The 8 Challenges to Networking a Factory

The age of the smart factory is here! More and more industrial processing facilities are hooking everything together, creating internal networks, to reap the benefits that these bring. The data-gathering and analysis-related functions of a networked factory can do wonders for long-term success and production efficiency. However, there are more than a few challenges.

Source: https://unsplash.com/photos/Jth4utoCVNo

Whether you are acquiring supplies from otscable for a new facility or you’re looking to upgrade an existing one, there are issues you have to consider. Some of these might be obvious at the outset, such as the logistics of all this networking gear. Others might catch you off-guard. Here are the seven most critical challenges that occur if you intend to make a smarter factory.

Legacy Equipment

One concern that is highly practical is legacy equipment. Older machinery could come from an era when networking wasn’t important. These could be crucial to your operations, but also too old for a simple “plug and play” approach. This means that you are in desperate need to figure out how to blend the old and new, and that’s not always the easiest thing to achieve.

Unfortunately, there are instances when there is no solution. If you’re upgrading from an existing factory, you will have to settle for mixing the old and new and working as best you can. You can look into using third-party integration equipment and adaptors, which are your best option if a strict update and upgrade are out of the cards.

Physical Logistics

Another huge concern is simple logistics. Where do you lay out the cables? Where are the routers or switches installed? How far between support hardware are the cables running? This is something that you need to understand before you start placing equipment on the ground. Consider the layout and where your heavy machinery as you plan the placement of your networking infrastructure.

Security

Security is a concern. A smart factory collects a great deal of data about your operations, which might be highly sensitive. Protecting it and any insights gained from it is important for most factories and companies. One way to protect the data is to go for a wired network, which traditionally is much harder to infiltrate from the outside.

In general, you do not want to go with a smart factory until you have the security in place. You want layers of protection and authorization for your data. How you achieve that is up to you, though keeping the more sensitive data in a closed network, inaccessible from the outside without the right credentials, is a good first step.

Data Storage

Data storage is also an ongoing concern for smart factories. As operations are recorded down to their minutia, all that information has to be kept somewhere. Preferably, the storage occurs on-site so you don’t have to stretch the network too far and risk security issues. This means you need to account for the storage and the conditions that prevent the hardware from being damaged.

Factory Visibility

Visibility is also a concern. In the old days, you might have observers present but practically no real active monitoring. Most things were probably done passively. In a smart factory, you’re going from zero monitoring to thousands of devices and points collecting data all the time. This can be a staggering amount of information to process and may require a learning curve.

A related challenge to this is if multiple factories are interconnected. Even if you maintained visibility in one, being suddenly thrust into seeing all of your facilities in such detail can be staggering. This is something that usually takes a bit of time to get used to.

Outages

You’ll want back-up systems in place in the event of outages. Never assume that you will never have an outage, and set the network up so that it functions on its own even without internet access. Make sure that the most crucial parts of it can work and record data independently, even under outage conditions.

Edge Networking

Going closer to the “edge” might also be a challenge for you. Edge networks are when a single task is processed by multiple terminals across a network. This can be a serious challenge because it means that your internal network has to connect to a much broader one. This will require serious cooperation between multiple departments, facilities, and personnel.

The Right Tools

Finally, you have to look at the tools you intend to use. The market for devices and tools for smart factories is increasing, which is both good and bad. It’s good because you have more options available, so there are higher odds something that suits your needs is out there. It’s bad because there’s more chaff to wade through, more time needed to get the right ones.

Conclusion

Yes, it is challenging to hook an industrial plant to a network and engage in the “Internet of Things.” There are challenges that must be overcome, logistics to consider, and costs to factor in. However, there are many benefits to gain, both from the network itself and by keeping up to date on the march of technology.

Top 5 Advantages of Blockchain Certification

Blockchain technology today has spread across a wave of industries. Blockchain has gone far off its genesis and a report says that annual worldwide spending on this technology has nearly tripled since 2017. Annual spending on blockchain solutions is anticipated to reach $16 billion by 2023. Today, almost every industry, be it gaming, banking or finance are realizing blockchain applications.

blockchain-certified-professional

“Everything will be tokenized and connected by a blockchain one day.”

– Fred Ehrsam

From the perception that blockchain is meant only for banking purposes, it successfully moved to the implementation by almost every sector like:

  • messaging apps (like Telegram)
  • hedge funds (Numeral)
  • Voting (as in Follow My Vote)
  • Internet Identity and DNS (as in IBM Verify Credentials)
  • Critical Infrastructure Security (for example, blockchain-enabled keyless signature infrastructure)
  • Ride Sharing (used by Arcade City)
  • Internet advertisement
  • Crypto exchanges
  • Education and academics (as used in Learning Machine)
  • Car leasing and sales
  • Cloud storage, cloud computing, mesh networking
  • Industrial IoT, forecasting, and real estate

Now it is clear that blockchain is finding its application everywhere and making a career in this field would definitely prove to be a huge success. Let us explore how taking up a Blockchain certification course can let you make a pronounced career move.

Let us now see what actually Blockchain means.

What is Blockchain?

Blockchain is no new term for people involved in investments, banking, or cryptocurrency.

Blockchain, which is based on peer-to-peer (P2P) topology, is a distributed ledger technology or DLT. It allows data to be stored across the globe on numerous servers that allow anyone on the network to see everyone else’s input in near real-time. This makes it difficult for any user to achieve control of the network.

Simply put, blockchain is a chain of blocks, where ‘blocks’ refers to the digital information that is stored in a public database that is ‘chain’. Blockchain was initially created to serve as a platform to support Bitcoin.

Blockchain provides businesses with the promise of transactional transparency, which gives them the ability to create secure, real-time communication networks with partners worldwide that includes supporting everything from supply chain to payment networks, or real estate, and healthcare data sharing.

Blockchain technology conserves a record of entire exchanges of data that takes place. In terms of cryptocurrency, transfer of every information is referred to as ‘transaction’, and the database where all transactional records are saved is referred to as a ‘shared ledger’. Every successful transaction is added as a ‘block’ in the ledger.

Reasons to get Blockchain Certified

The candidates who wish to make a career in the Blockchain domain can go for blockchain certifications that are offered by the blockchain council. The certifications render a thorough knowledge of core concepts of blockchain and may prove to be the pathway to a lucrative career in this domain. Getting blockchain certified makes you industry-ready by making you develop the right skills you need to be proficient in the domain.

Let us read about the reasons why you should get Blockchain certified (as stated by the Blockchain council): A census states that 50% of people use the Internet today, but only 0.5% use blockchain; this can be taken as an opportunity to move ahead and learn blockchain.

You need to:

  • Understand how blockchain technology works.
  • Learn the skills related to blockchain.
  • Collect useful resources and make their efficient use.
  • Implement your knowledge in building decentralized applications.

1. Huge demand for blockchain professionals

Blockchain is trending today, and there is a shortage of skilled professionals. You can develop the required skillset and land on to a lucrative job.

2. Excellent salary and high job prospects

Indeed.com reveals the average annual salary of a blockchain developer to be USD 92,982.  The salary increases with your experience and also, the job market is bright for blockchain enthusiasts. The roles for which companies are looking for are:

  • Cryptocurrency Developer
  • Cryptocurrency Analyst
  • Cryptocurrency Trader
  • Cryptocurrency Mining Technician
  • Systems Engineer
  • Bitcoin Full-Stack Developer
  • Cloud Engineer
  • Senior Software Engineer

3. Absolute Disruption in chain

Blockchain is capable of adding significant value by improving confidence between parties and minimizing friction in the value chain. Hence, it creates many job opportunities as managers might be reassessing their value chains, and players might be estimating their future positions.

4. Industries on Blockchain

Apart from banking, almost every industry is implementing Blockchain technology today, such as energy resources, supermarkets, healthcare, cloud storage, real estate, travel and transportation, voting, and many other sectors.

Other advantages of getting blockchain certified include integration with new-age technologies, the inflection point of an era, data security and digital identity, calculated investments in cryptocurrencies and ICOs, vast infrastructure.

Bottom line

Blockchain is considered a disruptive technology which means that it is capable of bringing out drastic changes in the industry. Eventually, it has become one of the dominant technologies in the market today. The reason being that blockchain is an open-source ledger that is public. It makes transactions fraud-free, and no central authority controls it. The transactions made using blockchain are faster and reasonable.

Since blockchain is applied in almost every industry today, you can choose the industry you like and move ahead to make a career in it. You can choose from the many job roles offered by the blockchain council.

To achieve blockchain certification, it is strongly recommended that you take up a training course. There are several benefits of taking up the training course by some genuine online training provider.

Firstly, the thing that you worry about is the study material, from where to start and what to study. By taking up the course, you don’t need to care about this. Secondly, no time limitations are there and you can study anytime you wish to, and that too at your own pace. Third, you can choose from the modes of learning offered, that is, blended learning, instructor-led, or online training. All you need is to get yourself registered.

How Robotics Contributes to Sustainable Manufacturing

Environment-friendly manufacturing processes are vital to the success of  businesses. Consumers care about the way that products are made, and how they can be recycled or reused. To meet the needs and concerns of consumers, manufacturers of all types are turning to robotics to grow their sustainable practices.

robotics-sustainable-manufacturing

Reducing Carbon Footprints

Robots are being created and used to reduce manufacturers’ carbon footprints. Factories and ports are known for releasing carbon into the atmosphere. Thus, encouraging climate change. Some ports are turning to use automated robots to reduce their carbon footprint. Instead of gas-powered trucks and tools, robotic vehicles are being used instead. The robots do not rely on fossil fuels for power, so their engines run clean.

Speeding Up Recycling

Robots can take tedious jobs and speed them up. One of the jobs that robots are good at is sorting recycled material. They can do it quickly and efficiently, and they do not require all of the safety gear and training that humans need. Humans can sort about 800 items in an hour, but robots can sort around 2,000 items in the same amount of time.

Cleaning Tanks More Efficiently

Another place that robots are helping the environment is in chemical plants. These plants have massive tanks that need cleaning on a regular basis. The tanks have small openings, and they are filled with toxic chemicals and volatile gases.

robotics-chemical-industry

In the past, humans have had to enter these confined spaces to clean the tanks. They had to be trained in several safety procedures, wear a plethora of safety gear, and undergo decontamination procedures each time they left the tanks. Now, robotic tank cleaning can do it in a fraction of the time, using less water and cleaning materials. They take away the danger from human employees, and robots can work 24 hours per day.

Improving Sustainable Manufacturing

Robots are being used in different types of manufacturing to create more efficiency with fewer resources. Robots reduce errors, so less waste is produced. One computer company is relying on robots to pick reusable parts out of recycled products. This type of manufacturing sustainability includes recycling, reusing, and reducing. Less waste is produced and the robots are able to find and separate the small parts more efficiently than human hands can.

Cleaning Natural Resources

Robots are also being used outside of manufacturing to help with green living. Several organizations rely on robots to clean waterways. These robots float atop the water and collect the trash as it floats. Another water-cleaning robot is able to digest pollution. The robot turns the trash into fuel that powers the boat and that controls it. Inventors are working on upscaling the robot so it can power large tankers and cargo freighters, too.

Robots are also used to clean plants that become dirty from the garbage and grime in the water. By cleaning water and flora in it, robots are protecting the lives of animals that make their homes in wetlands and coastal areas. They also help clean food supplies for people.

Where Are All the Electric Vans?

The USA is way behind Europe when it comes to electric vehicles, with sales in Europe exceeding 1 million in 2018, while US figures stood at just 750,000. This is despite the giants of Silicon Valley, including Google, Amazon and Tesla, all making strides to offer electric vehicles to the mass market. The area where the contrast is most clear is in regards to vans. While Europe has many on offer, electric vans are almost non-existent on American roads. Where does this leave commercial enterprises looking to cut their carbon emissions?

Europe Leading the Way

Although hardly the norm, it isn’t uncommon to see fully electric commercial vehicles on European streets. German based DHL are selling over 5000 StreetScooters a year, allowing companies to offer battery powered deliveries. Meanwhile, the UK’s best selling plug in van is the Nissan e-NV200. This attractive commercial vehicle is on sale throughout Europe, selling more than 4000 a year. Unfortunately, it is not available in the US.

If you are a businessman looking to cut fossil fuel usage, while driving a commercial vehicle, then you may be better off moving to Europe. Greenhouse gases in the continent fell 22% between 1990 and 2016. The USA is struggling to keep up with the switch to renewable energy sources.

Is Tesla the Only Game in Town?

Don’t worry – it isn’t all bad news for the USA. With companies like Tesla offering their own electric pickup and semi vehicles, there could be a shift in sale trends soon. However, neither of these vehicles are yet to hit the mass market. Other electric truck or van options are few and far between. The likes of Google are focusing their efforts on creating self-drive vehicles rather than venturing into commercial electric automobiles that are wheelchair accessible as well.. 

Other Ways to Cut Carbon Emissions

Keep searching for the perfect electric van for your company. If Europe has them, then you can find one in America. In the meantime, however, consider other ways to cut your carbon footprint. For the running of any electronics, invest in solar power. This has really taken off in the USA and is one of the cheapest options available. You should also try to source products locally and remove plastic packaging from your goods.

Electric vehicles really can’t arrive soon enough, but commercial vans and trucks are yet to become mainstream. The USA needs to take a leaf out of Europe’s book and invest in electric vans. In the meantime, consider switching to solar power and taking other steps to reduce your company’s carbon emissions.

GB4000 MOPA – Frequency-Generating Machines Explained

While Dr. Raymond Rife claimed he didn’t want to have his name stamped on any machine, it would be disrespectful to completely neglect his influence in today’s frequency-generating machines. These are also called Rife Machines, but people are avoiding using his name as a sign of respect towards this marvelous scientist. Read more about him.

People who admire the work this scientist has done, instead of trying to earn a few bucks with the help of his name, know how important the discovery of this machine was. They also know that there have been some negative speculations in this regard, stemming from this misuse of this scientist’s name in the first place. Due to that, they choose not to attach his name to the modern machines created to at least replicate his.

modern-frequency-generating-machines

When you are looking to buy a device like this, however, it wouldn’t be fair for you not to know where and how it all started. Dr. Rife plays a big role in that, so we need to mention him and offer some insight into the devices that people call Rife Machines. In order to do that, we will have to take a little trip through history.

Dr. Rife and His Ray Tube System

In the 1930s, a man named Royal Raymond Rife, who was an American optics engineer, started voicing his research on electromagnetic waves. Optical magnifications he claimed to be achieving were said to be at least ten times more powerful than the ones achieved by the best microscope you can find on the market today. Imagine what that meant for everyone living in 1930s.

Despite the controversy behind many of his claims, his ray tube system was installed in numerous clinics and the results they were achieving seemed to be remarkable. After some time, though, many influential people turned against Dr. Rife and decided that his machine did more harm than good to patients, which is why the beam ray was banned from use.

Here’s more on the destiny of this genius: https://www.gaia.com/video/rise-and-fall-scientific-genius

It still remains unclear why this happened, but nobody can deny one thing. Dr. Rife set the foundation for significant medical research and today’s scientists are working hard to replicate this machine and make it a useful addition to healthcare systems. Let us now see how those work.

How Modern Frequency-Generating Machines Work

Frequency-generating machines produce low electromagnetic energy waves which bare a certain similarity to radio waves. They are also called radio frequency electromagnetic fields. Unlike X-rays and radio therapies, which use high energy waves, these are known for using low energy waves. This is a less common way of treatment, but some research exists and speaks in its favor.

In addition to that, new research is still being conducted, even though this idea was first introduced in the 1930s, as you were able to see above. Human health should never be taken lightly, which is probably why scientists aren’t giving up this idea, but they are approaching it cautiously, slowly and in a serious manner. It’s no wonder that they are treading this topic lightly, given the controversy that followed after the destiny of Dr. Rife.

Today’s frequency generators work on a simple principle, just like the ones that were introduced far back in time. Let me make it simple. Have you heard of the term sympathetic resonance? Let me explain it simply. If you have two similar objects and one of them starts to vibrate, the other one will replicate those movements and start vibrating as well, even though they are not touching each other.

working-of-frequency-generating-machines

Due to that principle, it is believed that ultra-sounds can be used to stimulate organ function by vibration. That’s the whole philosophy behind these products, and while it is still unclear what kind of organ functions it is able to stimulate precisely, research is constantly progressing. In no time, we will know for sure what these generators can and cannot do.

One of today’s machines stemming from this research is called GB4000 MOPA and it prides itself in being a great replica of the machines used in 1930s. Unlike modern solid state circuit which uses low voltage and high current designs, MOPA oscillator/amplifier generates a high voltage, low current output, which allows it to light the plasma tube. Together with the GB4000 generator, this seems to be a really unique product. While working with frequency generating machines, it is also important to know how to select the perfect RF Amplifier

The reason I am mentioning this specific product is to inform you about the hard time people are having when it comes to choosing the right one. If you start researching frequency generating machines, you will come across myriads of choices and some of them will have really great specifications. When you decide to buy one, make sure to learn as much as you can about it and compare it to its competitor models, in order to find the one that works best for you.

Who Uses These

Let us now get back to our general topic. These machines are used in an effort to stimulate the patients’ bodies to use sound waves, or bio-frequencies, in order to make chemical changes on its own. They are used by many medical practitioners, clinical and private researchers. The modern world offers many possibilities and if a product like this could be helpful to the human kind, scientists are bound to do research on it.

Given the breakthrough and the evidence we have gathered so far, people have started using these products outside hospitals and medical facilities. Deciding on getting one for yourself is a big step, and one that needs much consideration on your part. There are a lot of factors to take into account when buying this machine.

For starters, you will need to decide whether this product is going to be used only by you, or by multiple persons. In addition to that, you will need to think hard of when and where you will be using it and whether you will be travelling with it. Check the reputation of the company you are buying from and don’t make any rushed decisions.

Insights into Automatic Weather Monitoring Station

Weather variables such as wind speed and direction, air temperature, humidity and rainfall are important factors in determining the course of a wide range of events. For example, agriculture has always been heavily dependent on the weather and weather forecasts, both for its control on the quality and quantity of a harvest and its effect on the farmer’s ability to work the land or to graze his stock.

weather-monitoring

Water resources generally depend critically not just upon rainfall, but also other weather phenomenon that together drive plant growth, photosynthesis and evaporation. Just as pollen and seed dispersal in the atmosphere are driven almost entirely by the weather, so too is the direction and distance of travel of atmospheric pollution.

Weather monitoring is also important not just in defining present climate, but also for detecting climate change and providing the data to input into models which enable us to predict future changes in our environment.

Because of the wide variety of uses for the information, there are a large number of environmental variables which are of interest to different groups of people. These include solar radiation, wind speed, wind direction, barometric pressure, air temperature, humidity and net radiation.

The demand for these data, usually on an hourly or more frequent timescale, has increasingly been met by the development and widespread deployment of automatic weather stations (AWS’s) over the past 30 years or so.

Automatic Weather Station

EE-WMS-01, the automatic weather station developed by India-based Engineering and Environmental Solutions is a highly sophisticated monitoring & logging of intrinsic weather conditions like temperature, barometric pressure, wind direction, wind speed, wind chill and other optional parameters according to your requirements.

Automatic Weather Monitoring Station developed by Engineering and Environmental Solutions

Application areas include agriculture, hydrology, ecology and meteorology. For any sort of customized application, Engineering and Environmental Solutions can give assistance to select the best blend of sensors, data logger and accessories accordingly.

  • Field proven in severe weather conditions.
  • Unattended weather recording at remote and exposed sites.
  • Wide choice of sensors and accessories.
  • GSM Modem communication.

Flexibility and Customization

The DL-W’s analog inputs can be fully customized. Each channel can have its own input type and recording parameters. Software gives the user control over reading frequency, thresholds and units, and provides recording options for average, min and max, plus specialized wind options including wind rose, gusts and wind averaging Users can add their own custom sensor types to the sensor library, exploiting the DL-W’s detailed configuration options.

The DL-W provides 4 input ranges down to microvolt resolution with adaptive auto-ranging, excellent analog accuracy, and configurable sensor excitation enabling it to support nearly all analog sensors. Calculations based on the measurements from several input channels can be recorded and displayed as additional virtual channels (calculated measurements).

For more information and business enquiries please visit www.enggenv.com or contact Mohammad Hamza on +91-9540990415 or email on enggenvsolution@gmail.com or salman@bioenergyconsult.com