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What will the eSIM Offer?

OK, the photo is a joke, get it? 

You don’t insert eSIMs.

You didn’t have anything like SIMs on the old phones. They were not wireless.

On the really old phones, you couldn’t dial, you just picked it up and tried to get the operator to connect you. Today we talk to Siri or Alexa, not an operator. Could you imagine doing that today? Just pick up the phone and say, “Hey operator, connect me to Wild Bill across the way?” Then mysteriously, old Wild Bill picks up and complains that he was on the toilet when you called! Oh, right, we can ask Siri to call Wild Bill and the same thing happens. I guess we really have come full circle, haven’t we?

No MVNOs or wireless carriers in those days, sadly. No choice of phones. No purple, yellow, or rose gold. You got the black phone and you liked it. It was an expensive utility and you could only call local without paying more money. Calling outside your local area was considered long distance. It was expensive, just like roaming charges, only wired.

No voicemail. No text messages. No apps. No internet. Just good old-fashioned talking, unless they didn’t answer and you got on with your day.  

As I said, you liked it. If you remember a time before wireless phones, you liked your old phone up until you were on call for work. Then it sucked. 

I wrote this article because I think eSIMs are going to help change the way telecom looks at devices. We need devices but only as an interface. Hardware solution with apps and software being the product. I believe eSIMs will accelerate that ecosystem.

First off, what is a SIM? A Subscriber Identity Module (SIM) card has a unique code to identify you on a network. You add the chip to your phone to activate it so it works on your carrier’s network. It gives you permission to work on a specific network and pay that carrier/MVNO in the process. Think of it as a Wi-Fi certificate on steroids. You need it to work on a network. Still curious? Look here.

What is an eSIM? Well, eSIM is an embedded Subscriber Identity Module. Just like the SIM, only it’s a pre-installed chip where you enter a unique code that becomes embedded on a much smaller chip. It’s so much easier to add because you can scan a QR code or enter an ID. If you live in the US, think of Microsoft Authenticator crossed with a social security number. Instead of an external module, you enter a code. How cool is that?

The eSIM was originally introduced by the GSM Alliance. For smartphones, it was Apple that ran with the idea and pushed it into prime time. Pretty sexy, right? 

Oh, just so you know, this is also the way you’re tracked by governments. They get your information from a carrier and then they can track your mobile digital device. All you do on that device. Now, suddenly it seems scary, and not so sexy. (Unless you’re in law enforcement tracking criminals or in a dictatorship/communist government spying on the masses.)

Why does Apple like it? Think if you had to design the new iPhone. The eSIM chip is smaller than the SIM chip. It eliminates an opening in the device, preventing water damage as well as losing the bracket to hold the physical SIM. It’s quicker to get the phone activated, especially if you have to wait for the carrier to ship you a real SIM. One less thing to worry about. It uses less energy saving battery life. It’s probably cheaper, but I don’t see any prices dropping. IoT devices, on the other hand, have to be as cheap as possible to make the business case work. 

For the carrier and MVNOs, there is no need to carry physical inventory. I see this as an opportunity for MVNOs to ramp up direct to the end user offering almost immediate activation. Let people buy their own devices from whoever.  

How convenient! It kind of makes sense, right?

It makes the phone setup easier and for the carrier or MVNO, they have lower overhead and no stock. So much easier on both sides.

I think dual eSIM would be easier to switch back and forth, although I am not sure what the advantages would be. Maybe if you travel between countries or if you have an open device and like to use 2 networks for coverage, that makes sense too if both countries allow eSIMs. It could be if you have a work number and a home number you could quickly switch. Maybe to go from private to public networks, although I am not clear on that right now. I just don’t have all the answers. 

Why would an MVNO care about eSIMs?

I think Mint Mobile and Ultra Mobile were sold to T-Mobile at the perfect time. Why? Because eSIMs are going to allow the mini MVNO to take off.

Imagine this. If a carrier can sell large data and voice plan with bundled eSIMs, all on a website. Before, the MVNO had to store the physical SIM somewhere, but that no longer applies. No more physical inventory. Create a simple contract, much like what AWS and Google have done with small businesses. Why do carriers make it so hard and confusing? Keep it Simple Stupid (KISS). I get it because I am simple and stupid, just ask my wife. 

Many MVNOs do this today but they have been shipping SIMs and they try to sell devices. For Visible, Mint, and others, now they can sign people up by having them sign up and scan a QR code. I think it could be that simple. Why not? Those MVNOs have done a great job reaching end users. 

Mint has Ryan Reynolds, who hasn’t hurt them.

It could even allow the smartphone vending machines to come back, would that be amazing? 

By the way, Alibaba sells these. So yes, they are a thing. 

You can already see chargers and cell battery vending machines at most airports. 

How secure will eSIMs be?

The FCC has a site answering questions about eSIMS. I recommend reading the FAQ. 

There they talk about the security of eSIMs. An eSIM can’t be stolen like a SIM. It remains inside the phone. Of course, the device can still be stolen. 

However, you still have your hackers trying to steal. You still have people who may figure out how to create fake eSIMs. It’s still a possibility. One that will probably be attempted. We just have to face it, there’s always someone trying to beat any system.

I think they will be as secure as the network will allow them to be. Currently, it’s pretty solid.

I did see an article, found here, where there is a way to hack it but it relies on social engineering and lazy carrier representatives to actually make it happen. It’s not easy or intuitive and relies more on human laziness and error rather than hacker superiority. 

What about IOT?

IoT devices could use the eSIM but Deutsche Telekom came up with an iSIM or integrated SIM which is smaller than the eSIM chip. WOW! This may replace the eSIM someday, but for IOT it makes sense. Learn more here.

If it can be made smaller and use less energy, then it makes sense. 

Who wins with eSIMs?

I always think the carriers win. More devices mean more income, right? Even if it’s the low trickling income of IoT devices that only pay pennies a month. It’s still revenue.

I know IoT was supposed to pay off big, AT&T bet big for it, but the revenue of these connections is relatively low since you need 10 (or more) times as many connections to make up for a smartphone or Fixed Wireless Access (FWA).

IoT is not as attractive to carriers as one might think.

I honestly think that MVNOs will start popping up more and more if the carriers can make the packages attractive. Why would a mini MVNO want to sign up maybe a thousand or so users under their own name? Whether it’s IoT devices or the latest smartphone. They may want to offer local service to their school, municipality, or town without waiting for the carrier to open a store or the hassles of ordering online only to find out the coverage sucks.

I think it could be a win for the carriers to automate this process. They could close stores, offload the sales to MVNO resellers, and gain revenue. It may be prepaid or monthly, either way, they can become the utility and let independent resellers connect in smaller markets. 

Maybe my vision is too simplistic, but I remember talking to a carrier about automating this process some time back. They seemed to be moving ahead with a model like this, but then, like so many small ventures in large corporations, it faded away. I am guessing that whoever was driving it moved on to something different. 

It isn’t easy being an entrepreneur in a large company without executive sponsorship. Executives don’t often get the bigger picture unless it’s very safe.

What’s next for eSIMS?

As for the eSIM, I am hoping it simplifies setting up devices. Whether a smartphone or a thing. I want something easy and simple. I think this is going to make things better and open up more opportunities for the carriers. 

I see opportunities for hyperscalers to actually build up their MVNO models and perhaps compete with cable companies. 

We will see eSIMsl dominate and the SIM will eventually fade away or at least fade to a niche market. 

I believe this creates an opening for mini MVNOs to start up a business using the carriers in their specific local market if there’s coverage. Why not? No more physical inventory, at least SIM cards. Now they can just have the end user buy the smartphone to IoT device from Amazon, get online to receive the eSIM, and sign up for service, and they’re done! Visible and Mint had very similar models. It was all online and easy. 

Amazon has plenty of phone plan options through MVNOs, it’s so easy to get on and sign up today. They ship you the plan and the SIM, prepaid, done.

Oh, eventually we may migrate to iSIMs for everything, who knows? 

As for the future of SIMs……

However, 10 years from now, physical SIMs may be considered suspicious activity. The main thing law enforcement doesn’t like is how people using SIMs are constantly switching devices. This could look suspicious. I believe law enforcement will look at devices using regular SIMs and wonder why.

Today, SIM swapping fraud is a thing, it’s being monitored. Hackers are so savvy. I am not sure we will ever get past these scams. 

Why bring this up? I believe the FBI tracks more than we know today. Why do I single out the FBI? Did the FBI censor or influence Twitter? Not monitor or track, but actually censor tweets that appeared to help one political candidate over another? I have to wonder. When I say censor, they may have directly done it or indirectly influenced it. Even Mark Zuckerberg talks about how the FBI came in to influence which information should be shared. They were very specific. What else would they censor/influence just because they can? What else could they manipulate? Why did they do that?

That’s another article, but it opens the door to the FBI influencing other activity, doesn’t it? Democracy is awesome especially because things like this usually come to light. Yet, political manipulation happens, even in the US. I love the United States for freedom and because things like this always come to light, eventually. The truth is out there, we just have to find it. If you think we have it bad, ready anything about anyone who escaped from North Korea, then ask that question again. I recommend a book I recently read called “The Girl With Seven Names: A North Korean Defector’s Story” by Hyeonseo Lee. 

Just in case you missed it….

You have to give T-Mobile credit. They just bought Ultra and Mint, meaning they will get Ryan Reynolds commercials. Let’s face it, we enjoy most of the Mint commercials on YouTube. However, they also had a brilliant FWA commercial with John Travolta, Donald Faison, and Zach Braff. So much fun to watch!! Doesn’t it make you want to get FWA today? 

Banning Huawei

I’ve been thinking, do people know Huawei was actually banned back in 2011?

For those of you that don’t know, Chinese telecom vendors were actually partially banned back in 2011, but only for large telecom companies. Many of you think former President Trump did this without any real evidence, but it all started under President Obama back in 2011 and 2012. 

It isn’t new, but the reality is that China is one of the top Cyber Spying countries in the world. Probably up there with the US, the difference is that China will spy on friends, foes, and its own people along with anyone to help the government’s interests. 

Do they trust their own people? It doesn’t sound like it. For example, the highest concentration of cameras is in Beijing and across China according to a Comparitech article. Per the article, “54 percent of the world’s cameras are located in China” and “Cities of China* — 540m cameras to 1.46bn people = 372.8 cameras per 1,000 people”. Crazy, right? The next closest is India which has 64.52 cameras per 1,000 people. India has a very dense population as does China. In the US, LA is the largest at 8.77 cameras per 1,000 people.

It seems that US private citizens buy a lot of cameras for individual use. I’m not sure how many cameras Chinese citizens have.  

Who is the most paranoid government in the world? Let the numbers do the talking. Of course, I would bet North Korea still has the tightest reign on its people. Even China sees the benefits of capitalism. 

I do remember how good Huawei looked back in 2011. We didn’t see ZTE as a threat, but Huawei was a force to be reckoned with. Their marketing material was amazing. They seemed to have all the answers.

They had all the answers for WiMAX, 3G, and the transition to LTE. It was unbelievable. It didn’t make sense to any of us because we knew that LTE required new hardware to make things work. Their data sheets looked amazing because it appeared one box could do it all. Greatest marketing material ever. 

They were so cheap and they promised the world. Their business proposals were too good to be true. So maybe they were too good to be true.

Reality set in, they could not deliver quite the way they promised. I guess it was too good to be true. We got the intelligence that they couldn’t do what they said they could do back then. They did work hard to make things right. I would like to say I think they lost money, but they didn’t seem to because they apparently paid their people way less than western countries pay. But their workers worked hard to make things right. Seriously, the Chinese workers worked hard, but not necessarily smarter. They spent a lot of time repeating mistakes. Eventually, they got it.

Now, with all that said, Huawei has some pretty great gear today, but now that they’re not a competitor in the US, I can’t tell if it’s getting better or not. 

If they had problems, they had what appeared to be armies of Chinese engineers to throw at any problem. Amazing! How do I know that? Because a few Canadian companies went all in. Something they probably regretted in 2021. 

So back in 2011 and 2012, Huawei was banned from the larger telecoms in the USA. Thank you!!! Selfishly, I was glad because I worked at Alcatel-Lucent (ALU) and that would have destroyed our business.  Which meant that we had tons of meetings on how to combat this. Well, I think AT&T and Verizon would have stuck with us, but Sprint was all about saving a buck.  

Unfortunately for Sprint and Huawei, their lobbying back then was not so strong. Huawei and the Chinese Government’s involvement was perceived as a threat by the US Government. Thank you, FBI. However, thanks to free trade, they still got to sell to the US Tier 2 and 3 carriers. Again, under President Trump, they were forced to rip out all Huawei and ZTE gear in the states.

Huawei would ship in a lot of Chinese engineers, which to me were treated poorly by American standards. When you talk to those guys all you could do was feel sorry for them. No wonder so many wanted to live and work here. 

By the way, if you want to learn what President Obama and then Vice President Biden did back then, read this and this. 

Now, let’s talk about Clearwire. 

Clearwire was a WiMAX company that actually built a nearly nationwide WiMAX network. A true data network for hot spots and fixed wireless. Today that seems normal, back then it was groundbreaking. In fact, ahead of its time. 

Lots of microwave backhaul. A WiMAX network built mostly with Huawei equipment. That’s right folks, a Chinese vendor deployed across the US.

They built it on 2.5 GHz spectrum, today it’s known as Band 41. Yes, formerly Sprint’s spectrum where they built 4G and 5G Massive MIMO and today it’s T-Mobile’s spectrum for 5G Massive MIMO. It’s been a crazy 14 years. 

While you may or may not remember the history behind this, Sprint eventually took the spectrum back and shuttered WiMAX in favor of LTE. Remember Xohm? 

This was another Sprint business disaster as they tried to be pioneers and all they got was pain. I believe it was because WiMAX never evolved nor got industry support as LTE did.

We saw a lot of technologies die, even WCDMA, the evolution of CDMA. GSM was also left by the wayside, although it’s more of the foundation for LTE.

In 2013 Sprint bought all of Clearwire for something like $2.2B, you know, because they had money to burn. They did get the 2.5GHz spectrum, which today is very valuable. 

Oh, WiMAX, what great technology. 

Sprint decided to shut down the WiMAX network in 2014, shutting it down in 2015, really 2016 until it was mostly shut down. 

Sprint did not try to go with Huawei when they moved to LTE. They already had partners in Ericsson, Nokia, and Samsung. Huawei was done with WiMAX and Sprint. Gone and being removed at sites. 

https://telecoms.com/opinion/down-to-the-clearwire/
https://www.reuters.com/article/us-usa-china-huawei-zte/u-s-lawmakers-seek-to-block-china-huawei-zte-u-s-inroads-idUSBRE8960NH20121008
https://en.wikipedia.org/wiki/Clearwire
https://www.computerworld.com/article/2493928/clearwire-accepts-sprint-s–2-2-billion-bid.html
https://www.fastcompany.com/3004059/sprint-buying-clearwire-22-billion
https://www.fiercewireless.com/wireless/sprint-to-shutter-wimax-network-around-nov-6-2015
https://www.politico.com/story/2011/02/chinese-telecom-giant-jams-obama-049543

Swapping Huawei

We saw a more aggressive approach in 2020 with the US banning all Chinese Telecom gear. 

So many US and Canadian telecom companies have been swapping Huawei gear out, mostly on the government’s dime. That’s fair considering that the government forced them to swap and it costs many millions, perhaps over a billion dollars. 

Swapping out the core, routers, RAN, and microwave networks. 

This was a lot of work for all parties involved. For the Non-Chinese OEMs, it was great. For the telecom tower workers, it was a good thing. It was good for all outside of Huawei and ZTE. 

All this at the government’s expense. 

I think most of you know what’s happening today. Most of the people reading this are probably involved. 

We also know that the feds in the US didn’t quite pay for everything. This is an ongoing battle. 

Huawei moving forward

We covered a lot of history here. Chinese vendor issues and the death of WiMAX. I am just tying it all together for you. 

Well, since the US pointed out the issues with Huawei, crazy at first, but the English apparently found some evidence of security flaws or “backdoors” in Huawei gear. I read an article here that shared a report that can be found here. 

So, we don’t know what’s really going on, but it seems like the companies that are stuck with Huawei are at risk. On the other hand, maybe Huawei fixed the issue. Who knows? I don’t. 

I do know that relations between China and the West are probably the worst ever. Russia invading Ukraine didn’t help either side. 

Just so you know, China is tightly aligned with Iran and the Democratic Republic of Congo. Iran is accused of supporting terrorist acts against the west and the Congo has allegations of a slave trade to mine Cobalt. 

I hope we can work things out because a war would be awful for everyone involved, except maybe Russia. 

I am surprised China didn’t just start to exert its dominance over Russia, not sure what they’re waiting for. To me, it’s clear China needs the natural resources and Russia is vulnerable. China is now the big boy who can push Russia around. 

I guess that’s another article.

Is Wireless Power Irresponsible?

Here’s a thought I had. How responsible are we in tech? I believe we try to be, but knowledge is power. Knowledge can make us uncomfortable. Especially when we learn ugly secrets. Awareness is the key.

Is lithium-ion one of those ugly little lies we’re living without even knowing it? Maybe. 

Listen, we all love our devices, but let’s face it, the lithium-ion batteries we rely on have faults. I realize we need batteries to make things wireless. We need wireless power. In this case, specifically, we need lithium-ion batteries to make things happen longer. They seem like an amazing invention, but at what cost?

Wireless power is the cost. Smartphones, laptops, power tools, and electric vehicles all need lots of power. We rely on lithium-ion for almost everything in our hi-tech lives. It doesn’t stop there! Watches, toys, lights, soap dispensers, towel dispensers, and more. Can you think of any new device without a lithium-ion battery?

All these devices have cobalt in them. Most cobalt comes from the Congo where human rights mean nothing.

Do you remember when child labor was a horrible thing for clothing makers? I remember when Kathie Lee Gifford was told her clothing was made by children in another country. She didn’t know until she was told and then she was horrified. We should be reacting the same way.

I am telling you now, we have real issues with the mining of cobalt. Think child labor, human trafficking, and environmental destruction. Especially now that we have electric vehicles going mainstream.

Who is to blame for this? We can sit here and blame big nameless corporations, but you know, we had laptops and power tools before smartphones. It’s easy to point the finger at Apple, Samsung, Tesla, Ford, GM, or Nissan.

Let’s face it, we are to blame. That’s right, look in the mirror and see the guilty party. We buy all of this crap. And now we’re buying EVs which are going to accelerate the problem unless we find alternatives.

We can’t take all the blame though; local governments are pushing vehicles to go electric. In California, the state will stop selling anything but EVs by 2035. They want to save the planet, but are they inadvertently promoting child labor and destroying Africa’s environment? Clean cars, dirty conscience, but the California government will be happy.

In this article, I want to cover how responsibility around Lithium-Ion batteries needs awareness, and we have alternatives.

I’ll talk about recycling, which is being addressed today. Recycling is a key issue moving ahead. While we all like it, I know tons of batteries will be in landfills. How bad is that? Really bad for our kids.

Then I’ll cover the corruption in the cobalt mining industry and how it promotes child labor and human trafficking. How it will destroy the Congo.

Remember, in the US it’s mostly an environmental push. They’re doing it to save the environment. But at the cost? How many new problems have been created? 

I was inspired by a book, “Cobalt Red” by Siddharth Kara, to write this and get the word out. We have to act now to stop this.  

Problem #1 is Battery Recycling Overview

There are millions of smartphones and they all have toxic chemicals inside of them. Recycling is more than a good idea; it should be your first choice for anything with a battery inside. Just think about all the landfills that will have batteries breaking down in them. Eventually, something will leak and then get into a water supply. Chances are good it won’t be a happy ending for the environment and the people that live close by. 

The United States must build up battery recycling infrastructure now because in 10 years we’ll be destroying the environment all over again.

For smartphones, Apple and Samsung offer this service, free recycling. 

For household items, like smartphones, power tools, and other devices with batteries, we can usually take them to Lowes, Home Depot, or another store and drop them off. You have to see if they are a recycling center. Not everyone does this, but it gives you a few options. 

To look for a place to recycle lithium-ion batteries, look at these links.

However, to me, a growing issue will be electric vehicles, (EVs). The EV will have a lot of batteries. The good news is that major car companies, Ford, BMW, and others make it very easy to recycle all batteries.

We have to think about how many batteries are in an EV. It’s literally hundreds of pounds. That’s huge. According to this article, batteries in an EV can weigh from 1,000 lbs. to 2,000 lbs. 

As long as the big car companies are going to responsibly take back the cars and recycle them, batteries and all, I am good moving ahead. They all say they have programs in place. They can no longer just sell you a car, they must think about the complete ecosystem from beginning to end.

Eventually, some of these cars will wind up in a ditch, rotting into the earth. It’s only a matter of time. 

An interesting article talking about the problems of EVs and recycling can be found here.

Problem #2 is Cobalt in Lithium-ION from the Congo!

Cobalt and human rights violations. Specifically, where the majority of cobalt is mined, in the Democratic Republic of the Congo, (DRC), where human rights are not a priority.

Lithium-ion batteries require lithium, cobalt, and manganese. These come from mines all over the world.

  • Most lithium is mined in Australia and Chile.
  • Most manganese comes from South Africa.
  • Most cobalt comes from the Democratic Republic of the Congo.

Unfortunately, the DRC is very poor and corrupt. Literally, a third-world country that relies on human trafficking and child labor to mine enough cobalt required to load up EVs with lithium-ion batteries.

How much cobalt is required?

  • A smartphone has about 5 to 10 grams of cobalt in each device. 
  • A laptop has about 1 ounce.
  • An EV has about 10 to 30 lbs. in it. Depending on where you research, any given EV could have 44 lbs. of Manganese, 30 lbs. of cobalt, and 17 lbs. of lithium. Source EVBox blog.  

So, in our effort to save the environment, it’s more like we’re creating new human rights issues along with pushing environmental problems down the road. 

In the DRC we are helping make the problems worse! Child labor and human trafficking are growing due to the increase in demand for cobalt. Not to mention all the environmental hazards near the mines. The chemicals and runoff from the mines create pollution and poison everyone around the mines.  This mining is destroying the land for years to come. Land that once sustained life is now dead and killing all those around it.

EVs to save the environment, yet I sense hypocrisy. I feel like the attempt to clean the air is killing people to get there. Is the first world making their countries better by destroying one third world country?

What makes Cobalt valuable?

It’s a key component in lithium-ion batteries. It makes them last longer and as of today, there is no great substitute. However, Tesla is working to replace it per this article.

Is mining bad?

No, of course not, as long as it is done responsibly. Slave labor and human rights should matter, as well as cleaning up the environment. Ethical mining is very good for the world. It’s done in almost every country, outside of the DRC and a few others. 

Unfortunately, the Congo mines are a mix of bad to worse. While some mining companies there observe the ethical and proper way to do things, most don’t care. Cheap products are more important. The DRC government is an enabler of these atrocities. It breeds lawlessness, militias, and slavery.

In the Congo artisanal mining is common. This is illegal in most of the world due to the dangers that minerals like cobalt, lithium, and uranium can cause. NPR did a nice article, found here

What is artisanal mining? 

It is basically someone digging a hole by hand and extracting minerals without working for any given company or following any rules. It sounds sexy until you realize these people get sick and work endlessly just for a dollar or so a day. No health benefits, no company to help you out, just enough for you to sell what you can carry in the hopes you get enough money to feed yourself. 

Now, imagine children doing this day in and day out alongside their mothers. Eventually, you get very sick. Imagine a mother with a baby strapped to her back, digging in a hole for cobalt.

Why would anyone buy minerals from artisanal miners?

Because it is cheap. Really, really cheap. They take what they’re given and they can’t transport it very far due to government permit requirements and money. 

Should we ban purchasing cobalt from artisanal miners?

Yes, and that’s what the ethical miners are trying to do. Unfortunately, in the Congo, it all gets thrown together without being tracked, basically hidden from where it came from.

That’s the real issue. It is not in anyone’s interest there to stop artisanal mining. Some middleman gets cobalt for next to nothing and hand it over to bigger mines for a little more money. It’s part of the system. 

Artisanal miners make enough to live, as long as they’re healthy enough to dig and carry minerals. Chances are they will die, so it becomes a choice. Do they die now due to hunger? Maybe they die later from hunger or disease. What would you choose?

Why is this still happening today?

Because cobalt is valuable.

Because we’re being lied to about where the cobalt comes from. 

Because turning a blind eye makes it worse, not better. 

Can we blame big business? Apple and Samsung? Tesla and Ford? I believe they are all members of the Initiative for Responsible Mining Assurance (IRMA). It’s a start. They’re trying to follow the proper channels.

Can they do more? I believe so. I think they have to stop buying anything from the Congo.

Do I blame the Congo? No, because we’re buying EVs and other wireless devices. We, the end users, are the enablers.

Mining companies (mostly Chinese) are getting rich and feeding a very corrupt system.

Unfortunately, if businesses stop buying Congo cobalt, many will starve and die. I don’t see a happy ending here.

I would like to think American and European companies will pull out, but if they want cheap cobalt, they will turn a blind eye. Where else will they go? Our hope is that we find an alternative to cobalt and lithium-ion batteries.

What are the alternatives to Cobalt?

Yes, Iron-Phosphate batteries.

Elon Musk said that Tesla would move away from cobalt, article here.

Samsung and Panasonic also are moving away from cobalt and towards iron-phosphate, article here.

See https://cen.acs.org/energy/energy-storage-/Lithium-ion-batteries-cobalt-free/98/i29 and https://onlinelibrary.wiley.com/doi/10.1002/adma.202002718.

I don’t see Chinese companies moving away from cobalt anytime soon since they practically have cornered the market on cobalt mining.

How does cobalt mining tie into child labor, human trafficking, and slavery?

The DRC government and local militias run everything. They will continue to do what they want with little regard for lives other than their own.

For example, let’s talk about Kamatanda. The army displaced thousands because the Chinese bought land, which included Kamatanda. According to Siddharth Kara, who wrote the book “Cobalt Red”, after the purchase, the DRC army came in and displaced over a thousand residents so it could be mined. The residents were asked (forced) to leave. They were not given anything for their trouble except their lives. All because what was under the ground was deemed more important than their well-being. 

But hey, they can come back to work in the mines, right?

What is being done for human rights in the DRC?

Unfortunately, every country that goes into the DRC succumbs to high profits in trade for these natural resources. It was originally Belgium and today it’s China. It’s mostly foreign companies running mines there, with the Chinese companies owning most of them. 

It appears China doesn’t care what happens in the DRC. 

However, in the free world, auto companies are trying to make sure they buy companies that do ethical mining of Cobalt. There are groups that look into things like this.

Which automakers have joined the Initiative for Responsible Mining Assurance, IRMA? Well, BMW was the first back in 2020, then Ford, VW, Mercedes, Tesla, and others

It appears some businesses will turn a blind eye to the atrocities. That’s why I am so glad Mr. Kara wrote such an impactful book.

Does this remind anyone of blood diamonds?

Going in circles

Our government can’t be blind to this, can they? Of course not, they’re not blind, they just choose to see what matters to them. Unfortunately, it has become electric versus fossil fuels. Again, power plants rely on fossil fuels to create the power to charge batteries.

Remember that power grids fail, don’t they? Without fossil fuels, when the power grid drops, it’s only a matter of time before batteries die.

My point is that we may be solving one problem but creating a new one. Look at the human rights issue. California of all places pushed this agenda and didn’t follow through by looking at this end-to-end.

Also, we have to think of the infrastructure issues. I think we have to turn away from vehicles and start moving towards flying vehicles for people. Think how much we spend on roads, bridges, tunnels, and so on. We could move that money to the electric grid and other utilities. Why are we still relying on wheels?

What prompted this article?

I read 2 books. First, “Cobalt Red” by Siddharth Kara, and second “China’s Second Continent” by Howard W. French. That forced me to look into this matter with a little more enthusiasm.

As many of you know, I currently do what I can to deploy 5G networks. We are on the cusp of moving from Lead Acid batteries to Lithium-Ion batteries. While this doesn’t seem like a major thing, it forced me to look into how these batteries were made. Batteries are such a pain in the ass to work with. When they came out with sealed batteries, I was overjoyed. Why?

Because back when I did fieldwork, I lost more work clothes to battery acid than almost anything else. It’s a slow eater of clothing. Also, I had to carry gallons of distilled water everywhere just in case they were low. 

Occasionally batteries would freeze, explode, or just start leaking. Usually, because the trickle charger was faulty. Yes, back then things failed all the time for no apparent reason. That’s why technicians were so valuable back then. We fixed things without replacing an entire chassis. Just like cars of old. 

Soon, wireless infrastructure will require new backup power sources. Lithium-ion and/or iron-phosphate batteries are a viable backup. I want to be sure that when we make that move, we will be responsible for creating a stable and ethical ecosystem.

Top Cobalt-Producing Countries

  • Democratic Republic of Congo Mine production: 130,000 MT The Democratic Republic of Congo (DRC) is by far the world’s largest producer of cobalt, accounting for roughly 70 percent of global production. The country has been the top producer of metal for some time and reported an output of 130,000 MT in 2022. As cobalt demand rises, increasing attention is being directed at the DRC. However, cobalt mining in the country has been linked to human rights abuses, including child labor. In response, the London Metal Exchange has taken steps to ensure all producers associated with the exchange follow responsible sourcing guidelines. For its part, the DRC passed a revised mining law in 2018 that increased taxes on metals like cobalt and copper. In 2020, the country set up a new state company to buy and market all artisanal cobalt mined in the DRC with the aim of controlling the entire supply chain and boosting government revenue by having more influence on cobalt prices. The DRC is likely to remain crucial to the cobalt market for the foreseeable future. Glencore (LSE: GLEN, OTC Pink :GLCNF) has interests in two mines in the African country, Katanga and Mutanda — key producers of cobalt. Additionally, in November 2022, Trafigura closed a US$600 million financing that it said “would enable it to complete Congo miner Chemaf’s new mechanized mine at Mutoshi, processing plant in Kolwezi, and the expansion of its Etoile mine and processing plant in Lubumbashi.” The deal was contingent on enhanced ESG compliance and responsible sourcing awareness and implementation. The Mutoshi copper-cobalt mine is expected to begin operating in Q4 2023, and will be the world’s third-largest cobalt mine.
  • Russia Mine production: 8,900 MT After falling in 2021, Russia’s cobalt production increased in 2022, rising from 8,000 MT to 8,900 MT. While the country’s cobalt reserves stand at 250,000 MT, Russia is still well behind the DRC in terms of production. Large Russian miner Norilsk Nickel produces cobalt and is among the world’s top five producers of the mineral. With concerns about DRC cobalt running high, some automakers have been calling for increased EV battery production in Europe. There was hope that this push could boost Russia’s future cobalt production — however, that may now be out of the question while the country wages war against Ukraine. As of February 2023, EU sanctions on the country had yet to affect cobalt. However, an April 2022 round of sanctions from the US hit Russian cobalt with a 45 percent duty that will expire on January 1, 2024.
  • Australia Mine production: 5,900 MT Australia saw a large increase in cobalt production in 2022, with output rising by 605 MT from 2021’s 5,295 MT. As is the case for many other countries on this list, cobalt produced in Australia is a by-product of copper and nickel mining. The country’s nickel mines are located in the western part of the country, mostly around the Kalgoorlie and Leonora regions. As the DRC becomes increasingly challenging for miners and as investors try to divert their interests away from Africa, Australia is another country that’s receiving more attention. The island nation may be third in cobalt production, but its cobalt reserves are the second largest in the world at 1,500,000 MT.
  • Canada Mine production: 3,900 MT Canada was the fourth largest cobalt producer in the world in 2022, moving up from fifth place in 2021, although its production decreased in that time from 4,361 MT. As with Australia’s cobalt, Canadian cobalt comes mostly from large nickel and copper mines that produce cobalt as a by-product. Some of these major nickel and copper deposits are Kidd Creek, Sudbury, and Raglan. In recent years, a number of junior miners have rushed to Cobalt, Ontario, to stake land. The site is located near the Quebec border and is known for producing large quantities of silver in the past. It’s still early days for many of these companies, but if they are successful, it is possible that Canada’s cobalt production will rise.
  • Philippines Mine production: 3,800 MT The Philippines is the fifth largest cobalt producer in the world. The country’s cobalt production was up slightly in 2022, coming in at 3,800 MT. The Asian country is also a top nickel producer. The fate of mining in the Philippines was up in the air for awhile as former President Rodrigo Duterte and former Environment Secretary Roy Cimatu called for a shutdown of all mines in the country based on environmental concerns. However, Duterte seemed to have a change of heart in early 2021, lifting a ban on new mine permits in an effort to boost revenues. His successor, President Bongbong Marcos, has ordered the country’s Department of Environment and Natural Resources to enforce stricter guidelines and safety protocols on both small- and large-scale mines. He hopes to bring illegal mining operations into compliance so they can operate legally and with safer conditions for employees.
  • Cuba Mine production: 3,800 MT Cuban cobalt production fell slightly in 2022 to 3,800 MT, down from 4,000 MT in the year prior. The country’s Moa region is home to a joint venture nickel-cobalt operation held by Canadian firm Sherritt International (TSX:S,OTC Pink:SHERF) and General Nickel Company of Cuba. Moa uses an open-pit mining system to produce lateritic ore, which is processed into mixed sulfides containing nickel and cobalt using high-pressure acid leaching. Cubaniquel, the country’s state-owned nickel miner, is the sole operator of the Che Guevara processing plant at Moa.
  • Papua New Guinea Mine production: 3,000 MT Papua New Guinea has made the list of top cobalt producers by country for the fifth year in a row. In 2022, the small country off the coast of Australia produced 3,000 MT of cobalt as a by-product of nickel production, staying nearly flat with the previous year’s output of 2,953 MT. The country’s main cobalt producer is the Ramu nickel mine near Madang, a joint venture between private company MCC Ramu NiCo, Nickel 28 Capital (TSXV: NKL, OTC Pin k:CONXF) and the Papua New Guinea government. 
  • Madagascar Mine production: 3,000 MT Madagascar’s cobalt production was suspended in 2020 to prevent the spread of COVID-19, leading the country’s output for the year to fall to 850 MT from 3,400 MT in 2019. However, Madagascar’s cobalt-mining industry was on the rebound in 2021, putting out 2,800 MT for the year, and it continued to go up in 2022. Much of the country’s cobalt production comes from the Ambatovy nickel-cobalt mine, owned by Japanese company Sumitomo (OTC Pink:SSUMF,TSE:8053) and the Korean government. The fourth largest island in the world, Madagascar is also a major producer of graphite, another important battery metal.
  • Morocco Mine production: 2,300 MT Morocco’s cobalt production remained stable from 2021 to 2022, coming in at 2,300 MT. The majority of this production comes from Managem Group’s Bou Azzer cobalt mine, which produces the metal as a mono-product. Cobalt from Moroccan mines got a lot of attention in 2019 after major carmaker BMW (OTC Pink:BYMOF,ETR:BMW) announced it would be buying cobalt directly from mines in Australia and Morocco to ensure its supply of battery raw materials is sourced responsibly. In mid-2022, Managem signed a deal with Renault (PAR:RNO) to supply the car manufacturer with 5,000 MT of cobalt sulfate annually for seven years starting in 2025. 
  • China Mine production: 2,200 MT China’s cobalt output in 2022 remained flat compared to 2021. However, the country leads the world in refined cobalt production at 70 percent of total global supply; the material it uses comes mostly from the DRC. The Asian nation is also the top consumer of cobalt, with the vast majority going to the country’s rechargeable battery industry.

Cobalt metric tons mined per country

  • Democratic Republic of Congo – 100,000 tonnes
  • Russia – 6,100 tonnes
  • Australia – 5,100 tonnes
  • Philippines – 4,600 tonnes
  • Cuba – 3,500 tonnes
  • Madagascar – 3,300 tonnes
  • Papua New Guinea – 3,100 tonnes
  • Canada – 3,000 tonnes
  • Tonnes are metric, 1,000 KG in this case.

Joe Rogan’s Interview with Siddharth Kara

An Insiders View to SDN, vLAN and oRAN

OK, we’re talking wireless telecom here. Let’s cover some acronyms first.

  • Radio Access Network = RAN
  • Open RAN = oRAN
  • Virtual RAN = vRAN
  • Concentrated RAN = CRAN
  • Software Defined Networking = SDN
  • bove Ground Level = AGL

How do they tie together? I will tell you.

Small Cell Cover 4

I was reading AGL magazine, http://www.aglmediagroup.com/current-issue/, actually, I was reading the print version. I actually like to read the magazine, and not just to read what the sexy writers say; I am talking to you Don Bishop (dbishop@aglmediagroup.com) and you Sharpe Smith (ssmith@aglmediagroup.com) because those guys are putting out great content almost daily. They also have sexy tower pictures in every print magazine!

Anyway, I digress. I was reading the article about SDN Radio Router Technology for Fronthaul Networks, http://digital.aglmediagroup.com/publication/?i=539366&article_id=3228884&view=articleBrowser&ver=html5#{%22issue_id%22:539366,%22view%22:%22articleBrowser%22,%22article_id%22:%223228884%22} in case you want to read it.

Grant Henderson did a good job showing how the fronthaul can be virtual. This has been an issue in the past, but Verizon has been betting heavy on CRAN. CRAN is where you have the BBU hotel in one location and then, within a certain physical distance, maybe 1 to 2 miles, you have the radio heads all over town or in a large venue. This would look like small cells, but it would have the full functionality of a macro site sector. Why? Because it’s cost effective and it allows management from one location of several cell sites. It also greatly helps spectrum reuse.

In the article mentioned above, Grant Henderson of Dali Wireless, (www.daliwireless.com) does a great job explaining how his SDN radio is an improvement over CRAN by making it a VRAN. Personally, he covered a lot of scenarios. I think he could have started with large DAS systems then maybe do an overview on larger networks.

However, this is a solid lesson that VRAN is going to overtake CRAN in the near future. It also allows the radio heads and BBUs to be core neutral. When the core and the RAN are different vendors, we are coming closer to creating an ORAN system. The openness that the carriers would like to have.

The DAS systems that Grant mentions in his article is a classic example of how there is greater opportunity for the newer RAN vendors to break into new markets. I know it is happening in China, but here in the US, the market is dominated by Nokia and Ericsson with smaller OEMs making inroads. Samsung has been moving into Sprint and Verizon with its 5G push, and it looks like they could make progress with other carriers too if they commit resources to the USA. Airspan has done a great job with Sprint and SpiderCloud, and Ruckus is making a push with small cells and CBRS.

My point here is that the article points out new ideas coming from disruptors that will make the networks seamless no matter who has the core. Ericsson and Nokia have great core solutions, but the RAN could start to open up to all.

Dali Wireless shows that the fronthaul is changing and that the vRAN radio heads can be made to work in a DAS system. It could be iDAS or oDAS, but the SDN radio is making this change possible. Fiber connections are better than ever and allowing more bandwidth to be passed in this equipment. SDN radios are making it possible for the traffic and processing to be offloaded and done on the radio. The BBU can hand off that extra work to the edge router. Now the router is taking away a lot of the distance limitations that are there in CRAN.

We will need to implement this in 5G to make good things happen to the network and meet the high expectations placed with a 5G network. SDN routers are going to be the difference between vRAN and CRAN. It has to happen sooner than later.

Grant has some great DAS designs that I love. I think he could break into the market using these first, then maybe take on larger projects. I would recommend that he would use this to connect several buildings or a stadium. This proves the concept works. Then we have the densification needs of any major city. That is really a very similar concept.

The thing about 5G is that the speeds and bandwidth requirements will depend on densification. Densification is a requirement of broadband because the loading of a site is heavier than ever. Each user will be requesting a lot of bandwidth and if they have an IOT offering but may have hundreds of smaller non-discrete devices on it.

By the way, if you think ORAN is not a big deal, then think again. Even Verizon joined the oRAN group; they were already members of xRAN. They see the future as an open sourced model with the ability to buy radio heads form anyone, not just the bigger OEMs.

I believe the idea if oRAN is to drive down the costs of radio heads and that the model will no longer be a hardware model but a subscription model. This sounds good up front, but the subscription model means endless payments on a network that you can’t shut down with losing all of your customers. They pay licensing now, but they want the CapEx to go down and the OpEx to be stable. It’s going to be a challenge for the carriers in 2022.

The idea of vRAN is not just a hardware and licensing issue. The design will have to be made easier and automatic. If they use massive MIMO heads, that could make that automated. Then you have the installation piece of it, that will not go away, but the carriers have already squeezed everything they could out of that. We’ll see what they do next to reduce costs. The more they drive down installation costs, the more they will drive up permitting costs. That’s what I have seen.

Finally commissioning and integration. They will make as much of it plug and play as possible. That is here for small cells and close for mini-macros. Macro sites still need a full C&I process. I think that PnP will be inevitable where possible.

One thing that has gotten more expensive, backhaul. More fiber strands are required for the new fronthaul systems. You need to be connected and have plenty of bandwidth for data and overhead. It’s going to be more and more demanding. The CapEx will increase as well as the OpEx for backhaul. The only saving grace is that SDN routers and router muxing is improving every day. More data over the same fiber, that’s the next dream.

Maybe wireless backhaul will be a lifeline, but fiber can usually be expanded easier. I love wireless backhaul, but the needs have been outgrowing the rate at which they can improve wireless systems. The good news is that Sprint has plenty of 2.5GHz spectrum to do both backhaul and last mile. Way to go Sprint! Oh, sorry, I mean way to go new T-Mobile!

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Will 5G Transform RAN Design?

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I was reading a report from ABI Research, “5G WILL RADICALLY TRANSFORM RAN DESIGN AND TOPOLOGY AS MULTIPLE SPECTRUM BANDS AND USE CASES CONVERGE,” and I had to think about the radical changes we have already seen. However, they were not radical changes, were they? They were a slow evolution of sites. We saw small cells come to life only to become CRAN and cRAN. We have seen the network transform form T1s and DS3s to all Ethernet. Then we saw backhaul go from 1Mbps to 100Mbps to 1Gbps and now 100Gbps.

We have seen edge computing take off only to gradually become FOG computing to lower latency.

We have to see the core go from a fixed regional core to a cloud core.Small Cell Cover 4

Let’s not forget that at one time Wi-Fi was a standalone technology and now licensed is looking for help from Wi-Fi to offload and trying to push unlicensed or lightly licensed LTE and 5G to support them. It’s becoming a ubiquitous network not matter what part of the network you are on.

We all say, “It’s the 5G revolution!”. If you’re in the industry, you know that’s all bullshit, right? We say that because it’s marketing and we love to brag about the latest and greatest technology that will save the world from destruction, or at least make us look cool in front of our peers when we have one of the first 5G devices, right?

It may be radical, but if you’re in the industry, you have seen this coming for a long time.

However, let’s look at the progression of the network over time.

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Spectrum:

We need more spectrum. The FCC granted us more spectrum. What do we have today in the USA?

  • All the original spectrum like 700MHz, 1.1GHz, 800MHz, 2.4GHz, and all the rest of the AWS, PCS and more.
  • All the license-free spectrum, ISM bands,
  • CBRS band,
  • New 600MHz we got from broadcast,
  • The new mmwave like 24GHz, 28GHz, and 39GHz,
  • The really high stuff like 60GHz and 70GHz.

It’s really starting to add up. More spectrum for more services to serve more people in more ways.

Backhaul:

We really need to improve the backhaul. That’s why we use fiber everywhere. Where we can get fiber, we use wireless, but only if we can’t get fiber. It’s all ethernet now. It’s all using faster and better router to lower latency and to have SDN. It has to be smarter than ever because humans could not keep up. We now use a type of AI to define our networks. They have algorithms that make the networks smarter and faster. We need that.

Fog and Edge computing:

We need to have the servers closer to the end-user so that they can lower latency for new applications. I don’t mean just apps, but for the cloud to be more responsive so that Artificial Intelligence and Augmented Intelligence will work better than ever before. It has to be better to that entertainment will see real value in it.

Why entertainment? Because that will lower the cost if larger entertainment dollars are spent on that new experience so that gamers can invest in it to lower costs even more and then, eventually, businesses will use it to lower costs by replacing people to improve customer service.

Applications:

We need new applications to drive new technology and lower costs. We also need more and more revenue coming in to support growth. The old model of adding more users isn’t going to cut it anymore. We need business applications to drive more business and make a new “need” out of these networks.

RAN

We need to discuss more than the RAN: We need to break down the small cells, CRAN, cRAN, macro sites, indoor coverage, licensed and license-free models. Of course, when we say RAN today, it means so much more than just cell sites, doesn’t it? It means the Het Net, densification, backhaul, routing, edge servers, offloading, and more.

The RAN starts at the macro site; they are still the key component. Sprint is making massive MIMO a priority. This goes beyond MIMO as we know it and creates a new era for active antennas. The massive MIMO antennas will be able to increase densification more than ever. This is what Sprint is banking on, having their 2.5GHz spectrum become the go-to spectrum for mobile and fixed. They have plenty of spectrum to use it for 4G and 5G. they have enough spectrum to make mobility or FWA work. They have a key asset there. One that they should have utilized long before 2019. I’m just saying that to sit on this asset is very sad. If they can roll this out, they should have mobility and FWA all wrapped up in one system. This is an evolution that is making inroads to the industry. They are on the bleeding edge of technology.

Another RAN upgrade is that they are deploying 5G radio heads. This will allow more efficiency over the air. LTE has been doing this, but now 5G should open up new doors.

What about the small cells? We don’t hear as much about them in the outdoor play because CRAN and cRAN are taking over. They are making a difference. This is the part of densification that needs to happen to make a real difference in 5G. I am not talking about just coverage here; I am talking about offloading, throughput, and low latency. If you work in RF or Fiber, then you know that distance matters. One of the key components of 5G performance is low latency to run all those fancy apps that we are looking forward to using.

Densification is more than coverage. However, it comes at a cost. The carriers in the US made it quite clear they are not going to foot the bill for small indoor venues. Who can pick up the slack? That’s another article, isn’t it? In fact, I touch on it here, https://wade4wireless.com/2018/11/25/in-building-wireless-the-next-frontier-for-integrators/ if interested.

So, when looking at densification, it’s the macro sites, the outdoor mini macro, and the indoor small cell.

We also need the lightly licensed and the license-free spectrum. These will be built like small cells. They will help to fill the indoor coverage. It’s going to play a role in the RAN network, like it or not. The OEMs have already rolled out LAA and LWA to satisfy this need. The need to get all the spectrum and cells to work together. They need to be tied together in a way that benefits everybody if your goal is to have ubiquitous carrier coverage. If you want a private LTE system, then screw the others and make it an isolated network. Who wants an isolated network? Manufacturing, secure businesses, R&D labs, wireless AI labs or centers, and more. There is a need for private LTE without connecting to carrier coverage, don’t forget that.

It’s not about the network; it’s about being different!

OK, this is something I picked up from a Seth Godin quote that I remember, I had to Google it because I think I heard it in an audiobook, but this blog came up, https://qz.com/work/1461996/seth-godin-does-your-logo-matter/, so I will use that as a reference. Seth said, (notice I said that like we know each other, and he has no idea who or what I am), anyway, Seth said, quote” How do we know that brands like Verizon and AT&T are essentially worthless? Because if we switched someone from one to the other, they wouldn’t care.” Why do I quote this when most everyone reading this is making a living off of the carriers in some way or another? Because it’s true! Look at Sprint, their entire marketing campaign says coverage doesn’t matter, do go with the lowest cost provider, Sprint. Yet, T-Mobile was able to differentiate themselves through “no contracts” and Legere marketing himself as the advocate for the millennials and wireless and through video services.

It is about being the next big thing and loyalty. However, that loyalty is disappearing. Do you know years ago Sprint had great customer service? Right before they merged with Nextel, I was a loyal Sprint customer even though the coverage sucked. Then they merged with Nextel, and the customer service became a customer’s nightmare. They became angry and mean. Many of the carriers had this problem, but I not only left Sprint for this reason and went to Verizon, but I hated Sprint for about 2 years! I mean I told everyone how they screwed me over for two solid years! Then they figured out that keeping customers happy matters and got back on track.

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Why do I say this, because T-Mobile figures this out before any of the carriers! Unfortunately, people have short memories, so what do they have to do next?

Someone has to be different! I don’t mean offering 5G; they are all doing that, so what, someone is first, again, short memories. What can they do to be different? Well, coverage is about the same, densification is about the same, throughput is about the same, what can it be? Can it be the app? Anyone with an iPhone can get almost anything. We can get YouTube, Netflix, Amazon Prime, almost anything on any service.

I don’t have the immediate answer, but I think it could be a few things, and the carriers have to be open-minded, unlike Verizon when they turned down the iPhone for the first time. It could be AI services, free music or movies, or it could be something we don’t know about yet. Unfortunately for many of you reading this, the average consumer could care less about the edge, FOG computing, CRAN, densification, or any of the things that we get excited about. Just ask anyone outside of the industry if SDN will redefine wireless. I would bet the answer will be “huh” or “what?” before you explain it to them. Even after the explanation, they probably won’t care as long as they have 3 bars on their smartphone. Honestly, why would they care, they want bells and whistles, that’s what they are willing to pay for. Honestly, do you see them caring about low latency or IOT? No, they want the services that these features will bring them like AI or a smart thermostat or awesome video of live sports.

For IOT you have SigFox, thinking outside the box to bring a low-cost IOT system across the US and Europe. They are trying to be different and serve a niche. They broke down what they could do well and what the carriers are not interested in doing at this time.

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I admire SigFox because the smaller telecom carriers are struggling to keep up with technology. They can spend the big bucks as the larger carriers do. They have to wait to see what happens; they roll it out based on necessity rather than being first. They have no choice. They are struggling to stay above water.

Listen, this is not a huge transformation, but we need to outline the facts and that it’s been a gradual transformation for each phase and that the OEMs still dominate pushing out many innovators. We need innovation not only for systems and technology but for the business side of it as well. We need to think outside the box and offer customers, maybe a small niche of customers, something that they really want that no one else offers.

Are you up to the challenge? I am trying, and it’s hard. Hard to find out what people are willing to pay for. It’s a challenge to get the word out and make it happen before someone grabs your idea and makes it happen. All we can do is offer it to the world, and hopefully, someone can make it work, even if it’s someone else. Good luck!

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Is 5G Dangerous to your health?

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An interesting question that I got on Quora, https://www.quora.com/How-is-5G-technology-dangerous-to-your-health that I thought I would share my response.

Here’s the thing, smartphones distract drivers, and people die, that’s one way it could be dangerous.

However, if you’re looking at the problems that RF can cause on the human body, then let’s not look at 5G, it’s not the technology, it’s the spectrum. I read Robert Ross’ answer, and it’s a great answer. I agree with most of it.Small Cell Cover 4

Let me point out a few things that may help you understand what the threat is. First, full disclosure, I work in the wireless industry, I was a tower climber for over 11 years and an RF engineer, and now I work with businesses to roll out wireless systems. Also, I worked with the FCC and OSHA on RF and worker safety.

The technology, like 5G, is not the problem. The problem is the spectrum and the power. The closer you are to the antenna and transmitter, the higher the power. So that’s the first thing to look at. I have conversations all the time where people think that 5G is terrible, it’s not 5G, it’s the spectrum.

The reason people associate 5G with health problems is because the FCC is releasing new spectrum, mmwave, which was used for microwave transmission in the past. Now we need more spectrum for terrestrial connections, so the FCC is “auctioning” it off to the carriers where the FCC will make billions of dollars. They say they put this back into the national debt. It makes you think that the FCC might put spectrum in front of safety, but why would they do that for a measly $10B or so? Not to mention the carriers need it. I am sure that the safety of the

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citizens come first.

This spectrum is 24GHz and 28GHz, and you may think it’s bad. It could be, but the reality is that most devices transmit such low power that it should not have any effect on the human body.

Oh, by the way, do you have Wi-Fi in your home? Not 5G Wi-Fi, but normal Wi-Fi? Or, maybe you go where there is Wi-Fi, like a Starbucks or any coffee shop for that matter. One of the spectrum bands that Wi-Fi uses is 2.4GHz. Do you know what else has 2.4GHz? Your microwave. The difference is that the microwave puts out a lot of power whereas your Wi-Fi unit puts out very low power. Oh, 2.4GHz is perfect for boiling water, that’s why it’s used. Source: http://hyperphysics.phy-astr.gsu.edu/hbase/Waves/mwoven.html

Power plays a role because your body protects you from much of the RF that is out there. The sun radiates more than sunlight down on us, the body is resilient and protects us. As humans, we had to push it to the extreme so we may not be as protected anymore.

While the FCC says all this RF is safe, they put regulations in place for the carriers to follow. This is in the USA of course. The FCC has transmit power limits for sites, all sites. They are very strict in the radiation that is close to humans. While they have these regulations, there is no way for the FCC to validate every site, there are 10s of thousands in the US.

While the carriers call them small cell deployments on street poles in residential neighborhoods, many are not a legitimate small cell but a CRAN deployment, which means that they have a full power radio head on a pole. This is what they do in many stadiums as well. The larger radio heads can handle much more loading, which means that they can talk to more and more subscribers than a typical small cell. Heavy loading is what the carriers are hoping to achieve.

So, when you look at 5G, the reason people are so worried is that 5G is trying to promise unlimited coverage. The way to get unlimited coverage is densification. Densification means that the carriers are going to put more and more radio heads closer to the people to fill in all coverage gaps.

This is what you should be worried about, all those hotspots, just like your Wi-Fi in your home you added to offload data. It all adds up.

It’s more than the carriers. We now have smart meters, wireless controllers in cars, your smartphone, your laptop, your headset running Bluetooth in the 2.4GHz range, and any other device that communicates wirelessly. It’s everywhere.

If you think it’s affecting you, there are a few symptoms that you could look at like;

  • ringing in your ears like tinnitus,
  • headaches,
  • feverish,
  • sickness in your stomach.

These are all extreme, but as someone who worked on towers, just a few inches from many of these antennas, you learned what to look for. One more significant thing, unless you are getting hit with heavy RF, you may be affected differently than someone else. It seems that some people have a lower tolerance than others.

I wrote a few articles about how climbers got sick while working too close to a TV broadcast antenna. This is all too common in our industry. I also know of others that worked on Wi-Fi systems that put the hotspot too close to their head and got sick. I have also gotten radio burns while working on antennas and radios in vehicles for police, fire, and ambulances. It happens. I got better because our bodies are resilient.

I know this is a lot to take in, I hope this helps.

To learn more, I have several blogs that covered this:

 

Be smart, learn smart tech at www.wade4wireless.com. For your support, TechFecta offering consulting, tech marketing, writeups, and general guidance. Feel free to hire for the experience and because you like what you read.

Be smart, be safe, and pay attention!

See Ya!

More products from TechFecta and Wade4Wireless that support WADE!

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 Get the Wireless Deployment Handbook today!

 

 

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Do you know what to put in your SOW, the details needed to get paid for milestones or job completion? 

 

Putting together your smart city tech solutions, planning, development, and more…TechFecta! Guiding you to a better plan through consulting!

 

The foundations below do beautiful work, spreading love when all seems lost.

Climbers can get seriously injured and/or die on the job. Support the workers who build and install the wireless systems!

Together we can honor and remember the fallen in our wireless family.  

official logo

Hubble Foundation helps the families of climbers in a time of need and beyond with financial support and counseling!

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Tower Family Foundation supports the families of tower climbers at the time of crisis when a climber falls with financial assistance and more.

 

How do you overcome Small Cell Deployment Obstacles?

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We hear how small cells are going to be deployed more this year than last. In fact, I’ve been saying myself. It’s just that small cells have not taken off like we had all hoped, or at least as I hoped. The good news is that there are great improvements being done to the macro sites that have mad the small cell a better addition and so much as an offload as we thought. Also, the CRAN systems have made the typical small cell model look insufficient as CRAN offers the macro capabilities in a single radio head compared to a typical small cell.

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What does that mean? It means that people will look at CRAN deployment first. Unfortunately, it means we all look at CRAN and a small cell deployment rather than what it really is, an extended sector of a macro site. So, I digress from the topic and explain the difference. But, I did so to help you see that when we talk small cell deployment, what we’re really talking about is small cell, CRAN, oDAS, and more that will all be called small cells going forward. Remember that the carriers want everyone to think that we’re just deploying small cells, not CRAN, mini-macros, or anything else. It’s easier to identify all of this in one big group, a small cell.

Small Cell Obstacles and how to overcome them.

OK, now, let’s look at the small cell deployment obstacles.

  • Permitting – the FCC is pushing to get the permitting problems eliminated. While the carriers still need to pay a permitting fee, the cities, townships, and municipalities can no longer sit on these permits. They may still reject them if they have just cause. The can also have a say in what they should look like. The citizens may still protest them. But the time to deployment will be greatly reduced. Many larger cities have already overcome this by offering a mass permit approval process to accelerate deployments. Let’s face it, the citizens want the coverage, but they don’t want to see the equipment. I get it, make it look nice and keep quiet if you want a happy citizen.
  • Backhaul – here is a key component, how do you get the backhaul or fronthaul to the device. Whether it’s a radio head or a small cell or a CRAN interface, you need to get the connection to the device to make it work. Can we do this wirelessly? YES! Sprint has been Small Cell Cover 4doing this with their 2.5GHz spectrum successfully with a UE Relay. Others may use microwave or a Point to multipoint, PMP device. It comes down to space and making it look aesthetically acceptable. That’s been the problem with microwave, even in the 70 to 90 GHz range. It has to be small and hidden. Hence, that why Sprint’s UE Relays have been a success. With the rollout of Sprint massive MIMO and 5G in the 2.5GHz spectrum, they should have the ideal spectrum for massive backhaul paired with new solutions and bandwidth. I think that the 3.5GHz spectrum could produce similar results. The UE Relay has smaller antennas, can receive from multiple cell sites and choose the best one, and is an ideal solution. Sprint uses this technology for their magic boxes, which appears to be a success. Although fiber is still the preferred backhaul for any of this, it’s still the hardest to get anywhere.
  • Mounting assets – here is still an issue. Many states have limited what an owner can charge for these assets. While that seems like a great win for the carriers, for Crown Castle, it seems like a step backward. They have put money into building poles and offeringofficial logo backhaul. The good news if they have limited rent on the income, they could earn it back selling their backhaul. I don’t know how it will play out, but they were proactive in planning for this deployment. They worked out many of the problems, like noise, aesthetics, and so on. They were pioneers in the small cell planning.
  • Site Acquisition – this is still costly. You would think this would not be as important but think of what goes into site acquisition. It takes the lease amendments if not a new lease. It has to have the structural analysis of a pole done as required. Carriers and landlords require CDs, (construction drawings), to be done for every site, even small cell sites. They need to know what power and backhaul will be used, what equipment will be mounted, and so on. It costs money to get all of this done, not as much as a macro site, but pretty close.
  • Installation, commissioning, and integration – I have to be honest, I don’t see this as an obstacle. Installation is cheap. The commissioning and integration, (C&I), generally plug and play. All the same, C&I is something that could be done remotely if the equipment allows it. The installer is asked to power it up and wait to see the green lights. This really should not be an obstacle anymore.
  • Equipment – I bring this up because it could be more than you think, the equipment is something that the carriers have worked out, but it’s not always the same. There are mounting kits, grounding, routers, camouflage, physical security, and so on. All the things that the site survey should point out.
  • Site surveys – this is where most groups go cheap, they use google earth to site the poles, then when they get there, they see a problem, which usually falls on the installer’s shoulders. Oh, the installer probably gets paid the least and has to most problems to deal with. Remember that the installer is at the site with the equipment and needs to mount it for that $200/site the carrier wants to pay. So, any delays and the installer loses money. Usually, the delays are caused by the group planning the installation, carrier or OEM or GC, and the installer won’t get reimbursed for the additional work or hardware unless he has a good contract and scope of work. So, the physical site survey should save you delays, costs, hiring new installers, and so on. They are easy, and can all be done with a simple iPhone or Android using an app. Don’t make it harder than it already is. Do the work, save time and improve the process. If it’s a large deployment, you should be able to have 10 surveys done a day unless you bog down the survey team with useless requirements. Be smart and think it through and have most of the work done in the back office. Make sure you have the best pictures you can get. Remember that this information will be used for the permitting, CDs, and so on. Make the most of it up front to have the process run smoothly on the backend.

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To sum it up, the obstacles are starting to be eliminated. The site survey will eliminate many of the obstacles that remain. It’s still not free or cheap, but it’s becoming more cost-effective than it ever was. That combined with the fact that the CRAN solution allows more macro-like capabilities to be used at a small cell location helps push things along.

Tower Safety for all your safety training!

Planning is the key! I’ll tell you from experience that only so much planning happens in the office behind a laptop. What generally happens is 2 things. Problems get reduced to nothing or blown out of proportion. I have seen it go both ways. Analysis paralysis happens all the time. Most engineers think of all that could go wrong and talk everyone out of doing anything whereas sales think of everything going perfectly and push too quickly. Real-world input helps with the reality that the worst-case scenario could happen, or the best-case scenario could happen. Find the balance that happens in the real world.

Resources:

Thank you for your support and your time. And good job on learning all you can in the wireless industry, you are amazing! Now, go out and impress people!

Would you sign up for a membership site with private content? If so, email me at wade@techfecta.com and write Membership. 

Do you want an occasional email with free PDFs of these reports along with book and training offers? Read posts like these offline!

Be smart, be safe, and pay attention!

See Ya!

More products from TechFecta and Wade4Wireless that support WADE!

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 Get the Wireless Deployment Handbook today!

 

 

SOW Training Cover

Do you know what to put in your SOW, the details needed to get paid for milestones or job completion? 

 

Putting together your smart city tech solutions, planning, development, and more…TechFecta! Guiding you to a better plan through consulting!

 

The foundations below do beautiful work, spreading love when all seems lost.

Climbers can get seriously injured and/or die on the job. Support the workers who build and install the wireless systems!

Together we can honor and remember the fallen in our wireless family.  

official logo

Hubble Foundation helps the families of climbers in a time of need and beyond with financial support and counseling!

tower-family-foundation-e1447069656192

Tower Family Foundation supports the families of tower climbers at the time of crisis when a climber falls with financial assistance and more.

How can YOU put the Tech in PropTech? Build the business plan here!

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Do you know what PropTech is? According to Tearsheet, “Technology aimed at the real estate industry is positioned to change the way we buy, sell, and manage property.” This is a growing area of technology.

PropTech should be on the forefront of anyone who does in-building work. All the contractors and distributors should be thinking of how to promote products that will show value for the tenants. Many need indoor technology and coverage to do business. Would they pay more for it? I think so.

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Would you sign up for a membership site with private content? If so, email me at wade@techfecta.com and write Membership. 

What does this mean to you? Working in wireless and technology, you have the opportunity to make a difference in how the property managers deploy. You can build up a model that helps them decide if it’s going to make sense to add your system to the buildings that they build, lease, or renovate. It makes sense to be a part of it up front so that when they decide to build or renovate, you are there doing it at the time of construction, not as an afterthought where you have to go in later.

Broadband Access

To me, this goes without saying. However, many realtors I talk to have no idea what broadband is available near a building they are representing. They just assume there’s access. BUT WHO IS IT? What I mean here, does Verizon have fiber here or another provider? Is a cable company offering anything? What is in the building and how close is the nearest fiber ring? What other technology tenants do you have here? It’s nice when this is identified before you talk to the client.

Indoor Communications

What are the opportunities here?

  • DAS in common areas and hallways,
  • Small Cells to cover less used areas,
  • Public Safety DAS to cover all areas,Small Cell Cover 4
  • Fiber runs inside the building, to feed tenant spaces,
  • Fiber access from the outside in,
  • Fixed Wireless broadband to rooftops,
  • Wi-Fi deployment in common areas and to feed tenant spaces.

Das and Small Cells:

Here is something that DAS and small cell vendors should be interested in. How can we create an app to place small cells and DAS? How could we prepare the properties for the communications that they need?

We have to show the building owners what the payback would be with new investors and how they could improve the quality of their building by adding commercial communications.official logo

This is where communications are needed the most. While many cities and municipalities have requirements to add public safety DAS systems since they are a requirement. This is why the building owners often put in the minimal requirement. This means that they have to have the coverage in most of the building. While many building owners will not do it unless they have to, they try to get what they can. It is never an issue until an emergency happens, then it is too late. Lives lost, then it seems like a priority.

How do I know this? When I was working with Alcatel-Lucent, we often put together models for companies that needed this. There were the obvious, like hospitals, large corporate centers and so on. I also did it for many businesses by putting in paging boosters, cell repeaters, public safety systems, and DAS. It has always been there. It was usually up to the tenant to put this in, but they are focused on one thing normally, not a system that spans multiple carriers. Now that we have Wi-Fi and companies want workers to BYOD, it’s not going to be the company that makes this choice; they will want it buried in the rent.

Why care about carrier communications when it’s not required? Because it’s what tenants want as well as public safety! Landlords don’t want it because of the costs. I find that interesting because the first person on the scene will want to dial 911, not sit and hope that the first responders arrive. They call for help if they can. It’s not always easy, but that is what has to be done. If they can’t get coverage, they can’t call for help; people could get hurt or die. Simple.

Public Safety DAS:

Now, imagine we can create an app for the property owners, realtors, or brokers showing them that public safety DAS is needed? Then they would see the value. Then we add the payback for DAS or small cells in the building. The payback could be bringing in more clients or offering an additional safety feature. I was hoping that CBRS would play a part in this, but the FCC is really late on releasing anything CBRS related.

Then the property owners would know what has to be done and what would have the greatest impact on leasing. It helps to put carrier coverage in front of them while they are still working on the building, and not as an afterthought. This is where the value is going to be added. By helping them get out of their own way. That’s our job!

Fiber:Tower Safety for all your safety training!

Fiber inside the building needs to be run. If the landlord can run the fiber ahead of time through common areas, then the tenant won’t need to go back and rip up the hallway ceilings or walls when they simply want to add fiber to their spaces. It makes sense. Help show the landlord that makes sense to run it ahead of time and label everything.

Fiber from the outside in should be considered. Where does the landlord own the fiber, it’s not always at the building, but if it is, make sure they know where the fiber is coming in and where it needs to go before it reaches the tenant. They could save cost and construction if they plan accordingly. When the tenant is in, they want fast and efficient construction costs associated with internet connections. It makes sense, yet so many landlords think they are saving money by not planning then they get pissed off when the tenant was to drill through the main wall or tear up a hallway to add new internet service. Save them time, money, and aggravation by creating a proactive plan.

Fixed Wireless Rooftop:

This is best to be planned in advance because the fiber will need to be run form a raceway on the roof to where ever in the building. Wireless is a cost-effective way for many to connect or a quick redundant internet access option. Help them plan for this ahead of time because they will want it to aesthetically pleasing and functional at the same time.

Wi-Fi in Common Areas:

While it’s easy and cheap to deploy Wi-Fi, you still need a backhaul. The landlord needs to understand this. They can have Wi-Fi if it’s planned properly. Make sure the coverage is good and that the backhaul availability is there and that there are CAT 5 or 6 cables run to the data room. Also, Wi-Fi needs to be upgraded to make sure there is access to the units. The easier it is to access the better in the long run.

Data Centers

Back when I designed data centers, we would help the people make decisions based on growth and need. It was easy because when I was in paging, we built data rooms all the time. At that time paging was booming, and we always planned for 3x growth.

While you think it’s easy, there is a lot to be considered. It goes beyond air conditioning and designing racks in a room. Maybe a raised floor, higher ceilings, temperature controlled environment, fire suppression instead of fire sprinklers, backup power, surge suppression, broadband availability, fiber and internet access, overhead water pipes, and so on. You should be a part of this discussion. Even cable management

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should be thought of ahead of time.

If a building owner wants to have technology customers, then they should consider what is needed for data rooms. Often the tenant chooses a closet as an afterthought. Those days are disappearing. The landlord just wants to provide space, but in today’s world where work is done remote, tenants still need a data room. They want one that is suitable for all their servers, backup power, and routers. It should never be an afterthought in today.  It should be the center of the design. Then the office space should be designed around it. I can’t believe it would be any other way.

I’ve known companies that put data rooms in basements and had water pipes break. I’ve seen a major distributor have an underground data center and a water main outside of their building burst and flooded their basement. They didn’t have off-site backups, so all of their records were destroyed.

I’ve seen power surges cripple data centers because they had a poorly designed UPS power systems. Often, it’s designed that way to save money, more cost savings that hurt them later.

I’ve seen so many problems that were caused because of lack of planning, lack of spending, or just plain bad luck.

If someone could help these landlords tell their tenants where the data room should go, where the fiber runs are, how to add redundancy, and where the closest fiber loop is located, then tenants would have a lot less homework to do. The decision to move in would be so much easier than all the crap they have to do now. It builds trust between tenant and landlord.

Most realtors don’t care until they start to lose business. We, in the tech field, have the ability to win them more business and we deserve to get paid for it. This is a growing business in PropTech where technology meets Real Estate. It could equal huge profits for all, include the tenant moving in. Why not carry the services over to them?

Let’s look at the opportunities:

  • Lay out the communications for the buildings,
  • Show the need for seamless communications,
  • Separate the public safety from commercial,
  • Identify the nearby fiber, fiber loops, and redundancy options,
  • Point out companies with large data centers, like Amazon, Facebook,
  • Identify the payback like value to tenants and increased rent value,
  • Identify the expenses and be transparent,
  • Put it all together in a spreadsheet,
  • Make an offer!

Now, the next steps:

  • Reach out to realtors, building managers, and renovators to show models,
  • Partner with construction and renovation firms,
  • Maybe you could align with banks who give loans for this kind of thing,
  • Create models, including BOMs and services costs,
  • Don’t forget the maintenance or testing that may be needed later,
  • Present the models you built in an organized way, slide decks or websites,
  • Offer to build different models with products and services
  • Build BOMs and scope, high level, to show cost models,
  • Show how this will entice tenants to move it,
  • Identify how the quality of tenants will increase,
  • Make this a new business line with your new partners.

Hey, I just laid out most of your business plan, now get busy and make it happen. Whether you’re an installer or an app developer or a distributor, you can find a business in this model.

Resources

Thank you for your support and your time. And good job on learning all you can in the wireless industry, you are amazing! Now, go out and impress people!

Would you sign up for a membership site with private content? If so, email me at wade@techfecta.com and write Membership. 

Do you want an occasional email with free PDFs of these reports along with book and training offers? Read posts like these offline!

Be smart, be safe, and pay attention!

See Ya!

More products from TechFecta and Wade4Wireless that support WADE!

5g-deployment-plan-front-cover-3k-pixels

 Get the Wireless Deployment Handbook today!

 

 

SOW Training Cover

Do you know what to put in your SOW, the details needed to get paid for milestones or job completion? 

 

Putting together your smart city tech solutions, planning, development, and more…TechFecta! Guiding you to a better plan through consulting!

 

The foundations below do beautiful work, spreading love when all seems lost.

Climbers can get seriously injured and/or die on the job. Support the workers who build and install the wireless systems!

Together we can honor and remember the fallen in our wireless family.  

official logo

Hubble Foundation helps the families of climbers in a time of need and beyond with financial support and counseling!

tower-family-foundation-e1447069656192

Tower Family Foundation supports the families of tower climbers at the time of crisis when a climber falls with financial assistance and more.

What is your telecom services workforce model?

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I have been working with partners on placing people. As you know, the larger OEMs and carriers look for new ways to hire people for deployments. The new work model is to get 1099 workers more and more while the W4 workforce is starting to dwindle. That’s the trend, but we still need both.

The deployment projects force telecom companies to increase the workforce quickly. Then when the deployment is over, they have to reduce the workforce just as quickly. This is why the 1099 model has been on the rise. Sometimes they add the W4 on a temporary basis to keep the people onboard for over a year, maybe 2 or 3, but eventually, when the project winds down, they keep very few.

For a list of products to support Wade4Wireless, click here!

Would you sign up for a membership site with private content? If so, email me at wade@techfecta.com and write Membership. 

This is where the rise of placement companies in the telecommunications industry is on the rise. I work with several companies to create models and to attract people. I know that having a pile of resumes is not always the best way to recruit. I am a fan of LinkedIn to find people. I now have new resources where the models that play out in other industries now will work in telecom.

Why will 1099 work?

It’s already being done it’s just that most companies don’t realize how common it is. While I still work full-time for one company, I consult with others. As a contractor, not as an employee. This is basically allowing me to be a W4 and 1099 all at the same time.

The 1099 model works well for some jobs. The engineers that do the commissioning and building of sites are general contractors. They have a skill that could parlay across several brands. The OEMs have similar equipment models that could be commissioned in a similar way.

Companies will use a referral system to get people in quickly and in the local market. In the old days, they would pay someone like me to go from market to market if the equipment was new. I would commission the equipment. In today’s world of software, that skill can be learned quickly, but you still need someone familiar with site equipment to load it and work with it. So, it’s easier to train someone for that skillset. Also, there are a lot of semi-retired people that would like to do the jobs on a limited basis. This is where the 1099 model fits.Small Cell Cover 4

I am working with teams that can make this happen. It is working today. It’s just like hiring a small contractor or an individual contributor for that specific task in that specific city. Nationwide and regional deployments need skill sets even if the software is similar, you would like to have someone ta the site that knows what to look for. They may know what’s working and what isn’t, or they may be able to find their way around. In other words, it’s familiar to them and not alien so you can rely on them to work on something without guiding them every inch of the way.

This is why the 1099 model for the field workforce is growing. The experience is out there, and the work is out there. We just need to find a way to bring the two together. I have this model laid out. It’s straightforward, and a way for companies to find workers much like you would find an Uber driver, online. You may think it’s hard, but let me ask you, how hard it is for you to find a driver or a Starbucks with your smartphone, do you trust that the driver will get you where you need to go or that Starbucks will have the coffee you want? Of course, so here is a way for you to find the worker you want and rate them.official logo

To learn more about finding engineering 1099 resources for your business, email me at wade@techfecta.com, and I’ll tell you how it works. It’s really simple. I have a partner, Field Nation, who is great at this. If you go direct, please let them know you found this on the Wade4Wireless blog!

Do we still need W4 workers?

Of course. These are your core workers who are building up the company from the inside out. They are going to be the go-to people who design, train, and lead. If you’re building up a workforce for longer work, then this is the model. Many companies will ramp up the W4 workforce when they need project managers. PMs are a key to successful deployments. Most companies think that they can have a few for a specific project, but once they know how the companies work and the contractors, the entire model changes. They keep them much longer to work on the new projects as well. If you let go of a good PM, you may be losing a valuable resource.

I also have partners that can help you build a W4 or 1099 workforce. Again, email me at wade@techfecta.com, and I can help you out. I have a partner, which I point out below, but you could build a model like this on your own. I am just trying to align you with someone I work with, obviously because I get a commission.

What about contractors?

OK, when I say 1099, I generally mean an individual. 1099 is a simple contract that makes payment terms for the work and time. They are contractors like tower crews that are needed because deployments require companies. They will contract to be agreed upon price and scope between the two companies. Many IT companies or tower crews’ companies are larger contractors. There is more risk, insurance, and quite frankly, it takes a team to do the tasks required. This is where the contract model will come in. Larger companies are agreeing to an outcome, project-based pricing, or a per site price. This is common with 1099 workers, but they may expect an hourly rate.

It’s not all peaches and cream. The carriers have reverse auctions, making contractors take pay cuts, locking them into 90-day terms, and asking for limited change orders. While they are saving money up front, they have alienated several quality contractors. They are rarely about quality anymore but all about the cheapest vendor that can deliver.Tower Safety for all your safety training!

If you are a contractor and bid low, beware! You may lose money on the job or worse when they expected more, and you didn’t complete the work to their unrealistic expectations, they may not pay you. If you think it doesn’t happen, guess again.

All I ask is that both sides agree to a set scope of work, pay attention to what is in scope and what is out of scope. Things always creep up, called scope creep, that can eat you. Do the best to assume but don’t be afraid to list exclusions.

Very large companies always try to bully smaller contractors, all I can say is know when to walk away. If it is a trusted partner, then maybe you know you can move forward, However, if the company was bought by another and they basically tell you to play ball, or you’re fired, be ready to walk away from those douchebags! I have seen it and talked to many companies that had a long-standing relationship with a larger company bought by another, and the new procurement department came in and said, literally, “half of you will be gone by next year.” Guess what, it was more than half, they would go directly to the carrier or to other companies that treated them better. That company, with its brilliant tactics, (SARCASM!), alienated potential partners when it would have been building solid relationships. It’s hard to trust someone when they tell you that you’re expendable. Sure, it happens in large companies every day, but you still don’t say it if you want them to work hard for you! My point here is, you have more power than you think because when the large corporation tried to push the workers around, they lost good partners. Then they started losing money on jobs because contractors walked off job sites. Then large corporation got a crappy reputation. Who wants to work for someone who you know will screw you! Obviously, they didn’t realize that in the USA you can’t offshore tower work. IF someone is going to screw you, then don’t work for them. Unfortunately, many of us have to learn the hard way. OK, I am off my soapbox. By the way, if you want to tell stories about how you or your company got screwed over, send an email to wade4wireless@gmail.com and tell me about it. If you want to share it, give me permission in the email to share, if not then tell me not to share.

How do they set a rate?

This is going to be set by the area, the work, if travel is required, and so on. There are a lot of variables. A PM might get paid differently than the IT guy or the BTS commissioning engineer. They may sign up for a month or to do 100 sites. They may need someone in New York City and in Liverpool, Pennsylvania. All of these affect the pay rate.

Sometimes, companies get a discount if they commit to 1,000 sites versus having someone go out to troubleshoot one site in the middle of nowhere.

These are all variables that will be considered when determining a cost.

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In the new models, the worker and the company can set the rate between them. In a day of reverse auctions, it’s better to agree this way. Why? In a reverse auction, chances are you only have the companies showing up to talk to the larger GCs, OEMs, and end customers (like the carriers). However, in a model where you find someone online, you can see what they want paid to do a simple job, a site, or a task that you need to be done. They are not worried about the liability or the risk. They simply want to do a task. Also, they have a specific region, city, or even site that they will do. Why pay more? However, the GC will need to have a PM manage everything, so if you’re the GC, remember to have money to pay for your PM and risk.

What if you’re the GC?

If you are the GC, you may have a region based on your presence or based on what OEM expertise you have. Either way, you will need staff to support. You have to plan for what you need. Most of you know these projects take expertise. With the rollout of new technologies like Massive MIMO and 5G, you will need people that have done site work in the past but can adapt to the new technologies. If you’re like me, you know there is a learning curve. So, how do you plan?

Well, you need to rely on the people that may know their way around an OEM’s equipment and a site. Let’s look at commissioning and integration of a carrier’s site for example. It’s different from the construction or tower work. That takes a crew, a contractor with employees or subs that will do the work. For the commissioning and integration at the site you need someone with knowledge of that equipment, even if it’s a new and improved version of the original OEM’s gear, they can learn it quickly. You need someone with knowledge on that equipment, but maybe they don’t know how the new process will work.

It doesn’t matter about the old MOP, (Method of Procedure), but the new MOP should be familiar to that engineer. You may have a pool of resources but are they what you need?

There are alternatives to working with your limited pool.

I am working with a company, Field Nation, and that is what they specialize in, finding you the resources you need. I can work with you to align with this company with the resources you need, again, feel free to contact me at wade@techfecta.com for more information.

The way I see it, this is the future of the workforce. These engineers have a skill that you need for a limited time. The workforce is there for the equipment you need. You just have to find them.

What if you’re the contractor, engineer, or field worker?

This is a way for you to connect to the GCs without having to make 100 calls or hope that you have someone on the inside. What you need to do it clearly build a resume. LinkedIn is a great place to have your references and skills listed.

I mention both because the company that is researching you needs to know where to learn more. LinkedIn is where you can post all your professional work experience and build your resume. This is going to be used for a background check whether you like it or not. If a GC or OEM can look at your profile, they may dig deeper. They don’t always check references unless you sign up for a whole lot of sites.

If you’re retired, semi-retired or laid off this is a good way for you to get paid and possibly make some new contacts. To see how it works and where to sign up at Field Nation, go to https://www.fieldnation.com/how-field-nation-works and learn more. You may like it or maybe not, but it’s a viable alternative to the W4 lifestyle.

Overseas verses in country workforces

Listen, I see it happening all the time in the US and UK. The workforce is being eliminated in these countries and moving to India, Mexico, and other countries. This makes sense. Mexico and India have really smart people that do the work for less than ¼ of what US and UK workers get. For RF engineering, support, call center, and remote integration, this is the way things are done. It’s just like manufacturing in China, they do it much cheaper, more efficiently, and well. It’s hard for us to compete. (With all of that said, I am working on a smart manufacturing article that will change the dynamic. Manufacturing is changing, and we need to be ready.) It’s not going to change overnight, even with all of President’s Trump’s Tariffs.

Large companies, corporations are rarely run in our home countries anymore, especially in telecom. Even the carriers are foreign-owned. That’s fine, they all know where the money comes from. They just need to understand that it can’t all be done overseas. Site work is still site work.

That’s why I am presenting this model. The workers in the US have an alternative to jump on a system like the drivers of Uber. More of a work where and when you want. The GCs have an opportunity to hire people based on location, talent, and need rather than full on boarding.

Times are changing!

Look at the new companies on the rise, Uber, Airbnb, Amazon, Lyft, and all the rest. The way we do business has dramatically changed. The way people work has changed. It’s now hitting telecom and larger businesses. The time for you to change is now. My job is to make sure you have this information. To get the updates you need to align your business with the best profitability. If you’re the worker, my job is to let you know that the business model is changing and it’s not all bad.

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We all have trouble with change. If you have been laid off recently, you know what I am talking about. The goal of most larger carriers and OEMs in telecom is to streamline. What that means is to downsize and offshore resources so that the investors see a higher return on investment.

If you run a small business, you can’t compete with that. The thing the larger GCs have the relationship. The crutch the carriers and larger OEMs have is that they need someone to respond to them 16/7, (16 hours 7 days a week). It’s hard for a smaller business to cater to the carriers all the time. Carriers are demanding and don’t plan very well. They rely on the GCs to do that for them.

In the US, offshoring is normal, and this is great for India and Mexico. They have the talent. In the US where I live, we need to find ways to align with the new technology revolution. That means we have to use our knowledge, experience, and expertise to become invaluable.

Commentary:

The lesson here is that there are new models for the GCs and contractors to be more efficient than ever. The W4 model is not going to be as popular, and 1099 models could bring a lot of workers out of retirement to do local work around their schedules.

Resources:

Thank you for your support and your time. And good job on learning all you can in the wireless industry, you are amazing! Now, go out and impress people!

Would you sign up for a membership site with private content? If so, email me at wade@techfecta.com and write Membership. 

Do you want an occasional email with free PDFs of these reports along with book and training offers? Read posts like these offline!

Be smart, be safe, and pay attention!

See Ya!

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Could you support a large Broadband Deployment?

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I was reading several articles about the failure of Google Broadband to rollout nationwide. The article in TechDirt was really interesting. It’s listed below under resources.

The thing is, Google thought it would be easy to roll out fiber. I think they thought it would be cost-effective to be the resource and the provider. What they didn’t count on is how much hard work and upfront money is needed. The could have partnered with some smaller ISPs to leverage their expertise. In this case, they thought they knew better. They learned the hard way.

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I see the difference as Google was used to building data centers and applications. While this is work, they can test it, but they have to build it and hope the people like it. If they don’t sign up, then they can shut it down and move on for relatively little cost and no ongoing costs other than internet access.

If you deploy a system, you have a heavy upfront cost, ongoing OpEx, and expense to shut things down. You can pull the fiber and use it somewhere else, once it’s pulled its garbage in most cases.Small Cell Cover 4

Then, if you build it and nobody signs up, you’re losing money every month because you’re paying for that pole, that line, that support as part of a heavy OpEx whether it’s used or not.

It takes time, patience, money, and an investment to roll out fiber. It takes CapEx up front and OpEx for the long haul. It’s not an easy venture, and it takes balls.

That’s why the smaller businesses struggle, they have to do all of this, and they probably have a debt to pay. You have to pay your contractors when they do the work. You have to pay for the supplies and fiber as you roll it out. You have to pay for the permits up front, a hefty cost. You have to pay for the site acquisition up front. There are very few shortcuts.official logo

Almighty Google learned this the hard way. That’s probably why they always complain about spectrum but have yet to win any in the auctions. They know it would be a long hard and expensive road to build a wireless system. Why do you think Virgin is an MVNO? Richard Branson didn’t want to outlay billions of dollars or Euros just to hope people would use it. So he bought minutes off of an established carrier in the countries where he wanted to do business. Then he started reselling. It just made sense. With a low CapEx and little OpEx, he can start selling smartphones on day one without hoping anyone would sign up or be limited on coverage. I wonder how he will compete in the unlimited data world?

In all honesty, Google did a great job where they did deploy fiber. It was a resounding success in the markets they reached. At least, I thought it was great. They helped to prove that it would work. People wanted them in their markets for a reason. Comcast and AT&T hated them for a reason. It all means the same thing, better internet for the end-user, which is you and me.

Planning:

It takes a plan. One thing I learned from my Smart City days is that you need to have a plan to deploy. Depending upon your job, you probably thought about this differently. What I mean is that the deployment teams think of site acquisition, labor, contractors, union issues, permitting and zoning. If you’re the financial guy, you thought about the leasing, the outlay of funds, the investment, and the payback. If you’re the pole guy, you thought about the leases, the competition, the potential for protests from the preexisting companies on the poles.

My point here is, you need to start high level and work your way down. In the early days of small cell deployment, we worked with many teams to see what we could do.

The thing is that Het Net planning and fiber planning have a lot in common. OK, when I say Het Net, I mean small cells, sorry.

Planning:Tower Safety for all your safety training!

  • Where is the current fiber?
  • Getting access to poles,
  • Get permission from whoever owns the poles,
  • Possibly get permission from whoever is already on the poles, depending on the lease and noncompete clauses,
  • Full site acquisition which is not cheap, probably more than a year’s rent on said pole, (fiber is not so bad, but for Small Cells it gets expensive),
  • Permitting, zoning, approvals,
  • Small Cells need fiber run to them, so they have the issue of getting fiber unless they have wireless backhaul,
  • Backhaul connections; where is the nearest fiber connection that you can connect your new fiber or small cell to? How do you get it to this location? Can you do overhead, or will you have to dig?
  • Plan well, my friends!

If you wonder why I am dragging small cells into this, it’s because the FWA, Fixed Wireless Access, models are going to require sites at poles to be the new last mile. Verizon and AT&T will be using these poles to do just that. They will need either a wireless backhaul or fiber at the pole. It’s not magic, but rather a well-planned deployment hat will make it happen.

Deployment and turn up:

Here is where you need someone to deploy. It would be great if you had plug and play, but that may not always be the situation, you may need to have an installer then a commissioning engineer to make it work properly. However, this phase is efficient and pretty reasonable cost wise. It isn’t like the planning where you have to take all the what-ifs into consideration. Here you have the installer and the commissioning engineer. you may need the city to help or traffic control. For the most part, it should be straightforward as long as you know the local municipality or city’s regulations for working on poles in their jurisdiction.

Finally, getting the customer!

The customers need to know that you have something in the market. It takes very localized advertising and connections. The carriers generally rely on a website to tell them where customers are asking. The problem is, what if they are not customers already? You have to reach them, maybe with flyers, email, snail mail campaigns, or good old door knocking.

Google did something amazing by holding contests to ask what cities wanted them. Could you imagine Comcast doing this? Who would ask them to come to them? I already know of some cities that wanted Comcast to come in, but they can’t go into another cable company’s territory, and they will only do it if they see a very large payback. I worked with Comcast engineers in the past, and if they aren’t interested, they just don’t return your calls. Sure, it sucks, but you get the hint pretty quick. Besides, in a company like that, you need an executive to push something like that. I got the impression that they really don’t care if a city wanted Comcast in your market. That is the complete opposite of Google Fiber! Everyone wanted them so much they were changing the local rules to get them. It just wasn’t enough.

One more thing, cable companies are a good old boys network, they generally don’t tramp on each other’s toes. If someone is in the market, even if they totally suck, they probably have a non-compete with big brother Comcast. Comcast doesn’t look at other cable companies as competition, they look at them as potential partners and customers. So if you want to see a new ISP, it’s either a larger carrier, like T-Mobile, Verizon or AT&T, or someone like Google. Once in a while, you have a local company build, but they find it hard unless they know they have a set amount of customer lined up and waiting. They need to see the payback before they begin if they’re smart. That’s why so many were happy when the smart city thing was happening. Now they are let down because smart city rollouts take money from someone other than the city. Again, a solid business case helps.

Resources:

Thank you for your support and your time. And good job on learning all you can in the wireless industry, you are amazing! Now, go out and impress people! Would you sign up for a membership site? If so, email me at wade@techfecta.com and write Membership. 

Do you want an occasional email with free PDFs of these reports along with book and training offers? Read posts like these offline!

Be smart, be safe, and pay attention!

See Ya!

More products from TechFecta and Wade4Wireless that support WADE!

5g-deployment-plan-front-cover-3k-pixels

 Get the Wireless Deployment Handbook today!

 

 

SOW Training Cover

Do you know what to put in your SOW, the details needed to get paid for milestones or job completion? 

 

Putting together your smart city tech solutions, planning, development, and more…TechFecta! Guiding you to a better plan through consulting!

 

The foundations below do beautiful work, spreading love when all seems lost.

Climbers can get seriously injured and/or die on the job. Support the workers who build and install the wireless systems!

Together we can honor and remember the fallen in our wireless family.  

official logo

Hubble Foundation helps the families of climbers in a time of need and beyond with financial support and counseling!

tower-family-foundation-e1447069656192

Tower Family Foundation supports the families of tower climbers at the time of crisis when a climber falls with financial assistance and more.