Category Archives: Internet things

Posts about interesting things found on the Internet: websites, web apps, etc.

Unmanned Aerial Vehicles (“Drones”) and Wireless Farm Networks

One of the hottest topics in “Ag Tech” at the moment is Unmanned Aerial Vehicles (UAVs, also known as drones) and the role they can play for the farmer. Drones are hot right now, in Ag and other industries, because technology has made them much more adaptable and much lower in cost.

The possible benefits are tantalizing: an automatic, self-flying platform that can loft things into the air, take them where you need them, and take actions you prescribe. Just a few of the things drones can conceivably do for you:

  1. Take visible-light, near-infrared, and infrared photographs of all your fields at much higher resolution and in less time than satellite
  2. Get instant thermocline and other weather data (pop up 1000′ and check the temperature, wind speed, barometric pressure, etc.)
  3. “Run and get it” service for small items (see the beer drone and Amazon Prime Air)

When I was at the World Ag Expo a few weeks ago, there were several companies showing off drones and talking about drone-based ag services. Please make note of the distinction between drones and drone-based services, because, at the moment, it’s important. Or maybe not. I’ll explain as well as possible.

The Federal Aviation Administration has had a long-standing rule against the use of UAVs for “commercial purposes” – anything involving making money. Now, you can buy model airplanes with very sophisticated self-flying and video systems for fun or research, but not for any money-making purpose. However, a number of people couldn’t help themselves in making use of these amazing machines to enhance their businesses, and they have been getting “cease and desist” letters from the FAA. One guy named Raphael Pirker actually was fined by the FAA, giving him the opportunity to challenge the fine. He appealed to the National Transit Safety Board, and the administrative judge there ruled that the FAA did not have in place any actual regulations for the use of UAVs in non-navigable airspace, and therefore could not enforce the fine against Pirker. There’s a good article about this in Scientific American.

So, apparently, one currently can use UAVs for commercial pursuits, with some (not entirely clear) limitations. I’ll bet if you take your drone anywhere near a commercial airfield, for instance, you’ll get to meet some members of law enforcement and spend time with them. I’ll bet if you take your drone near any government installation, you will get to spend a serious amount of time with members of law enforcement and/or the military. In either case I’ll wager you’ll get to contribute a good amount of money to the government. And there are undoubtedly some private citizens who will happily shotgun your UAV out of the sky on sight.

I’ll also wager that the FAA (or some other part of the government) will create some rules about UAVs to protect people from stuff falling out of the sky on top of people and property, and having our neighbors peeking in 2nd (or 102nd)-story windows. But, for the moment, it looks like the skies are open, particularly out in the rural areas, and I expect farmers to be the first to benefit from UAVs. Some people like Chad Colby are already talking publicly about the opportunities.

Honestly, I think the current “state of the art” is mostly a plaything: the drones that are currently available are mostly manually radio-controlled and focused on live picture-taking. UAVs I have seen that might be put to use on the farm must be charged, taken to the field, flown around the field, and then the pictures (or other data) downloaded off the UAV (by bluetooth, WiFi, or transfer from some kind of flash card). This is a significant commitment of time, which limits how often you can really use the drone. A crop scout may be able to save a lot of the time he would normally spend by using a UAV to survey fields, but there’s benefit to the grower having a drone or drones that would continually survey fields.

The reason I am particularly interested in Ag Drones is because I believe they can become an important part of the day-to-day information-gathering apparatus. To be truly useful, however, I believe they must be:

  • Autonomous: flying over your fields automatically without intervention. Ideally, they would have a “home” out in the field where they would stay, and they would do their flying at specific times with no human interaction needed.
  • Smart: able to recognize problems and take appropriate action – recognize if there is something different in the fields, avoid danger, and report back
  • Connected: automatically uploading data collected and sending alerts to you as needed. For instance, a drone flying over your fields taking infrared photos might use the wireless farm network to automatically upload the pictures to a service that automatically scans them for anomalies indicating crop stress.
  • Self-maintaining: self-charging and self-monitoring, needing little maintenance and letting you know when it needs “help”

My own vision is that an Ag drone should be programmed with pre-configured flight paths and connected via WiFi with a wireless farm network for constant (or at least mostly constant) communication. It should be able to download changes to its schedule and pre-configured flight paths off the network, and It should also be able to land on a platform that will automatically charge the drone’s batteries for the next flight. Set up this way:

  • The grower, scout, or agronomist doesn’t have to go out and mess around with the drone – it can just do its thing as often as it needs to (pending charging of the batteries)
  • The data can be automatically collected on the grower’s PC or on a central server (on the farm or on the Internet) – it can even be automatically processed and problems (plant stress, aberrant weather conditions, etc.) can be automatically reported to the grower
  • The drone works for the farmer, not the other way around.

All the pieces exist today to create drones that can meet these criteria, but I’m not aware of any pre-built planes or copters that are ready-to-use. However, there are open-source software projects that have built auto-pilot systems for drones and other robots (e.g. the ArduCopter), and there is discussion of induction charging of quadcopters in the “DIY” forums. And heavier-lift copters (capable of picking up fairly heavy items and transporting them) are also in the works. Imagine being able to get out your cellphone and “tell” your copter to bring you the parts you forgot back at the workshop, then hearing it whirring its way toward you a few minutes later. And then, when it delivers them, it DOESN’T TELL YOU YOU’RE AN IDIOT for forgetting the parts. For me, that would be nearly priceless.

In short, I think there are a lot of possible benefits from using UAVs on the farm, and I’m eager to see them start to deliver those benefits. However, I think a lot of the benefits are greatly enhanced by having the UAVs connected to a wireless farm network – I believe the two technologies will work hand-in-hand, each enhancing the value of the other.

A day at World Ag Expo, Tulare, CA

I spent the day of February 12 at the World Ag Expo in Tulare, California – one of the biggest farm shows in the world, it’s a good place to see some new stuff and talk to some interesting people. Click on the pictures below to see them “full-size.”

The morning dawned clear, warm, and sunny, like it always is in California… JUST KIDDING! It was cool and so foggy I had to slow down to 35 miles an hour driving across the valley – the infamous “Tule Fog” that occasionally causes huge pileups on Highway 99. However, it burned off around noon and it actually did turn warm and sunny, making it a rare delight for this time of year. The winter in California has been surprisingly – distressingly – warm and dry, and I saw almond trees starting to bloom in the fields on my way across the valley, which is not very common in mid-February.

The “big guys” were there, but I seldom find anything interesting about what they are displaying at farm shows. I went through the Deere tents but they seemed mostly focused on selling t-shirts and caps, and they had equipment for the kids to fall off of. I thought it was funny that the news van was parked right outside the John Deere booth, so I took a picture of it. However, that was the only thing of note there.

There are two companies selling “in-cab” systems that now have network connectivity. Raven‘s new displays actually have an Ethernet port on them, so they can be connected directly to an in-cab AyrMesh Hub and be on the network that way. (They are designed for use with Raven’s “Slingshot” system)

Many of their displays also have USB ports, and I believe you can use a WiFi adapter with them, although I’m not completely sure.

We have not been able to determine exactly what can be done with the Raven displays if they are connected to the network, and Raven has not been very helpful. We’d be very interested in talking to any AyrMesh users who have Raven Envisio Pro or Viper 4 displays.

The other company that has embraced network-connected displays, as mentioned in previous posts, is AgLeader. They were here, showing their WiFi AgFiniti product, and their booth seemed to be very busy. It seems to me that they are a company that has “gotten it” on the importance of network connection and collecting data wirelessly from the cab, so it was gratifying to see so many farmers looking at their solutions.

I mostly like to go into the halls to see the “small booths” that are populated by newer, smaller companies. In California, you see things that are quite different from what you see in the Midwest – sometimes they are only interesting in the odd agricultural climate of the west, but sometimes new things show up that will have a large effect on the general agricultural industry.

With California in a severe drought, a whole slew of companies were there talking about water: measuring it, storing it, and controlling it. Weather stations, soil moisture sensors, and irrigation control. As Mark Twain famously said about the west, “Whiskey’s for drinking and water’s for fighting over,” but the fighting is done and farmers are left to make do with what they can get. Companies like MeasureTek, shown at left here, and Western Weather, right next to them, are using “industrial grade” sensors to monitor weather and soil conditions. They have built “private cloud” solutions to capture the data from the sensors and present them to growers, and the sensor “pods” themselves can be connected to the Internet with cellular or satellite, or just connected to an AyrMesh Receiver or Remote Hub. PureSense, a company that provides not just monitoring but also control of irrigation systems for optimal water use, had a very busy booth. T-L Irrigation was also showing sensing solutions with their irrigation controllers, as well as displaying Internet control of irrigation systems. Valley, Reinke, and Lindsay were also there, but they were focused on irrigation equipment and controllers, less on tying in sensors to irrigation.

The other thing that caught my eye at the show was the flush of new companies that are getting into the Farm Management Software market. Of course, Trimble was showing their Connected Farm solutions, featuring FarmWorks software, and SST, a long-time player in this market, was there. However, FarmLogic did not seem to be in attendance, even though the program said they were. Newer, “cloud-centric” companies offer some unique advantages over the “old guard.” AgWorld is a company out of Australia; I saw them last year and thought they were interesting – theirs is a browser-based farm management application that runs on just about anything with a browser – computer, tablet, or phone. I can’t tell whether it’s really going to be a winner or not, but it has promise. OnFarm is another company that was displaying at WAE. Their premise isn’t to manage and store all your farm’s information, but rather to arrange and manage all the sources of your farm’s information. Once again, I think it’s too early to tell how useful it will be, but it is interesting. There are similar offerings, like FarmLogs, that are just as interesting (although I didn’t see them at WAE). While they all seem to be in their infancy, I expect some of them will “grow up” to be valuable tools for growers.

The one thing for sure is that they all increase the value of having a Wireless Farm Network like AyrMesh.

Two last notes about WAE: first, as shown at left, there are a LOT of people who come to the show. Not all are farmers, but most are connected to the ag industry in some way. Second, as shown at right, you see stuff here I don’t think you’ll see anywhere else, like these berry and grape harvesters. I think it’s a good day when you walk past something that makes you say, “What in the world is THAT???” We’re definitely not in Minnesota any more…

A new take on the “WiFi vs. Cellular” question

Every so often I run into someone who asks, “Why would I want a WiFi network across my farm? I have a cellphone that will access the Internet anywhere I go…”

It’s kind of a funny argument, for a few reasons:

  1. If you have good cellular data access across your entire farm, you’re in the minority – most people in the rural U.S. and Canada have no or only very slow Internet access via the cellular network on some, most, or all of their properties.
  2. Even if you have Internet access via cellular, it’s almost always slower than WiFi. It’s been my experience that people appreciate WiFi a lot more after they get a smartphone.
  3. Having a local-area network (LAN) enables you to do more than just access the Internet – it allows you to use IP cameras, weather stations, soil sensors, and other devices to keep track of what’s happening on the farm, and even use network-connected relays, grain dryers, irrigation, lighting, and HVAC systems from anywhere on the farm

The cellular service providers (AT&T, Verizon, etc.) originally only used the cellular networks for both voice and data – but the data connections were at “modem-speed” – kilobits per second. Then smartphones (led by the Blackberry and Nokia phones) started to be capable of much more data usage – email and even some web browsing – and phone manufacturers started including WiFi connectivity. Later on, cellular providers offered faster cellular data options (“3G” and “4G”), but modern smartphones still use the cellular network for voice, and the voice network is still separate from the data network. The upshot is that, in many rural areas, you can make or receive voice calls and get or send text messages, but you may not be able to load a web page or send an email unless your have a nearby WiFi network.

A new article in Businessweek points out some new providers are actually turning that model on its head, introducing phones that use the WiFi network by default for voice and data, and only access the cellular network if there is no known WiFi network in range.

Now, I have a cellphone with a data plan, and I pay over $120 per month even though my phone is on WiFi about 90{8fd1ffa65f67a2e931916b3c1288d51eed07dc30586a565c92d055673de7c64e} of the time. If I weren’t traveling all over the place on Ayrstone business, I’d be very tempted to get one of these Republic Wireless or Scratch Wireless phones and save about $80-100 of that bill per month.

For people who have a Wireless Farm Networking system to provide farmwide WiFi, these new phone plans may be very tempting.

What do YOU want for Christmas???

We were curious about that question ourselves, so we commissioned a survey of growers across the corn belt.

We got over 100 responses to our call from Minnesota to Tennessee and Ohio to Nebraska, all across the Midwest.

All things wireless top the list of technology-related gifts that farmers want for Christmas this year. More than 40 percent of those surveyed are putting wireless remote cameras and wireless remote weather station / soil sensors on their lists. And nearly 50 percent would like a wireless farm network that extends up to 7.5 miles from their homes.

Farmers are also frustrated by the lack of connectivity on their farms. In fact, nearly 80 percent of those surveyed said they are frustrated that their wireless network does not extend to sheds, grain bins or nearby fields.

Other technology-related gifts that farmers say they want according to the survey include wireless remote grain monitoring, an iPad or other tablet, a new router, and remote thermal imaging.

If you’re worried that Santa might not deliver this year, you might want to take care of yourself: go to ayrstone.com and start a new AyrMesh Network for yourself (or expand your existing network) so you have the wireless access you need!

Using the Internet on the Farm

It seems almost impossible now, but it wasn’t very many years ago that the typical farmer would have laughed if you said that he’ll need Internet access everywhere on the farm. The benefit of surfing websites (when they were just static information pages with pictures) was unclear, but the idea of carrying around a computer in your truck, tractor, sprayer, or combine was patently absurd. The dust, temperatures, and vibration were far too much for the computers of the time.

But then came the Blackberry, and everyone discovered the convenience of getting email on-the-go. So everyone realized they needed a Blackberry and constant access to email – why would you need anything else?

But the web grew up. More and more information was either available exclusively on the web, or was at least a lot more convenient to get on the web. Furthermore, it became about more than just getting information: you could increasingly actually DO things on the web – ordering parts and supplies, keeping records, planning, and even marketing. But laptops have never been practical on the farm: keyboards are too easily gummed up with dust, screens on hinges are too fragile, and they just take up too much space.

Then another device came along: the iPad. I have joked that EVERY farmer in America got an iPad for Christmas last year, and tablet computers like the iPad seem like they were made for farming. Adam Gittins has written an excellent blog post about the use of tablet computers in agriculture – the bottom line, though is that they are durable, easy to carry, and provide an excellent platform for using web applications.

Of course, they need to be connected to the Internet to be useful. Almost all the tablets on the market are available with some sort of cellular modem that allows them to access the Internet, but fast cellular data signals (“4G”) are rare in the rural U.S., and there are a lot of areas with only very slow or no cellular Internet access. Furthermore, a cellular modem does not provide you access to your Local Area Network (LAN) the way the AyrMesh network does. Finally, of course, the cellular options in the tablets cost extra, and the cellular companies like to charge quite a bit per month for Internet access.

Using the AyrMesh system, you can have fast WiFi access all over your farm, with access to your LAN for accessing the data sources and control mechanisms on your farm, and it makes your tablets and smartphones just that much more valuable.

A different approach to WiFi cameras: Dropcam

I have been using a Dropcam for about a year now and have been very impressed with it. It is a very low-cost WiFi IP camera that, instead of offering local viewing through a webserver on the device, automatically streams its video to Dropcam’s servers, where you can view the video from anywhere on the Internet.

Just to review, the way a “normal” IP camera works is that it has a webserver on the device, and you access that webserver in order to view the video from the camera. For instance, if you connect the camera to your router, you’ll check the router to find its IP address – let’s say, for instance, that it’s 192.168.1.47.

You then use a web browser to view http://192.168.1.47, and your camera shows up there. However, if you want to view  your camera from outside your network, you have to “port forward” a port to the web port on the camera. A number of factors can make that operation difficult.

The Dropcam does away with all of that, because the camera is only attached to your computer with a USB cable ONCE for configuration (it gets the WiFi configuration from your computer – mine uses the WiFi signal from my Remote Hub out in my workshop), then it joins your network and streams its video to dropcam.com. The camera and dropcam.com website have proven to be very reliable.

It is powered with a mini USB cable (5 volts), which is included, along with a wall plug USB power adapter.

Dropcam allows you to view the video from your camera for free on your dropcam.com account. If you want to record the video so you can go back and look at past video (e.g. for security purposes), they have inexpensive recording subscriptions.

They have a number of demo cameras set up – including a nice one looking out a window onto Monterey Bay in California. While I couldn’t find a demo camera on a farm, this gives you a nice idea of how good the picture is and what the interface looks like – very good, very easy to use.

The Dropcam is very good, but it’s far from perfect. The big advantages are:

  • Easy to set up and use
  • Small, lightweight, inexpensive
  • Transmits video AND audio – look and listen
  • IOS and Android apps for viewing cameras
  • Visible over the Internet, no port forwarding

However, it has a few very salient disadvantages:

  • Not suitable for outdoor use – indoor use only
  • No local access – you HAVE to be connected to the Internet to view the camera
  • Fixed lens – no telephoto, no wide angle, no point/tilt/zoom
  • A couple of seconds delay between the camera and the video stream

If you have a place you want to keep an eye on, Dropcam is an excellent choice. The quality of the camera and picture is comparable to my “favorite” indoor camera, the Axis M1033-W. As you can see, although the camera has to be indoors, it does a nice job showing outdoor scenes if it can be placed inside a window.

Dropcam is, potentially, a very useful tool for your home and farm.