet of Things (IoT) emerging as a potent catalyst reshaping longstanding agricultural paradigms. This paper elucidates the burgeoning landscape of IoT integration within agriculture, delineating its multifaceted implications for enhancing operational efficiency, ecological sustainability, and productivity within this critical sector.

Discover the expertise of CA Mukesh Shukla, the best business coach in India, dedicated to empowering entrepreneurs and fostering self-reliance among the youth. With a passion for developing entrepreneurship skills and contributing to the Atma Nirbhar Bharat Abhiyan, CA Mukesh Shukla offers unparalleled guidance and support for business growth. Learn more about his journey and transformative impact on the Indian economy at CA Mukesh Shukla's official website

#agriculture #revolutionizing agriculture #agriculture technology #modern agriculture #sustainable agriculture #revolutionizing agriculture with ai #ai in agriculture #precision agriculture #smart agriculture #agriculture revolution #modern agriculture technology #artificial intelligence in agriculture #iot in agriculture #irrigation in agriculture #agriculture innovation #advanced agriculture solutions #unseen revolution of agriculture technology

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covalensedigitalsblog · 4 months

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Revolutionizing Customer Interaction with Csmart IoT CRM

Utilize predictive analytics and real-time data to streamline operations , reduce downtime, and allocate resources more efficiently.

Make important decisions by leveraging IoT-generated Insights and aligning services with customer needs and market trends.

Standout in the market by delivering highly personalized experiences and services that meet the evolving expectations of digital savvy customers.

#csmart #crm #iot #iot crm #monetization #real-time #revolution

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techgagroup · 1 year

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#Connectivity #IoT #Revolution #SmarterWorld

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factana · 1 year

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Fogwing is an innovative and comprehensive Internet of Things (IoT) platform that offers a wide range of services and solutions for businesses and organizations looking to leverage the power of IoT technology. The website, https://www.fogwing.io/, serves as the online presence for Fogwing, providing detailed information and access to their IoT platform. The platform offers end-to-end solutions for IoT device management, data acquisition, real-time monitoring, analytics, and automation

#industrial iot #iiot #cmms software #smart factory market #industrial revolution #cheapest software #technology #united states of america #india

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i4technolab · 1 year

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AI and IoT can revolutionize business processes. For example, IoT devices can collect and communicate valuable information about a company's operations. And with the help of NLP, these devices can communicate with humans and other devices. It can even prevent a device from malfunctioning by automatically sending service notifications when needed. By combining AI and IoT, businesses can develop new products and improve existing ones. Rolls Royce plans to implement AI technologies into airplane engine maintenance amenities. These devices will be able to detect trends in data and extract operational insights that can improve operations.

AI and IoT are rated among the top ten emerging technology trends for the Environment industry since they aid in environmental sustainability. The deployment of IoT devices in fleet management can help detect gas leaks and other environmental problems in real-time. By monitoring ambient air pollution, the data can inform preventative policies and strategies. Intelligent environmental management is a key way to improve the environment. This is a growing field with many benefits. Its application is endless.

#AI and IoT revolution #impact of AI and IoT on environment #iot and sustainability #software development company #custom software development #.net development #ifourtechnolab #software outsourcing #software development #angular development #asp.net development

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mostlysignssomeportents · 4 months

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Real innovation vs Silicon Valley nonsense

This is the LAST DAY to get my bestselling solarpunk utopian novel THE LOST CAUSE (2023) as a $2.99, DRM-free ebook!

If there was any area where we needed a lot of "innovation," it's in climate tech. We've already blown through numerous points-of-no-return for a habitable Earth, and the pace is accelerating.

Silicon Valley claims to be the epicenter of American innovation, but what passes for innovation in Silicon Valley is some combination of nonsense, climate-wrecking tech, and climate-wrecking nonsense tech. Forget Jeff Hammerbacher's lament about "the best minds of my generation thinking about how to make people click ads." Today's best-paid, best-trained technologists are enlisted to making boobytrapped IoT gadgets:

https://pluralistic.net/2024/05/24/record-scratch/#autoenshittification

Planet-destroying cryptocurrency scams:

https://pluralistic.net/2024/02/15/your-new-first-name/#that-dagger-tho

NFT frauds:

https://pluralistic.net/2022/02/06/crypto-copyright-%f0%9f%a4%a1%f0%9f%92%a9/

Or planet-destroying AI frauds:

https://pluralistic.net/2024/01/29/pay-no-attention/#to-the-little-man-behind-the-curtain

If that was the best "innovation" the human race had to offer, we'd be fucking doomed.

But – as Ryan Cooper writes for The American Prospect – there's a far more dynamic, consequential, useful and exciting innovation revolution underway, thanks to muscular public spending on climate tech:

https://prospect.org/environment/2024-05-30-green-energy-revolution-real-innovation/

The green energy revolution – funded by the Bipartisan Infrastructure Act, the Inflation Reduction Act, the CHIPS Act and the Science Act – is accomplishing amazing feats, which are barely registering amid the clamor of AI nonsense and other hype. I did an interview a while ago about my climate novel The Lost Cause and the interviewer wanted to know what role AI would play in resolving the climate emergency. I was momentarily speechless, then I said, "Well, I guess maybe all the energy used to train and operate models could make it much worse? What role do you think it could play?" The interviewer had no answer.

Here's brief tour of the revolution:

2023 saw 32GW of new solar energy come online in the USA (up 50% from 2022);

Wind increased from 118GW to 141GW;

Grid-scale batteries doubled in 2023 and will double again in 2024;

EV sales increased from 20,000 to 90,000/month.

https://www.whitehouse.gov/briefing-room/blog/2023/12/19/building-a-thriving-clean-energy-economy-in-2023-and-beyond/

The cost of clean energy is plummeting, and that's triggering other areas of innovation, like using "hot rocks" to replace fossil fuel heat (25% of overall US energy consumption):

https://rondo.com/products

Increasing our access to cheap, clean energy will require a lot of materials, and material production is very carbon intensive. Luckily, the existing supply of cheap, clean energy is fueling "green steel" production experiments:

https://www.wdam.com/2024/03/25/americas-1st-green-steel-plant-coming-perry-county-1b-federal-investment/

Cheap, clean energy also makes it possible to recover valuable minerals from aluminum production tailings, a process that doubles as site-remediation:

https://interestingengineering.com/innovation/toxic-red-mud-co2-free-iron

And while all this electrification is going to require grid upgrades, there's lots we can do with our existing grid, like power-line automation that increases capacity by 40%:

https://www.npr.org/2023/08/13/1187620367/power-grid-enhancing-technologies-climate-change

It's also going to require a lot of storage, which is why it's so exciting that we're figuring out how to turn decommissioned mines into giant batteries. During the day, excess renewable energy is channeled into raising rock-laden platforms to the top of the mine-shafts, and at night, these unspool, releasing energy that's fed into the high-availability power-lines that are already present at every mine-site:

https://www.euronews.com/green/2024/02/06/this-disused-mine-in-finland-is-being-turned-into-a-gravity-battery-to-store-renewable-ene

Why are we paying so much attention to Silicon Valley pump-and-dumps and ignoring all this incredible, potentially planet-saving, real innovation? Cooper cites a plausible explanation from the Apperceptive newsletter:

https://buttondown.email/apperceptive/archive/destructive-investing-and-the-siren-song-of/

Silicon Valley is the land of low-capital, low-labor growth. Software development requires fewer people than infrastructure and hard goods manufacturing, both to get started and to run as an ongoing operation. Silicon Valley is the place where you get rich without creating jobs. It's run by investors who hate the idea of paying people. That's why AI is so exciting for Silicon Valley types: it lets them fantasize about making humans obsolete. A company without employees is a company without labor issues, without messy co-determination fights, without any moral consideration for others. It's the natural progression for an industry that started by misclassifying the workers in its buildings as "contractors," and then graduated to pretending that millions of workers were actually "independent small businesses."

It's also the natural next step for an industry that hates workers so much that it will pretend that their work is being done by robots, and then outsource the labor itself to distant Indian call-centers (no wonder Indian techies joke that "AI" stands for "absent Indians"):

https://pluralistic.net/2024/05/17/fake-it-until-you-dont-make-it/#twenty-one-seconds

Contrast this with climate tech: this is a profoundly physical kind of technology. It is labor intensive. It is skilled. The workers who perform it have power, both because they are so far from their employers' direct oversight and because these fed-funded sectors are more likely to be unionized than Silicon Valley shops. Moreover, climate tech is capital intensive. All of those workers are out there moving stuff around: solar panels, wires, batteries.

Climate tech is infrastructural. As Deb Chachra writes in her must-read 2023 book How Infrastructure Works, infrastructure is a gift we give to our descendants. Infrastructure projects rarely pay for themselves during the lives of the people who decide to build them:

https://pluralistic.net/2023/10/17/care-work/#charismatic-megaprojects

Climate tech also produces gigantic, diffused, uncapturable benefits. The "social cost of carbon" is a measure that seeks to capture how much we all pay as polluters despoil our shared world. It includes the direct health impacts of burning fossil fuels, and the indirect costs of wildfires and extreme weather events. The "social savings" of climate tech are massive:

https://arstechnica.com/science/2024/05/climate-and-health-benefits-of-wind-and-solar-dwarf-all-subsidies/

For every MWh of renewable power produced, we save $100 in social carbon costs. That's $100 worth of people not sickening and dying from pollution, $100 worth of homes and habitats not burning down or disappearing under floodwaters. All told, US renewables have delivered $250,000,000,000 (one quarter of one trillion dollars) in social carbon savings over the past four years:

https://arstechnica.com/science/2024/05/climate-and-health-benefits-of-wind-and-solar-dwarf-all-subsidies/

In other words, climate tech is unselfish tech. It's a gift to the future and to the broad public. It shares its spoils with workers. It requires public action. By contrast, Silicon Valley is greedy tech that is relentlessly focused on the shortest-term returns that can be extracted with the least share going to labor. It also requires massive public investment, but it also totally committed to giving as little back to the public as is possible.

No wonder America's richest and most powerful people are lining up to endorse and fund Trump:

https://prospect.org/blogs-and-newsletters/tap/2024-05-30-democracy-deshmocracy-mega-financiers-flocking-to-trump/

Silicon Valley epitomizes Stafford Beer's motto that "the purpose of a system is what it does." If Silicon Valley produces nothing but planet-wrecking nonsense, grifty scams, and planet-wrecking, nonsensical scams, then these are all features of the tech sector, not bugs.

As Anil Dash writes:

Driving change requires us to make the machine want something else. If the purpose of a system is what it does, and we don’t like what it does, then we have to change the system.

https://www.anildash.com/2024/05/29/systems-the-purpose-of-a-system/

To give climate tech the attention, excitement, and political will it deserves, we need to recalibrate our understanding of the world. We need to have object permanence. We need to remember just how few people were actually using cryptocurrency during the bubble and apply that understanding to AI hype. Only 2% of Britons surveyed in a recent study use AI tools:

https://www.bbc.com/news/articles/c511x4g7x7jo

If we want our tech companies to do good, we have to understand that their ground state is to create planet-wrecking nonsense, grifty scams, and planet-wrecking, nonsensical scams. We need to make these companies small enough to fail, small enough to jail, and small enough to care:

https://pluralistic.net/2024/04/04/teach-me-how-to-shruggie/#kagi

We need to hold companies responsible, and we need to change the microeconomics of the board room, to make it easier for tech workers who want to do good to shout down the scammers, nonsense-peddlers and grifters:

https://pluralistic.net/2023/07/28/microincentives-and-enshittification/

Yesterday, a federal judge ruled that the FTC could hold Amazon executives personally liable for the decision to trick people into signing up for Prime, and for making the unsubscribe-from-Prime process into a Kafka-as-a-service nightmare:

https://arstechnica.com/tech-policy/2024/05/amazon-execs-may-be-personally-liable-for-tricking-users-into-prime-sign-ups/

Imagine how powerful a precedent this could set. The Amazon employees who vociferously objected to their bosses' decision to make Prime as confusing as possible could have raised the objection that doing this could end up personally costing those bosses millions of dollars in fines:

https://pluralistic.net/2023/09/03/big-tech-cant-stop-telling-on-itself/

We need to make climate tech, not Big Tech, the center of our scrutiny and will. The climate emergency is so terrifying as to be nearly unponderable. Science fiction writers are increasingly being called upon to try to frame this incomprehensible risk in human terms. SF writer (and biologist) Peter Watts's conversation with evolutionary biologist Dan Brooks is an eye-opener:

https://thereader.mitpress.mit.edu/the-collapse-is-coming-will-humanity-adapt/

They draw a distinction between "sustainability" meaning "what kind of technological fixes can we come up with that will allow us to continue to do business as usual without paying a penalty for it?" and sustainability meaning, "what changes in behavior will allow us to save ourselves with the technology that is possible?"

Writing about the Watts/Brooks dialog for Naked Capitalism, Yves Smith invokes William Gibson's The Peripheral:

With everything stumbling deeper into a ditch of shit, history itself become a slaughterhouse, science had started popping. Not all at once, no one big heroic thing, but there were cleaner, cheaper energy sources, more effective ways to get carbon out of the air, new drugs that did what antibiotics had done before…. Ways to print food that required much less in the way of actual food to begin with. So everything, however deeply fucked in general, was lit increasingly by the new, by things that made people blink and sit up, but then the rest of it would just go on, deeper into the ditch. A progress accompanied by constant violence, he said, by sufferings unimaginable.

https://www.nakedcapitalism.com/2024/05/preparing-for-collapse-why-the-focus-on-climate-energy-sustainability-is-destructive.html

Gibson doesn't think this is likely, mind, and even if it's attainable, it will come amidst "unimaginable suffering."

But the universe of possible technologies is quite large. As Chachra points out in How Infrastructure Works, we could give every person on Earth a Canadian's energy budget (like an American's, but colder), by capturing a mere 0.4% of the solar radiation that reaches the Earth's surface every day. Doing this will require heroic amounts of material and labor, especially if we're going to do it without destroying the planet through material extraction and manufacturing.

These are the questions that we should be concerning ourselves with: what behavioral changes will allow us to realize cheap, abundant, green energy? What "innovations" will our society need to focus on the things we need, rather than the scams and nonsense that creates Silicon Valley fortunes?

How can we use planning, and solidarity, and codetermination to usher in the kind of tech that makes it possible for us to get through the climate bottleneck with as little death and destruction as possible? How can we use enforcement, discernment, and labor rights to thwart the enshittificatory impulses of Silicon Valley's biggest assholes?

If you'd like an essay-formatted version of this post to read or share, here's a link to it on pluralistic.net, my surveillance-free, ad-free, tracker-free blog:

https://pluralistic.net/2024/05/30/posiwid/#social-cost-of-carbon

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automatrixinnovationindia · 1 month

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#IoT revolution #IoT technology #IoT applications #IoT solution for agriculture

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nurliarahmawati · 1 year

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Digital Revolution: World Transformation in the Digital Age

The Digital Revolution started at the end of the 20th century and continues today. This event is marked by the development and adoption of revolutionary information and communication technologies, such as the internet, cloud computing, artificial intelligence, big data, and the Internet of Things (IoT). The Digital Revolution has changed almost every aspect of human life, including the way we work, communicate, shop, get information and seek entertainment.

Here are some key moments in the history of the Digital Revolution:

1960s: Development of the Internet At first, the internet was developed as a military research project called the ARPANET by the United States Department of Defense. In 1969, the ARPANET succeeded in sending its first message between two computers in two different locations. This is the beginning of the development of computer networks which later became the basis of the internet that we know today.

1970s: Early Computing In this decade, computers began to be widely adopted in the world of business and industry. This technology is used to automate tasks that were previously performed manually, increasing efficiency and productivity.

1980s: Personal Computers (PCs) The invention of the personal computer or personal computer (PC) brought a new revolution in technology. PCs made computer technology more accessible to the general public, changing the way we interact with technology.

The 1990s: The Internet's Golden Age In 1991, the World Wide Web (WWW) was created by Tim Berners-Lee, linking documents and resources on the internet via hypertext. This was an important milestone in the development of the internet which brought about an explosion of information and global connectivity.

Early 21st Century: The Age of Digitalization In the 21st century, there is an acceleration in digitization. Mobile devices such as smartphones and tablets are growing in popularity, giving millions of people worldwide access to the internet. Online services such as e-commerce, social media, and cloud-based applications are growing rapidly.

The 2010s: Artificial Intelligence and the Internet of Things (IoT) Artificial Intelligence (AI) and Internet of Things (IoT) are starting to dominate the world of technology. Artificial intelligence is used in a variety of applications, from facial recognition to product recommendations. IoT connects devices and objects around the world, creating a complex interconnected ecosystem.

The Digital Revolution continues with the rapid development of technologies such as artificial intelligence, autonomous vehicles and biomedical technologies. In facing this change, it is important for us to continue to develop digital literacy, maintain data privacy and security, and optimize the benefits of digital technology to create a positive impact on society and our lives. The history of the Digital Revolution is a story of limitless innovation, progress and transformation.

#history #revolution #blog #tumblr

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shantitechnology · 1 year

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The Evolution of ERP Software: How it is Transforming Engineering and Manufacturing in 2023

In today’s dynamic world of engineering and manufacturing industry, maintaining competitiveness and operational efficiency is of paramount importance. Enterprise Resource Planning (ERP) software has become a fundamental tool for optimising processes, improving efficiency, and facilitating smooth operations in the engineering and manufacturing industries. As we progress into the year 2023, it becomes apparent that enterprise resource planning (ERP) software has experienced a substantial transformation, adapting to the unique requirements of the industry in question. Unlock the full potential of your manufacturing company with ERP software designed and developed by STERP (Shanti Technology). Contact today for a tailored ERP solution for manufacturing company in India that aligns perfectly with your business objectives.

This blog article aims to examine the growth of Enterprise Resource Planning (ERP) software and its significant impact on the fields of engineering and manufacturing.

Historical Perspective: A Brief Overview of ERP Software

The evolution of ERP software since its establishment in the 1960s has been significant, with a notable shift from its initial emphasis on inventory management and order processing. Over the course of several decades, enterprise resource planning (ERP) systems have seen significant growth and development, resulting in the integration of a wide range of corporate functions. These functions include but are not limited to accounting, human resources, procurement, and other related operations. The advancement of technology has led to the evolution of ERP software into a centralised platform that offers real-time data, enhances decision-making processes, and fosters communication across various departments within an organisation.

· Integration of IoT and Industry 4.0:

The combination of the Internet of Things (IoT) and Industry 4.0 technologies represents a notable revolution in ERP software during the year 2023. The Internet of Things (IoT) facilitates the interconnection of various devices and sensors, enabling the collection and sharing of data. This capability offers real-time insights into the industrial process. Enterprise Resource Planning (ERP) systems have the capability to effectively integrate this data, so facilitating manufacturers in making informed decisions based on data analysis and enhancing their operational efficiency.

The principles of Industry 4.0 place significant emphasis on the integration of automation, digitization, and connectivity, which have now been easily included in enterprise resource planning (ERP) software. The integration described enables enterprises to establish a smart industrial setting, increase their control of the supply chain, and optimise operational efficiency.

· Cloud-Based ERP Solutions:

Cloud-based enterprise resource planning (ERP) solutions have significantly transformed the operational landscape of enterprises. This paradigm shift can be attributed to the revolutionary impact of cloud technology on ERP software. In the year 2023, an increasing number of engineering and manufacturing companies are using cloud-based Enterprise Resource Planning (ERP) solutions. The aforementioned solutions possess several benefits, including the ability to scale, adaptability, reduced initial expenses, and convenient availability, rendering them exceedingly appealing to organisations of all sizes. Moreover, the utilisation of cloud-based enterprise resource planning (ERP) systems facilitates the instantaneous exchange of data and promotes collaboration among all parties involved, hence enhancing operational efficiency and cultivating a culture of innovation. Invest in the future of manufacturing. Choose advanced ERP software for engineering companies in India developed by STERP (Shanti Technology) to enhance agility and competitiveness.

· Advanced Analytics and Business Intelligence:

In the current business environment, data holds significant value. Enterprise Resource Planning (ERP) software has evolved to incorporate sophisticated analytics and business intelligence functionalities, enabling the generation of visually appealing data representations and the utilisation of predictive analytics techniques. Manufacturers have the ability to utilise this data in order to anticipate market trends, enhance production schedules, effectively manage inventories, and rapidly make well-informed business decisions. The utilisation of advanced analytics enables engineering and manufacturing enterprises to maintain flexibility and effectively respond to market fluctuations in a timely manner.

· Enhanced User Experience and Mobility:

The optimisation of user experience and mobility is a crucial element in contemporary enterprise resource planning (ERP) systems. In the year 2023, the primary emphasis of ERP software lies in delivering an intuitive and user-friendly interface, with the aim of facilitating smooth adoption and utilisation throughout all hierarchical levels within the organisation. Furthermore, the use of mobility enables stakeholders to conveniently access essential data and capabilities while on the move, hence enhancing productivity and facilitating informed decision-making. Stay ahead in the competitive manufacturing landscape. Reach out to an expert - STERP (Shanti Technology) - the most reliable Engineering ERP Software Company in India and elevate your business operations.

· Cybersecurity and Compliance:

The increasing prevalence of cyber risks has prompted ERP software developers to prioritise the integration of robust cybersecurity capabilities. In the year 2023, enterprise resource planning (ERP) systems place significant emphasis on the paramount importance of data security, adherence to industry laws, and the implementation of effective authentication procedures. This practice guarantees the preservation of confidential corporate information, hence cultivating a sense of trust and assurance among users.

Final Thoughts:

The evolutionary progression of Enterprise Resource Planning (ERP) software in the year 2023 signifies a significant and transformational change within the realm of engineering and manufacturing. The convergence of the Internet of Things (IoT), Industry 4.0 technologies, cloud-based solutions, sophisticated analytics, improved user experience, and heightened cybersecurity measures enables organisations to effectively streamline operations, boost efficiency, and attain long-term, environmentally conscious expansion. With the increasing use of these technological developments, the engineering and manufacturing sectors are poised to witness unparalleled levels of efficiency and creativity, hence setting a bright trajectory for the industry.

In order to remain competitive in today's ever-changing corporate landscape, it is imperative to be informed and capitalise on the capabilities of enterprise resource planning (ERP) software. Ready to streamline your manufacturing operations? Contact STERP (Shanti Technology) a renowned company offering manufacturing ERP software in India and see how it can simplify processes, boost efficiency, and drive profitability.

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